从咖啡果小蠹中分离出的细菌的培养与基因组测序，重点关注咖啡因降解的作用

Cultivation and Genome Sequencing of Bacteria Isolated From the Coffee Berry Borer (), With Emphasis on the Role of Caffeine Degradation.

作者信息

Vega Fernando E, Emche Sarah, Shao Jonathan, Simpkins Ann, Summers Ryan M, Mock Meredith B, Ebert Dieter, Infante Francisco, Aoki Sayaka, Maul Jude E

机构信息

Sustainable Perennial Crops Laboratory, United States Department of Agriculture, Agricultural Research Service, Beltsville, MD, United States.

Sustainable Agricultural Systems Laboratory, United States Department of Agriculture, Agricultural Research Service, Beltsville, MD, United States.

出版信息

Front Microbiol. 2021 Apr 6;12:644768. doi: 10.3389/fmicb.2021.644768. eCollection 2021.

DOI:10.3389/fmicb.2021.644768

PMID:33889142

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8055839/

Abstract

The coffee berry borer, the most economically important insect pest of coffee worldwide, is the only insect capable of feeding and reproducing solely on the coffee seed, a food source containing the purine alkaloid caffeine. Twenty-one bacterial species associated with coffee berry borers from Hawai'i, Mexico, or a laboratory colony in Maryland ( sp. S40, S54, S55, , , sp. S38, S43, S63, , sp. S45, S46, sp. S61, , , and sp. S30, S31, S32, S37, S44, S60, S75) were found to have at least one of five caffeine N-demethylation genes (, , , , ), with spp. S31, S32, S37, S60 and . having the full complement of these genes. Some of the bacteria carrying the ndm genes were detected in eggs, suggesting possible vertical transmission, while presence of caffeine-degrading bacteria in frass, e.g., () and () could result in horizontal transmission to all insect life stages. Thirty-five bacterial species associated with the insect ( sp. S40, S54, S55, , group, sp. S29, S70, S71, S72, S73, , sp. S38, S43, S59, S63, , , sp. S45, S46, sp. S28, sp. S61, S62, , , sp. S30, S31, S32, S37, S44, S60, S75, sp. S39, S41, S48, S49) might contribute to caffeine breakdown using the C-8 oxidation pathway, based on presence of genes required for this pathway. It is possible that caffeine-degrading bacteria associated with the coffee berry borer originated as epiphytes and endophytes in the coffee plant microbiota.

摘要

咖啡果小蠹是全球咖啡在经济方面最重要的害虫，是唯一能够仅以咖啡种子为食并繁殖的昆虫，咖啡种子是一种含有嘌呤生物碱咖啡因的食物来源。从夏威夷、墨西哥或马里兰州的一个实验室群体中分离出的与咖啡果小蠹相关的21种细菌（S40、S54、S55、……、S38、S43、S63、……、S45、S46、S61、……、以及S30、S31、S32、S37、S44、S60、S75）被发现至少拥有五个咖啡因N-去甲基化基因（……）中的一个，其中S31、S32、S37、S60以及……拥有这些基因的完整组合。在卵中检测到了一些携带ndm基因的细菌，这表明可能存在垂直传播，而在粪便中存在咖啡因降解细菌，例如（……）和（……），可能导致水平传播到昆虫的所有生命阶段。与该昆虫相关的35种细菌（S40、S54、S55、……、群体、S29、S70、S71、S72、S73、……、S38、S43、S59、S63、……、……、S45、S46、S28、S61、S62、……、……、S30、S31、S32、S37、S44、S60、S75、S39、S41、S48、S49），基于该途径所需基因的存在，可能通过C-8氧化途径促进咖啡因分解。与咖啡果小蠹相关的咖啡因降解细菌有可能起源于咖啡植物微生物群中的附生植物和内生植物。

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从咖啡果小蠹中分离出的细菌的培养与基因组测序，重点关注咖啡因降解的作用

Cultivation and Genome Sequencing of Bacteria Isolated From the Coffee Berry Borer (), With Emphasis on the Role of Caffeine Degradation.

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