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KCIBumblebees, as vital pollinators, serve as ideal models for investigating the relationship between hosts and their microbiomes. Mating behavior in bumblebees may influence microbial diversity, either through sexual transmission or immunity activation....
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RISS 인기검색어
Variation of bacterial communities in bumblebees: Transmission and regulation by mating behavior
한글로보기https://www.riss.kr/link?id=A109255511
-
저자
Sik Lee Kwang (Dong-A University) ; Cai Tingwei (Huazhong Agricultural University) ; Joo Yoon Hyung (National Academy of Agricultural Science) ; Kyeong Yong Lee (Department of Agricultural Biology, National Acade) ; Li Jianhong (Huazhong Agricultural University) ; Wan Hu (Huazhong Agricultural University) ; Rae Jin Byung (Dong-A University)
- 발행기관
- 학술지명
- 권호사항
-
발행연도
2024
-
작성언어
English
- 주제어
-
등재정보
KCI등재,SCIE,SCOPUS
-
자료형태
학술저널
-
수록면
1-8(8쪽)
- DOI식별코드
- 제공처
-
0
상세조회 -
0
다운로드
부가정보
다국어 초록 (Multilingual Abstract)
Bumblebees, as vital pollinators, serve as ideal models for investigating the relationship between hosts and their microbiomes. Mating behavior in bumblebees may influence microbial diversity, either through sexual transmission or immunity activation. Therefore, the study of mating-induced changes in microbiomes is crucial for understanding its biological and evolutionary significance. In this study, we examined microbiomes in a community context within both the gut and reproductive organs of bumblebees, using 16S rRNA sequences. Analysis of alpha and beta diversities revealed that the bacterial microbiome in the gut exhibits lower diversity than reproductive organs, with mating exerting a significant impact on the composition of microbiota in both gut and reproductive organs. By assessing Bray–Curtis dissimilarity at the amplicon sequence variant level, we observed a reduction in the divergence of bacterial communities between queen and drone reproductive organs following mating, a phenomenon not observed in the gut. This convergence is attributed to horizontal transmission and physiological responses post-mating. Notably, one bacterial genus in the gut and 13 genera in the seminal vesicle exhibited potential for horizontal transmission. Furthermore, the core bacterium Lactobacillus is suppressed in both gut and reproductive organs post-mating, while Weissella is increased in spermathecae. Our results reveal horizontal microbiome transfer between queen and drone bumblebees.
Bumblebees, as vital pollinators, serve as ideal models for investigating the relationship between hosts and their microbiomes. Mating behavior in bumblebees may influence microbial diversity, either through sexual transmission or immunity activation. Therefore, the study of mating-induced changes in microbiomes is crucial for understanding its biological and evolutionary significance. In this study, we examined microbiomes in a community context within both the gut and reproductive organs of bumblebees, using 16S rRNA sequences. Analysis of alpha and beta diversities revealed that the bacterial microbiome in the gut exhibits lower diversity than reproductive organs, with mating exerting a significant impact on the composition of microbiota in both gut and reproductive organs. By assessing Bray–Curtis dissimilarity at the amplicon sequence variant level, we observed a reduction in the divergence of bacterial communities between queen and drone reproductive organs following mating, a phenomenon not observed in the gut. This convergence is attributed to horizontal transmission and physiological responses post-mating. Notably, one bacterial genus in the gut and 13 genera in the seminal vesicle exhibited potential for horizontal transmission. Furthermore, the core bacterium Lactobacillus is suppressed in both gut and reproductive organs post-mating, while Weissella is increased in spermathecae. Our results reveal horizontal microbiome transfer between queen and drone bumblebees.
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