Repair-mediated duplication by capture of proximal chromosomal DNA has shaped vertebrate genome evolution

PLoS Genetics

Volumn 5, Issue 5, 2009, Pages

  Pace II, John K ^a,c   Sen, Shurjo K ^b   Batzer, Mark A ^b   Feschotte, Cédric ^a  

^a UNIVERSITY OF TEXAS AT ARLINGTON   (United States)

^b LOUISIANA STATE UNIVERSITY   (United States)

^c UNIVERSITY OF TEXAS AT AUSTIN   (United States)

Author keywords

[No Author keywords available]

Indexed keywords

DOUBLE STRANDED DNA; GENOMIC DNA; TRANSCRIPTION FACTOR; DNA;

ARTICLE; BINDING SITE; CONTROLLED STUDY; DNA POLYMORPHISM; DNA REPAIR; DNA STRAND; EXON; GENE DUPLICATION; GENE SEQUENCE; GENE STRUCTURE; GENETIC VARIABILITY; GENOME; GERM LINE; INTRON; MATHEMATICAL MODEL; MOLECULAR EVOLUTION; NONHUMAN; PRIMATE; VERTEBRATE; ANIMAL; BIOLOGICAL MODEL; BIOMETRY; DOUBLE STRANDED DNA BREAK; GENETIC POLYMORPHISM; GENETIC PROCEDURES; GENETICS; HUMAN; HUMAN GENOME; NUCLEOTIDE SEQUENCE; SEQUENCE HOMOLOGY; SPECIES DIFFERENCE; TIME;

EUKARYOTA; MAMMALIA; PRIMATES; VERTEBRATA;

ANIMALS; BASE SEQUENCE; BIOMETRY; DNA; DNA BREAKS, DOUBLE-STRANDED; DNA REPAIR; EVOLUTION, MOLECULAR; GENE DUPLICATION; GENETIC TECHNIQUES; GENETIC VARIATION; GENOME, HUMAN; HUMANS; MODELS, GENETIC; POLYMORPHISM, GENETIC; PRIMATES; SEQUENCE HOMOLOGY, NUCLEIC ACID; SPECIES SPECIFICITY; TIME FACTORS; VERTEBRATES;

EID: 67149136522     PISSN: 15537390     EISSN: 15537404     Source Type: Journal    
DOI: 10.1371/journal.pgen.1000469     Document Type: Article

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