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Genetic variation in heat shock protein HSPA1L in Savanna monkeys: implications for heat resilience

High temperatures are a significant biological stressor for mammals, which they may adapt to through behavioral changes, physiological plasticity, and via genetic adaptation. Savanna monkeys (genus Chlorocebus) have a wide climatic range in Africa south of the Sahara, making them a good model species for understanding adaptations to heat stress in primates. Savanna monkeys have been observed to behaviorally mitigate high temperatures, and genetic signs of selection in response to climate have also been found (specifically in relation to cold). In this study, I investigate whether there is genetic variation and evidence for selection related to function in a heat shock protein gene (HSPA1L) in 73 wild savanna monkeys ranging from equatorial Africa to the southern coast of South Africa. Given the important role of heat shock proteins in buffering heat stress, I hypothesized that genetic variation would be associated with maximum summer temperatures, as those are most likely to be warm enough to induce a heat shock response. I found 45 single nucleotide polymorphisms (SNPs) outside of Hardy-Weinberg Equilibrium, and 10 SNPs with significant integrated haplotype scores, only one of which was in a protein coding region (17:40210341; piHS = 2.20). Using phylogenetic least squares modeling I found that maximum temperature of the warmest month was strongly but not significantly associated with the frequency of a derived allele nested within a regulatory region for HSPA1L (17:40207386; piHS = 2.57; b = 0.044, p = 0.061) presumably experiencing selection. I discuss implications of these results for heat tolerance in primates and resilience to climate change.

Identiferoai:union.ndltd.org:bu.edu/oai:open.bu.edu:2144/48441
Date19 March 2024
CreatorsDippel, Maxwell Allen
ContributorsSchmitt, Christopher
Source SetsBoston University
Languageen_US
Detected LanguageEnglish
TypeThesis/Dissertation

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