Function and evolution of repeated DNA sequences / coordinated by Guy-Franck Richard.
Contributor(s): Richard, Guy-Franck [editor.]
Language: English Series: Biology. Genetics, epigenetics: Publisher: London, UK : Hoboken, NJ : ISTE, Ltd. ; Wiley, 2023Description: 1 online resource (400 pages)Content type: text Media type: computer Carrier type: online resourceISBN: 9781789451191 ; 9781394264902; 1394264909Subject(s): Nucleotide sequenceGenre/Form: Electronic books.DDC classification: 572.8/633 LOC classification: QP625.N89Online resources: Full text is available at Wiley Online Library Click here to view Summary: The genome of a living being is composed of DNA sequences with diverse origins. Beyond single-copy genes, whose product has a biological function that can be inferred by experimentation, certain DNA sequences, present in a large number of copies, escape the most refined approaches aimed at elucidating their precise role. The existence of what 20th century geneticists had already perceived (and wrongly described as "junk DNA"!) was confirmed by the sequencing of the first complex genomes, including that of Homo sapiens. A large part of what defines a living thing is not unique, but repeated, sometimes a very large number of times, increasing in complexity with successive duplications and multiplication. Understanding and defining the many functions of this myriad of repeated sequences, as well as their evolution through natural selection, has become one of the major challenges for 21st century genomics.| Item type | Current location | Home library | Call number | Status | Date due | Barcode | Item holds |
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COLLEGE LIBRARY | COLLEGE LIBRARY | 572.8633 F9622 2023 (Browse shelf) | Available |
The genome of a living being is composed of DNA sequences with diverse origins. Beyond single-copy genes, whose product has a biological function that can be inferred by experimentation, certain DNA sequences, present in a large number of copies, escape the most refined approaches aimed at elucidating their precise role. The existence of what 20th century geneticists had already perceived (and wrongly described as "junk DNA"!) was confirmed by the sequencing of the first complex genomes, including that of Homo sapiens. A large part of what defines a living thing is not unique, but repeated, sometimes a very large number of times, increasing in complexity with successive duplications and multiplication. Understanding and defining the many functions of this myriad of repeated sequences, as well as their evolution through natural selection, has become one of the major challenges for 21st century genomics.
About the Author
Guy-Franck Richard is a research director at Institut Pasteur, France. He also leads a team within the CNRS unit Génétique des génomes. His research focuses on the stability and evolution of repeated DNA sequences in eukaryotic organisms.
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