基于拉曼光谱"先筛后养"策略在功能微生物资源挖掘中的应用OA
Applications of Raman Spectroscopy-based"Screen-First,Culture-Second"Strategy in Functional Microbial Resource Exploration
随着微生物研究的深入,传统的"先养后筛"策略在应对复杂环境样本和挖掘功能微生物时暴露出显著的局限性.以肠道和自然环境样本为例,由于99%以上的原核生物无法在实验室条件下培养,大量具有重要功能的微生物尚未被发现和研究.针对这一挑战,提出了基于单细胞拉曼光谱(SCRS)结合重水(D₂O)代谢标记的"先筛后养"策略.该策略采用原位无标记的单细胞拉曼光谱分析,可快速筛选出具有特定代谢活性的微生物细胞,随后对这些细胞进行精准培养与鉴定.通过SCRS检测细胞对D₂O的同化速率,可高效筛选具备特定功能(如溶磷、降解污染物等)的微生物个体.本文综述了该策略的关键技术及应用实例,并详细分析其在微生物功能挖掘方面的优势,指出该策略在提高筛选通量、灵敏度和活性保持率等方面具有显著潜力.同时,探讨了自动化、AI辅助识别、多组学融合以及基因组驱动培养基设计等发展趋势.最后,展望了该策略在微生物资源库构建、耐药性监测等领域的应用前景.旨在为微生物功能筛选与高通量分选技术提供系统性参考,以推动单细胞拉曼技术在微生物学研究与应用中的广泛应用.
With the deepening of microbial research,the traditional"Culture-First,Screen-Second"strategy has shown pronounced limitations when confronted with complex environmental samples and in the quest for functionally significant microbes.Taking gut and natural-environment samples as examples,more than 99% of prokaryotes remain uncultivable under standard laboratory conditions,leaving myriad microorganisms with crucial functions undiscovered and uncharacterised.To address this challenge,a"Screen-First,Culture-Second"workflow based on single-cell Raman spectroscopy(SCRS)combined with heavy-water(D2O)metabolic labelling has been proposed.This approach employs in situ,label-free SCRS to rapidly pinpoint individual cells exhibiting specific metabolic activities,followed by precise cultivation and taxonomic identification of those cells.By measuring the assimilation rate of D₂O in single cells,SCRS enables the efficient isolation of microbes endowed with targeted functions—for instance,phosphate solubilisation or pollutant degradation.This review summarises the core techniques underpinning this strategy and showcases representative applications.Then it analyses in detail its advantages for functional-microbe discovery,highlighting its considerable potential to enhance screening throughput,sensitivity and activity retention.Meanwhile,the review also discusses the trends,including automation,AI-assisted spectral recognition,multi-omics integration and genome-informed medium design.Finally,the review envisions broad prospects for this strategy in building microbial resource libraries,monitoring antimicrobial resistance and other emerging fields.Overall,the"Screen-First,Culture-Second"platform offers a systematic reference framework for high-throughput functional screening and sorting and is aimed to accelerate the widespread adoption of single-cell Raman technologies in microbiological research and application.
刘佳;任义尚;许拉;荆晓艳
忻州师范学院生物系,忻州 034000中国科学院青岛生物能源与过程研究所单细胞中心,青岛 266101山东省海洋科学研究院(青岛国家海洋科学研究中心),青岛 266104中国科学院青岛生物能源与过程研究所单细胞中心,青岛 266101||青岛科技大学生物工程学院,青岛 266061
单细胞拉曼光谱拉曼激活细胞分选单细胞高通量分选单细胞培养重水代谢标记"先筛后养"策略功能筛选微生物资源
single-cell Raman spectroscopyRaman-activated cell sortingsingle-cell high-throughput sortingsingle-cell cultivationdeuterium oxide metabolic labeling"Screen-First,Culture-Second"strategyfunctional screeningmicrobial resource
《生物技术通报》 2026 (5)
63-75,13
山西省基础研究计划青年科学研究项目(202203021212182)
评论