Abstract

DMA SEQUENCING The DNA Sequencing Core provides UM Comprehensive Cancer Center members with access to highquality, low cost automated DNA sequencing. The Sequencing Core accepts a large variety of templates (plasmids, PCR products, bacteriophage DNA, siRNA constructs, BACs, cosmids, bacterial genomic DNA) and can sequence them with the five common vector primers, provided free by the Core, or with client-provided custom primers. All dyes, enzymes and electrophoresGiven high-quality templates, sequencing typically produces 950+ nt of high-quality sequence (?1% error), plus perhaps another 100-200 nt of lower-quality sequence, With a staff of ten full-time employees and two high-throughput sequencers {ABI Model 3730XL), this facility is capable of performing in excess of 250,000 lanes of sequencing per year. The cost of this service is an outstanding value, at just $2 per lane for Cancer Center members (non-members pay just $4/lane), and includes all dyes, enzymes, reaction cleanup, electrophoresis reagents, instrument costs and maintenance, and all sequencing labor costs. This is, to our knowlege, the most cost-effective sequencing Core lab in the country. In addition to DNA sequencing, this facility provides microsatellite genotyping and Taqman-based SNP genotyping for its clients. No support is requested for these latter services, but they are available to Cancer Center members.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Cancer Institute (NCI)
Type
Center Core Grants (P30)
Project #
5P30CA046592-23
Application #
8147783
Study Section
Subcommittee G - Education (NCI)
Project Start
Project End
Budget Start
2010-06-01
Budget End
2011-05-31
Support Year
23
Fiscal Year
2010
Total Cost
$87,558
Indirect Cost

  Institution

Name
University of Michigan Ann Arbor
Department
Type
DUNS #
073133571
City
Ann Arbor
State
MI
Country
United States
Zip Code
48109

  Publications

Hoban, Connor W; Beesley, Lauren J; Bellile, Emily L et al. (2018) Individualized outcome prognostication for patients with laryngeal cancer. Cancer 124:706-716
Maust, Joel D; Frankowski-McGregor, Christy L; Bankhead 3rd, Armand et al. (2018) Cyclooxygenase-2 Influences Response to Cotargeting of MEK and CDK4/6 in a Subpopulation of Pancreatic Cancers. Mol Cancer Ther 17:2495-2506
Arthur, Anna E; Goss, Amy M; Demark-Wahnefried, Wendy et al. (2018) Higher carbohydrate intake is associated with increased risk of all-cause and disease-specific mortality in head and neck cancer patients: results from a prospective cohort study. Int J Cancer 143:1105-1113
Valenciaga, Anisley; Saji, Motoyasu; Yu, Lianbo et al. (2018) Transcriptional targeting of oncogene addiction in medullary thyroid cancer. JCI Insight 3:
Akkina, Sarah R; Kim, Roderick Y; Stucken, Chaz L et al. (2018) Is There a Difference in Staging and Treatment of Head and Neck Squamous Cell Tumors Between Tertiary Care and Community-Based Institutions? Laryngoscope Investig Otolaryngol 3:290-295
Anwar, Talha; Arellano-Garcia, Caroline; Ropa, James et al. (2018) p38-mediated phosphorylation at T367 induces EZH2 cytoplasmic localization to promote breast cancer metastasis. Nat Commun 9:2801
Giraldez, Maria D; Spengler, Ryan M; Etheridge, Alton et al. (2018) Comprehensive multi-center assessment of small RNA-seq methods for quantitative miRNA profiling. Nat Biotechnol 36:746-757
Hartlerode, Andrea J; Regal, Joshua A; Ferguson, David O (2018) Reversible mislocalization of a disease-associated MRE11 splice variant product. Sci Rep 8:10121
Fritsche, Lars G; Gruber, Stephen B; Wu, Zhenke et al. (2018) Association of Polygenic Risk Scores for Multiple Cancers in a Phenome-wide Study: Results from The Michigan Genomics Initiative. Am J Hum Genet 102:1048-1061
Haley, Henry R; Shen, Nathan; Qyli, Tonela et al. (2018) Enhanced Bone Metastases in Skeletally Immature Mice. Tomography 4:84-93

Showing the most recent 10 out of 1493 publications