多组学驱动食用菌遗传育种研究范式转变OA
Multi-omics drives a paradigm shift in research on genetic breeding of edible fungi
中国是食用菌大国,为了进一步增强产业创新能力,加大食用菌的基础研究是关键突破口.近年来随着生物技术的快速发展,组学驱动食用菌研究从表型描述向系统性机制解析转变.应用单一组学技术目前已在食用菌遗传基础、基因调控、蛋白动态、代谢通路及表型分析等分子调控研究取得了广泛进展,但应用多组学联用整合分析才能解决单一组学数据片面化、碎片化的问题,所以多组学技术逐渐成为食用菌遗传育种研究范式转变的核心驱动力.虽然目前研究仍面临数据质量、功能验证、计算资源、整合复杂性等挑战,未来仍需聚焦底层技术革新、人工智能驱动、跨尺度整合、资源平台建设等,继续推动多组学深度整合与创新应用,助力食用菌产业高质量发展,以满足粮食安全与大健康需求.
China is a large country in the production of edible fungi.In order to further enhance the industrial innovation ability,increasing the basic research on edible fungi is the key breakthrough point.In recent years,with the rapid development of biotechnology,omics-drive research on edible fungi has shifted from phenotype description to systematic mechanism analysis.The application of single omics technology has achieved extensive progress in the genetic basis,gene regulation,protein dynamics,metabolic pathways,and phenotypic analysis of edible fungi.However,the problems of one-sided and fragmented data of single omics can be addressed only through integrated analysis of multi-omics.Therefore,multi-omics technology has gradually become the core driver for the paradigm shift in research on genetic breeding of edible fungi.Although the current research still faces challenges such as data quality,functional verification,computing resources,and integration complexity,future researches should focus on innovations in underlying technologies,AI-driven approaches,cross-scale integration,the construction of resource platforms,etc.Continued promotion of deep integration and innovative application of multi-omics will facilitate high-quality development of the industry of edible fungi,thereby meeting the needs of food security and public health.
韩蓓;赵瑞琳
中国科学院微生物研究所 微生物多样性与资源创新利用全国重点实验室,北京 100101中国科学院大学生命科学学院,北京 100049
食用菌多组学研究范式
edible fungimulti-omicsresearch paradigm
《菌物学报》 2026 (1)
1-16,16
"十四五"国家重点研发计划(2022YFD1200605)现代农业产业技术体系北京市创新团队(BAIC03) This work was supported by the National Key Research and Development Program of China under the 14th Five-Year Plan(2022YFD1200605)and the Beijing Innovation Consortium of Agriculture Research System(BAIC03).
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