Literature DB >> 15546984

Coding sequences of functioning human genes derived entirely from mobile element sequences.

Roy J Britten1.   

Abstract

Among all of the many examples of mobile elements or "parasitic sequences" that affect the function of the human genome, this paper describes several examples of functioning genes whose sequences have been almost completely derived from mobile elements. There are many examples where the synthetic coding sequences of observed mRNA sequences are made up of mobile element sequences, to an extent of 80% or more of the length of the coding sequences. In the examples described here, the genes have named functions, and some of these functions have been studied. It appears that each of the functioning genes was originally formed from mobile elements and that in some process of molecular evolution a coding sequence was derived that could be translated into a protein that is of some importance to human biology. In one case (AD7C), the coding sequence is 99% made up of a cluster of Alu sequences. In another example, the gene BNIP3 coding sequence is 97% made up of sequences from an apparent human endogenous retrovirus. The Syncytin gene coding sequence appears to be made from an endogenous retrovirus envelope gene.

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Year:  2004        PMID: 15546984      PMCID: PMC534736          DOI: 10.1073/pnas.0406985101

Source DB:  PubMed          Journal:  Proc Natl Acad Sci U S A        ISSN: 0027-8424            Impact factor:   11.205


  28 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.  Transposable elements are found in a large number of human protein-coding genes.

Authors:  A Nekrutenko; W H Li
Journal:  Trends Genet       Date:  2001-11       Impact factor: 11.639

3.  Analysis of primate genomic variation reveals a repeat-driven expansion of the human genome.

Authors:  Ge Liu; Shaying Zhao; Jeffrey A Bailey; S Cenk Sahinalp; Can Alkan; Eray Tuzun; Eric D Green; Evan E Eichler
Journal:  Genome Res       Date:  2003-03       Impact factor: 9.043

4.  Alu-containing exons are alternatively spliced.

Authors:  Rotem Sorek; Gil Ast; Dan Graur
Journal:  Genome Res       Date:  2002-07       Impact factor: 9.043

5.  Genomic scrap yard: how genomes utilize all that junk.

Authors:  W Makałowski
Journal:  Gene       Date:  2000-12-23       Impact factor: 3.688

Review 6.  Mobile elements inserted in the distant past have taken on important functions.

Authors:  R J Britten
Journal:  Gene       Date:  1997-12-31       Impact factor: 3.688

7.  Generation and initial analysis of more than 15,000 full-length human and mouse cDNA sequences.

Authors:  Robert L Strausberg; Elise A Feingold; Lynette H Grouse; Jeffery G Derge; Richard D Klausner; Francis S Collins; Lukas Wagner; Carolyn M Shenmen; Gregory D Schuler; Stephen F Altschul; Barry Zeeberg; Kenneth H Buetow; Carl F Schaefer; Narayan K Bhat; Ralph F Hopkins; Heather Jordan; Troy Moore; Steve I Max; Jun Wang; Florence Hsieh; Luda Diatchenko; Kate Marusina; Andrew A Farmer; Gerald M Rubin; Ling Hong; Mark Stapleton; M Bento Soares; Maria F Bonaldo; Tom L Casavant; Todd E Scheetz; Michael J Brownstein; Ted B Usdin; Shiraki Toshiyuki; Piero Carninci; Christa Prange; Sam S Raha; Naomi A Loquellano; Garrick J Peters; Rick D Abramson; Sara J Mullahy; Stephanie A Bosak; Paul J McEwan; Kevin J McKernan; Joel A Malek; Preethi H Gunaratne; Stephen Richards; Kim C Worley; Sarah Hale; Angela M Garcia; Laura J Gay; Stephen W Hulyk; Debbie K Villalon; Donna M Muzny; Erica J Sodergren; Xiuhua Lu; Richard A Gibbs; Jessica Fahey; Erin Helton; Mark Ketteman; Anuradha Madan; Stephanie Rodrigues; Amy Sanchez; Michelle Whiting; Anup Madan; Alice C Young; Yuriy Shevchenko; Gerard G Bouffard; Robert W Blakesley; Jeffrey W Touchman; Eric D Green; Mark C Dickson; Alex C Rodriguez; Jane Grimwood; Jeremy Schmutz; Richard M Myers; Yaron S N Butterfield; Martin I Krzywinski; Ursula Skalska; Duane E Smailus; Angelique Schnerch; Jacqueline E Schein; Steven J M Jones; Marco A Marra
Journal:  Proc Natl Acad Sci U S A       Date:  2002-12-11       Impact factor: 11.205

Review 8.  RNAs from all categories generate retrosequences that may be exapted as novel genes or regulatory elements.

Authors:  J Brosius
Journal:  Gene       Date:  1999-09-30       Impact factor: 3.688

Review 9.  The AD7C-NTP neuronal thread protein biomarker for detecting Alzheimer's disease

Authors:  Suzanne M de la Monte; Jack R Wands
Journal:  Front Biosci       Date:  2002-04-01

Review 10.  Origin of a substantial fraction of human regulatory sequences from transposable elements.

Authors:  I King Jordan; Igor B Rogozin; Galina V Glazko; Eugene V Koonin
Journal:  Trends Genet       Date:  2003-02       Impact factor: 11.639
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  20 in total

1.  Birth of a chimeric primate gene by capture of the transposase gene from a mobile element.

Authors:  Richard Cordaux; Swalpa Udit; Mark A Batzer; Cédric Feschotte
Journal:  Proc Natl Acad Sci U S A       Date:  2006-05-03       Impact factor: 11.205

2.  Transposable elements have contributed to thousands of human proteins.

Authors:  Roy Britten
Journal:  Proc Natl Acad Sci U S A       Date:  2006-01-27       Impact factor: 11.205

Review 3.  DNA transposons and the evolution of eukaryotic genomes.

Authors:  Cédric Feschotte; Ellen J Pritham
Journal:  Annu Rev Genet       Date:  2007       Impact factor: 16.830

4.  Cis-regulatory elements in the Accord retrotransposon result in tissue-specific expression of the Drosophila melanogaster insecticide resistance gene Cyp6g1.

Authors:  Henry Chung; Michael R Bogwitz; Caroline McCart; Alex Andrianopoulos; Richard H Ffrench-Constant; Philip Batterham; Phillip J Daborn
Journal:  Genetics       Date:  2006-12-18       Impact factor: 4.562

Review 5.  The transcript repeat element: the human Alu sequence as a component of gene networks influencing cancer.

Authors:  Paula Moolhuijzen; Jerzy K Kulski; David S Dunn; David Schibeci; Roberto Barrero; Takashi Gojobori; Matthew Bellgard
Journal:  Funct Integr Genomics       Date:  2010-08       Impact factor: 3.410

6.  GTF2IRD2 from the Williams-Beuren critical region encodes a mobile-element-derived fusion protein that antagonizes the action of its related family members.

Authors:  Stephen J Palmer; Kylie M Taylor; Nicole Santucci; Jocelyn Widagdo; Yee-Ka Agnes Chan; Jen-Li Yeo; Merritt Adams; Peter W Gunning; Edna C Hardeman
Journal:  J Cell Sci       Date:  2012-08-16       Impact factor: 5.285

Review 7.  The emerging diversity of transpososome architectures.

Authors:  Fred Dyda; Michael Chandler; Alison Burgess Hickman
Journal:  Q Rev Biophys       Date:  2012-11       Impact factor: 5.318

8.  Transposable elements in Coffea (Gentianales: Rubiacea) transcripts and their role in the origin of protein diversity in flowering plants.

Authors:  Fabrício Ramon Lopes; Marcelo Falsarella Carazzolle; Gonçalo Amarante Guimarães Pereira; Carlos Augusto Colombo; Claudia Marcia Aparecida Carareto
Journal:  Mol Genet Genomics       Date:  2008-01-30       Impact factor: 3.291

9.  Transpositionally active episomal hAT elements.

Authors:  David A O'Brochta; Christina D Stosic; Kristina Pilitt; Ramanand A Subramanian; Robert H Hice; Peter W Atkinson
Journal:  BMC Mol Biol       Date:  2009-12-14       Impact factor: 2.946

10.  Weak preservation of local neutral substitution rates across mammalian genomes.

Authors:  Hideo Imamura; John E Karro; Jeffrey H Chuang
Journal:  BMC Evol Biol       Date:  2009-05-05       Impact factor: 3.260
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