生物
肠道菌群
微生物群
共同进化
抗生素耐药性
传输(电信)
适应性
计算生物学
寄主(生物学)
生态学
基因组
免疫系统
肠道微生物群
模式生物
抗菌剂
抗性(生态学)
殖民抵抗
益生菌
生物技术
构造(python库)
微生物学
适应(眼睛)
抗药性
先天免疫系统
免疫
作者
Qianmin Hai,Di Li,Tingyue Huang,Dang Xiaoqun,Jinshan Xu,Ziqing Ma,Zeyang Zhou
标识
DOI:10.1093/femsre/fuag001
摘要
Abstract The honeybee gut microbiome has emerged as a model system in microbial ecology, valued for its structural stability and host specificity, and has garnered significant attention for elucidating universal principles of host-microbe interactions. This review advocates for the honeybee as a multidisciplinary model organism, highlighting the unique role of its gut microbiota in maintaining colony immune homeostasis, driving host co-evolution, unraveling the transmission mechanisms of antibiotic resistance genes (ARGs), and enhancing host adaptability to environmental stressors. By integrating multidimensional factors, including environmental gradients and apicultural practices, we construct an “Environment–Microbiota–Host Health” interaction framework to transcend the limitations of single-factor analyses. This framework provides a novel paradigm for the ecological containment of antimicrobial resistance, the conservation of pollinator resources, and microbiome-based engineering interventions. The review underscores the unique value of the honeybee model in unraveling social insect-microbe coevolution and resistance transmission dynamics, while also prospecting its application potential in developing novel antimicrobial peptides, designing probiotic formulations, and monitoring environmental resistance.
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