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Scientists Report the Full Assembly of Human Chromosome 8
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Scientists Report the Full Assembly of Human Chromosome 8

Scientists Report the Full Assembly of Human Chromosome 8
News

Scientists Report the Full Assembly of Human Chromosome 8

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The full assembly of human chromosome 8 is reported this week in Nature.  While on the outside this chromosome looks typical, being neither short nor long or distinctive, its DNA content and arrangement are of interest in primate and human evolution, in several immune and developmental disorders, and in chromosome sequencing structure and function generally.

This linear assembly is a first for a human autosome – a chromosome not involved in sex determination. The entire sequence of chromosome 8 is 146,259,671 bases. The completed assembly fills in the gap of more than 3 million bases missing from the current reference genome. 

The Nature paper is titled "The structure, function and evolution of a complete chromosome 8."

One of several intriguing characteristics of chromosome 8 is a fast-evolving region, where the mutation rate appears to be highly accelerated in humans and human-like species, in contrast to the rest of the human genome.

While chromosome 8 offers some insights into evolution and human biology, the researchers point out that the complete assembly of all human chromosomes would be necessary to acquire a fuller picture.

An international team of scientists collaborated on the chromosome 8 assembly and analysis.  The lead author of the paper is Glennis Logsdon, a postdoctoral fellow in genome sciences at the University of Washington School of Medicine in Seattle. The senior author is Evan Eichler, professor of genome sciences at the UW School of Medicine and a Howard Hughes Medical Institute investigator. His group is noted for developing better methods for sequencing DNA and for analyzing mutational trends that may be important in research on primate evolution and neurological disorders.

In addition to the human chromosome 8 assembly, the project researchers also created high quality draft assemblies of the linking site at the waist of the chromosome, the centromere, in the chimpanzee, orangutan and macaque.  The data allowed the scientists to begin to chart the evolutionary history of the chromosome 8 centromere over the past 25 million years.

Almost like inspecting the depths of a geological site, the researchers observed, on a molecular scale, a layered, mirrored symmetry in how this centromere structure evolved from great ape ancestors. More ancient parts were pushed to the periphery, similar to making room for new material in the middle of a factory production line.

Other research institutions involved in the chromosome 8 assembly project include the Development Therapeutics Branch of the National Cancer Institute, the Genome Informatics Section of the National Human Genome Research Institute, the University of Bari, Italy; the Center for Algorithmic Biology at St. Petersburg State University, Russia; University of California, San Diego, Washington University in St. Louis, Howard Hughes Medical Institute, University of Pittsburgh, and the University of California, Santa Cruz.  Data were also generated with Oxford Nanopore Technologies and Pacific Biosciences long-read sequencing to resolve gaps in the telomere-to-telomere, or end-to-end, assembly of the chromosome.

Earlier research by a number of scientists had pointed to regions of chromosome 8 as being important both in the normal formation of the brain, as well as to some developmental variations, such as small head size or skull and facial differences.  Mutations on this chromosome have also been implicated in some heart defects, certain forms of cancer, premature aging syndromes, immune responses, and immune disorders like psoriasis and Crohn’s disease.

However, the full sequencing of this and most other human chromosomes could not be attempted until recently because the technology and methods to wade through large areas of duplication and identical repeats had not become available. Putting together the puzzle accurately from short reads of DNA, for instance, would have been extremely difficult.

The chromosome 8 assembly achievement benefited from advances in long-read technologies, as well as from the availability of DNA material from hydatidiform moles. These are rare, abnormal growths in the placenta. The full sequencing of chromosome 8, for example, now provides information that might improve understanding of what predisposes specific parts of the chromosome’s DNA to microdeletions suspected in certain forms of developmental delay, brain and heart malformations, and autoimmune problems.

The researchers were also able to obtain more information on a part of chromosome 8 that contains some of the greatest copy-number variability among people.  The repeat unit can vary from 53 to 326 copies.

With the chromosome 8 assembly finished, researchers look forward to the world scientific community completing other human chromosome assemblies, and to new challenges in applying what has been learned to further studies of human genome sequencing.

Reference: Logsdon GA, Vollger MR, Hsieh P, et al. The structure, function and evolution of a complete human chromosome 8. Nature. 2021:1-7. doi: 10.1038/s41586-021-03420-7

This article has been republished from the following materials. Note: material may have been edited for length and content. For further information, please contact the cited source.

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