Evolution of the rodent eosinophil-associated RNase gene family by rapid gene sorting and positive selection.
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TLDR
The striking similarity between the evolutionary patterns of the EAR genes and those of the major histocompatibility complex, immunoglobulin, and T cell receptor genes stands in strong support of the hypothesis that host-defense and generation of diversity are among the primary physiological function of the rodent EARs.Abstract:
The mammalian RNase A superfamily comprises a diverse array of ribonucleolytic proteins that have a variety of biochemical activities and physiological functions Two rapidly evolving RNases of higher primates are of particular interest as they are major secretory proteins of eosinophilic leukocytes and have been found to possess anti-pathogen activities in vitro To understand how these RNases acquired this function during evolution and to develop animal models for the study of their functions in vivo, it is necessary to investigate these genes in many species Here, we report the sequences of 38 functional genes and 23 pseudogenes of the eosinophil-associated RNase (EAR) family from 5 rodent species Our phylogenetic analysis of these genes showed a clear pattern of evolution by a rapid birth-and-death process and gene sorting, a process characterized by rapid gene duplication and deactivation occurring differentially among lineages This process ultimately generates distinct or only partially overlapping inventories of the genes, even in closely related species Positive Darwinian selection also contributed to the diversification of these EAR genes The striking similarity between the evolutionary patterns of the EAR genes and those of the major histocompatibility complex, immunoglobulin, and T cell receptor genes stands in strong support of the hypothesis that host-defense and generation of diversity are among the primary physiological function of the rodent EARs The discovery of a large number of divergent EARs suggests the intriguing possibility that these proteins have been specifically tailored to fight against distinct rodent pathogensread more
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Initial sequencing and analysis of the human genome.
Eric S. Lander,Lauren Linton,Bruce W. Birren,Chad Nusbaum,Michael C. Zody,Jennifer Baldwin,Keri Devon,Ken Dewar,Michael Doyle,William Fitzhugh,Roel Funke,Diane Gage,Katrina Harris,Andrew Heaford,John Howland,Lisa Kann,Jessica A. Lehoczky,Rosie Levine,Paul A. McEwan,Kevin McKernan,James Meldrim,Jill P. Mesirov,Cher Miranda,William Morris,Jerome Naylor,Christina Raymond,Mark Rosetti,Ralph Santos,Andrew Sheridan,Carrie Sougnez,Nicole Stange-Thomann,Nikola Stojanovic,Aravind Subramanian,Dudley Wyman,Jane Rogers,John Sulston,R Ainscough,Stephan Beck,David Bentley,John Burton,C M Clee,Nigel P. Carter,Alan Coulson,Rebecca Deadman,Panos Deloukas,Andrew Dunham,Ian Dunham,Richard Durbin,Lisa French,Darren Grafham,Simon G. Gregory,Tim Hubbard,Sean Humphray,Adrienne Hunt,Matthew Jones,Christine Lloyd,Amanda McMurray,Lucy Matthews,Simon Mercer,Sarah Milne,James C. Mullikin,Andrew J. Mungall,Robert W. Plumb,Mark T. Ross,Ratna Shownkeen,Sarah Sims,Robert H. Waterston,Richard K. Wilson,LaDeana W. Hillier,John Douglas Mcpherson,Marco A. Marra,Elaine R. Mardis,Lucinda Fulton,Asif T. Chinwalla,Kymberlie H. Pepin,Warren Gish,Stephanie L. Chissoe,Michael C. Wendl,Kim D. Delehaunty,Tracie L. Miner,Andrew Delehaunty,Jason B. Kramer,Lisa Cook,Robert S. Fulton,Douglas L. Johnson,Patrick Minx,Sandra W. Clifton,Trevor Hawkins,Elbert Branscomb,Paul Predki,Paul G. Richardson,Sarah Wenning,Tom Slezak,Norman A. Doggett,Jan Fang Cheng,Anne S. Olsen,Susan Lucas,Christopher J. Elkin,Edward Uberbacher,Marvin Frazier,Richard A. Gibbs,Donna M. Muzny,Steven E. Scherer,John Bouck,Erica Sodergren,Kim C. Worley,Catherine M. Rives,James H. Gorrell,Michael L. Metzker,Susan L. Naylor,Raju Kucherlapati,David L. Nelson,George M. Weinstock,Yoshiyuki Sakaki,Asao Fujiyama,Masahira Hattori,Tetsushi Yada,Atsushi Toyoda,Takehiko Itoh,Chiharu Kawagoe,Hidemi Watanabe,Yasushi Totoki,Todd D. Taylor,Jean Weissenbach,Roland Heilig,William Saurin,François Artiguenave,Philippe Brottier,Thomas Brüls,Eric Pelletier,Catherine Robert,Patrick Wincker,André Rosenthal,Matthias Platzer,Gerald Nyakatura,Stefan Taudien,Andreas Rump,Douglas R. Smith,Lynn Doucette-Stamm,Marc Rubenfield,Keith Weinstock,Mei Lee Hong,Joann Dubois,Huanming Yang,Jun Yu,Jian Wang,Guyang Huang,Jun Gu,Leroy Hood,Lee Rowen,Anup Madan,Shizen Qin,Ronald W. Davis,Nancy A. Federspiel,A. Pia Abola,Michael Proctor,Bruce A. Roe,Feng Chen,Huaqin Pan,Juliane Ramser,Hans Lehrach,Richard Reinhardt,W. Richard McCombie,Melissa De La Bastide,Neilay Dedhia,H. Blöcker,K. Hornischer,Gabriele Nordsiek,Richa Agarwala,L. Aravind,Jeffrey A. Bailey,Alex Bateman,Serafim Batzoglou,Ewan Birney,Peer Bork,Daniel G. Brown,Christopher B. Burge,Lorenzo Cerutti,Hsiu Chuan Chen,Deanna M. Church,Michele Clamp,Richard R. Copley,Tobias Doerks,Sean R. Eddy,Evan E. Eichler,Terrence S. Furey,James E. Galagan,James G. R. Gilbert,Cyrus L. Harmon,Yoshihide Hayashizaki,David Haussler,Henning Hermjakob,Karsten Hokamp,Wonhee Jang,L. Steven Johnson,Thomas A. Jones,Simon Kasif,Arek Kaspryzk,Scot Kennedy,W. James Kent,Paul Kitts,Eugene V. Koonin,Ian F Korf,David Kulp,Doron Lancet,Todd M. Lowe,Aoife McLysaght,Tarjei S. Mikkelsen,John V. Moran,Nicola Mulder,Victor J. Pollara,Chris P. Ponting,Greg Schuler,Jörg Schultz,Guy Slater,Arian F.A. Smit,Elia Stupka,Joseph Szustakowki,Danielle Thierry-Mieg,Jean Thierry-Mieg,Lukas Wagner,John W. Wallis,Raymond Wheeler,Alan Williams,Yuri I. Wolf,Kenneth H. Wolfe,Shiaw Pyng Yang,Ru Fang Yeh,Francis S. Collins,Mark S. Guyer,Jane Peterson,Adam Felsenfeld,Kris A. Wetterstrand,Richard M. Myers,Jeremy Schmutz,Mark Dickson,Jane Grimwood,David R. Cox,Maynard V. Olson,Rajinder Kaul,Christopher K. Raymond,Nobuyoshi Shimizu,Kazuhiko Kawasaki,Shinsei Minoshima,Glen A. Evans,Maria Athanasiou,Roger A. Schultz,Aristides Patrinos,Michael J. Morgan +248 more
TL;DR: The results of an international collaboration to produce and make freely available a draft sequence of the human genome are reported and an initial analysis is presented, describing some of the insights that can be gleaned from the sequence.
Journal ArticleDOI
Initial sequencing and comparative analysis of the mouse genome.
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TL;DR: The results of an international collaboration to produce a high-quality draft sequence of the mouse genome are reported and an initial comparative analysis of the Mouse and human genomes is presented, describing some of the insights that can be gleaned from the two sequences.
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Evolution by gene duplication: an update
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Concerted and birth-and-death evolution of multigene families.
TL;DR: Until around 1990, most multigene families were thought to be subject to concerted evolution, in which all member genes of a family evolve as a unit in concert, but phylogenetic analysis of MHC and other immune system genes showed a quite different evolutionary pattern, and a new model called birth-and-death evolution was proposed.
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Eosinophil granule proteins: form and function.
TL;DR: Key molecular aspects of these eosinophil-derived granule proteins in terms of structure-function relationships are reviewed to advance understanding of their roles in eos inophil cell biology, molecular biology, and immunobiology in health and disease.
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