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Protein-Based Analysis of Alternative Splicing in the Human Genome
Stanford, California August 14-August 16
DOI Bookmark: http://doi.ieeecomputersociety.org/10.1109/CSB.2002.1039335IEEE Computer Society Bioinformatics ...
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Ann E. Loraine, Gregg A. Helt, Melissa S. Cline, Michael A. Siani-Rose, "Protein-Based Analysis of Alternative Splicing in the Human Genome," Computational Systems Bioinformatics Conference, International IEEE Computer Society, pp. 118, IEEE Computer Society Bioinformatics Conference (CSB'02), 2002.
 
 
BibTex
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@article{ 10.1109/CSB.2002.1039335,
author = {Ann E. Loraine and Gregg A. Helt and Melissa S. Cline and Michael A. Siani-Rose},
title = {Protein-Based Analysis of Alternative Splicing in the Human Genome},
journal ={Computational Systems Bioinformatics Conference, International IEEE Computer Society},
volume = {0},
year = {2002},
isbn = {0-7695-1653-X},
pages = {118},
doi = {http://doi.ieeecomputersociety.org/10.1109/CSB.2002.1039335},
publisher = {IEEE Computer Society},
address = {Los Alamitos, CA, USA},
}
 
 
RefWorks Procite/RefMan/Endnote
x 
 
TY - CONF
JO - Computational Systems Bioinformatics Conference, International IEEE Computer Society
TI - Protein-Based Analysis of Alternative Splicing in the Human Genome
SN - 0-7695-1653-X
SP
EP
A1 - Ann E. Loraine,
A1 - Gregg A. Helt,
A1 - Melissa S. Cline,
A1 - Michael A. Siani-Rose,
PY - 2002
KW - null
VL - 0
JA - Computational Systems Bioinformatics Conference, International IEEE Computer Society
ER -
 
Ann E. Loraine, Affymetrix, Inc.
Gregg A. Helt, Affymetrix, Inc.
Melissa S. Cline, Affymetrix, Inc.
Michael A. Siani-Rose, Affymetrix, Inc.
Understanding the functional significance of alternative splicing and other mechanisms that generate RNA transcript diversity is an important challenge facing modern-day molecular biology. Using homology-based, protein sequence analysis methods, it should be possible to investigate how transcript diversity impacts protein structure and function. To test this, a data mining technique ("DiffHit") was developed to identify and catalog genes producing protein isoforms which exhibit distinct profiles of conserved protein motifs. We found that out of a test set of over 1,300 alternatively spliced genes with solved genomic structure, over 30% exhibited a differential profile of conserved InterPro and/or Blocks protein motifs across distinct isoforms. These results suggest that motif databases such as Blocks and InterPro are potentially useful tools for investigating how alternative transcript structure affects gene function.
Citation:
Ann E. Loraine, Gregg A. Helt, Melissa S. Cline, Michael A. Siani-Rose, "Protein-Based Analysis of Alternative Splicing in the Human Genome," csb, pp.118, IEEE Computer Society Bioinformatics Conference (CSB'02), 2002
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