Characterization of the shsp genes in Drosophila buzzatii and association between the frequency of Valine mutations in hsp23 and climatic variables along a longitudinal gradient in Australia

Frydenberg, Jane; Barker, J. S. F.; Loeschcke, Volker

doi:10.1007/s12192-009-0140-y

Cited by 7 publications

(6 citation statements)

References 43 publications

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“…Based on these studies, it is well established that HSP expression is an adaptive physiological mechanism for coping with acute thermal stress. Accordingly, population-level comparisons have discovered clinal variation in Hsp23 alleles across environmental thermal gradients in Drosophila buzzatii in Australia (Frydenberg et al, 2010), as well as clines in allele frequencies of Hsp23 and Hsp26 among D. melanogaster populations in Australia (Frydenberg et al, 2003). In addition, laboratory thermal selection studies have found evolved changes in HSP expression to accompany adaptive shifts in upper thermal limits (Rudolph et al, 2010;Kelly et al, 2017).…”

Section: Discussionmentioning

confidence: 99%

Maternal loading of a small heat shock protein increases embryo thermal tolerance inDrosophila melanogaster

Lockwood

Julick

Montooth

2017

Journal of Experimental Biology

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Maternal investment is likely to have direct effects on offspring survival. In oviparous animals whose embryos are exposed to the external environment, maternal provisioning of molecular factors like mRNAs and proteins may help embryos cope with sudden changes in the environment. Here, we sought to modify the maternal mRNA contribution to offspring embryos and test for maternal effects on acute thermal tolerance in early embryos of We drove overexpression of a small heat shock protein gene () in female ovaries and measured the effects of acute thermal stress on offspring embryonic survival and larval development. We report that overexpression of the gene in female ovaries produced offspring embryos with increased thermal tolerance. We also found that brief heat stress in the early embryonic stage (0-1 h old) caused decreased larval performance later in life (5-10 days old), as indexed by pupation height. Maternal overexpression of protected embryos against this heat-induced defect in larval performance. Our data demonstrate that transient products of single genes have large and lasting effects on whole-organism environmental tolerance. Further, our results suggest that maternal effects have a profound impact on offspring survival in the context of thermal variability.

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Section: Discussionmentioning

confidence: 99%

Maternal loading of a small heat shock protein increases embryo thermal tolerance inDrosophila melanogaster

Lockwood

Julick

Montooth

2017

Journal of Experimental Biology

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“…Although the finding of association between HSP22 polymorphisms and some certain traits is of high interest, the detailed mechanisms under the phenomenon are still far from well understood. Inspiringly, accumulating evidences have suggested that genetic polymorphisms in the coding regions could affect proteins activity [42] , [43] , which could perhaps explain why they were associated with some certain traits. For example, the mutation of Valine to Leucine can change the biological activity of the antimicrobial peptide protegrin-1 [42] , the specific mutations in Cosmc from patients with Tn syndrome lead to the loss of its chaperone function [44] , and the nonsynonymous mutation in the coding region of human Hsp70 gene can affect the chaperone function [19] .…”

Section: Discussionmentioning

confidence: 99%

The Gln32Lys Polymorphism in HSP22 of Zhikong Scallop Chlamys farreri Is Associated with Heat Tolerance

et al. 2011

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BackgroundHeat shock protein 22 is a member of small heat shock proteins with molecular chaperone activity. Though their multiple functions have been well characterized, there is no report about the association between the polymorphisms of HSP22 and heat tolerance.MethodologyThree single nucleotide polymorphisms were identified in HSP22 from scallop Chlamys farreri (CfHSP22), and the +94 C-A locus was found to be nonsynonymous. Three genotypes at locus +94, A/A, A/C and C/C, were revealed by using Bi-PASA PCR analysis, and their frequencies were 19.5%, 27.6% and 52.9% in the heat resistant stock, while 9.3%, 17.4% and 73.3% in the heat susceptible stock, respectively. The frequency differences of the three genotypes were significant (P<0.05) between the two stocks. After incubating at 30°C for 84 h, the cumulative mortality of scallops with +94 C/C genotype and +94 A/C genotypes was 95% and 90%, respectively, which was significantly higher (P<0.01) than that of scallops with +94 A/A genotype (70%). The molecular chaperone activity of two His-tagged fusion proteins, rCfHSP22Q with +94 C/C genotype and rCfHSP22K with +94 A/A genotype were analyzed by testing the ability of protecting citrate synthase (CS) against thermal inactivation in vitro. After incubated with rCfHSP22Q or rCfHSP22K at 38°C for 1 h, the activity of CS lost 50% and 45%, and then recovered to 89% and 95% of the original activity following 1 h restoration at 22°C, respectively, indicating that the mutation from Gln to Lys at this site might have an impact on molecular chaperone activities of CfHSP22.ConclusionsThese results implied that the polymorphism at locus +94 of CfHSP22 was associated with heat tolerance of scallop, and the +94 A/A genotype could be a potential marker available in future selection of Zhikong scallop with heat tolerance.

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“…In the present study, 11 SNP sites were found in the exon region of PmPIAS , and they demonstrated significant differences between the R and W in genotype and allele. Accumulating evidence suggested that genetic polymorphisms in the coding regions could affect protein activity or effect of translation ( Gottler et al, 2008 ; Frydenberg et al, 2010 ). The SNPs detected in the present study may provide a potential site for the cold tolerance selection in the future.…”

Section: Discussionmentioning

confidence: 99%

Identification and Allelic Variants Associated With Cold Tolerance of PmPIAS in Pinctada fucata martensii

et al. 2021

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The protein inhibitor of activated STAT (PIAS) functions in diverse aspects, including immune response, cell apoptosis, cell differentiation, and proliferation. In the present study, the PIAS in the pearl oyster Pinctada fucata martensii was characterized. The sequence features of PmPIAS were similar to that of other PIAS sequences with PIAS typical domains, including SAP, Pro-Ile-Asn-Ile-Thr (PINIT), RLD domain, AD, and S/T-rich region. Homologous analysis showed that PmPIAS protein sequence showed the conserved primary structure compared with other species. Ribbon representation of PIAS protein sequences also showed a conserved structure among species, and the PINIT domain and RLD domain showed the conserved structure compared with the sequence of Homo sapiens. The expression pattern of PmPIAS in different tissues showed significant high expression in the gonad. PmPIAS also exhibited a significantly higher expression in the 1 and 2 days after cold tolerance stress (17°C) and showed its potential in the cold tolerance. The SNP analysis of the exon region of PmPIAS obtained 18 SNPs, and among them, 11 SNPs showed significance among different genotypes and alleles between cold tolerance selection line and base stock, which showed their potential in the breeding for cold tolerance traits.

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Characterization of the shsp genes in Drosophila buzzatii and association between the frequency of Valine mutations in hsp23 and climatic variables along a longitudinal gradient in Australia

Cited by 7 publications

References 43 publications

Maternal loading of a small heat shock protein increases embryo thermal tolerance inDrosophila melanogaster

Maternal loading of a small heat shock protein increases embryo thermal tolerance inDrosophila melanogaster

The Gln32Lys Polymorphism in HSP22 of Zhikong Scallop Chlamys farreri Is Associated with Heat Tolerance

Identification and Allelic Variants Associated With Cold Tolerance of PmPIAS in Pinctada fucata martensii

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