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Kirsten Isabel Verster
COLLEGE Lecturer
Humanities Resume:
TBD
Teaching Resume: TBD
PhD/Science:
While most of us are familiar with vertical transfer (e.g. I get genes from my father and mother), I find horizontal gene transfer (HGT) - exchanging genes between species - far more compelling. Imagine if you ate a jellyfish and the next day you glowed in the dark and had poisonous stingers! The prevalence of HGT in natural history, and its ability to suddenly create incredible phenotypes in animals, is becoming more apparent every year. I am currently studying HGT of cytolethal distending toxin B in insects in the Integrative Biology Department at University of California - Berkeley. I discovered that cdtB was transferred into the genomes of several drosophilid and aphid lineages (Verster et al 2019, Molecular Biology and Evolution). I also recently found that cdtB (in addition to other toxin genes) was transferred into an agriculturally devastating clade of insects known as midges - and, interestingly, that living in the same habitat may increase the likelihood of HGT between organisms (Verster and Tarnopol et al 2021, Genome Biology and Evolution).
Education
BA, Spanish Literature, University of Florida, 2014
BA, Zoology, University of Florida, 2014
PhD, University of California - Berkeley, 2022
Postdoc, Stanford University, 2022 - 2024
COLLEGE Lecturer, 2024-present
TBD
Teaching Resume: TBD
PhD/Science:
While most of us are familiar with vertical transfer (e.g. I get genes from my father and mother), I find horizontal gene transfer (HGT) - exchanging genes between species - far more compelling. Imagine if you ate a jellyfish and the next day you glowed in the dark and had poisonous stingers! The prevalence of HGT in natural history, and its ability to suddenly create incredible phenotypes in animals, is becoming more apparent every year. I am currently studying HGT of cytolethal distending toxin B in insects in the Integrative Biology Department at University of California - Berkeley. I discovered that cdtB was transferred into the genomes of several drosophilid and aphid lineages (Verster et al 2019, Molecular Biology and Evolution). I also recently found that cdtB (in addition to other toxin genes) was transferred into an agriculturally devastating clade of insects known as midges - and, interestingly, that living in the same habitat may increase the likelihood of HGT between organisms (Verster and Tarnopol et al 2021, Genome Biology and Evolution).
Education
BA, Spanish Literature, University of Florida, 2014
BA, Zoology, University of Florida, 2014
PhD, University of California - Berkeley, 2022
Postdoc, Stanford University, 2022 - 2024
COLLEGE Lecturer, 2024-present