Abstract

The Molecular/Animal Core will have the primary mission of providing core resources to individual projects that will involve the generation of transgenic animals and their characterization, as well as genotyping and DNA sequence analysis. A secondary aim will be to provide training opportunities in transgenic animal work and/or molecular analysis for either established investigators moving into these areas or as opportunities for junior investigators with prior experience to develop these abilities. The overall core is directed by Dr. Roger Williamson, who currently serves as Director of the Transgenic Core Facilities on the campus at the University of Iowa and who in the last three years has developed substantial expertise in transgenic animal work associated with craniofacial anomalies. Dr. Murray will serve as co-director and oversee activities related to genotyping and DNA sequencing. The core will be supported by research scientists and technicians who already have long-standing expertise in the technical aspects of the work that they will be supporting. Facilities will be house in standing expertise in the technical aspects of the work that they will be supporting. Facilities will be house in existing molecular biology and animal units and will provide for a seamless transition of data and technology for both on-campus and off-campus projects. The core will provide direction and support to all Projects and both pilot projects.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of Dental & Craniofacial Research (NIDCR)
Type
Comprehensive Center (P60)
Project #
5P60DE013076-05
Application #
6784275
Study Section
Project Start
Project End
Budget Start
Budget End
Support Year
5
Fiscal Year
2003
Total Cost
Indirect Cost

  Institution

Name
University of Iowa
Department
Type
DUNS #
041294109
City
Iowa City
State
IA
Country
United States
Zip Code
52242

  Publications

Haworth, Simon; Shungin, Dmitry; van der Tas, Justin T et al. (2018) Consortium-based genome-wide meta-analysis for childhood dental caries traits. Hum Mol Genet 27:3113-3127
Govil, Manika; Mukhopadhyay, Nandita; Weeks, Daniel E et al. (2018) Novel caries loci in children and adults implicated by genome-wide analysis of families. BMC Oral Health 18:98
Yang, Jie; Zhu, Wei; Chen, Jiansong et al. (2014) Genome-wide two-marker linkage disequilibrium mapping of quantitative trait loci. BMC Genet 15:20
Beaty, T H; Taub, M A; Scott, A F et al. (2013) Confirming genes influencing risk to cleft lip with/without cleft palate in a case-parent trio study. Hum Genet 132:771-81
Skare, Oivind; Jugessur, Astanand; Lie, Rolv Terje et al. (2012) Application of a novel hybrid study design to explore gene-environment interactions in orofacial clefts. Ann Hum Genet 76:221-36
Wehby, G L; Tyler, M C; Lindgren, S et al. (2012) Oral clefts and behavioral health of young children. Oral Dis 18:74-84
Shaffer, J R; Wang, X; Feingold, E et al. (2011) Genome-wide association scan for childhood caries implicates novel genes. J Dent Res 90:1457-62
Schneider, Galen B; Zaharias, Rebecca; Seabold, Denise et al. (2011) Integrin-associated tyrosine kinase FAK affects Cbfa1 expression. J Orthop Res 29:1443-7
Larjava, H; Koivisto, L; Häkkinen, L et al. (2011) Epithelial integrins with special reference to oral epithelia. J Dent Res 90:1367-76
Jugessur, Astanand; Shi, Min; Gjessing, Håkon Kristian et al. (2010) Maternal genes and facial clefts in offspring: a comprehensive search for genetic associations in two population-based cleft studies from Scandinavia. PLoS One 5:e11493

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