白色念珠菌的菌株背景与 SIR2 相互作用,从而改变表型转换。

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-03-01 DOI:10.1099/mic.0.001444
Andrew L Woodruff, Judith Berman, Matthew Anderson
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引用次数: 0

摘要

单一物种菌株之间以及单一菌株品系内部的遗传背景会对生物性状的表达产生重大影响。这种遗传变异还可能重塑细胞特性和环境反应的表观遗传机制,这些机制由相互关联的转录网络和染色质修饰酶控制。组蛋白去乙酰化酶(包括 sirtuins)是染色质状态的关键调控因子,并直接参与管理白色念珠菌(一种常见的真菌共生菌和人类病原体)在 "不育 "白色状态和具有交配能力的不透明状态之间的表型转变。在这里,我们发现 sirtuin SIR2 之前在白念珠菌表型转换中的作用模糊不清,这可能与 SC5314 的 RM 系产生的突变株的遗传背景有关。与野生型相比,BWP17特定品系中的SIR2突变体显示出更高的不透明状态切换频率。在其他 SC5314 衍生背景(包括新构建的 BWP17 sir2Δ/Δ 突变体)中缺失 SIR2 无法再现在原始 BWP17 sir2Δ/Δ 突变体背景中观察到的白色-不透明切换频率的增加。全基因组测序显示,在这一 BWP17 sir2Δ/Δ 突变体系中,存在多个不平衡染色体和大的杂合性缺失区段,它们很可能与 SIR2 相互作用,从而增加了表型转换。这些基因组变化在其他来源于SC5314的sir2Δ/Δ突变体中没有发现,这些突变体没有显示出不透明细胞形成的增加。因此,在菌株构建过程中可能会出现复杂的核型,从而改变突变体的表型,这也凸显了在解释表型时验证菌株背景的重要性。
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Strain background of Candida albicans interacts with SIR2 to alter phenotypic switching.

The genetic background between strains of a single species and within a single strain lineage can significantly impact the expression of biological traits. This genetic variation may also reshape epigenetic mechanisms of cell identity and environmental responses that are controlled by interconnected transcriptional networks and chromatin-modifying enzymes. Histone deacetylases, including sirtuins, are critical regulators of chromatin state and have been directly implicated in governing the phenotypic transition between the 'sterile' white state and the mating-competent opaque state in Candida albicans, a common fungal commensal and pathogen of humans. Here, we found that a previously ambiguous role for the sirtuin SIR2 in C. albicans phenotypic switching is likely linked to the genetic background of mutant strains produced in the RM lineage of SC5314. SIR2 mutants in a specific lineage of BWP17 displayed increased frequencies of switching to the opaque state compared to the wild-type. Loss of SIR2 in other SC5314-derived backgrounds, including newly constructed BWP17 sir2Δ/Δ mutants, failed to recapitulate the increased white-opaque switching frequencies observed in the original BWP17 sir2Δ/Δ mutant background. Whole-genome sequencing revealed the presence of multiple imbalanced chromosomes and large loss of heterozygosity tracts that likely interact with SIR2 to increase phenotypic switching in this BWP17 sir2Δ/Δ mutant lineage. These genomic changes are not found in other SC5314-derived sir2Δ/Δ mutants that do not display increased opaque cell formation. Thus, complex karyotypes can emerge during strain construction that modify mutant phenotypes and highlight the importance of validating strain background when interpreting phenotypes.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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