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The shrinking human protein coding complement: are there now fewer than 20,000 genes?

bioRxiv

Jan 17, 2014

Iakes EzkurdiaMichael L Tress

Abstract

Determining the full complement of protein-coding genes is a key goal of genome annotation. The most powerful approach for confirming protein coding potential is the detection of cellular protein expression through peptide mass spectrometry experiments. Here we map the peptides detected...read more

Mentioned in this Paper

ING2 protein, human
Gene Family
WAS protein, human
Species
Peptides
Primates
Study
Mass Spectrometry
Vertebrates
Gene Annotation
41
38
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The shrinking human protein coding complement: are there now fewer than 20,000 genes?

bioRxiv

Jan 17, 2014

Iakes EzkurdiaMichael L Tress

PMID: 990001909

DOI: 10.1101/001909

Abstract

Determining the full complement of protein-coding genes is a key goal of genome annotation. The most powerful approach for confirming protein coding potential is the detection of cellular protein expression through peptide mass spectrometry experiments. Here we map the peptides detected...read more

Mentioned in this Paper

ING2 protein, human
Gene Family
WAS protein, human
Species
Peptides
Primates
Study
Mass Spectrometry
Vertebrates
Gene Annotation
41
38

Related Papers

Paper Details
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