Acptp2,3 participates in the regulation of spore production, stress response, and pigments synthesis in Aspergillus cirstatus

IF 2.3 3区生物学 Q2 MULTIDISCIPLINARY SCIENCES

PeerJ Pub Date : 2024-09-18 DOI:10.7717/peerj.17946

Lei Shao, Zuoyi Liu, Yumei Tan

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引用次数: 0

Abstract

Background Aspergillus cristatus was a filamentous fungus that produced sexual spores under hypotonic stress and asexual spores under hypertonic stress. It could be useful for understanding filamentous fungi’s sporulation mechanism. Previously, we conducted functional studies on Achog1, which regulated the hyperosmotic glycerol signaling (HOG) pathway and found that SI65_02513 was significantly downregulated in the transcriptomics data of ΔAchog1 knockout strain. This gene was located at multiple locations in the HOG pathway, indicating that it might play an important role in the HOG pathway of A. cristatus. Furthermore, the function of this gene had not been identified in Aspergillus fungi, necessitating further investigation. This gene’s conserved domain study revealed that it has the same protein tyrosine phosphatases (PTPs) functional domain as Saccharomyces cerevisiae, hence SI65_02513 was named Acptp2,3. Methods The function of this gene was mostly validated using gene knockout and gene complementation approaches. Knockout strains exhibited sexual and asexual development, as well as pigments synthesis. Morphological observations of the knockout strain were carried out under several stress conditions (osmotic stress, oxidative stress, Congo Red, and sodium dodecyl sulfate (SDS). Real-time fluorescence polymerase chain reaction (PCR) identified the expression of genes involved in sporulation, stress response, and pigments synthesis. Results The deletion of Acptp2,3 reduced sexual and asexual spore production by 4.4 and 4.6 times, demonstrating that Acptp2,3 positively regulated the sporulation of A. cristatus. The sensitivity tests to osmotic stress revealed that ΔAcptp2,3 strains did not respond to sorbitol-induced osmotic stress. However, ΔAcptp2.3 strains grew considerably slower than the wild type in high concentration sucrose medium. The ΔAcptp2,3 strains grew slower than the wild type on media containing hydrogen peroxide, Congo red, and SDS. These findings showed that Acptp2,3 favorably controlled osmotic stress, oxidative stress, and cell wall-damaging chemical stress in A. cristatus. Deleting Acptp2,3 resulted in a deeper colony color, demonstrating that Apctp2,3 regulated pigment synthesis in A. cistatus. The expression levels of numerous stress-and pigments-related genes matched the phenotypic data. Conclusion According to our findings, Acptp2,3 played an important role in the regulation of sporulation, stress response, and pigments synthesis in A. cristatus. This was the first study on the function of PTPs in Aspergillus fungi.

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Acptp2,3参与调控曲霉孢子的产生、应激反应和色素合成

背景十字曲霉是一种丝状真菌，在低渗胁迫下产生有性孢子，在高渗胁迫下产生无性孢子。它有助于了解丝状真菌的产孢机制。此前，我们对调控高渗甘油信号通路（HOG）的Achog1进行了功能研究，发现在ΔAchog1基因敲除菌株的转录组学数据中，SI65_02513被显著下调。该基因位于 HOG 通路的多个位置，表明它可能在 A. cristatus 的 HOG 通路中发挥重要作用。此外，该基因的功能在曲霉真菌中尚未发现，因此有必要进行进一步研究。对该基因保守结构域的研究发现，它与酿酒酵母具有相同的蛋白酪氨酸磷酸酶（PTPs）功能域，因此将 SI65_02513 命名为 Acptp2,3。方法主要通过基因敲除和基因互补的方法验证该基因的功能。基因敲除菌株表现出有性和无性发育以及色素合成。在几种胁迫条件（渗透胁迫、氧化胁迫、刚果红和十二烷基硫酸钠（SDS））下对基因敲除菌株进行了形态学观察。实时荧光聚合酶链反应（PCR）鉴定了参与孢子形成、应激反应和色素合成的基因的表达。结果删除 Acptp2,3 后，有性孢子和无性孢子的产生量分别减少了 4.4 倍和 4.6 倍，表明 Acptp2,3 对 A. cristatus 的孢子产生具有正向调节作用。对渗透胁迫的敏感性测试表明，ΔAcptp2,3 菌株对山梨醇诱导的渗透胁迫没有反应。然而，在高浓度蔗糖培养基中，ΔAcptp2.3 菌株的生长速度明显慢于野生型。在含有过氧化氢、刚果红和 SDS 的培养基中，ΔAcptp2,3 菌株的生长速度比野生型慢。这些研究结果表明，Acptp2,3 能很好地控制十字花科动物的渗透胁迫、氧化胁迫和破坏细胞壁的化学胁迫。删除 Acptp2,3 会导致菌落颜色加深，这表明 Apctp2,3 可调控 A. cistatus 的色素合成。许多压力和色素相关基因的表达水平与表型数据相符。结论根据我们的研究结果，Acptp2,3 在克氏囊藻的孢子形成、应激反应和色素合成的调控过程中发挥了重要作用。这是首次研究 PTPs 在曲霉真菌中的功能。

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来源期刊

PeerJ MULTIDISCIPLINARY SCIENCES-

CiteScore

4.70

自引率

3.70%

发文量

1665

审稿时长

10 weeks

期刊介绍： PeerJ is an open access peer-reviewed scientific journal covering research in the biological and medical sciences. At PeerJ, authors take out a lifetime publication plan (for as little as $99) which allows them to publish articles in the journal for free, forever. PeerJ has 5 Nobel Prize Winners on the Board; they have won several industry and media awards; and they are widely recognized as being one of the most interesting recent developments in academic publishing.