Life Sciences Commons^™

Phenotypic Expressions Of Ccr5-Δ32/Δ32 Homozygosity, Giang T. Nguyen, Mary Carrington, Judith A. Beeler, Michael Dean, Louis M. Aledort, Philip M. Blatt, Alan R. Cohen, Donna Dimichele, M. Elaine Eyster, Craig M. Kessler, Barbara Konkle, Cindy Leissinger, Naomi Luban, Stephen J. O'Brien, James J. Goedert, Thomas R. O'Brien

Biology Faculty Articles

Objective: As blockade of CC-chemokine receptor 5 (CCR5) has been proposed as therapy for HIV-1, we examined whether the CCR5-Δ32/Δ32 homozygous genotype has phenotypic expressions other than those related to HIV-1.

Design: Study subjects were white homosexual men or men with hemophilia who were not infected with HIV-1. In this study, 15 CCR5-Δ32/Δ32 homozygotes were compared with 201 CCR5 wild-type (+/+) subjects for a wide range of clinical conditions and laboratory assay results ascertained during prospective cohort studies and routine clinical care. CCR5-Δ32 genotype was determined by polymerase chain reaction, followed by single-stranded conformational polymorphism analysis.

Results: …

Cooperative Binding Of Heat Shock Factor To The Yeast Hsp82 Promoter In Vivo And In Vitro, Alexander M. Erkine, Serena F. Magrogan, Edward A. Sekinger, David S. Gross

Scholarship and Professional Work – COPHS

revious work has shown that heat shock factor (HSF) plays a central role in remodeling the chromatin structure of the yeastHSP82 promoter via constitutive interactions with its high-affinity binding site, heat shock element 1 (HSE1). The HSF-HSE1 interaction is also critical for stimulating both basal (noninduced) and induced transcription. By contrast, the function of the adjacent, inducibly occupied HSE2 and -3 is unknown. In this study, we examined the consequences of mutations in HSE1, HSE2, and HSE3 on HSF binding and transactivation. We provide evidence that in vivo, HSF binds to these three sites cooperatively. This cooperativity is seen …