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Bioinformatics

$172,808P30FY2010CANIH

University Of Tx Md Anderson Can Ctr, Houston TX

Investigators

Linked publications, trials & patents

Trial NCT07407920Trial NCT07349641Trial NCT06651580Trial NCT05681026Trial NCT05223036Trial NCT05078866Trial NCT05057312Trial NCT05054296Trial NCT05044546Trial NCT05023967Trial NCT05011045Trial NCT04875728Trial NCT04870645Trial NCT04810091Trial NCT04751422Trial NCT04740164Trial NCT04668300Trial NCT04615013Trial NCT04505267Trial NCT04484909Trial NCT04483349Trial NCT04481204Trial NCT04474301Trial NCT04458610Trial NCT04447222Trial NCT04435691Trial NCT04430725Trial NCT04407247Trial NCT04373720Trial NCT04317781Trial NCT04311723Trial NCT04310826Trial NCT04310397Trial NCT04265430Trial NCT04257045Trial NCT04256941Trial NCT04239989Trial NCT04239976Trial NCT04239157Trial NCT04236882Trial NCT04228042Trial NCT04220827Trial NCT04220775Trial NCT04220008Trial NCT04219969Trial NCT04219904Trial NCT04216732Trial NCT04216563Trial NCT04216524Trial NCT04216472Trial NCT04215029Trial NCT04200534Trial NCT04199026Trial NCT04196972Trial NCT04189783Trial NCT04189770Trial NCT04189757Trial NCT04188418Trial NCT04188405Trial NCT04186884Trial NCT04186832Trial NCT04185337Trial NCT04181463Trial NCT04171622Trial NCT04171219Trial NCT04171037Trial NCT04169763Trial NCT04169737Trial NCT04169542Trial NCT04160052Trial NCT04151082Trial NCT04150939Trial NCT04140487Trial NCT04135326Trial NCT04134208Trial NCT04132843Trial NCT04132505Trial NCT04132440Trial NCT04129138Trial NCT04128748Trial NCT04128501Trial NCT04127721Trial NCT04125914Trial NCT04119037Trial NCT04106843Trial NCT04106245Trial NCT04090619Trial NCT04090567Trial NCT04087057Trial NCT04083378Trial NCT04082572Trial NCT04074746Trial NCT04066894Trial NCT04062305Trial NCT04062266Trial NCT04058964Trial NCT04054245Trial NCT04054167Trial NCT04054154Trial NCT04053517

Abstract

The mission of the Bioinformatics Shared Resource (BISR) is to provide bioinformatic and biostatistical collaboration, consultation, and quantitative research resources to clinical, laboratory, and prevention scientists engaged in the planning, conduct, analysis, and interpretation of research studies that use modern high-throughput technologies from molecular biology. Additionally, members of the BISR collaborate with oncology research scientists to develop bioinformatic and biostatistical methods to improve the efficiency of current and future basic science, therapeutic, diagnostic, prevention, and intervention studies. Members of the BISR have experience with mRNA expression microarrays from Affymetrix, Agilent, and Illumina, proteomics using mass spectrometry or two-dimensional polyacrylamide gel electrophoresis;serial analysis of gene expression;tissue microarrays;array comparative genomic hybridization;single nucleotide polymorphism chips;methylation arrays;microRNA arrays;exon tiling arrays;real-time polymerase chain reaction;and reverse-phase protein lysate arrays. The BISR provides advice on choosing technology platforms, experimental design, sample size and power computations, data preprocessing, statistical analysis, and bioinformatic interpretation. The services of the resource are directed toward three goals: (1) to ensure that all high-throughput experiments at M.D. Anderson are properly analyzed and interpreted, (2) to play a direct role in the planning and design of experiments that use these technologies, and (3) to provide educational programs in bioinformatics methods. During the previous funding period, the BISR assisted 244 investigators from 20 different programs. Use of the BISR doubled during the previous five years, and the number of publications by users of the BISR grew from 33 during the first year to 65 during the most recent year. In the future, we remain committed to providing support for the design and analysis of experiments using cutting-edge technologies and will work with M.D. Anderson researchers to understand the nature of the data generated from novel technologies. Where possible, we are standardizing our analyses and report generation by developing templates in Sweave, a tool that enhances the reproducibility of statistical analyses. We also plan to enhance our ability to offer sequence-based bioinformatics services such as ChlP-on-chip and motif finding. Finally, we are exploring innovative ways to integrate data, algorithms, and reports.

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Bioinformatics · GrantIndex