Evolution at protein ends: major contribution of alternative transcription initiation and termination to the transcriptome and proteome diversity in mammals

Evolution at protein ends: major contribution of alternative transcription initiation and termination to the transcriptome and proteome diversity in mammals

Alternative splicing (AS), alternative transcription initiation (ATI) and alternative transcription termination (ATT) create the extraordinary complexity of transcriptomes and make key contributions to the structural and functional diversity of mammalian proteomes. Analysis of mammalian genomic and...

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Veröffentlicht in:Nucleic acids research 2014-06, Vol.42 (11), p.7132-7144
Hauptverfasser: Shabalina, Svetlana A, Ogurtsov, Aleksey Y, Spiridonov, Nikolay A, Koonin, Eugene V
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Sprache:eng
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Animals
Evolution, Molecular
Genetic Variation
Genomics
Humans
Mice
Protein Isoforms - genetics
Proteome
Transcription Initiation, Genetic
Transcription Termination, Genetic
Transcriptome
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container_end_page 7144
container_issue 11
container_start_page 7132
container_title Nucleic acids research
container_volume 42
creator Shabalina, Svetlana A
Ogurtsov, Aleksey Y
Spiridonov, Nikolay A
Koonin, Eugene V
description Alternative splicing (AS), alternative transcription initiation (ATI) and alternative transcription termination (ATT) create the extraordinary complexity of transcriptomes and make key contributions to the structural and functional diversity of mammalian proteomes. Analysis of mammalian genomic and transcriptomic data shows that contrary to the traditional view, the joint contribution of ATI and ATT to the transcriptome and proteome diversity is quantitatively greater than the contribution of AS. Although the mean numbers of protein-coding constitutive and alternative nucleotides in gene loci are nearly identical, their distribution along the transcripts is highly non-uniform. On average, coding exons in the variable 5' and 3' transcript ends that are created by ATI and ATT contain approximately four times more alternative nucleotides than core protein-coding regions that diversify exclusively via AS. Short upstream exons that encompass alternative 5'-untranslated regions and N-termini of proteins evolve under strong nucleotide-level selection whereas in 3'-terminal exons that encode protein C-termini, protein-level selection is significantly stronger. The groups of genes that are subject to ATI and ATT show major differences in biological roles, expression and selection patterns.
doi_str_mv 10.1093/nar/gku342
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subjects Animals
Evolution, Molecular
Genetic Variation
Genomics
Humans
Mice
Protein Isoforms - genetics
Proteome
Transcription Initiation, Genetic
Transcription Termination, Genetic
Transcriptome
title Evolution at protein ends: major contribution of alternative transcription initiation and termination to the transcriptome and proteome diversity in mammals
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