Literature DB >> 17634225

Effects of recombination rate on human endogenous retrovirus fixation and persistence.

Aris Katzourakis1, Vini Pereira, Michael Tristem.   

Abstract

Endogenous retroviruses (ERVs) result from germ line infections by exogenous retroviruses. They can proliferate within the genome of their host species until they are either inactivated by mutation or removed by recombinational deletion. ERVs belong to a diverse group of mobile genetic elements collectively termed transposable elements (TEs). Numerous studies have attempted to elucidate the factors determining the genomic distribution and persistence of TEs. Here we show that, within humans, gene density and not recombination rate correlates with fixation of endogenous retroviruses, whereas the local recombination rate determines their persistence in a full-length state. Recombination does not appear to influence fixation either via the ectopic exchange model or by indirect models based on the efficacy of selection. We propose a model linking rates of meiotic recombination to the probability of recombinational deletion to explain the effect of recombination rate on persistence. Chromosomes 19 and Y are exceptions, possessing more elements than other regions, and we suggest this is due to low gene density and elevated rates of human ERV integration in males for chromosome Y and segmental duplication for chromosome 19.

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Year:  2007        PMID: 17634225      PMCID: PMC2045447          DOI: 10.1128/JVI.00410-07

Source DB:  PubMed          Journal:  J Virol        ISSN: 0022-538X            Impact factor:   5.103


  48 in total

1.  Initial sequencing and analysis of the human genome.

Authors:  E S Lander; L M Linton; B Birren; C Nusbaum; M C Zody; J Baldwin; K Devon; K Dewar; M Doyle; W FitzHugh; R Funke; D Gage; K Harris; A Heaford; J Howland; L Kann; J Lehoczky; R LeVine; P McEwan; K McKernan; J Meldrim; J P Mesirov; C Miranda; W Morris; J Naylor; C Raymond; M Rosetti; R Santos; A Sheridan; C Sougnez; Y Stange-Thomann; N Stojanovic; A Subramanian; D Wyman; J Rogers; J Sulston; R Ainscough; S Beck; D Bentley; J Burton; C Clee; N Carter; A Coulson; R Deadman; P Deloukas; A Dunham; I Dunham; R Durbin; L French; D Grafham; S Gregory; T Hubbard; S Humphray; A Hunt; M Jones; C Lloyd; A McMurray; L Matthews; S Mercer; S Milne; J C Mullikin; A Mungall; R Plumb; M Ross; R Shownkeen; S Sims; R H Waterston; R K Wilson; L W Hillier; J D McPherson; M A Marra; E R Mardis; L A Fulton; A T Chinwalla; K H Pepin; W R Gish; S L Chissoe; M C Wendl; K D Delehaunty; T L Miner; A Delehaunty; J B Kramer; L L Cook; R S Fulton; D L Johnson; P J Minx; S W Clifton; T Hawkins; E Branscomb; P Predki; P Richardson; S Wenning; T Slezak; N Doggett; J F Cheng; A Olsen; S Lucas; C Elkin; E Uberbacher; M Frazier; R A Gibbs; D M Muzny; S E Scherer; J B Bouck; E J Sodergren; K C Worley; C M Rives; J H Gorrell; M L Metzker; S L Naylor; R S Kucherlapati; D L Nelson; G M Weinstock; Y Sakaki; A Fujiyama; M Hattori; T Yada; A Toyoda; T Itoh; C Kawagoe; H Watanabe; Y Totoki; T Taylor; J Weissenbach; R Heilig; W Saurin; F Artiguenave; P Brottier; T Bruls; E Pelletier; C Robert; P Wincker; D R Smith; L Doucette-Stamm; M Rubenfield; K Weinstock; H M Lee; J Dubois; A Rosenthal; M Platzer; G Nyakatura; S Taudien; A Rump; H Yang; J Yu; J Wang; G Huang; J Gu; L Hood; L Rowen; A Madan; S Qin; R W Davis; N A Federspiel; A P Abola; M J Proctor; R M Myers; J Schmutz; M Dickson; J Grimwood; D R Cox; M V Olson; R Kaul; C Raymond; N Shimizu; K Kawasaki; S Minoshima; G A Evans; M Athanasiou; R Schultz; B A Roe; F Chen; H Pan; J Ramser; H Lehrach; R Reinhardt; W R McCombie; M de la Bastide; N Dedhia; H Blöcker; K Hornischer; G Nordsiek; R Agarwala; L Aravind; J A Bailey; A Bateman; S Batzoglou; E Birney; P Bork; D G Brown; C B Burge; L Cerutti; H C Chen; D Church; M Clamp; R R Copley; T Doerks; S R Eddy; E E Eichler; T S Furey; J Galagan; J G Gilbert; C Harmon; Y Hayashizaki; D Haussler; H Hermjakob; K Hokamp; W Jang; L S Johnson; T A Jones; S Kasif; A Kaspryzk; S Kennedy; W J Kent; P Kitts; E V Koonin; I Korf; D Kulp; D Lancet; T M Lowe; A McLysaght; T Mikkelsen; J V Moran; N Mulder; V J Pollara; C P Ponting; G Schuler; J Schultz; G Slater; A F Smit; E Stupka; J Szustakowki; D Thierry-Mieg; J Thierry-Mieg; L Wagner; J Wallis; R Wheeler; A Williams; Y I Wolf; K H Wolfe; S P Yang; R F Yeh; F Collins; M S Guyer; J Peterson; A Felsenfeld; K A Wetterstrand; A Patrinos; M J Morgan; P de Jong; J J Catanese; K Osoegawa; H Shizuya; S Choi; Y J Chen; J Szustakowki
Journal:  Nature       Date:  2001-02-15       Impact factor: 49.962

2.  Transposons but not retrotransposons are located preferentially in regions of high recombination rate in Caenorhabditis elegans.

Authors:  L Duret; G Marais; C Biémont
Journal:  Genetics       Date:  2000-12       Impact factor: 4.562

Review 3.  Endogenous retroviruses: still active after all these years?

Authors:  J P Stoye
Journal:  Curr Biol       Date:  2001-11-13       Impact factor: 10.834

Review 4.  Lessons from the human genome: transitions between euchromatin and heterochromatin.

Authors:  J E Horvath; J A Bailey; D P Locke; E E Eichler
Journal:  Hum Mol Genet       Date:  2001-10-01       Impact factor: 6.150

5.  Selection against deleterious LINE-1-containing loci in the human lineage.

Authors:  S Boissinot; A Entezam; A V Furano
Journal:  Mol Biol Evol       Date:  2001-06       Impact factor: 16.240

6.  On the abundance and distribution of transposable elements in the genome of Drosophila melanogaster.

Authors:  Carolina Bartolomé; Xulio Maside; Brian Charlesworth
Journal:  Mol Biol Evol       Date:  2002-06       Impact factor: 16.240

7.  A high-resolution recombination map of the human genome.

Authors:  Augustine Kong; Daniel F Gudbjartsson; Jesus Sainz; Gudrun M Jonsdottir; Sigurjon A Gudjonsson; Bjorgvin Richardsson; Sigrun Sigurdardottir; John Barnard; Bjorn Hallbeck; Gisli Masson; Adam Shlien; Stefan T Palsson; Michael L Frigge; Thorgeir E Thorgeirsson; Jeffrey R Gulcher; Kari Stefansson
Journal:  Nat Genet       Date:  2002-06-10       Impact factor: 38.330

8.  Insertion of a retroviral solo long terminal repeat in mdr-3 locus disrupts mRNA splicing in mice.

Authors:  K Jun; S B Lee; H S Shin
Journal:  Mamm Genome       Date:  2000-10       Impact factor: 2.957

9.  Unexpectedly similar rates of nucleotide substitution found in male and female hominids.

Authors:  H B Bohossian; H Skaletsky; D C Page
Journal:  Nature       Date:  2000-08-10       Impact factor: 49.962

Review 10.  Endogenous retroviruses related to jaagsiekte sheep retrovirus.

Authors:  J C DeMartini; J O Carlson; C Leroux; T Spencer; M Palmarini
Journal:  Curr Top Microbiol Immunol       Date:  2003       Impact factor: 4.291
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  22 in total

Review 1.  Genome analyses substantiate male mutation bias in many species.

Authors:  Melissa A Wilson Sayres; Kateryna D Makova
Journal:  Bioessays       Date:  2011-10-18       Impact factor: 4.345

Review 2.  Coevolution between transposable elements and recombination.

Authors:  Tyler V Kent; Jasmina Uzunović; Stephen I Wright
Journal:  Philos Trans R Soc Lond B Biol Sci       Date:  2017-12-19       Impact factor: 6.237

3.  Genome-wide amplification of proviral sequences reveals new polymorphic HERV-K(HML-2) proviruses in humans and chimpanzees that are absent from genome assemblies.

Authors:  Catriona M Macfarlane; Richard M Badge
Journal:  Retrovirology       Date:  2015-04-28       Impact factor: 4.602

4.  Genomic Landscape of Long Terminal Repeat Retrotransposons (LTR-RTs) and Solo LTRs as Shaped by Ectopic Recombination in Chicken and Zebra Finch.

Authors:  Yanzhu Ji; J Andrew DeWoody
Journal:  J Mol Evol       Date:  2016-05-06       Impact factor: 2.395

5.  A transitional endogenous lentivirus from the genome of a basal primate and implications for lentivirus evolution.

Authors:  Robert J Gifford; Aris Katzourakis; Michael Tristem; Oliver G Pybus; Mark Winters; Robert W Shafer
Journal:  Proc Natl Acad Sci U S A       Date:  2008-12-15       Impact factor: 11.205

6.  Cross-sectional dating of novel haplotypes of HERV-K 113 and HERV-K 115 indicate these proviruses originated in Africa before Homo sapiens.

Authors:  Aashish R Jha; Satish K Pillai; Vanessa A York; Elizabeth R Sharp; Emily C Storm; Douglas J Wachter; Jeffrey N Martin; Steven G Deeks; Michael G Rosenberg; Douglas F Nixon; Keith E Garrison
Journal:  Mol Biol Evol       Date:  2009-08-10       Impact factor: 16.240

7.  Genome-Wide Screening of Retroviral Envelope Genes in the Nine-Banded Armadillo (Dasypus novemcinctus, Xenarthra) Reveals an Unfixed Chimeric Endogenous Betaretrovirus Using the ASCT2 Receptor.

Authors:  Sébastien Malicorne; Cécile Vernochet; Guillaume Cornelis; Baptiste Mulot; Frédéric Delsuc; Odile Heidmann; Thierry Heidmann; Anne Dupressoir
Journal:  J Virol       Date:  2016-08-26       Impact factor: 5.103

8.  Automated paleontology of repetitive DNA with REANNOTATE.

Authors:  Vini Pereira
Journal:  BMC Genomics       Date:  2008-12-18       Impact factor: 3.969

9.  Annotation and visualization of endogenous retroviral sequences using the Distributed Annotation System (DAS) and eBioX.

Authors:  Alvaro Martínez Barrio; Erik Lagercrantz; Göran O Sperber; Jonas Blomberg; Erik Bongcam-Rudloff
Journal:  BMC Bioinformatics       Date:  2009-06-16       Impact factor: 3.169

10.  Endogenous Retroviruses and the Pregnancy Compensation Hypothesis: A Reply to David.

Authors:  Heini Natri; Angela R Garcia; Kenneth H Buetow; Benjamin C Trumble; Melissa A Wilson
Journal:  Trends Genet       Date:  2019-11-18       Impact factor: 11.639
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