CLEMSON, South Carolina Just as there is a mysterious dark matter that accounts for 85 percent of our universe, there is a dark portion of the human genome that has perplexed scientists for decades. A study published March 9, 2020, in Genome Research identifies new portions of the fruit fly genome that, until now, have been hidden in these dark, silent areas.
The collaborative paper titled Gene Expression Networks in the Drosophila Genetic Reference Panel is the culmination of years of research by Clemson University geneticists Trudy Mackay and Robert Anholt. Their groundbreaking findings could significantly advance sciences understanding of a number of genetic disorders.
Robert Anholt (left) and Trudy Mackay in their lab at the Clemson Center for Human Genetics.Image Credit: Robert Bradley, College of Science
The dark portion refers to the approximate 98 percent of the genome that doesnt appear to have any obvious function. Only 2 percent of the human genome codes for proteins, the building blocks of our bodies and the catalysts of the chemical reactions that allow us to thrive. Scientists have been puzzled by this notion since the 1970s when gene sequencing technologies were first developed, revealing the proportion of coding to noncoding regions of the genome.
Genes are traditionally thought to be transcribed into RNAs, which are subsequently translated into proteins, as dictated by the central dogma of molecular biology. However, the entire assemblage of RNA transcripts in the genome, called the transcriptome, contains RNA species that appear to have some other function, apart from coding for proteins. Some have proposed that noncoding regions might contain regulatory regions that control gene expression and the structure of chromosomes, yet these hypotheses were difficult to study in past years as diagnostic technology was developing.
Only in recent years, with the sequencing of the entire transcriptome complete, have we realized how many RNA species are actually present. So, that raises the whole new question: if they arent making the proteins the work horses of the cell then what are they doing? said Mackay, director of Clemson Universitys Center for Human Genetics (CHG), which is part of the College of Science.
For Mackay and Anholt, also of the CHG, these human genetics questions can be probed by studying the common fruit fly, Drosophila melanogaster. Because many genes are conserved between humans and fruit flies, findings revealed by analyzing the Drosophila genome can be extrapolated to human health and disease.
Mackay and Anholts former postdoctoral researchers, Logan Everett and Wen Huang, led the charge on this latest research, which identified more than 4,500 new transcripts in Drosophila that have never been uncovered before. Referred to by the researchers as novel transcribed regions, these 4,500 transcripts consist primarily of noncoding RNAs that appear to be involved in regulating networks of genes and that could contribute to genetic disorders.
Most disease-causing mutations are known to occur in the protein-coding portion of the genome, known as the exome, but when youre only sequencing the exome, you miss other disease-related factors in other parts of the genome, such as these long noncoding RNAs, said Anholt, Provosts Distinguished Professor of Genetics and Biochemistry at Clemson University. Now that the cost of whole genome sequencing has gone down considerably, and we have the capability of sequencing whole genomes rapidly, we can look at elements of the genome that have traditionally been considered unimportant, and we can identify among them potential disease-causing elements that have never been seen before.
By probing several hundred inbred Drosophila fly lines, each containing individuals that are virtually genetically identical, the researchers discovered that many of the novel long noncoding RNAs regulate genes in heterochromatin, a tightly packed form of DNA in the genome that is usually considered silent. Because heterochromatin is so condensed, it was thought to be inaccessible to the molecular machinery that transcribes DNA into RNA. Thus, any genes contained within heterochromatin are kept off, silent and unexpressed or are they?
What we think is that the repression of gene expression in heterochromatin is somewhat leaky, and that there is variation in how those genes are repressed, Mackay said. The network of RNAs weve discovered may have to do with actually regulating chromatin state.
These noncoding RNAs may play an important role in opening up such regions of the genome for expression of genes in a way that varies among different individuals depending on their genetic background, Anholt added.
Trudy Mackay and Robert Anholt address human genetics questions by studying the common fruit fly, Drosophila melanogaster, because many genes are conserved between humans and fruit flies, meaning research results can be extrapolated to human health and disease.Image Credit: College of Science
Another outcome of the study is the expression of jumping genes, known as transposons, that are pieces of DNA able to move around the genome. As transposons cut and paste into other genes, they may cause genome instability that leads to cancer, neurodegenerative disorders and other diseases. These transposons were also located in heterochromatin, but the identification of transcripts of these transposons shows that they are actually being expressed, despite residing in a usually silent portion of the genome. Identifying regulators of transposable elements, as the researchers found among these 4,500 novel transcribed regions, could prove useful in treating disorders that stem from transposon interference.
Overall, the study lends toward a greater understanding of gene regulatory networks that contribute to human health and disease.
These observations open up an entirely new area of biology that hasnt been explored and has unlimited potential for future follow-up, Anholt said.
The teams own follow-up studies are using CRISPR gene editing technology to uncover what happens when genes revealed by this study are altered or deleted from the Drosophila genome. If the expression of other genes is altered by knocking one out, important conclusions can be drawn about the role that deleted gene plays in development or progression of disease.
Everett, one of the lead authors on the Genome Research publication, is now a bioinformatics scientist at the U.S. Environmental Protection Agency. Wen Huang is an assistant professor in the Department of Animal Science at Michigan State University.
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The study was supported by the National Institutes of Health under grant numbers R01-AA016560, R01-AG043490 and U01- DA041613. Additional support was provided by The Danish Council for Strategic Research. The researchers are wholly responsible for the content of this study, of which the funders had no input.
Originally posted here:
Clemson geneticists' collaborative research sheds light on 'dark' portion of genome - Clemson Newsstand
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