利用无/悉菌技术解析共生菌促进昆虫幼虫生长发育的作用

doi:10.16380/j.kcxb.2025.06.006

摘要/Abstract

摘要： 【目的】检验现有的无菌和悉菌黑腹果蝇Drosophila melanogaster操作技术在昆虫中应用的广普性，并通过此技术解析共生菌对黑腹果蝇和黑水虻Hermetia illucens生长发育的促进作用。【方法】利用Walch-次氯酸-乙醇改进型无菌操作技术，用黑水虻、亚洲玉米螟Ostrinia furnacalis和东方粘虫Mythimna separata卵进行可行性验证，并优化黑水虻无菌操作技术；使用LB固体培养基分离黑腹果蝇肠道细菌；利用16S rRNA基因测序鉴定黑腹果蝇肠道细菌；体内定殖和世代传递实验验证黑腹果蝇肠道细菌与黑腹果蝇的共生关系；建立悉生黑腹果蝇和黑水虻模型，记录黑腹果蝇的发育历期和生长速率来验证黑腹果蝇肠道细菌对黑腹果蝇和黑水虻生长的促进作用；利用qRT-PCR检测黑腹果蝇2和3龄幼虫体内蜕皮激素信号通路相关基因(PTTH和E74B)的表达量。【结果】与传统的无菌操作技术比较，改进型无菌操作技术提高了建立无菌昆虫的效率；通过改变次氯酸处理时间优化无菌黑水虻操作技术，可将该方法推广到卵粘性低和卵壳较厚的昆虫中。从黑腹果蝇肠道中分离出的细菌经鉴定为拉恩氏布鲁奇菌Rahnella bruchi，该细菌能在黑腹果蝇肠道内稳定定殖，并能在世代间垂直传递。拉恩氏布鲁奇菌显著缩短黑腹果蝇的发育历期，提高黑腹果蝇羽化率和生长速率。肠道共生菌拉恩氏布鲁奇菌能显著缩短黑水虻的发育历期。在分子水平上，拉恩氏布鲁奇菌能显著提高黑腹果蝇2和3龄幼虫体内PTTH和E74B的表达量。【结论】优化后的无菌操作技术对卵壳较厚、卵粘性低的昆虫效果相对较好。拉恩氏布鲁奇菌是黑腹果蝇的有益共生菌，可以因果性地促进黑腹果蝇生长和发育。拉恩氏布鲁奇菌能够促进黑水虻的生长发育。

关键词: 黑腹果蝇, 黑水虻, 无菌操作, 拉恩氏布鲁奇菌, 共生菌, 生长发育

Abstract: 【Aim】 To examine the generality of existing Drosophila melanogaster axenic and gnotobiotic operation techniques for insects, and to explore the promoting effect of symbiotic bacteria on the growth and development of D. melanogaster and Hermetia illucens based on this technique. 【Methods】 The improved Walch-hypochlorous acid-ethanol axenic operation technique was used to verify the viability of this operation technique with the eggs of H. illucens, Ostrinia furnacalis and Mythimna separata, and to optimize the axenic operation technique on H. illucens. The LB solid medium was used to isolate the bacteria from the intestine of D. melanogaster. 16S rRNA gene sequencing was used to identify the intestinal bacteria of D. melanogaster. In vivo colonization and generation transfer experiments were carried out to examine the commensalism between the intestinal bacteria of D. melanogaster and D. melanogaster. D. melanogaster- and H. illucens-associated models were established. The developmental duration and growth rate of D. melanogaster were recorded to assess the promoting effects of the intestinal bacteria of D. melanogaster on the growth of D. melanogaster and H. illucens. qRT-PCR was used to examine the expression levels of the ecdysone signaling pathway-associated genes (PTTH and E74B) in the 2nd and 3rd instar larvae of D. melanogaster. 【Results】 Compared to traditional axenic operation techniques, the improved axenic operation technique increased the efficiency of establishing the axenic insects. By optimizing axenic operation technique through changing the treatment time of hypochlorous acid, this technique was applicable to insect eggs with low viscosity and thicker egg shells. The intestinal bacterium isolated from D. melanogaster was identified as Rahnella bruchi which could stably colonize in the intestine of D. melanogaster and delivered to descendants. R. bruchi significantly shortened the developmental duration, and increased the emergence rate and growth rate of D. melanogaster. Intestinal symbiont R. bruchi significantly shortened the developmental duration of H. illucens. At the molecular level, R. brunch significantly increased the expression levels of PTTH and E74B in the 2nd and 3rd instar larvae of D. melanogaster. 【Conclusion】 The optimized axenic operation technique is relatively applicable for insect eggs with thick egg shells and low viscosity. R. bruchi is a beneficial commensal bacterium of D. melanogaster, which can causally promote the growth and development of D. melanogaster. R. bruchi can promote the growth and development of H. illucens.

Key words: Drosophila melanogaster, Hermetia illucens, axenic operation; Rahnella bruchi, symbiotic bacteria, growth and development

刘安琪, 鲍悦月, 张晟, 杨维康, 何娜娜, 纪晓雯, 刘威. 利用无/悉菌技术解析共生菌促进昆虫幼虫生长发育的作用[J]. 昆虫学报, 2025, 68(6): 744-753.

LIU An-Qi, BAO Yue-Yue, ZHANG Sheng, YANG Wei-Kang, HE Na-Na, JI Xiao-Wen, LIU Wei. Exploration of the role of symbiotic bacteria in the promotion of the growth and development of insect larvae by using axenic/gnotobiotic technique[J]. Acta Entomologica Sinica, 2025, 68(6): 744-753.

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利用无/悉菌技术解析共生菌促进昆虫幼虫生长发育的作用

Exploration of the role of symbiotic bacteria in the promotion of the growth and development of insect larvae by using axenic/gnotobiotic technique

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