ProtAnnot: an App for Integrated Genome Browser to display how alternative splicing and transcription affect proteins | Zendy

Tarun Mall | Zendy; John Eckstein | Zendy; David C. Norris | Zendy; Hiral Vora | Zendy; Nowlan H. Freese | Zendy; Ann E. Loraine | Zendy

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ProtAnnot: an App for Integrated Genome Browser to display how alternative splicing and transcription affect proteins

Author(s) -

Tarun Mall,

John Eckstein,

David C. Norris,

Hiral Vora,

Nowlan H. Freese,

Ann E. Loraine

Publication year - 2016

Publication title -

bioinformatics

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 3.599

H-Index - 390

eISSN - 1367-4811

pISSN - 1367-4803

DOI - 10.1093/bioinformatics/btw068

Subject(s) - genome browser , genome , rna splicing , computational biology , exon , alternative splicing , gene , biology , genetics , context (archaeology) , open reading frame , genomics , peptide sequence , rna , paleontology

One gene can produce multiple transcript variants encoding proteins with different functions. To facilitate visual analysis of transcript variants, we developed ProtAnnot, which shows protein annotations in the context of genomic sequence. ProtAnnot searches InterPro and displays profile matches (protein annotations) alongside gene models, exposing how alternative promoters, splicing and 3' end processing add, remove, or remodel functional motifs. To draw attention to these effects, ProtAnnot color-codes exons by frame and displays a cityscape graphic summarizing exonic sequence at each position. These techniques make visual analysis of alternative transcripts faster and more convenient for biologists.

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