Advances in genome sequencing reveal changes in gene content that contribute to arthropod macroevolution

Current sequencing technology allows for the relatively affordable generation of highly contiguous genomes. Technological advances have made it possible for researchers to investigate the consequences of diverse sorts of genomic variants, such as gene gain and loss. With the extraordinary number of...

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Published in	Development Genes and Evolution Vol. 233; no. 2; pp. 59 - 76
Main Authors	Cheatle Jarvela, Alys M., Wexler, Judith R.
Format	Journal Article
Language	English
Published	Berlin/Heidelberg Springer Berlin Heidelberg 01.12.2023 Springer Nature B.V
Subjects	20th century Animal Genetics and Genomics Arthropods Biomedical and Life Sciences Cell Biology Developmental Biology evolution Evolution & development Evolutionary Biology Evolutionary genetics Explosions Genes Genetics Genomes Genomics Insects Life Sciences Macroevolution Organisms phenotype phenotypic variation Phylogenetics Plant Genetics and Genomics Researchers Review Whole genome sequencing Zoology Gene loss Macroevolution Supergenes Genomics Arthropods Gene duplication Lineage-specific genes Horizontal gene transfer
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ISSN	0949-944X 3059-3239 1432-041X 1432-041X 3059-3247
DOI	10.1007/s00427-023-00712-y

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Abstract	Current sequencing technology allows for the relatively affordable generation of highly contiguous genomes. Technological advances have made it possible for researchers to investigate the consequences of diverse sorts of genomic variants, such as gene gain and loss. With the extraordinary number of high-quality genomes now available, we take stock of how these genomic variants impact phenotypic evolution. We take care to point out that the identification of genomic variants of interest is only the first step in understanding their impact. Painstaking lab or fieldwork is still required to establish causal relationships between genomic variants and phenotypic evolution. We focus mostly on arthropod research, as this phylum has an impressive degree of phenotypic diversity and is also the subject of much evolutionary genetics research. This article is intended to both highlight recent advances in the field and also to be a primer for learning about evolutionary genetics and genomics.
AbstractList	Current sequencing technology allows for the relatively affordable generation of highly contiguous genomes. Technological advances have made it possible for researchers to investigate the consequences of diverse sorts of genomic variants, such as gene gain and loss. With the extraordinary number of high-quality genomes now available, we take stock of how these genomic variants impact phenotypic evolution. We take care to point out that the identification of genomic variants of interest is only the first step in understanding their impact. Painstaking lab or fieldwork is still required to establish causal relationships between genomic variants and phenotypic evolution. We focus mostly on arthropod research, as this phylum has an impressive degree of phenotypic diversity and is also the subject of much evolutionary genetics research. This article is intended to both highlight recent advances in the field and also to be a primer for learning about evolutionary genetics and genomics. Current sequencing technology allows for the relatively affordable generation of highly contiguous genomes. Technological advances have made it possible for researchers to investigate the consequences of diverse sorts of genomic variants, such as gene gain and loss. With the extraordinary number of high-quality genomes now available, we take stock of how these genomic variants impact phenotypic evolution. We take care to point out that the identification of genomic variants of interest is only the first step in understanding their impact. Painstaking lab or fieldwork is still required to establish causal relationships between genomic variants and phenotypic evolution. We focus mostly on arthropod research, as this phylum has an impressive degree of phenotypic diversity and is also the subject of much evolutionary genetics research. This article is intended to both highlight recent advances in the field and also to be a primer for learning about evolutionary genetics and genomics.Current sequencing technology allows for the relatively affordable generation of highly contiguous genomes. Technological advances have made it possible for researchers to investigate the consequences of diverse sorts of genomic variants, such as gene gain and loss. With the extraordinary number of high-quality genomes now available, we take stock of how these genomic variants impact phenotypic evolution. We take care to point out that the identification of genomic variants of interest is only the first step in understanding their impact. Painstaking lab or fieldwork is still required to establish causal relationships between genomic variants and phenotypic evolution. We focus mostly on arthropod research, as this phylum has an impressive degree of phenotypic diversity and is also the subject of much evolutionary genetics research. This article is intended to both highlight recent advances in the field and also to be a primer for learning about evolutionary genetics and genomics.
Author	Cheatle Jarvela, Alys M. Wexler, Judith R.
Author_xml	– sequence: 1 givenname: Alys M. surname: Cheatle Jarvela fullname: Cheatle Jarvela, Alys M. email: jarvelaa@hhmi.org organization: Department of Entomology, University of Maryland, HHMI Janelia Research Campus – sequence: 2 givenname: Judith R. surname: Wexler fullname: Wexler, Judith R. email: judith.wexler@mail.huji.ac.il organization: Department of Ecology, Evolution, and Behavior, The Hebrew University in Jerusalem
BackLink	https://www.ncbi.nlm.nih.gov/pubmed/37982820$$D View this record in MEDLINE/PubMed
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Keywords	Gene loss Macroevolution Supergenes Genomics Arthropods Gene duplication Lineage-specific genes Horizontal gene transfer
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Snippet	Current sequencing technology allows for the relatively affordable generation of highly contiguous genomes. Technological advances have made it possible for...
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SubjectTerms	20th century Animal Genetics and Genomics Arthropods Biomedical and Life Sciences Cell Biology Developmental Biology evolution Evolution & development Evolutionary Biology Evolutionary genetics Explosions Genes Genetics Genomes Genomics Insects Life Sciences Macroevolution Organisms phenotype phenotypic variation Phylogenetics Plant Genetics and Genomics Researchers Review Whole genome sequencing Zoology
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Title	Advances in genome sequencing reveal changes in gene content that contribute to arthropod macroevolution
URI	https://link.springer.com/article/10.1007/s00427-023-00712-y https://www.ncbi.nlm.nih.gov/pubmed/37982820 https://www.proquest.com/docview/2904771203 https://www.proquest.com/docview/2892010531 https://www.proquest.com/docview/3153548237
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