草酸降解细菌在培菌白蚁巢穴中的作用。

Roles of oxalate-degrading bacteria in fungus-growing termite nests.

作者信息

Sun Qibiao, Li Jing, Syed Shameer, Li Xiaofang, Yuan Huatao, Lian Bin

机构信息

College of Life Sciences, College of Marine Science and Engineering, Nanjing Normal University, Nanjing, China College of Life Sciences, College of Marine Science and Engineering, Nanjing Normal University Nanjing China.

Jiangxi Province Key Laboratory of Watershed Ecological Process and Information, Jiujiang Key Laboratory of Fungal Resources Conservation and Utilization, College of Pharmacy and Life Sciences, Jiujiang University, Jiujiang, China Jiangxi Province Key Laboratory of Watershed Ecological Process and Information, Jiujiang Key Laboratory of Fungal Resources Conservation and Utilization, College of Pharmacy and Life Sciences, Jiujiang University Jiujiang China.

出版信息

Biodivers Data J. 2024 Aug 19;12:e130041. doi: 10.3897/BDJ.12.e130041. eCollection 2024.

DOI:10.3897/BDJ.12.e130041

PMID:39193424

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11347878/

Abstract

Fungus-growing termite (FGT) nests possess an oxalate pool derived from termite input and fungal oxalogenesis. The effect of oxalate biotransformation in the termite nest on the symbiotic association between FGTs and fungi is poorly understood. Here, we measured the pH value, mineral composition, oxalate and carbonate contents, along with the abundance and composition of oxalotrophic bacteria (OxB) in termite nests. The results showed the community structures of OxB in different parts of the termite nest across fungus comb, termite nest wall and surface soil, were significantly different. The diversity of OxB in the fungus comb was significantly lower than that in the termite nest wall and surface soil. Results also showed the abundance of OxB in the fungus comb was higher than that in the termite nest wall and significantly lower than that in the surface soil. In addition, we isolated and screened an oxalotrophic bacterium sp. TA1 from the fungus comb, which can degrade calcium oxalate and convert it into calcite. Our results from the perspective of oxalate biodegradation and transformation show that the oxalate-carbonate pathway driven by OxB in active termite nests can maintain stable microecological environments in termite nests and is beneficial to the symbiotic association between FGTs and .

摘要

培菌白蚁巢拥有一个源自白蚁输入和真菌草酸生成的草酸盐库。对白蚁巢中草酸盐生物转化对培菌白蚁与真菌共生关系的影响了解甚少。在此，我们测量了白蚁巢中的pH值、矿物质组成、草酸盐和碳酸盐含量，以及草酸营养细菌（OxB）的丰度和组成。结果表明，在整个菌圃、白蚁巢壁和表层土壤的白蚁巢不同部位，OxB的群落结构存在显著差异。菌圃中OxB的多样性显著低于白蚁巢壁和表层土壤。结果还表明，菌圃中OxB的丰度高于白蚁巢壁，且显著低于表层土壤。此外，我们从菌圃中分离并筛选出一株草酸营养细菌TA1，它可以降解草酸钙并将其转化为方解石。我们从草酸盐生物降解和转化角度得到的结果表明，活跃白蚁巢中由OxB驱动的草酸盐-碳酸盐途径可以维持白蚁巢中稳定的微生态环境，并且有利于培菌白蚁与真菌的共生关系。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/38fc/11347878/5cf4ccf78dd8/bdj-12-e130041-g001.jpg

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草酸降解细菌在培菌白蚁巢穴中的作用。

Roles of oxalate-degrading bacteria in fungus-growing termite nests.

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