Abstract

Mouse models have become increasingly important tools used to understand the origins and underlying causes of cancer. The completion of the mouse genome project has demonstrated that there is less than 1% difference in the genomes between mice and humans. As the mouse is a well-defined genetic model capable of high throughput phenotypic assessment, the ability to create novel mice through genetic engineering provides the opportunity for the development of unique cancer models. The purpose of the Animal Models Shared Resource is to provide the infrastructure necessary to generate and distribute genetically modified mice for cancer research to all participating MCCC investigators. Mayo Clinic Scottsdale has an outstanding track record in generating transgenic mice and will provide transgene services, while Mayo Clinic Rochester has generated a multitude of gene knockout mice and will provide the gene """"""""knockout"""""""" services. Since 1999 14 MCCC members have utilized these resources representing 39% of the total services provided. The two mouse resources have been organized such that investigators have easy access to all services provided irrespective of the Mayo Clinic site from which they conduct their research.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Cancer Institute (NCI)
Type
Center Core Grants (P30)
Project #
5P30CA015083-33
Application #
7414508
Study Section
Subcommittee G - Education (NCI)
Project Start
Project End
Budget Start
2007-03-01
Budget End
2008-02-29
Support Year
33
Fiscal Year
2007
Total Cost
$97,119
Indirect Cost

  Institution

Name
Mayo Clinic, Rochester
Department
Type
DUNS #
006471700
City
Rochester
State
MN
Country
United States
Zip Code
55905

  Publications

Kalli, Kimberly R; Block, Matthew S; Kasi, Pashtoon M et al. (2018) Folate Receptor Alpha Peptide Vaccine Generates Immunity in Breast and Ovarian Cancer Patients. Clin Cancer Res 24:3014-3025
Wang, Sophia S; Carrington, Mary; Berndt, Sonja I et al. (2018) HLA Class I and II Diversity Contributes to the Etiologic Heterogeneity of Non-Hodgkin Lymphoma Subtypes. Cancer Res 78:4086-4096
Norris, Robin E; Fox, Elizabeth; Reid, Joel M et al. (2018) Phase 1 trial of ontuxizumab (MORAb-004) in children with relapsed or refractory solid tumors: A report from the Children's Oncology Group Phase 1 Pilot Consortium (ADVL1213). Pediatr Blood Cancer 65:e26944
Block, Matthew S; Vierkant, Robert A; Rambau, Peter F et al. (2018) MyD88 and TLR4 Expression in Epithelial Ovarian Cancer. Mayo Clin Proc 93:307-320
Sharma, Ayush; Oishi, Naoki; Boddicker, Rebecca L et al. (2018) Recurrent STAT3-JAK2 fusions in indolent T-cell lymphoproliferative disorder of the gastrointestinal tract. Blood 131:2262-2266
Langlais, Blake T; Geyer, Holly; Scherber, Robyn et al. (2018) Quality of life and symptom burden among myeloproliferative neoplasm patients: do symptoms impact quality of life? Leuk Lymphoma :1-7
Yang, Ju Dong; Addissie, Benyam D; Mara, Kristin C et al. (2018) GALAD Score for Hepatocellular Carcinoma Detection in Comparison to Liver Ultrasound and Proposal of GALADUS Score. Cancer Epidemiol Biomarkers Prev :
Kurmi, Kiran; Hitosugi, Sadae; Yu, Jia et al. (2018) Tyrosine Phosphorylation of Mitochondrial Creatine Kinase 1 Enhances a Druggable Tumor Energy Shuttle Pathway. Cell Metab 28:833-847.e8
O'Mara, Tracy A; Glubb, Dylan M; Amant, Frederic et al. (2018) Identification of nine new susceptibility loci for endometrial cancer. Nat Commun 9:3166
Wallace, Sumer K; Halverson, Jessica W; Jankowski, Christopher J et al. (2018) Optimizing Blood Transfusion Practices Through Bundled Intervention Implementation in Patients With Gynecologic Cancer Undergoing Laparotomy. Obstet Gynecol 131:891-898

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