Dual role of KHCO₃ priming: reduces seed-borne pathogens on sorghum seeds and promotes seed germination.

IF 4 2区生物学 Q2 MICROBIOLOGY

BMC Microbiology Pub Date : 2025-03-12 DOI:10.1186/s12866-025-03824-9

Shuai Dong, Keqin Peng, Qiyuan Liu, Min Zhang, Yan Luo, Zhen Hua Li

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引用次数: 0

Abstract

Background: Seed-borne diseases have seriously affected the sustainability of sorghum cultivation in China as the demand for organic products in the winemaking industry has limited the use of chemical fungicides.

Results: This study conducted a comprehensive analysis of fungal diversity in sorghum seeds from three major growing regions in Guizhou Province. Using a combination of traditional tissue separation and high-throughput sequencing, we identified Colletotrichum, Fusarium, Cladosporium, and Alternaria as dominant fungi. Pathogenicity tests revealed that strains GD202206, GD202219, and GD202242 were pathogenic and were identified as C. sublineola through morphological and multi-locus phylogeny analysis (ITS、CAPDH、ACT、CHS-1 and TUB2). 16 fungicides for seed priming experiments with sorghum seeds, the results indicated that priming with KHCO₃ significantly enhanced germination of the sorghum seeds, with both indoor and outdoor emergence rates notably higher. Analysis of the fungal changes before and after KHCO₃ priming revealed a significant reduction in the abundance of the Colletotrichum genus. Additionally, KHCO₃ altered the community structure of fungi within the sorghum seeds, reducing population richness. Inter-generic relationships were rebalanced, with antagonism decreased and synergy increased following KHCO₃ treatment. Non-target metabolomic analysis indicated that KHCO₃ enhances sorghum seed germination via the phenylalanine and flavonoid pathways and exhibits antifungal properties through the cyanoamino acid metabolic pathway.

Conclusion: This study identified C. sublineola as the primary pathogenic fungus carried by sorghum seeds. KHCO₃ treatment has a dual effect on sorghum seeds: on one hand, it suppresses pathogen transmission by reducing the abundance of the Colletotrichum genus; on the other hand, it promotes germination and seedling emergence, thereby enhancing both germination and emergence rates.

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KHCO₃引发的双重作用：减少高粱种子上的种传病原体，促进种子发芽。

背景：由于酿酒行业对有机产品的需求限制了化学杀菌剂的使用，种子传播疾病严重影响了中国高粱种植的可持续性。结果：本研究对贵州省三大主产区高粱种子真菌多样性进行了综合分析。采用传统的组织分离和高通量测序相结合的方法，我们确定了炭疽菌、镰刀菌、枝孢菌和Alternaria为优势真菌。致病性检测结果显示，菌株GD202206、GD202219和GD202242具有致病性，通过ITS、CAPDH、ACT、CHS-1和TUB2的形态和多位点系统发育分析，鉴定为亚布林弧菌。用16种杀菌剂对高粱种子进行催种试验，结果表明，用KHCO₃催种能显著提高高粱种子的发芽率，室内和室外出苗率均显著提高。对kco₃启动前后真菌变化的分析显示，Colletotrichum属的丰度显著降低。此外，KHCO₃改变了高粱种子内真菌的群落结构，降低了种群的丰富度。在kco₃处理后，类间关系重新平衡，拮抗作用减少，协同作用增加。非目标代谢组学分析表明，KHCO₃通过苯丙氨酸和类黄酮途径促进高粱种子萌发，并通过氰氨基酸代谢途径表现出抗真菌特性。结论：本研究确定了高粱种子携带的主要病原菌为亚布林冠孢菌。KHCO₃处理对高粱种子有双重作用：一方面，它通过减少炭疽菌属的丰度来抑制病原体的传播；另一方面，它促进发芽和出苗，从而提高发芽率和出苗率。

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来源期刊

BMC Microbiology 生物-微生物学

CiteScore

7.20

自引率

0.00%

发文量

280

审稿时长

3 months

期刊介绍： BMC Microbiology is an open access, peer-reviewed journal that considers articles on analytical and functional studies of prokaryotic and eukaryotic microorganisms, viruses and small parasites, as well as host and therapeutic responses to them and their interaction with the environment.