Published on New York State Department of Health, Wadsworth Center (https://wadsworth.org)

Kerri Kluetzman, PhD

Kerri Kluetzman
Research Scientist
PhD, Biomedical Sciences, State University of New York-Albany
MS, Bacteriology, University of Wisconsin, Madison

The primary objectives of this lab are to combine expertise in transgenic technologies with reproductive sciences in an effort to generate relevant mouse models and to study developmental and genetic origins of disease. Successful reproduction relies on high quality gametogenesis and complex networks of tightly regulated signaling cascades can have a profound impact on fertilization and fetal development. Genetic determinants contribute significantly, however, the environments in which these events occur both in vitro (e.g. in vitro fertilization) and in vivo (uterine environment) also play an important role in influencing fetal development and offspring phenotype. In addition to standard transgenic services, ongoing collaborations are designed to identify and define factors that contribute to successful fertilization and fetal developmental disorders.

Phone Number
(518) 474-6154
Research Photo(s)
    8-cell (embryonic day 2.5) mouse embryos
    8-cell (embryonic day 2.5) mouse embryos
    Chimeric knockout founder mouse
    Chimeric knockout founder mouse
    Pronuclear microinjection of fertilized mouse embryo
    Pronuclear microinjection of fertilized mouse embryo
    mouse oviduct harboring recently fertilized eggs
    mouse oviduct harboring recently fertilized eggs
    mouse ICSI (Intra-cytoplasmic sperm injection)
    mouse ICSI (Intra-cytoplasmic sperm injection)
    mouse embryonic stem cells growing on a fibroblast layer
    mouse embryonic stem cells growing on a fibroblast layer
    fertilized mouse embryo
    fertilized mouse embryo
    Ubiquitous GFP expression in mouse blastocyst
    Ubiquitous GFP expression in mouse blastocyst