Biography
Houston Baptist University - Biology
Associate Professor of Biology at Lone Star College-University Park
Higher Education
Chris
Lopez
Houston, Texas
Experienced and caring teacher with a demonstrated history of working in the higher education industry. Passionate about science and focused on student success in the classroom and at the bench. Skilled in molecular techniques involving: Recombinant DNA, Real-Time Polymerase Chain Reaction (qPCR), RNA Isolation, Genetics, and Cell Biology. Strong education professional with a PhD focused in Cellular and Molecular Biology from Baylor College of Medicine.
Experience
The University of Texas Health Science Center at Houston
Postdoctoral Researcher
Christopher worked at The University of Texas Health Science Center at Houston as a Postdoctoral Researcher
Lone Star College
Adjunct Instructor
Christopher worked at Lone Star College as a Adjunct Instructor
Houston Baptist University
Visiting Assistant Professor
Christopher worked at Houston Baptist University as a Visiting Assistant Professor
Houston Community College
Adjunct Instructor
Christopher worked at Houston Community College as a Adjunct Instructor
Lone Star College-University Park
Associate Professor of Biology
Christopher worked at Lone Star College-University Park as a Associate Professor of Biology
Lone Star College-University Park
Assistant Professor
Christopher worked at Lone Star College-University Park as a Assistant Professor
Publications
Regulation of Ku-DNA Association by Yku70 C-terminal Tail and SUMO Modification
Journal of Biological Chemistry
Regulation of Ku-DNA Association by Yku70 C-terminal Tail and SUMO Modification
Journal of Biological Chemistry
Def1 and Dst1 play distinct roles in repair of AP lesions in highly transcribed genomic regions
DNA Repair
Regulation of Ku-DNA Association by Yku70 C-terminal Tail and SUMO Modification
Journal of Biological Chemistry
Def1 and Dst1 play distinct roles in repair of AP lesions in highly transcribed genomic regions
DNA Repair
A role for topoisomerase III in a recombination pathway alternative to RuvABC
Mol Microbiol
Regulation of Ku-DNA Association by Yku70 C-terminal Tail and SUMO Modification
Journal of Biological Chemistry
Def1 and Dst1 play distinct roles in repair of AP lesions in highly transcribed genomic regions
DNA Repair
A role for topoisomerase III in a recombination pathway alternative to RuvABC
Mol Microbiol
Quorum sensing and multidrug transporters in Escherichia coli
Proceedings of National Academy of Sciences
Regulation of Ku-DNA Association by Yku70 C-terminal Tail and SUMO Modification
Journal of Biological Chemistry
Def1 and Dst1 play distinct roles in repair of AP lesions in highly transcribed genomic regions
DNA Repair
A role for topoisomerase III in a recombination pathway alternative to RuvABC
Mol Microbiol
Quorum sensing and multidrug transporters in Escherichia coli
Proceedings of National Academy of Sciences
Ku Must Load Directly onto the Chromosome End in Order to Mediate Its Telomeric Functions
PLoS Genetics
Regulation of Ku-DNA Association by Yku70 C-terminal Tail and SUMO Modification
Journal of Biological Chemistry
Def1 and Dst1 play distinct roles in repair of AP lesions in highly transcribed genomic regions
DNA Repair
A role for topoisomerase III in a recombination pathway alternative to RuvABC
Mol Microbiol
Quorum sensing and multidrug transporters in Escherichia coli
Proceedings of National Academy of Sciences
Ku Must Load Directly onto the Chromosome End in Order to Mediate Its Telomeric Functions
PLoS Genetics
Yeast Sub1 and human PC4 are G-quadrupled binding proteins that suppress genome instability at co-transcriptionally formed G4 DNA
Nucleic Acids Research
Regulation of Ku-DNA Association by Yku70 C-terminal Tail and SUMO Modification
Journal of Biological Chemistry
Def1 and Dst1 play distinct roles in repair of AP lesions in highly transcribed genomic regions
DNA Repair
A role for topoisomerase III in a recombination pathway alternative to RuvABC
Mol Microbiol
Quorum sensing and multidrug transporters in Escherichia coli
Proceedings of National Academy of Sciences
Ku Must Load Directly onto the Chromosome End in Order to Mediate Its Telomeric Functions
PLoS Genetics
Yeast Sub1 and human PC4 are G-quadrupled binding proteins that suppress genome instability at co-transcriptionally formed G4 DNA
Nucleic Acids Research
Ku DNA End-Binding Activity Promotes Repair Fidelity and Influences End-Processing During Nonhomologous End-Joining in Saccharomyces cerevisiae
Genetics
Possible Matching Profiles
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