Two homeobox transcription factors CgrHtf1 and CgrAfh1 hierarchically regulate asexual sporulation and appressorium formation in the maize anthracnose fungus Colletotrichum graminicola.

IF 3 3区生物学 Q2 MYCOLOGY

Fungal biology Pub Date : 2025-10-01 Epub Date: 2025-08-05 DOI:10.1016/j.funbio.2025.101637

Shuangzhen Zhou, Chenchen Guo, Wen Tang, Zhiqiang Liu, Xiaoyu Li

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引用次数: 0

Abstract

Maize anthracnose, caused by the fungal pathogen Colletotrichum graminicola, is among the most devastating diseases affecting maize production. Homeobox transcription factors (HTFs) regulate key developmental and physiological processes in eukaryotes, including fungal pathogenesis. In this study, we identified two HTFs, CgrHtf1 and CgrAfh1, in C. graminicola. Both CgrHtf1 and CgrAfh1 contain a conserved homeobox domain and exhibit distinct nuclear localization, consistent with their predicted roles as transcriptional regulators. Disruption of Cgrhtf1 sharply reduced conidial production while increasing melanin biosynthesis. In contrast, deletion of Cgrafh1 not only impaired conidiation but also abolished the formation of functional appressoria and hyphopodia. Notably, overexpression of Cgrafh1 enhanced appressorium formation compared to the wild-type strain, suggesting its crucial role in the morphogenesis of appressoria. Transcriptome analysis revealed that CgrHtf1 regulates many genes associated with melanin biosynthesis, fungal development and cell cycle control, while CgrAfh1 predominantly modulates the expression of genes linked to signal transduction, cell cycle progression and autophagy processes. Collectively, we demonstrate that CgrHtf1 controls conidiation and melanin biosynthesis, whereas CgrAfh1 governs appressorium development, revealing hierarchical regulation of infection-related morphogenesis in C. graminicola.

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两个同源盒转录因子CgrHtf1和CgrAfh1在玉米炭疽病真菌Colletotrichum graminicola中分层调节无性孢子形成和附着胞形成。

玉米炭疽病是影响玉米生产的最具破坏性的病害之一，由真菌病原菌炭疽菌引起。同源盒转录因子（HTFs）调节真核生物的关键发育和生理过程，包括真菌发病机制。在本研究中，我们在C. graminicola中鉴定了CgrHtf1和CgrAfh1两个HTFs。CgrHtf1和CgrAfh1都含有一个保守的同源盒结构域，并表现出不同的核定位，这与它们作为转录调节因子的预测作用一致。Cgrhtf1的破坏急剧减少了分生孢子的产生，同时增加了黑色素的生物合成。相比之下，Cgrafh1的缺失不仅损害了孢子的形成，而且还破坏了功能性附着胞和菌丝的形成。值得注意的是，与野生型菌株相比，Cgrafh1的过表达增强了附着胞的形成，表明其在附着胞的形态发生中起着至关重要的作用。转录组分析显示，CgrHtf1调节许多与黑色素生物合成、真菌发育和细胞周期控制相关的基因，而CgrAfh1主要调节与信号转导、细胞周期进程和自噬过程相关的基因的表达。总之，我们证明CgrHtf1控制条件和黑色素生物合成，而CgrAfh1控制附着胞发育，揭示了C. graminicola感染相关形态发生的分层调节。

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来源期刊

Fungal biology MYCOLOGY-

CiteScore

5.80

自引率

4.00%

发文量

审稿时长

49 days

期刊介绍： Fungal Biology publishes original contributions in all fields of basic and applied research involving fungi and fungus-like organisms (including oomycetes and slime moulds). Areas of investigation include biodeterioration, biotechnology, cell and developmental biology, ecology, evolution, genetics, geomycology, medical mycology, mutualistic interactions (including lichens and mycorrhizas), physiology, plant pathology, secondary metabolites, and taxonomy and systematics. Submissions on experimental methods are also welcomed. Priority is given to contributions likely to be of interest to a wide international audience.