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LSNE-Len Receives Approval From AEMPS To Manufacture Biotechnology Based Therapeutic Products – PRNewswire

Friday, August 28th, 2020

BEDFORD, N.H., Aug. 27, 2020 /PRNewswire/ --LSNE Contract Manufacturing, a leading contract development and manufacturing organization, is pleased to announce that the Spanish Agency of Medicines and Medical Devices (AEMPS) has approved the manufacturing of clinical stage biotechnology based therapeutic products at its aseptic fill finish facility in Len, Spain. This important approval builds upon LSNE's well-established capabilities in providing aseptic fill finish of biologic products for clients at its US facilities. These products include monoclonal antibodies, fusion proteins, replacement enzymes, plasmids, capsids, and oligonucleotides.

"The authorization of biologic manufacturing for clinical drug product in both vial and pre-filled syringe (PFS) presentations is a vital step to our maturation of drug product manufacturing at our facility in Spain. This will provide the global market with more access to LSNE facilities for the manufacture of these high-value biologics, including monoclonal antibodies and other recombinant proteins," said Shawn Cain, LSNE's Chief Operating Officer.

Jaime Del Campo, Site Head at LSNE-Len said, "We are thrilled with this most recent milestone and our ongoing partnership with AEMPS. This is another big step forward supported by our industry leading quality and operations teams. We anticipate this authorization will have an immediate impact in our ability to support our client's varied clinical programs and ensures long-term benefits to their future commercial supply."

About LSNE

LSNE is a privately held company with six GMP facilities four located in New Hampshire, one in Wisconsin and one located in Len, Spain. LSNE has been providing contract lyophilization services to the pharmaceutical, biotechnology, and medical device industries since 1997, specializing in a wide range of services including process cycle development, fill-finish and lyophilization (for vials, pre-filled syringes and dropper bottles for ophthalmics), and analytical testing. Through the thoughtful integration of six processing facilities, qualified staffing, and extensive manufacturing history, LSNE is strategically positioned to provide products and services for clinical through commercial supply for pharmaceuticals and medical devices to a global market.

Media Contact

Jeff ClementVice President of Business Development(603) 668-5763[emailprotected]www.lyophilization.com

SOURCE LSNE Contract Manufacturing

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Australia can take the lead in biotechnology revolution | The Strategist – The Strategist

Friday, August 28th, 2020

The Australian government needs to develop a bold vision and strategic plan to create the data-driven healthcare system and bioeconomy of the future.

In my new report for ASPI, Biodata and biotechnology: Opportunity and challenges for Australia, I explain how the extraordinary developments in genome sequencing and genetic engineering will transform all biological enterprises, especially healthcare, and create new ones, like the electronic revolution. I explain why Australia should harness and capitalise on our high-quality biomedical science, agricultural research and development, and healthcare systems to realise a once-in-a-generation opportunity to play a leading role in a major economic revolution.

Biotechnology dates back over 6,000years to the domestication of wheat and the use of yeast for fermentation, but has entered the province of human design and invention as a consequence of the gene-cloning, gene-manipulation and genome-sequencing revolutions of the past 50years.

While often thought of in terms of drug development and genetic engineering, biotechnology is fundamentally becoming an information industry with a universe of applications.

Humans have acquired the ability to read the genetic programming and analyse the structure of the molecules of lifehow cells work, how were different from each other, and what makes a lime different from a lemon. Life has evolved the most exquisite nanomachinesprotein machines that can bind oxygen and almost any other type of molecule; trap photons to turn carbon dioxide and water into carbohydrates; detect electric fields or sound waves and turn them into visual images; pump ions; facilitate the entry of viruses, bacteria and parasites into cells; and make molecular motors that spin or contract to trap prey, exert force and move.

The extraordinary advances in DNA sequencing are leading to an avalanche of genomic information. Genetic engineering can now be done with high speed and precision. The pace of change is accelerating, and biological technologies are intersecting with optical technologies, nanotechnologies, advanced computing and artificial intelligence to create possibilities that were, if not beyond imagination, well beyond feasibility just a few years ago.

The advent of population-scale genomic and smart sensor data will transform health care, health economics, medical research and drug development. It will also transform the national economy and create digital products that can be exported to the world. To achieve this, the Australian government needs a strategic plan for acquiring genomic, clinical, pharmaceutical, sensor and patient self-reporting data and for providing trusted online evidence-based analysis of that information and advice to healthcare practitioners and citizens.

Governments also need to convince citizens of the personal and national value of big data in health care, and the privacy and security of that data, using a model that combines political leadership with subject-matter expertise.

The Australian government should establish a secure national repository for genomic and phenotypic data for research and healthcare use. This de-identified data should be made available to Australian researchers and health system managers. It could be provided to external parties, such as pharmaceutical companies, under appropriate conditions in exchange for early access to expensive treatments or shared benefits.

The Australian government should establish a central unit to assemble and supply evidence-based, well-curated and continuously updated genomic analysis, integrated with clinical and other data, and linked to national treatment guidelines, for decision support at the point of care.

The cost of doing this will be trivial compared with other costs in the healthcare system, and trivial in relation to the cost reductions and healthcare improvements that it will enable. This work could be funded from the Medical Research Future Fund and publicprivate partnerships.

Smart sensors should be made available through Medicare and routinely installed in hospitals, clinics and other healthcare settings, such as aged-care homes.

Conversion to electronic health records should be mandatory for all healthcare providers receiving government support or reimbursement in Australia, as recommended by the Australian Academy of Technology and Engineering.

Genetic tests should be progressively upgraded to whole-genome sequencing to build the national genomic estate. That would convert diagnostic expenses into an enduring strategic asset.

All suitably accredited health professionals, including general practitioners, should be able to obtain a genomic report, pharmacogenomic advice, early warning of an incipient disease, or any combination of that information, about a patient (with patient approval) upon request, and bulletins issued where relevant. Citizens should also be entitled to access such information in the interests of caring for their own health, provided it is conservative and actionable.

Security and police agencies should establish internal expertise in biotechnology and biodata analysis. They should have access to national genomic information under defined circumstances and subject to judicial approval and oversight.

Major investment funds and relevant government departments should consider establishing bio-intelligence units to keep abreast of opportunities and incorporate those opportunities into their strategic planning. Australian research funding agencies and the CSIRO should continue to invest in advanced genetic engineering and vaccine and drug development. Superannuation funds should be encouraged to invest at least 1% of their resources into domestic start-up and early-phase high-tech and digital enterprises, especially in health and biotechnologies.

Universities should provide training in computer programming and big-data analysis as a core component of all science and engineering degrees.

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Should You Buy Trillium Therapeutics Inc (TRIL) in Biotechnology Industry? – InvestorsObserver

Friday, August 28th, 2020

Trillium Therapeutics Inc (TRIL) is around the top of the Biotechnology industry according to InvestorsObserver. TRIL received an overall rating of 65, which means that it scores higher than 65 percent of all stocks. Trillium Therapeutics Inc also achieved a score of 80 in the Biotechnology industry, putting it above 80 percent of Biotechnology stocks. Biotechnology is ranked 24 out of the 148 industries.

Trying to find the best stocks can be a daunting task. There are a wide variety of ways to analyze stocks in order to determine which ones are performing the strongest. Investors Observer makes the entire process easier by using percentile rankings that allows you to easily find the stocks who have the strongest evaluations by analysts.

This ranking system incorporates numerous factors used by analysts to compare stocks in greater detail. This allows you to find the best stocks available in any industry with relative ease. These percentile-ranked scores using both fundamental and technical analysis give investors an easy way to view the attractiveness of specific stocks. Stocks with the highest scores have the best evaluations by analysts working on Wall Street.

Trillium Therapeutics Inc (TRIL) stock has fallen -3.11% while the S&P 500 has gained 0.16% as of 3:10 PM on Thursday, Aug 27. TRIL is lower by -$0.32 from the previous closing price of $10.29 on volume of 718,678 shares. Over the past year the S&P 500 has risen 20.64% while TRIL has gained 3337.93%. TRIL earned $2.58 a per share in the over the last 12 months, giving it a price-to-earnings ratio of 3.87.

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Agricultural Biotechnology Market: Business Opportunities, Current Trends and Industry Analysis by 2020 to 2026 (Based on 2020 COVID-19 Worldwide…

Friday, August 28th, 2020

The global Agricultural Biotechnology market focuses on encompassing major statistical evidence for the Agricultural Biotechnology industry as it offers our readers a value addition on guiding them in encountering the obstacles surrounding the market. A comprehensive addition of several factors such as global distribution, manufacturers, market size, and market factors that affect the global contributions are reported in the study. In addition the Agricultural Biotechnology study also shifts its attention with an in-depth competitive landscape, defined growth opportunities, market share coupled with product type and applications, key companies responsible for the production, and utilized strategies are also marked.

This intelligence and 2026 forecasts Agricultural Biotechnology industry report further exhibits a pattern of analyzing previous data sources gathered from reliable sources and sets a precedented growth trajectory for the Agricultural Biotechnology market. The report also focuses on a comprehensive market revenue streams along with growth patterns, analytics focused on market trends, and the overall volume of the market.

Moreover, the Agricultural Biotechnology report describes the market division based on various parameters and attributes that are based on geographical distribution, product types, applications, etc. The market segmentation clarifies further regional distribution for the Agricultural Biotechnology market, business trends, potential revenue sources, and upcoming market opportunities.

Download PDF Sample of Agricultural Biotechnology Market report @ https://hongchunresearch.com/request-a-sample/72153

Key players in the global Agricultural Biotechnology market covered in Chapter 4:, Monsanto, KWS SAAT, Certis, Bayer CropScience, DuPont Pioneer Hi-Bred, Evogene, Dow AgroSciences, Syngenta, Mycogen Seeds., Vilmorin

In Chapter 11 and 13.3, on the basis of types, the Agricultural Biotechnology market from 2015 to 2026 is primarily split into:, Molecular Diagnostics, Molecular Markers, Tissue Culture, Vaccines, Genetic Engineering, Others

In Chapter 12 and 13.4, on the basis of applications, the Agricultural Biotechnology market from 2015 to 2026 covers:, Transgenic Crops, Synthetic Biology-Enabled Products, Others

Geographically, the detailed analysis of consumption, revenue, market share and growth rate, historic and forecast (2015-2026) of the following regions are covered in Chapter 5, 6, 7, 8, 9, 10, 13:, North America (Covered in Chapter 6 and 13), United States, Canada, Mexico, Europe (Covered in Chapter 7 and 13), Germany, UK, France, Italy, Spain, Russia, Others, Asia-Pacific (Covered in Chapter 8 and 13), China, Japan, South Korea, Australia, India, Southeast Asia, Others, Middle East and Africa (Covered in Chapter 9 and 13), Saudi Arabia, UAE, Egypt, Nigeria, South Africa, Others, South America (Covered in Chapter 10 and 13), Brazil, Argentina, Columbia, Chile, Others

The Agricultural Biotechnology market study further highlights the segmentation of the Agricultural Biotechnology industry on a global distribution. The report focuses on regions of North America, Europe, Asia, and the Rest of the World in terms of developing business trends, preferred market channels, investment feasibility, long term investments, and environmental analysis. The Agricultural Biotechnology report also calls attention to investigate product capacity, product price, profit streams, supply to demand ratio, production and market growth rate, and a projected growth forecast.

In addition, the Agricultural Biotechnology market study also covers several factors such as market status, key market trends, growth forecast, and growth opportunities. Furthermore, we analyze the challenges faced by the Agricultural Biotechnology market in terms of global and regional basis. The study also encompasses a number of opportunities and emerging trends which are considered by considering their impact on the global scale in acquiring a majority of the market share.

The study encompasses a variety of analytical resources such as SWOT analysis and Porters Five Forces analysis coupled with primary and secondary research methodologies. It covers all the bases surrounding the Agricultural Biotechnology industry as it explores the competitive nature of the market complete with a regional analysis.

Brief about Agricultural Biotechnology Market Report with [emailprotected]https://hongchunresearch.com/report/agricultural-biotechnology-market-2020-72153

Some Point of Table of Content:

Chapter One: Report Overview

Chapter Two: Global Market Growth Trends

Chapter Three: Value Chain of Agricultural Biotechnology Market

Chapter Four: Players Profiles

Chapter Five: Global Agricultural Biotechnology Market Analysis by Regions

Chapter Six: North America Agricultural Biotechnology Market Analysis by Countries

Chapter Seven: Europe Agricultural Biotechnology Market Analysis by Countries

Chapter Eight: Asia-Pacific Agricultural Biotechnology Market Analysis by Countries

Chapter Nine: Middle East and Africa Agricultural Biotechnology Market Analysis by Countries

Chapter Ten: South America Agricultural Biotechnology Market Analysis by Countries

Chapter Eleven: Global Agricultural Biotechnology Market Segment by Types

Chapter Twelve: Global Agricultural Biotechnology Market Segment by Applications12.1 Global Agricultural Biotechnology Sales, Revenue and Market Share by Applications (2015-2020)12.1.1 Global Agricultural Biotechnology Sales and Market Share by Applications (2015-2020)12.1.2 Global Agricultural Biotechnology Revenue and Market Share by Applications (2015-2020)12.2 Transgenic Crops Sales, Revenue and Growth Rate (2015-2020)12.3 Synthetic Biology-Enabled Products Sales, Revenue and Growth Rate (2015-2020)12.4 Others Sales, Revenue and Growth Rate (2015-2020)

Chapter Thirteen: Agricultural Biotechnology Market Forecast by Regions (2020-2026) continued

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List of tablesList of Tables and FiguresTable Global Agricultural Biotechnology Market Size Growth Rate by Type (2020-2026)Figure Global Agricultural Biotechnology Market Share by Type in 2019 & 2026Figure Molecular Diagnostics FeaturesFigure Molecular Markers FeaturesFigure Tissue Culture FeaturesFigure Vaccines FeaturesFigure Genetic Engineering FeaturesFigure Others FeaturesTable Global Agricultural Biotechnology Market Size Growth by Application (2020-2026)Figure Global Agricultural Biotechnology Market Share by Application in 2019 & 2026Figure Transgenic Crops DescriptionFigure Synthetic Biology-Enabled Products DescriptionFigure Others DescriptionFigure Global COVID-19 Status OverviewTable Influence of COVID-19 Outbreak on Agricultural Biotechnology Industry DevelopmentTable SWOT AnalysisFigure Porters Five Forces AnalysisFigure Global Agricultural Biotechnology Market Size and Growth Rate 2015-2026Table Industry NewsTable Industry PoliciesFigure Value Chain Status of Agricultural BiotechnologyFigure Production Process of Agricultural BiotechnologyFigure Manufacturing Cost Structure of Agricultural BiotechnologyFigure Major Company Analysis (by Business Distribution Base, by Product Type)Table Downstream Major Customer Analysis (by Region)Table Monsanto ProfileTable Monsanto Production, Value, Price, Gross Margin 2015-2020Table KWS SAAT ProfileTable KWS SAAT Production, Value, Price, Gross Margin 2015-2020Table Certis ProfileTable Certis Production, Value, Price, Gross Margin 2015-2020Table Bayer CropScience ProfileTable Bayer CropScience Production, Value, Price, Gross Margin 2015-2020Table DuPont Pioneer Hi-Bred ProfileTable DuPont Pioneer Hi-Bred Production, Value, Price, Gross Margin 2015-2020Table Evogene ProfileTable Evogene Production, Value, Price, Gross Margin 2015-2020Table Dow AgroSciences ProfileTable Dow AgroSciences Production, Value, Price, Gross Margin 2015-2020Table Syngenta ProfileTable Syngenta Production, Value, Price, Gross Margin 2015-2020Table Mycogen Seeds. ProfileTable Mycogen Seeds. Production, Value, Price, Gross Margin 2015-2020Table Vilmorin ProfileTable Vilmorin Production, Value, Price, Gross Margin 2015-2020Figure Global Agricultural Biotechnology Sales and Growth Rate (2015-2020)Figure Global Agricultural Biotechnology Revenue ($) and Growth (2015-2020)Table Global Agricultural Biotechnology Sales by Regions (2015-2020)Table Global Agricultural Biotechnology Sales Market Share by Regions (2015-2020)Table Global Agricultural Biotechnology Revenue ($) by Regions (2015-2020)Table Global Agricultural Biotechnology Revenue Market Share by Regions (2015-2020)Table Global Agricultural Biotechnology Revenue Market Share by Regions in 2015Table Global Agricultural Biotechnology Revenue Market Share by Regions in 2019Figure North America Agricultural Biotechnology Sales and Growth Rate (2015-2020)Figure Europe Agricultural Biotechnology Sales and Growth Rate (2015-2020)Figure Asia-Pacific Agricultural Biotechnology Sales and Growth Rate (2015-2020)Figure Middle East and Africa Agricultural Biotechnology Sales and Growth Rate (2015-2020)Figure South America Agricultural Biotechnology Sales and Growth Rate (2015-2020)Figure North America Agricultural Biotechnology Revenue ($) and Growth (2015-2020)Table North America Agricultural Biotechnology Sales by Countries (2015-2020)Table North America Agricultural Biotechnology Sales Market Share by Countries (2015-2020)Figure North America Agricultural Biotechnology Sales Market Share by Countries in 2015Figure North America Agricultural Biotechnology Sales Market Share by Countries in 2019Table North America Agricultural Biotechnology Revenue ($) by Countries (2015-2020)Table North America Agricultural Biotechnology Revenue Market Share by Countries (2015-2020)Figure North America Agricultural Biotechnology Revenue Market Share by Countries in 2015Figure North America Agricultural Biotechnology Revenue Market Share by Countries in 2019Figure United States Agricultural Biotechnology Sales and Growth Rate (2015-2020)Figure Canada Agricultural Biotechnology Sales and Growth Rate (2015-2020)Figure Mexico Agricultural Biotechnology Sales and Growth (2015-2020)Figure Europe Agricultural Biotechnology Revenue ($) Growth (2015-2020)Table Europe Agricultural Biotechnology Sales by Countries (2015-2020)Table Europe Agricultural Biotechnology Sales Market Share by Countries (2015-2020)Figure Europe Agricultural Biotechnology Sales Market Share by Countries in 2015Figure Europe Agricultural Biotechnology Sales Market Share by Countries in 2019Table Europe Agricultural Biotechnology Revenue ($) by Countries (2015-2020)Table Europe Agricultural Biotechnology Revenue Market Share by Countries (2015-2020)Figure Europe Agricultural Biotechnology Revenue Market Share by Countries in 2015Figure Europe Agricultural Biotechnology Revenue Market Share by Countries in 2019Figure Germany Agricultural Biotechnology Sales and Growth Rate (2015-2020)Figure UK Agricultural Biotechnology Sales and Growth Rate (2015-2020)Figure France Agricultural Biotechnology Sales and Growth Rate (2015-2020)Figure Italy Agricultural Biotechnology Sales and Growth Rate (2015-2020)Figure Spain Agricultural Biotechnology Sales and Growth Rate (2015-2020)Figure Russia Agricultural Biotechnology Sales and Growth Rate (2015-2020)Figure Asia-Pacific Agricultural Biotechnology Revenue ($) and Growth (2015-2020)Table Asia-Pacific Agricultural Biotechnology Sales by Countries (2015-2020)Table Asia-Pacific Agricultural Biotechnology Sales Market Share by Countries (2015-2020)Figure Asia-Pacific Agricultural Biotechnology Sales Market Share by Countries in 2015Figure Asia-Pacific Agricultural Biotechnology Sales Market Share by Countries in 2019Table Asia-Pacific Agricultural Biotechnology Revenue ($) by Countries (2015-2020)Table Asia-Pacific Agricultural Biotechnology Revenue Market Share by Countries (2015-2020)Figure Asia-Pacific Agricultural Biotechnology Revenue Market Share by Countries in 2015Figure Asia-Pacific Agricultural Biotechnology Revenue Market Share by Countries in 2019Figure China Agricultural Biotechnology Sales and Growth Rate (2015-2020)Figure Japan Agricultural Biotechnology Sales and Growth Rate (2015-2020)Figure South Korea Agricultural Biotechnology Sales and Growth Rate (2015-2020)Figure Australia Agricultural Biotechnology Sales and Growth Rate (2015-2020)Figure India Agricultural Biotechnology Sales and Growth Rate (2015-2020)Figure Southeast Asia Agricultural Biotechnology Sales and Growth Rate (2015-2020)Figure Middle East and Africa Agricultural Biotechnology Revenue ($) and Growth (2015-2020) continued

About HongChun Research:HongChun Research main aim is to assist our clients in order to give a detailed perspective on the current market trends and build long-lasting connections with our clientele. Our studies are designed to provide solid quantitative facts combined with strategic industrial insights that are acquired from proprietary sources and an in-house model.

Contact Details:Jennifer GrayManager Global Sales+ 852 8170 0792[emailprotected]

NOTE: Our report does take into account the impact of coronavirus pandemic and dedicates qualitative as well as quantitative sections of information within the report that emphasizes the impact of COVID-19.

As this pandemic is ongoing and leading to dynamic shifts in stocks and businesses worldwide, we take into account the current condition and forecast the market data taking into consideration the micro and macroeconomic factors that will be affected by the pandemic.

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Agricultural Biotechnology Market: Business Opportunities, Current Trends and Industry Analysis by 2020 to 2026 (Based on 2020 COVID-19 Worldwide...

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Is TFF Pharmaceuticals Inc (TFFP) The Right Choice in Biotechnology? – InvestorsObserver

Friday, August 28th, 2020

A rating of 94 puts TFF Pharmaceuticals Inc (TFFP) near the top of the Biotechnology industry according to InvestorsObserver. TFF Pharmaceuticals Inc's score of 94 means it scores higher than 94% of stocks in the industry. TFF Pharmaceuticals Inc also received an overall rating of 79, putting it above 79% of all stocks. Biotechnology is ranked 24 out of the 148 industries.

Trying to find the best stocks can be a daunting task. There are a wide variety of ways to analyze stocks in order to determine which ones are performing the strongest. Investors Observer makes the entire process easier by using percentile rankings that allows you to easily find the stocks who have the strongest evaluations by analysts.

Our proprietary scoring system captures technical factors, fundamental analysis and the opinions of analysts on Wall Street. This makes InvestorsObservers overall rating a great way to get started, regardless of your investing style. Percentile-ranked scores are also easy to understand. A score of 100 is the top and a 0 is the bottom. Theres no need to try to remember what is good for a bunch of complicated ratios, just pay attention to which numbers are the highest.

TFF Pharmaceuticals Inc (TFFP) stock is trading at $14.63 as of 11:38 AM on Thursday, Aug 27, a gain of $1.06, or 7.81% from the previous closing price of $13.57. The stock has traded between $13.56 and $15.19 so far today. Volume today is low. So far 451,577 shares have traded compared to average volume of 773,030 shares.

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Should You Buy Miragen Therapeutics Inc (MGEN) in Biotechnology Industry? – InvestorsObserver

Friday, August 28th, 2020

Miragen Therapeutics Inc (MGEN) is near the top in its industry group according to InvestorsObserver. MGEN gets an overall rating of 65. That means it scores higher than 65 percent of stocks. Miragen Therapeutics Inc gets a 79 rank in the Biotechnology industry. Biotechnology is number 24 out of 148 industries.

Searching for the best stocks to invest in can be difficult. There are thousands of options and it can be confusing on what actually constitutes a great value. Investors Observer allows you to choose from eight unique metrics to view the top industries and the best performing stocks in that industry. A score of 65 would rank higher than 65 percent of all stocks.

This ranking system incorporates numerous factors used by analysts to compare stocks in greater detail. This allows you to find the best stocks available in any industry with relative ease. These percentile-ranked scores using both fundamental and technical analysis give investors an easy way to view the attractiveness of specific stocks. Stocks with the highest scores have the best evaluations by analysts working on Wall Street.

Miragen Therapeutics Inc (MGEN) stock is trading at $0.99 as of 11:38 AM on Thursday, Aug 27, an increase of $0.03, or 3.11% from the previous closing price of $0.96. The stock has traded between $0.96 and $1.02 so far today. Volume today is low. So far 394,762 shares have traded compared to average volume of 3,432,571 shares.

To see InvestorsObserver's Sentiment Score for Miragen Therapeutics Inc click here.

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Should You Buy Miragen Therapeutics Inc (MGEN) in Biotechnology Industry? - InvestorsObserver

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Where Does Amarin Corporation plc (AMRN) Stock Fall in the Biotechnology Field? – InvestorsObserver

Friday, August 28th, 2020

Amarin Corporation plc (AMRN) is near the bottom in its industry group according to InvestorsObserver. AMRN gets an overall rating of 38. That means it scores higher than 38 percent of stocks. Amarin Corporation plc gets a 28 rank in the Biotechnology industry. Biotechnology is number 24 out of 148 industries.

Searching for the best stocks to invest in can be difficult. There are thousands of options and it can be confusing on what actually constitutes a great value. Investors Observer allows you to choose from eight unique metrics to view the top industries and the best performing stocks in that industry. A score of 38 would rank higher than 38 percent of all stocks.

These scores are not only easy to understand, but it is easy to compare stocks to each other. You can find the best stock in an industry, or look for the sector that has the highest average score. The overall score is a combination of technical and fundamental factors that serves as a good starting point when analyzing a stock. Traders and investors with different goals may have different goals and will want to consider other factors than just the headline number before making any investment decisions.

Amarin Corporation plc (AMRN) stock is trading at $7.60 as of 11:39 AM on Thursday, Aug 27, a rise of $0.55, or 7.78% from the previous closing price of $7.05. The stock has traded between $6.95 and $7.78 so far today. Volume today is elevated. So far 6,776,575 shares have traded compared to average volume of 5,392,224 shares.

To see InvestorsObserver's Sentiment Score for Amarin Corporation plc click here.

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Harbour BioMed Signs Strategic Collaboration Agreement with Vir Biotechnology to Develop Novel Therapies for Immuno-Oncology and Infectious Diseases -…

Friday, August 28th, 2020

CAMBRIDGE, Mass. and ROTTERDAM, Netherlands and SUZHOU, China, Aug. 24, 2020 /PRNewswire/ -- Harbour BioMed (HBM), a global clinical-stage biopharmaceutical company today announced that it has entered into a strategic collaboration with Vir Biotechnology (Nasdaq: VIR), a clinical-stage immunology company, to discover, develop and commercialize potential novel therapeutic molecules in the fields of Immuno-Oncology and infectious diseases.

HBM will leverage its tools in next-generation technologies including its transgenic Harbour Mice® platforms to generate antibodies for the collaboration. Both parties will then combine their expertise in basic science to accelerate the development of these innovative immunotherapies into the clinic studies for patients suffering from cancers and infectious diseases.

"We are excited to join hands with Vir as both companies share a common mission to serve patients' unmet needs," said Dr. Jingsong Wang, the Founder, Chairman, and CEO of Harbour BioMed. "This collaborative partnership harbors big potential for both companies, as we exploit similar underlying immune mechanisms that likely play a critical role in fighting cancers as well as infectious diseases."

About Harbour BioMed

Harbour BioMed is a global, clinical stage biopharmaceutical company developing innovative therapeutics in the fields of immuno-oncology, immunologic diseases, and COVID-19. The company is building its proprietary pipeline through internal R&D programs, collaborations with co-discovery and co-development partners and select acquisitions.

The company's internal discovery programs are centered around its two patented transgenic mouse platforms (Harbour Mice®) for generating both fully human monoclonal antibodies, heavy chain only antibodies (HCAb) and HBICE immune cell engager technology for developing bispecific antibodies. Harbour BioMed also licenses the platforms to companies and academic institutions. The company has operations in Cambridge, Massachusetts; Rotterdam, The Netherlands; and Suzhou & Shanghai, China. For more information, please visit http://www.harbourbiomed.com

About Vir Biotechnology

Vir Biotechnology is a clinical-stage immunology company focused on combining immunologic insights with cutting-edge technologies to treat and prevent serious infectious diseases. Vir has assembled four technology platforms that are designed to stimulate and enhance the immune system by exploiting critical observations of natural immune processes. Its current development pipeline consists of product candidates targeting hepatitis B virus, influenza A, SARS-CoV-2, human immunodeficiency virus and tuberculosis. For more information, please visit http://www.vir.bio.

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Strategies and Suggestions for Patent Applications in the Hot Field of Biotechnology – Lexology

Sunday, August 16th, 2020

Abstract: The field of biotechnology is growing rapidly and the number of patent applications is skyrocketing. CAR-T, gene editing, and coronavirus vaccines have become hotspots due to their extremely high clinical value or due to epidemic outbreaks. Because of complex ethical issues, the rapid development and the unpredictability of biotechnology, there is particularity existing in the field of biotechnology, which means the policy and criteria of examinations are frequently changing. It would be very helpful for the applicant (or the patentee) to understand the dynamic changes in the examination criteria in the field timely and accurately, so that they can obtain and maintain their patent rights and protect their legitimate rights and interests successfully. This article analyzes the dynamic changes of examination in this field from three angles sufficiency of disclosure, supportiveness of claims and inventive step, and further provides some strategies and suggestions based on these analyses.

Keywords: biotechnology, gene editing, CAR-T, coronavirus, vaccine, sufficiency of disclosure, supportiveness of claims, inventive step

Introduction

In recent years, there have been plenty of breakthroughs in medical applications of the biotechnology field. Cell therapies represented by CAR-T and monoclonal antibodies against PD-1 have been very successful and approved for clinical use. The discovery of some advanced gene editing tools also brought on the dawn of the area of gene therapy. These breakthroughs are the current hotspots in the field of biotechnology. The huge market share is attractive for investment in research and development to large domestic and international traditional medical companies as well as newly rising companies. The outbreak of epidemics seriously threatens human life and health. As the most effective way to defeat the malignant infectious diseases, the development of vaccines is urgently required. Although the primary purpose for developing vaccines is to protect human life and health, the potential for huge commercial profits cannot be ignored. Regardless of what the starting point is, vaccines, particularly vaccines to prevent coronavirus that can cause severe respiratory infections, have become another hotspot for research and development. Nowadays, the rapid development of biotechnology has profoundly affected and changed all aspects of human life. Biotechnology has become the focus of international technological and even economic competition.

A mature and comprehensive patent system should be used to fuel to the rapid and healthy development of the biotechnology field. The patent system repays the research and development investment of innovative entities with market share through the protection of research and development results, thereby further stimulating the enthusiasm of scientific research and encouraging innovation. Despite the rapid development of biotechnology, the continuous emergence of scientific discovery, the improvement of the Chinese patent system, and the increased protection of intellectual property rights, it is necessary to master the dynamic changes in patent examination in China and ensure that scientific achievements are protected appropriately by patents in order for inventors to take full advantage of this system.

Based on patent examination data and typical cases, we analyze the current situation on patent application and examination in the biotechnology field, especially in some hotspots areas, and provide strategies and suggestions on patent application and protection based on this.

Data-based analyses on current situation of Chinese patent applications and examination

In the past two decades, with the rapid development of biotechnology, the number of patent applications in this field in our country is rapidly increasing. In particular, when a technological breakthrough with significant medical or other applications is made, or when prevention/treatment or drugs are urgently needed, such as in the case of an epidemic, patent applications always surge.

1 The situation of patent application and examination in biotechnology in China.

Figure 1

Since 2001, the number of patent applications in biotechnology in China has shown a trend of linear increase. The number of published patent applications so far is about 270,000 (the decline in the number of applications in 2019 and 2020 is due to a large number of applications that have not yet been published and so no data is available). The estimated number of applications in 2019 should exceed 30,000, and it is estimated that the number of applications in 2020 may reach about 32,000 (see Figure 1).

Looking at the current situation of patent examinations in the field of biotechnology, we find that the status of a large number of patent applications since 2015 in the field of biotechnology have not yet been finalized (68.54%). Among the finalized patent applications, valid patents account for 59.7% and invalid patents accounted for 40.3%. Because of the low rate of abandonment within 5 years, the invalidity mainly resulted from rejection or withdrawal. Therefore, it is estimated that the grant rates of patent applications in the biotechnology field from 2015 to present is about 60%.

About 2.44% of all patent applications in the field of biotechnology have been rejected and entered the Review procedure. Among these, 48.69% are maintained to be rejected and 51.31% rejections are withdrawn; approximately 0.07% of the applications were challenged and found to be invalid after patent rights were granted. Among these, 42.83% are completely invalidated, 21.84% are partially invalidated, and 35.24% remained valid.

2 Current situation of CAR-T related patent applications and examinations

In 2007, immunologist Michel Sadelain first proposed Chimeric Antigen Receptor T-Cell Immunotherapy (CAR-T). In recent years, due to its remarkable effectiveness, it has been recognized by the industry and large pharmaceutical companies started the research and development of new cell therapy. On July 31, 2017, Novartiss gene therapy product-CAR-T cell drug Kymiriah (tisagenlecleucel, CTL019) was approved by the US FDA. The drug is used to treat relapsed or refractory B-cell acute lymphoblastic leukemia in children and adolescents. This has become another milestone in the field of cancer immunotherapy after Anti-PD-1 drugs. Later, on October 18, 2017, the US FDA approved Yescarta (axicabtagene ciloleucel, KTE-C10) of Kite Pharmaceuticals. This drug is used to treat adult patients with specific types of large B-cell lymphoma. The FDA successively approved two CAR-T therapies, making CAR-T a hotspot in biomedicine , which has attracted domestic and international companies to develop their patent portfolio in the CAR-T field.

Figure 2

Before 2010, there were no patent applications in the CAR-T field in China; they did not appear until 2011. After 2015, the number of applications showed a rapidly increasing trend demonstrating that CAR-T has become a hotspot for patent applications. So far, the published CAR-T related patent applications are 946. Due to the lag in the publication of patent applications, a large number of applications in 2019 and 2020 have not yet been published. According to the growth trend shown in Figure 2, the number of applications in 2019 is estimated to exceed 300 (see Figure 2). It is expected that the number of applications in this field will continue to rise in the future.

Figure 3

Since CAR-T therapy has only recently become a hotspot in medicine, no individual large medical company has developed a strong patent portfolio. Therefore, many start-up companies, especially domestic companies and scientific research institutes, have also stepped up their research and development and applied for patents. This can also be seen from the scattered distribution of patent applicants. Figure 3 lists the distribution of major applicants with more than 9 applications. Among them, Shenzhen Binde Biotechnology Co., Ltd. has the highest number of applications, reaching 60.

Since 2015, most of the patent applications in the CAR-T field have not yet been finalized, accounting for 87.30% of total applications. Among the finalized patent applications, valid patents account for 82%, and patent applications that were rejected or deemed withdrawn account for 18%. Because of the low rate of abandonment within 5 years, the invalidity mainly resulted from rejection or withdrawal. Therefore, it is estimated that the grant rate of CAR-T field patent applications from 2015 to the present is about 82%, which is significantly higher than the average 60% in the whole biotechnology field. This may be due to the lack of similar research in this field, and so most of the relevant innovations are novel and inventive, and therefore, more likely to be granted.

3 Current situation of gene-editing related patent applications and examinations

The gene editing technology represented by CRISPR was discovered in the early 1990s. Given it has more advantages over other gene editing tools, it has quickly become the most popular gene editing method in the fields of human biology, agriculture, and microbiology. However, looking into the number of patent applications in China, we find there are about 3,600 patent applications since 2001, which is not a lot, and the number has only started to increase rapidly after 2011. The possible reason is that although gene editing technology has potentially significant medical value, the off-target problem has not been solved very effectively and there are obviously serious ethical and technical risks that people are most concerned about in clinical applications. Thus, there are still uncertainties for the foreseeable future. In 2018, hot social events related to gene editing technology drew a lot of public attention.

Figure 4

Perhaps because of the ethical and technical limitations of gene editing technology represented by CRISPR in clinical applications, companies, in particular, large multinational medical companies have not developed a patent portfolio. Applicants of patents related to this technology also show a scattered distribution. The majority of the applicants are domestic universities and research institutes. Also, the use of gene editing in the applications basically do not involve human clinical applications.

Figure 5

A large number of gene editing patent applications from 2015 to the present have not yet been finalized (83.73%). Among the finalized patent applications, the grant rate is about 69.8%, and 30.2% are rejected or deemed withdrawn. The grant rate is also higher than the overall authorization rate in the entire biotechnology field, which is about 60%.

4 Current situation of coronavirus vaccines patent applications and examinations

The overall number of patent applications in the field of coronavirus vaccines is not large (no more than 600), and the average annual number of applications basically remains in double digits, but the application number is significantly related to the outbreak and the continuation of the coronavirus epidemic. For example, the SARS epidemic in 2003 led to a significant increase in the number of patent applications from 2003 to 2004, and then with the SARS virus under control, the number of applications returned to a low level. The MERS virus outbreak in 2012 led to another period of growth in patent applications in the following years. The outbreak of the new coronavirus in 2019 has caused a significant increase in vaccine patent applications in 2020. Even though the vast majority of applications have not been published, the number of applications in 2020 has doubled compared with the number of applications in 2019. Therefore, it can be expected that the number of patent applications related to the prevention or treatment of coronavirus infection will show a significant increase in 2020 and is expected to continue to be high in the following years.

Figure 6

The distribution of applicants of coronavirus vaccines patents are also relatively scattered. Domestic applicants include scientific research institutes such as China Centers for Disease Control and Prevention, Fudan University, Second Military Medical University, and some biotechnology companies. Foreign applicants include several multinational pharmaceutical companies including Wyeth.

Figure 7

A large number of patent applications for coronavirus vaccines from 2015 to the present have not yet been finalized (87.42%). Among the finalized patent applications, the grant rate accounts for 75%, and the rejection or deemed withdrawal accounted for 25%. The grant rate is significantly higher than the overall grant rate of about 60% in the entire biological field.

Typical cases

As a typical experimental science, the predictability in the field of biotechnology is quite low. In patent examination, there are often some disputes over the predictability of technical effects. For example, the examiner may hold that the technical effects of the invention are unpredictable and the claims cannot be supported by the specification. Or, on the contrary, when there are only theoretical teachings or only general technical demand without specific technical questions, the examiner may believe that the prior art provides a motivation and the technical effect can be reasonably expected. However, this relatively subjective opinion cannot be successfully rebutted without solid evidence. The following are just a few examples to illustrate the above situation.

1 The expectations of the technical effects of biological sequences are not supported by the specification

In one case, the claim is directed to a variant of parent Bacillus alpha-amylase, wherein the parent alpha-amylase is shown to have immunological cross-reactivity with the antibody produced by -amylase having one of a sequence from SEQ ID NO.1, SEQ ID NO.2, SEQ ID NO.3, or SEQ ID NO.7, wherein the variant of alpha-amylase comprising sequences with R181+G182 deleted corresponding to SEQ ID NO:1, and compared to the parent -amylase, the said variant -amylase has increased thermal stability. The examiner held that the scope defined by the claims could comprise any additional mutations in addition to the double deletion of R181+G182 corresponding to SEQ ID NO:1. The biological activity of the protein depends on the spatial structure based on the amino acid sequence. Mutations of amino acid in certain sites may affect the biological activity of the protein. Therefore, if the variant contains other mutations other than RG double deletion, it may affect the thermal stability and even the biological activity of -amylase. Therefore, it is impossible for those skilled in the art to determine in advance whether those -amylase variants comprising additional mutations other than the double deletion of RG have improved thermal stability. Therefore, the examiner held that the claims could not be supported by the specification. However, the same family application of this patent was not rejected or invalidated because the open-ended claims cover sequences that are not in the examples.

2 Does general technical demand provide motivation for improvement?

A reexamined case involved a method of introduction of double-strand breaks in the target nucleic acid sequence of human cells. The examiner pointed out in the rejection that the principle of the Streptococcus pyogenes CRISPR-Cas9 system to target DNA double-strand breaks was disclosed in the prior art, and the function of Cas9 nuclease is clear. Also, gene-editing technology can allow humans to edit target genes to achieve the purpose of modifying specific DNA fragments. It is generally pursued by those skilled in the art to apply gene editing technology from in vitro, prokaryotic cells to eukaryotic cells so that this technology can be more widely used. Those skilled in the art have the motivation to use this system to introduce site-specific double-strand breaks to the target nucleic acid sequence of eukaryotic cells for a wider range of applications. Also, nuclear DNA exists in the cell nucleus and the nuclear localization sequence allows Cas9 protein to enter the nucleus to cut nuclear DNA. Therefore, it is a common technique in the field to design nuclear localization sequences to localize the target protein in nucleus. Although the prokaryotic cells and eukaryotic cells are different, those skilled in the art still have motivations to apply CRISPR-Cas9 system in eukaryotic cells and have reasonable expectation of success. The technical effect is not unexpected. On the basis that the mechanism of use of CRISPR-Cas9 system to introduce double-strand break is already known, that it is generally pursued by those skilled in the art to apply gene editing technology from in vitro, prokaryotic cells to eukaryotic cells and that this process only requires conventional techniques, the examiner held that those skilled in the art have the motivation to apply the claimed gene-editing system from prokaryotic cells to eukaryotic cells, and have a reasonable expectation of success. Although the rejection of this application was withdrawn by the PRB, the reexamination panel did not overrule the comments stated above. In the reviewing process of another patent application also directed to the CRISPR-Cas9 system, the examiner determined that one of the distinguishing features between the invention and the closest prior art is that the prokaryotic CRISPR/Cas9 system is used in eukaryotic cells. The examiner held it is not inventive on the basis that the technical effects of using CRISPR-Cas9 in Eukaryotic cells are expected based on the prokaryotic CRISPR/Cas9 system in the prior art.

These examination comments represent a trend in patent examination in the field of biotechnology, i.e., a reasonable expectation of success exists when the prior art merely offers a possibility. Thus, this underestimates the technical contribution of an invention and in a way raises the criteria of inventive step in examination.

Patent application and protection strategies and suggestions based on examination and trial practice

As mentioned above, thanks to the rapid development of biotechnology, new technologies continue to emerge, and the grant rate in the field of biotechnology, especially in emerging hotspots, is generally higher than that in other fields. However, as a typical experimental subject, patents in the field of biotechnology are faced with a situation of underestimating the innovation level of the invention during the examination process, due to the poor predictability and the strong subjectivity of the examination. Meanwhile, some factors that affect patent examination in the field of biotechnology, such as social ethics, change rapidly with the rapid development of technology and the improvement of human cognition. Such rapid change also changes the patent examination policies and standards correspondingly and frequently. For example, in order to meet the needs of technological innovation and social development, in the latest version of the Guidelines for Patent Examination, the examination criteria for embryonic stem cells based on Article 5 of the Chinese Patent Law are changed. It is important to understand and grasp such dynamic changes of the examination, which would help the applicant (or patentee) to obtain and maintain the patent rights, and protect legitimate rights and interests. Due to space limitations, the examination and trial dynamics in this technical field would be analyzed from the three articles and perspectives of experimental data and sufficient disclosure of the description, support of biological sequences, and technical suggestion in inventiveness evaluation. Corresponding strategies and suggestions are provided on such bases.

1 Experimental data and sufficient disclosure of the description

Due to the extreme complexity of life activities, it is less predictable whether or not the inventions in the field of biotechnology can be carried out successfully. They need to be confirmed by experimental data. Meanwhile, the design of an experimental scheme for obtaining the experimental data in the field of biotechnology is more complicated. It is more difficult to evaluate the experimental results (such as authenticity) only from the literal disclosures of the description. In examination practice, considering the administrative cost and operability, the examiner usually recognizes the authenticity and probative power of the experimental data based on the principle of trusting the applicant, unless the experimental data is found to have deficiencies in terms of the experiment design and/or results which are obvious enough to question the authenticity and the applicant cannot provide any reasonable explanations and clarifications. Even in patent invalidation proceedings, in order to protect the reliance interests, the burden of proof is allocated more to the invalidation petitioner who claims that the experimental data is defective. If the invalidation petitioner cannot provide sufficient evidence to deny the technical effect of the invention, and the reasons provided are not sufficient to make the collegiate panel have reasonable doubts, the collegiate panel still tends to believe in the probative power of the experimental data in the description, and to uphold the validity of the patent right. Even if there are some deficiencies in the experimental data disclosed in the description, the collegial panel would usually understand and explain in good faith, unless the deficiencies are already obvious to the extent that they cannot support each other.

However, after the former Patent Reexamination Board lost the trial of the Guipazide case, such situation is undergoing subtle changes. In this case, the court of first instance held that the experimental results on mortality and food intake provided in the description were unreasonable. Sihuans interpretations of the mortality and food intake were contrary to common sense under the premise that the original experimental report could not be provided. Accordingly, the authenticity and probative power of the experimental data disclosed in the description were not admitted, and the description was determined to be insufficiently disclosed. The original Invalidation Decision issued by the former Patent Reexamination Board was revoked. The court of second instance insisted on the Judgment of the first instance. The judgments of this case will prompt various departments of the Patent Office, including the Patent Reexamination and Invalidation Department, to further the comprehensive examination of the experimental data in the description from the formal and substantive aspects, in the subsequent substantive examination of invention patents and subsequent reexamination invalidation cases. During examination, interested parties including the invalidation petitioner will also pay attention to the experimental data disclosed in the patent documents with a critical eye, which makes it difficult for the patent applicant to sit back and relax even if it is granted. Therefore, for patent applications that have not yet been submitted, the correspondence between the items to be proved by the experimental data and the purpose of invention or the technical effect to be achieved by the invention, the logical rationality of the experimental design, and the rationality and credibility of the experimental results should be examined. Although it is not required that the description discloses the experimental examples comprehensively, the contents directly related to the inventive aspect or the technical contribution made by the invention should still be disclosed as clearly and completely as possible. Other contents not disclosed should belong to the common technical knowledge of those skilled in the art, or be facts that can be confirmed by solid evidence when being challenged. As for a patent application already submitted or granted, if it is challenged based on the experimental design being unreasonable or the experiment result unreliable, it is only possible to explain the non-necessity of the undisclosed content and the rationality of the experimental design and the results in the description by providing evidence or sufficient reasoning. If possible, the original experimental record should be submitted for consideration and support.

2 Support for biological sequence inventions

The research and development in the biotechnology field requires a large investment, has great challenges, risks, and a long return cycle. After obtaining patent rights, there are still problems like difficulties with enforcement and easy circumvention. For example, if a patent claim only protects the nucleotides, proteins, antibodies, etc. of specific sequences, it is easy to circumvent it by restructuring, selecting highly homologous sequences, etc. However, due to the large number of variable sites in biological sequences and the difficulty in predicting the effects after site modifications, a set of strict criteria on the protection scope have long been adopted for patent examination in China. This elicits frequent criticisms from the innovative entities and the patent agency industry.

Against such background, the personnel from relevant departments of the former Patent Reexamination Board conducted in-depth research on this issue. Starting from the legislative purpose, different situations were distinguished and combined with some typical cases, and more operable examination suggestions were provided on the biological sequence inventions under Article 26.4 of the Chinese Patent Law from principles and practical aspects. That is, specific examination ideas and judgment rules are provided for several common drafting manners of claims involving the biological sequences. In addition, in order to unify the examination standards, the China National Intellectual Property Administration (CNIPA) has also issued some examination standards for specific technical fields such as inventions involving antibody sequences. In recent years, judicial trials have also provided guidance on how to determine the appropriate scope of protection for biological sequence inventions in the manner of leading cases.

The above-mentioned examination ideas and rules and judicial practice guidelines for biological sequence inventions from the perspective of patent examination undoubtedly provide a good perspective and means for the application and protection of such invention patents. For example, for structural genes or their encoded protein sequences, if you want to extend the scope of protection beyond the empirical scope, you should use theoretical explanations and/or pertinent examples in the description to clarify the relationship between sequence structure and efficacy, convincing the judges that the scope of the claim can be selected or verified by those skilled in the art through experiments according to the instructions in the description or the teachings based on the common technical knowledge in the art. If you want to limit the scope of protection of the claim by homology/identity, function, and source features, it is required that the description or the prior art has clearly disclosed the corresponding relationship between the structure and function of the sequence.

3 Technical suggestion in inventiveness evaluation

At present, the CNIPA implements a comprehensive examination policy with three properties (Novelty, inventiveness, and industrial applicability) evaluation as the main line of reasoning, with the purpose of making timely and substantive responses as to whether a patent application should be granted and the scope of the right that should be granted. Under the guidance of this examination policy, inventiveness has become the most commonly used article in patent examinations. In evaluating the inventiveness, each step is carefully examined and discussed as if under a magnifying glass. For example, the relationship between the sufficient disclosure of the description and the inventiveness article, the selection of the closest prior art and its eligibility, the influence of changing the closest prior art on the inventiveness evaluation conclusion without changing the evidence combination, and the determination of the technical effect of the invention, the handling of the technical problem that the invention actually solves when it is not recognized or wrongly recognized, etc., have been studied and discussed on various occasions.

In response to a series of issues in the evaluation of inventiveness from procedure to substance, from fact finding to law application, there is a big difference in the focus and handling methods between reexamination procedure and litigation procedure. Therefore, different methods and ideas should be adopted according to the characteristics of different procedures. For example, as a relief measure after a patent application is rejected, the reexamination procedure is also a continuation of the patent administrative examination and approval procedure. Therefore, more attention is paid to the final substantive settlement of inventiveness disputes in the rejection decision. For some minor procedures or substantive deficiencies in the rejection decision, if they are not serious enough to incur an incorrect examination conclusion, the rejection decision will generally not be revoked just because of these minor procedural or physical deficiencies. Instead, the rejection decision will be upheld based on the compensation and improvement.

The litigation procedure is different. While paying attention to the substantive conclusion, the litigation procedure also pays attention to the procedural errors in the process of making the reexamination decision, and may revoke the reexamination decision on this ground. For example, many previous judgments revoked reexamination or invalidation decisions only on the grounds that the contents disclosed in the prior art, distinguishing features, and technical problems actually solved were wrongly determined, even though the final conclusion on inventiveness might be correct. Therefore, only for the consideration of the litigation strategies, it may be necessary to pay attention to the procedural or physical deficiencies in the examination process. However, it is worth noting that the Supreme Peoples Court states in its recent judgment that: when it is difficult to extract and generalize a single technical problem that is actually solved, it is necessary to return to the function and effect the technical feature play in the technical solution of the claim, and technical effect per se, instead of deliberately and subjectively extracting and generalizing a technical problem actually solved. This means that judicial practice will also pay more attention to substantive results, rather than being too entangled in the process to avoid procedural shocks. Since the Supreme Court has given such guidelines in its judgment, and the generalization of the technical problems actually solved would be subjective. Disputes often arise due to different wordings. In the subsequent examination, the Patent Reexamination and Invalidation Department would pay more attention to the technical suggestion that directly affects the inventiveness conclusion, and further downplay the identification of the technical problem that is actually solved.

Furthermore, as mentioned above, judging from the current examination practice, the examination on the relevant technical suggestion in a small number of cases has a certain bias, i.e., the abstract technical requirements are considered as the technical teaching with specific directions, thereby underestimating the technical contribution of the invention. In the field of biotechnology, after finding some important biological mechanisms, researchers usually predict their possible applications and prospects in medical or other scenarios, and immediately publicize and report them. However, the life activities are extremely complicated and unpredictable. There is still a lot of work to be done in the actual clinical application of this finding. For example, if only the concepts and principles of gene editing and cell therapy are considered, such technology would appear in the 1980s and 1990s. However, the CAR-T cell therapy technology has only recently been approved for clinical application. The gene editing has not yet been applied to the clinic. At present and in the foreseeable future, for the technologies including CAR-T technology and gene editing, we will still be committed to overcoming the deficiencies or shortcomings of its clinical application, such as finding a variety of more effective gene editing tools, overcoming off-target effects, and solving the continuous proliferation or side effects of CART cells in the body. All these efforts are inventive work that pushes a concept or idea to practical application, and their technical contributions should be recognized. Judicial practice also maintains that when confronted with the objective technical problems to be solved, the suggestion that those skilled in the art learn from the prior art should in principle be a concrete and clear technical means, rather than the abstract ideas or general research directions. Therefore, for the tendency to underestimate the technological contribution of inventions in the hearing of cases, we should try to make the judges understand and appreciate the particularity of the field through active evidence production and sufficient reasoning, and truly take in the stance of those skilled in the art. We are pleased to see that more and more patent applications directed to CAR-T and gene-editing technology getting granted. The grant rate in these emerging hotspot fields are higher than the overall grant rate in the whole field of biotechnology. This means, even though there are general demands of a certain technical solution or even the principle of how this solution will be realized has been explained, the patent application involving the technical solution is still likely to be granted as long as there are evidences showing no reasonable expectation of success exists prior to the application date.

Summary

The field of biotechnology is a rapidly developing technical field. Generally speaking, the number of patent applications in this technical field have experienced rapid and continuous growth in the past two decades. Some specific technical fields, such as CAR-T technology and CRISPR-based gene editing technology, were developed in recent years and have become a technological and social hotspot. Accordingly, the number of patent applications has increased significantly in recent years, and the number of applications in some subdivisions increases and decreases following social emergencies such as epidemics. Due to the rapid development of technology in the biological field, there are relatively few existing technologies that can affect its novelty or inventiveness. This is reflected in the higher granting rate of the patent applications than in other technical fields. Further, patent applications involving technological breakthroughs such as the CAR-T technology and CRISPR-based gene editing technology involved in this article have significantly higher granting rate than that in the biological field.

Due to complex considerations such as social ethics, as well as faster technological development and lower predictability, the field of biotechnology is more special than the field of traditional chemistry. This specialty in patent examination is mainly reflected in the more frequent changes in examination policies and examination standards. Therefore, it is necessary to have a timely and accurate understanding and grasp of the examination dynamics in this technical field. This article introduces and analyzes the current patent examination and trial dynamics from three articles or perspectives: experimental data and the sufficient disclosures of the description, support of the biological sequences by the description, and technical suggestion in inventiveness evaluation. It also provides corresponding strategies and suggestions of handling. That is, with regard to experimental data, it is recommended that for patent applications that have not yet been submitted, the drafting of the application documents should be improved from the aspects of the completeness and rationality of the experimental design and experimental results. For patents that have been submitted or granted, when they are challenged by the examiner or the public, the non-necessity of the undisclosed content and the rationality of the experimental design and results should be elaborated by evidence and sufficient reasoning. If possible, the original experimental record should be submitted for compensation and support. As to the patent protection scope involving the biological sequences, the CNIPAs current examination thinking and rules and the guidance of judicial practice should be accurately understood and grasped. As to inventiveness, appropriate differentiated response ideas and strategies should be adopted. In addition, for cases that appear in the trial in which there is a tendency to underestimate the technological contribution of inventions, we should try to make the judges understand and appreciate the specialty of the field through active evidence production and sufficient reasoning, and truly take in the stance of those skilled in the art.

Reference Documents

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Strategies and Suggestions for Patent Applications in the Hot Field of Biotechnology - Lexology

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Food Biotechnology Market Report 2020: Acute Analysis of Global Demand and Supply 2025 with Major Key Player: ABS Global, Arcadia Biosciences,…

Sunday, August 16th, 2020

Note: Due to the pandemic, we have included a special section on the Impact of COVID 19 on the Food BiotechnologyMarket which would mention How the Covid-19 is Affecting the Industry, Market Trends and Potential Opportunities in the COVID-19 Landscape, Key Regions and Proposal for Food Biotechnology Market Players to battle Covid-19 Impact.

The Food BiotechnologyMarket report is compilation of intelligent, broad research studies that will help players and stakeholders to make informed business decisions in future. It offers detailed research and analysis of key aspects of the Food Biotechnology market. Readers will be able to gain deeper understanding of the competitive landscape and its future scenarios, crucial dynamics, and leading segments of the global Food Biotechnology market. Buyers of the report will have access to accurate PESTLE, SWOT and other types of analysis on the global Food Biotechnology market. Moreover, it offers highly accurate estimations on the CAGR, market share, and market size of key regions and countries. Players can use this study to explore untapped Food Biotechnology markets to extend their reach and create sales opportunities.

The study encompasses profiles of major Companies/Manufacturers operating in the global Food Biotechnology Market.Key players profiled in the report include:ABS Global, Arcadia Biosciences, AquaBounty Technologies, BASF Plant Science, Bayer CropScience AG, Camson Bio Technologies Ltd, Dow AgroSciences LLC, DuPont Pioneer, Evogene Ltd, Hy-Line International, KWS Group, Monsanto, Origin Agritech Limited, Syngenta AG and More

Get PDF Sample Copy of the Report to understand the structure of the complete report (Including Full TOC, List of Tables & Figures, Chart):https://www.marketinforeports.com/Market-Reports/Request-Sample/145182

Segmental Analysis:The report has classified the global Food Biotechnology market into segments including product type and application. Every segment is evaluated based on share and growth rate. Besides, the analysts have studied the potential regions that may prove rewarding for the Food Biotechnology manufcaturers in the coming years. The regional analysis includes reliable predictions on value and volume, there by helping market players to gain deep insights into the overall Food Biotechnology industry.

Key Types:Transgenic CropsSynthetic Biology Derived Products

Key End-Use:AnimalsPlantsOthers

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The authors of the report have analyzed both developing and developed regions considered for the research and analysis of the global Food Biotechnology market. The regional analysis section of the report provides an extensive research study on different regional and country-wise Food Biotechnology industry to help players plan effective expansion strategies.

Regions Covered in the Global Food Biotechnology Market: The Middle East and Africa (GCC Countries and Egypt) North America (the United States, Mexico, and Canada) South America (Brazil etc.) Europe (Turkey, Germany, Russia UK, Italy, France, etc.) Asia-Pacific (Vietnam, China, Malaysia, Japan, Philippines, Korea, Thailand, India, Indonesia, and Australia)

Years Considered to Estimate the Market Size:History Year: 2015-2019Base Year: 2019Estimated Year: 2020Forecast Year: 2020-2025

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Food Biotechnology Market Report 2020: Acute Analysis of Global Demand and Supply 2025 with Major Key Player: ABS Global, Arcadia Biosciences,...

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Is Acer Therapeutics Inc (ACER) a Winner in the Biotechnology Industry? – InvestorsObserver

Sunday, August 16th, 2020

Acer Therapeutics Inc (ACER) is around the top of the Biotechnology industry according to InvestorsObserver. ACER received an overall rating of 92, which means that it scores higher than 92 percent of all stocks. Acer Therapeutics Inc also achieved a score of 99 in the Biotechnology industry, putting it above 99 percent of Biotechnology stocks. Biotechnology is ranked 15 out of the 148 industries.

Finding the best stocks can be tricky. It isnt easy to compare companies across industries. Even companies that have relatively similar businesses can be tricky to compare sometimes. InvestorsObservers tools allow a top-down approach that lets you pick a metric, find the top sector and industry and then find the top stocks in that sector.

These scores are not only easy to understand, but it is easy to compare stocks to each other. You can find the best stock in an industry, or look for the sector that has the highest average score. The overall score is a combination of technical and fundamental factors that serves as a good starting point when analyzing a stock. Traders and investors with different goals may have different goals and will want to consider other factors than just the headline number before making any investment decisions.

Acer Therapeutics Inc (ACER) stock has fallen -19.62% while the S&P 500 is higher by 0.08% as of 2:04 PM on Friday, Aug 14. ACER has fallen -$1.03 from the previous closing price of $5.25 on volume of 1,538,243 shares. Over the past year the S&P 500 has risen 18.56% while ACER is higher by 116.41%. ACER lost -$2.62 per share the over the last 12 months.

To see the top 5 stocks in Biotechnology click here.

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Is BioCardia Inc (BCDA) a Winner in the Biotechnology Industry? – InvestorsObserver

Sunday, August 16th, 2020

A rating of 18 puts BioCardia Inc (BCDA) near the bottom of the Biotechnology industry according to InvestorsObserver. BioCardia Inc's score of 18 means it scores higher than 18% of stocks in the industry. BioCardia Inc also received an overall rating of 33, putting it above 33% of all stocks. Biotechnology is ranked 15 out of the 148 industries.

Analyzing stocks can be hard. There are tons of numbers and ratios, and it can be hard to remember what they all mean and what counts as good for a given value. InvestorsObserver ranks stocks on eight different metrics. We percentile rank most of our scores to make it easy for investors to understand. A score of 33 means the stock is more attractive than 33 percent of stocks.

This ranking system incorporates numerous factors used by analysts to compare stocks in greater detail. This allows you to find the best stocks available in any industry with relative ease. These percentile-ranked scores using both fundamental and technical analysis give investors an easy way to view the attractiveness of specific stocks. Stocks with the highest scores have the best evaluations by analysts working on Wall Street.

BioCardia Inc (BCDA) stock is lower by -0.41% while the S&P 500 is higher by 0.08% as of 2:24 PM on Friday, Aug 14. BCDA has fallen -$0.01 from the previous closing price of $2.41 on volume of 71,467 shares. Over the past year the S&P 500 is up 18.56% while BCDA has fallen -49.47%. BCDA lost -$2.59 per share the over the last 12 months.

To see InvestorsObserver's Sentiment Score for BioCardia Inc click here.

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Is BioCardia Inc (BCDA) a Winner in the Biotechnology Industry? - InvestorsObserver

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Agricultural Biotechnology Market Size by Top Companies, Regions, Types and Application, End Users and Forecast to 2027 – Bulletin Line

Sunday, August 16th, 2020

New Jersey, United States,- Verified Market Researchhas recently published an extensive report on the Agricultural Biotechnology Market to its ever-expanding research database. The report provides an in-depth analysis of the market size, growth, and share of the Agricultural Biotechnology Market and the leading companies associated with it. The report also discusses technologies, product developments, key trends, market drivers and restraints, challenges, and opportunities. It provides an accurate forecast until 2027. The research report is examined and validated by industry professionals and experts.

The report also explores the impact of the COVID-19 pandemic on the segments of the Agricultural Biotechnology market and its global scenario. The report analyzes the changing dynamics of the market owing to the pandemic and subsequent regulatory policies and social restrictions. The report also analyses the present and future impact of the pandemic and provides an insight into the post-COVID-19 scenario of the market.

Agricultural Biotechnology Market was valued at USD 35.6 Billion in 2018 and is projected to reach USD 74.92 Billion by 2026, growing at a CAGR of 9.70% from 2019 to 2026.

The report further studies potential alliances such as mergers, acquisitions, joint ventures, product launches, collaborations, and partnerships of the key players and new entrants. The report also studies any development in products, R&D advancements, manufacturing updates, and product research undertaken by the companies.

Leading Key players of Agricultural Biotechnology Market are:

Competitive Landscape of the Agricultural Biotechnology Market:

The market for the Agricultural Biotechnology industry is extremely competitive, with several major players and small scale industries. Adoption of advanced technology and development in production are expected to play a vital role in the growth of the industry. The report also covers their mergers and acquisitions, collaborations, joint ventures, partnerships, product launches, and agreements undertaken in order to gain a substantial market size and a global position.

Agricultural Biotechnology Market, By Organism Type

Plants Animal Microbes

Agricultural Biotechnology Market, By Application

Vaccine Development Transgenic Crops & Animals Antibiotic Development Nutritional Supplements Flower Culturing Biofuels

Regional Analysis of Agricultural Biotechnology Market:

A brief overview of the regional landscape:

From a geographical perspective, the Agricultural Biotechnology Market is partitioned into

North Americao U.S.o Canadao MexicoEuropeo Germanyo UKo Franceo Rest of EuropeAsia Pacifico Chinao Japano Indiao Rest of Asia PacificRest of the World

Key coverage of the report:

Other important inclusions in Agricultural Biotechnology Market:

About us:

Verified Market Research is a leading Global Research and Consulting firm servicing over 5000+ customers. Verified Market Research provides advanced analytical research solutions while offering information enriched research studies. We offer insight into strategic and growth analyses, Data necessary to achieve corporate goals, and critical revenue decisions.

Our 250 Analysts and SMEs offer a high level of expertise in data collection and governance use industrial techniques to collect and analyze data on more than 15,000 high impact and niche markets. Our analysts are trained to combine modern data collection techniques, superior research methodology, expertise, and years of collective experience to produce informative and accurate research.

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Agricultural Biotechnology Market Size by Top Companies, Regions, Types and Application, End Users and Forecast to 2027 - Bulletin Line

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Global Biotechnology/Pharmaceutical Services Outsourcing Market Projected to Reach USD XX.XX billion by 2025- Quantic Group, QuintilesIMS, Parexel…

Sunday, August 16th, 2020

Global Biotechnology/Pharmaceutical Services Outsourcing Market research report presentation demonstrates and presents an easily understandable market depiction, lending crucial insights on market size, market share as well as latest market developments and notable trends that collectively harness growth in the global Biotechnology/Pharmaceutical Services Outsourcing market.This detailed and meticulously composed market research report on the Biotechnology/Pharmaceutical Services Outsourcing market discussed the various market growth tactics and techniques that are leveraged by industry players to make maximum profits in the Biotechnology/Pharmaceutical Services Outsourcing market even amidst pandemic situation such as COVID-19.

The various components and growth propellants such as dominant trends, existing challenges and restrictions as well as opportunities have also been discussed at length. The report is designed to guide the business decisions of various companies and research experts who look forward to maket profitable decisions in the Biotechnology/Pharmaceutical Services Outsourcing market.

Global Biotechnology/Pharmaceutical Services Outsourcing Market 2020-26: Competitive Landscape Analytical Review

This report also includes substantial inputs regarding the current competition spectrum and discusses pertinent details such as new product-based developments that various market players are targeting. Further, relevant inputs on M&A developments, business partnership, collaborations and commercial agreements have also been touched upon in this report on Biotechnology/Pharmaceutical Services Outsourcing market.

Access Complete Report @ https://www.orbismarketreports.com/global-biotechnology-pharmaceutical-services-outsourcing-market-growth-analysis-by-trends-and-forecast-2019-2025?utm_source=Puja

By the product type, the market is primarily split into

By the end-users/application, this report covers the following segments

What to expect from the report A complete analysis of the Biotechnology/Pharmaceutical Services Outsourcing market Concrete and tangible alterations in market dynamics A thorough study of dynamic segmentation of the Biotechnology/Pharmaceutical Services Outsourcing market A complete review of historical, current as well as potential foreseeable growth projections concerning volume and value A holistic review of the vital market alterations and developments Notable growth friendly activities of leading players

Regional Analysis of the Biotechnology/Pharmaceutical Services Outsourcing Market: The report further proceeds with unravelling the geographical scope of the Biotechnology/Pharmaceutical Services Outsourcing market. Additionally, a country-wise discussion with specific growth pockets have also been touched upon in the succeeding sections of this detailed report on the Biotechnology/Pharmaceutical Services Outsourcing market.

North America (U.S., Canada, Mexico) Europe (U.K., France, Germany, Spain, Italy, Central & Eastern Europe, CIS) Asia Pacific (China, Japan, South Korea, ASEAN, India, Rest of Asia Pacific) Latin America (Brazil, Rest of L.A.) Middle East and Africa (Turkey, GCC, Rest of Middle East)

Scope of the ReportThe discussed Biotechnology/Pharmaceutical Services Outsourcing market has been valued at xx million US dollars in 2019 and is further projected to grow at xx million US dollars through the forecast span till 2026, growing at a CAGR of xx% through the forecast period.

For the convenience of complete analytical review of the Biotechnology/Pharmaceutical Services Outsourcing market, 2019 has been identified as the base year and 2020-24 comprises the forecast period to make accurate estimation about the future growth prospects in the Biotechnology/Pharmaceutical Services Outsourcing market.

Some Major TOC Points: Chapter 1. Report Overview Chapter 2. Global Growth Trends Chapter 3. Market Share by Key Players Chapter 4. Breakdown Data by Type and Application Chapter 5. Market by End Users/Application Chapter 6. COVID-19 Outbreak: Biotechnology/Pharmaceutical Services Outsourcing Industry Impact Chapter 7. Opportunity Analysis in Covid-19 Crisis Chapter 9. Market Driving ForceAnd Many More

Further in the subsequent sections of the report, readers can get an overview and complete picture of all major company players, covering also upstream and downstream market developments such as raw material supply and equipment profiles as well as downstream demand prospects. This Biotechnology/Pharmaceutical Services Outsourcing market report offers report readers with vital details on opportunities, primary stakeholders as well as high potential segments that trigger growth in the Biotechnology/Pharmaceutical Services Outsourcing market.

Do You Have Any Query or Specific Requirement? Ask Our Industry [emailprotected] https://www.orbismarketreports.com/enquiry-before-buying/81558?utm_source=Puja

Target Audience:* Biotechnology/Pharmaceutical Services Outsourcing Manufactures* Traders, Importers, and Exporters* Raw Material Suppliers and Distributors* Research and Consulting Firms* Government and Research Organizations* Associations and Industry Bodies

Customization Service of the Report:-

Orbis Market Reports Analysis gives customization of Reports as you want. This Report will be customized to satisfy all of your necessities. For those who have any query get in contact with our sales staff, who will assure you to get a Report that fits your requirements.

Looking forprovoke fruitful enterprise relationships with you!

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With unfailing market gauging skills, has been excelling in curating tailored business intelligence data across industry verticals. Constantly thriving to expand our skill development, our strength lies in dedicated intellectuals with dynamic problem solving intent, ever willing to mold boundaries to scale heights in market interpretation.

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Hector CostelloSenior Manager Client Engagements4144N Central Expressway,Suite 600, Dallas,Texas 75204, U.S.A.Phone No.: USA: +1 (972)-362-8199 | IND: +91 895 659 5155

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Global Biotechnology/Pharmaceutical Services Outsourcing Market Projected to Reach USD XX.XX billion by 2025- Quantic Group, QuintilesIMS, Parexel...

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OncoSec to Present at the BTIG Virtual Biotechnology Conference 2020 on Tuesday, August 11, 2020 – The Trentonian

Sunday, August 16th, 2020

SAN DIEGO and PENNINGTON, N.J., Aug. 10, 2020 /PRNewswire/ -- OncoSec Medical Incorporated (NASDAQ: ONCS) (the "Company" or "OncoSec"), a company developing late-stage intratumoral cancer immunotherapies, today announced that Daniel J. O'Connor, President and Chief Executive Officer will present at the BTIG Virtual Biotechnology Conference 2020 on Tuesday, August 11, 2020.

The OncoSec presentation will begin at 12:30 PM ET and will available via webcast at https://wsw.com/webcast/btig/oncs/.

In addition, the Company will be available for virtual one-on-one meetings on August 10th and 11th. Interested parties should register for the conference via https://btig.meetmax.com/BTIGBiotech20.

About OncoSec Medical IncorporatedOncoSec Medical Incorporated is a late-stage biotechnology company focused on developing cytokine-based intratumoral immunotherapies to stimulate the body's immune system to target and attack cancer. OncoSec's lead product candidate, TAVO, enables the intratumoral delivery of DNA-based interleukin-12 or IL-12, a naturally occurring protein with immune-stimulating functions. The technology, which employs electroporation, is designed to produce a controlled, localized expression of IL-12 in the tumor microenvironment, enabling the immune system to target and attack tumors throughout the body. OncoSec has built a deep clinical pipeline utilizing TAVO as a potential treatment for multiple cancer indications either as a monotherapy or in combination with leading checkpoint inhibitors. The company is currently evaluating TAVO in combination with the anti-PD-1 checkpoint inhibitor, KEYTRUDA (pembrolizumab), in two KEYNOTE clinical trials, including a pivotal trial in patients with anti-PD-1 checkpoint resistant metastatic melanoma and a phase 2 trial in metastatic triple negative breast cancer. OncoSec is also identifying and developing new DNA-encoded therapeutic candidates and tumor indications for use with its novel Visceral Lesion Applicator designed to target deep internal lesions, such as liver, lung or pancreatic lesions. For more information, please visitwww.oncosec.com.

TAVO is a trademark of OncoSec Medical Incorporated.

KEYTRUDAis a registered trademark of Merck Sharp & Dohme Corp., a subsidiary of Merck & Co., Inc.

Risk Factors and Forward-Looking StatementsThis release, as well as other information provided from time to time by the Company or its employees, may contain forward-looking statements that involve a number of risks and uncertainties that could cause actual results to differ materially from those anticipated in the forward-looking statements. Forward-looking statements provide the Company's current beliefs, expectations and intentions regarding future events and involve risks, uncertainties (some of which are beyond the Company's control) and assumptions. For those statements, we claim the protection of the safe harbor for forward-looking statements contained in the Private Securities Litigation Reform Act of 1995. You can identify forward-looking statements by the fact that they do not relate strictly to historical or current facts. These statements may include words such as "anticipate," "believe," "could," "estimate," "expect," "intend," "may," "plan," "potential," "should," "will" and "would" and similar expressions (including the negative of these terms). Although we believe that expectations reflected in the forward-looking statements are reasonable, we cannot guarantee future results, levels of activity, performance or achievements. The Company intends these forward-looking statements to speak only at the time they are published on or as otherwise specified, and does not undertake to update or revise these statements as more information becomes available, except as required under federal securities laws and the rules and regulations of the Securities Exchange Commission ("SEC"). In particular, you should be aware that the success and timing of our clinical trials, including safety and efficacy of our product candidates, patient accrual, unexpected or expected safety events, the impact of COVID-19 on the supply of our candidates or the initiation or completion of clinical trials and the usability of data generated from our trials may differ and may not meet our estimated timelines. Please refer to the risk factors and other cautionary statements provided in the Company's Annual Report on Form 10-K for the fiscal year ended July 31, 2019 and subsequent periodic and current reports filed with the SEC (each of which can be found at the SEC's websitewww.sec.gov), as well as other factors described from time to time in the Company's filings with the SEC.

Company Contact:Kellie MalloyChief Operating Officer855-662-6732KMalloy@OncoSec.com

Originally posted here:
OncoSec to Present at the BTIG Virtual Biotechnology Conference 2020 on Tuesday, August 11, 2020 - The Trentonian

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BRAIN Biotechnology Research and Information Network : Hessian Minister for Digital Strategy and Development visits BRAIN AG – marketscreener.com

Wednesday, August 12th, 2020

As part of her 'Hessentour - Benefits of Digitalization', Hessian Minister for Digital Strategy and Development Professor Kristina Sinemus visited BRAIN AG in Zwingenberg. The Minister informed herself about the importance and application fields of digitalization in industrial biotechnology.

Scientists from BRAIN AG explained to the Minister the role of digitally-supported analysis of initially unmanageable amounts of data in the field of metagenome analysis - and the identification and characterization of enzymes that can later be used in industrial processes.

Identifying microorganisms and their biomolecules digitally

Scientists at BRAIN described the metagenome as the entire genetic information of all genomes, e.g. in a soil sample, and the microbial diversity it contains. According to the scientists, the acquisition of digital data on microbial diversity (metagenome sequencing), followed by the digital classification of the sequence data (metagenome annotation) and their digital evaluation (comparative analysis) is the only way to process such biodiversity. As an example, they cited the fact that digitalized metagenomics could be used to identify and characterize up to 1010 microorganisms from a single gram of a soil sample. These in turn would provide an enormous variety of new biomolecules, such as proteins and enzymes, for biotechnological application.

Optimization between laboratory bench and database

Once a biomolecule has been digitally identified, it is advisable to create a 'digital variant library' (with more than 105 biomolecules in some cases) and optimize it using bioinformatics. This so-called 'protein engineering' is then checked in analogue laboratory tests, making it possible to optimize an enzyme step by step and under predefined conditions for cyclical applications on an industrial scale.

According to the scientists who held the presentation, this digital optimization process would sometimes involve the use of structural models that predict a digital 3D model from the one-dimensional linear amino acid sequence of an enzyme. These 3D models allowed predictions to be made about 'set screws' with which an enzyme could be improved: for example, the enzyme's temperature or pH optimum could be adapted to industrial processes in this way.

The Minister, herself a qualified biologist, followed the explanations with great interest. In the ensuing dialogue, she wanted to know what benefits this digitalization application would have for people themselves. The scientists at BRAIN explained that the current digital possibilities - particularly in combination with the often cited artificial intelligence - might enable hitherto unknown processes, such as the correct folding of digitally identified enzymes, which could make such efficient predictions based on the wealth of metagenome data that it would be possible to save repeated cycles between laboratory and database. Apart from this practical benefit for the daily work of scientists, society as a whole also benefits from the new digital possibilities, because optimized enzymes can, for example, reduce the energy required in an industrial process or the amount of chemicals needed, thus leading to greater sustainability.

Picture: The Hessian Minister for Digital Strategy and Development Prof. Dr. Kristina Sinemus and Adriaan Moelker, CEO of BRAIN AG, in a laboratory of biotech company BRAIN. BRAIN AG

Disclaimer

BRAIN - Biotechnology Research And Information Network AG published this content on 11 August 2020 and is solely responsible for the information contained therein. Distributed by Public, unedited and unaltered, on 12 August 2020 11:57:01 UTC

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BRAIN Biotechnology Research and Information Network : Hessian Minister for Digital Strategy and Development visits BRAIN AG - marketscreener.com

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OncoSec to Present at the BTIG Virtual Biotechnology Conference 2020 on Tuesday, August 11, 2020 – Yahoo Finance

Wednesday, August 12th, 2020

SAN DIEGO and PENNINGTON, N.J., Aug. 10, 2020 /PRNewswire/ -- OncoSec Medical Incorporated (NASDAQ: ONCS) (the "Company" or "OncoSec"), a company developing late-stage intratumoral cancer immunotherapies, today announced that Daniel J. O'Connor, President and Chief Executive Officer will present at the BTIG Virtual Biotechnology Conference 2020 on Tuesday, August 11, 2020.

The OncoSec presentation will begin at 12:30 PM ET and will available via webcast at https://wsw.com/webcast/btig/oncs/.

In addition, the Company will be available for virtual one-on-one meetings on August 10th and 11th. Interested parties should register for the conference via https://btig.meetmax.com/BTIGBiotech20.

About OncoSec Medical IncorporatedOncoSec Medical Incorporated is a late-stage biotechnology company focused on developing cytokine-based intratumoral immunotherapies to stimulate the body's immune system to target and attack cancer. OncoSec's lead product candidate, TAVO, enables the intratumoral delivery of DNA-based interleukin-12 or IL-12, a naturally occurring protein with immune-stimulating functions. The technology, which employs electroporation, is designed to produce a controlled, localized expression of IL-12 in the tumor microenvironment, enabling the immune system to target and attack tumors throughout the body. OncoSec has built a deep clinical pipeline utilizing TAVO as a potential treatment for multiple cancer indications either as a monotherapy or in combination with leading checkpoint inhibitors. The company is currently evaluating TAVO in combination with the anti-PD-1 checkpoint inhibitor, KEYTRUDA (pembrolizumab), in two KEYNOTE clinical trials, including a pivotal trial in patients with anti-PD-1 checkpoint resistant metastatic melanoma and a phase 2 trial in metastatic triple negative breast cancer. OncoSec is also identifying and developing new DNA-encoded therapeutic candidates and tumor indications for use with its novel Visceral Lesion Applicator designed to target deep internal lesions, such as liver, lung or pancreatic lesions. For more information, please visit http://www.oncosec.com.

TAVO is a trademark of OncoSec Medical Incorporated.

KEYTRUDAis a registered trademark of Merck Sharp & Dohme Corp., a subsidiary of Merck & Co., Inc.

Risk Factors and Forward-Looking StatementsThis release, as well as other information provided from time to time by the Company or its employees, may contain forward-looking statements that involve a number of risks and uncertainties that could cause actual results to differ materially from those anticipated in the forward-looking statements. Forward-looking statements provide the Company's current beliefs, expectations and intentions regarding future events and involve risks, uncertainties (some of which are beyond the Company's control) and assumptions. For those statements, we claim the protection of the safe harbor for forward-looking statements contained in the Private Securities Litigation Reform Act of 1995. You can identify forward-looking statements by the fact that they do not relate strictly to historical or current facts. These statements may include words such as "anticipate," "believe," "could," "estimate," "expect," "intend," "may," "plan," "potential," "should," "will" and "would" and similar expressions (including the negative of these terms). Although we believe that expectations reflected in the forward-looking statements are reasonable, we cannot guarantee future results, levels of activity, performance or achievements. The Company intends these forward-looking statements to speak only at the time they are published on or as otherwise specified, and does not undertake to update or revise these statements as more information becomes available, except as required under federal securities laws and the rules and regulations of the Securities Exchange Commission ("SEC"). In particular, you should be aware that the success and timing of our clinical trials, including safety and efficacy of our product candidates, patient accrual, unexpected or expected safety events, the impact of COVID-19 on the supply of our candidates or the initiation or completion of clinical trials and the usability of data generated from our trials may differ and may not meet our estimated timelines. Please refer to the risk factors and other cautionary statements provided in the Company's Annual Report on Form 10-K for the fiscal year ended July 31, 2019 and subsequent periodic and current reports filed with the SEC (each of which can be found at the SEC's websitewww.sec.gov), as well as other factors described from time to time in the Company's filings with the SEC.

Story continues

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OncoSec to Present at the BTIG Virtual Biotechnology Conference 2020 on Tuesday, August 11, 2020 - Yahoo Finance

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Industrial Biotechnology Market Insights Business Opportunities, Current Trends And Restraints Forecast 2026 | Reports And Data – Levee Report

Wednesday, August 12th, 2020

The Global Industrial Biotechnology Market Research Report methodically describes every component of the market and assists the reader in evaluating the current and future market trends and formulate business expansion strategies. The key growth trends and opportunities are offered through a comprehensive investigation and examination of the market. A detailed course of development is provided in the report, along with insights into businesses connected with it, which include firms, industries, organizations, vendors, and local manufacturers. Better products and services to gain global and regional market share form the competitive landscape of the industry.

The report is studied with reference to the current COVID-19 pandemic. The pandemic has impacted several segments of the market on both the global and regional levels. The market report comprises of extensive research done on the current and in the post-COVID-19 scenario for the market. The study covers the present and future impact of the COVID-19 crisis on the market.

Get a sample of the report @ https://www.reportsanddata.com/sample-enquiry-form/1338

The report provides an in-depth analysis of the competitive landscape and covers profiles of key players, along with their product portfolios and business strategies.

Key players of the market mentioned in the report are:

BASF, Amyris, Borregaard, BioAmber, Codexis, Evolva, Fermentalg, Gevo, Global Bioenergies, Deinove, Metabolic Explorer, Novozymes, and Solazyme

The global Industrial Biotechnology market has been exponentially growing on a global scale. The upstream raw materials, increase in the population, expanding regions, demand and supply, and advancements in technologies have contributed to the increasing growth figures. Various analytical tools like SWOT analysis, Porters Five Forces analysis, and others are implemented in the study to provide a deeper analysis of the market and its competitive landscape. Furthermore, the report covers market history, changing scenarios, demand and supply, manufacturing, production and consumption ratio, and technological developments.

The report further studies the segmentation of the market based on product types offered in the market and their end-use/applications.

Type Outlook (Revenue, USD Million; 2016-2026)

Raw Material Outlook (Revenue, USD Million; 2016-2026)

Application Outlook (Revenue, USD Million; 2016-2026)

Request customization of the report @ https://www.reportsanddata.com/request-customization-form/1338

Regional bifurcation mentioned in the Industrial Biotechnology market report:

Focal Points of the Reports TOC:

Request a discount on the report @ https://www.reportsanddata.com/discount-enquiry-form/1338

Key objectives of the Industrial Biotechnology research report:

To get the Report Description and TOC, visit @ https://www.reportsanddata.com/report-detail/industrial-biotechnology-market

Thank you for reading our report. For more details on customization, please reach out to us. Our team will ensure the report is tailored as per your requirements.

David is an Experience Business writer who regularly contributes to the blog, He specializes in manufacturing news

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Industrial Biotechnology Market Insights Business Opportunities, Current Trends And Restraints Forecast 2026 | Reports And Data - Levee Report

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Is Ligand Pharmaceuticals Inc. (LGND) the Top Pick in the Biotechnology Industry? – InvestorsObserver

Wednesday, August 12th, 2020

Ligand Pharmaceuticals Inc. (LGND) is around the top of the Biotechnology industry according to InvestorsObserver. LGND received an overall rating of 77, which means that it scores higher than 77 percent of all stocks. Ligand Pharmaceuticals Inc. also achieved a score of 90 in the Biotechnology industry, putting it above 90 percent of Biotechnology stocks. Biotechnology is ranked 16 out of the 148 industries.

Finding the best stocks can be tricky. It isnt easy to compare companies across industries. Even companies that have relatively similar businesses can be tricky to compare sometimes. InvestorsObservers tools allow a top-down approach that lets you pick a metric, find the top sector and industry and then find the top stocks in that sector.

Our proprietary scoring system captures technical factors, fundamental analysis and the opinions of analysts on Wall Street. This makes InvestorsObservers overall rating a great way to get started, regardless of your investing style. Percentile-ranked scores are also easy to understand. A score of 100 is the top and a 0 is the bottom. Theres no need to try to remember what is good for a bunch of complicated ratios, just pay attention to which numbers are the highest.

Ligand Pharmaceuticals Inc. (LGND) stock is lower by -3.25% while the S&P 500 is up 1.19% as of 1:47 PM on Wednesday, Aug 12. LGND is down -$3.64 from the previous closing price of $111.90 on volume of 172,921 shares. Over the past year the S&P 500 has risen 15.28% while LGND is up 15.11%. LGND lost -$1.38 per share the over the last 12 months.

To see InvestorsObserver's Sentiment Score for Ligand Pharmaceuticals Inc. click here.

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Is Ligand Pharmaceuticals Inc. (LGND) the Top Pick in the Biotechnology Industry? - InvestorsObserver

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Is Avid Bioservices Inc (CDMO) a Winner in the Biotechnology Industry? – InvestorsObserver

Wednesday, August 12th, 2020

Avid Bioservices Inc (CDMO) is near the top in its industry group according to InvestorsObserver. CDMO gets an overall rating of 68. That means it scores higher than 68 percent of stocks. Avid Bioservices Inc gets a 80 rank in the Biotechnology industry. Biotechnology is number 16 out of 148 industries.

Searching for the best stocks to invest in can be difficult. There are thousands of options and it can be confusing on what actually constitutes a great value. Investors Observer allows you to choose from eight unique metrics to view the top industries and the best performing stocks in that industry. A score of 68 would rank higher than 68 percent of all stocks.

These scores are not only easy to understand, but it is easy to compare stocks to each other. You can find the best stock in an industry, or look for the sector that has the highest average score. The overall score is a combination of technical and fundamental factors that serves as a good starting point when analyzing a stock. Traders and investors with different goals may have different goals and will want to consider other factors than just the headline number before making any investment decisions.

Avid Bioservices Inc (CDMO) stock is trading at $8.05 as of 2:32 PM on Wednesday, Aug 12, a gain of $0.35, or 4.55% from the previous closing price of $7.70. The stock has traded between $7.72 and $8.37 so far today. Volume today is 390,347 compared to average volume of 464,260.

To screen for more stocks like CDMO click here.

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Is Avid Bioservices Inc (CDMO) a Winner in the Biotechnology Industry? - InvestorsObserver

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