The pederin‐producing bacteria density dynamics in <i>Paederus fuscipes</i> at different developmental stages-Reference-Cited by-同舟云学术

The pederin‐producing bacteria density dynamics in Paederus fuscipes at different developmental stages

Published:2023-09-28 Issue: Volume: Page:
ISSN:0269-283X
Container-title:Medical and Veterinary Entomology
language:en
Short-container-title:Medical Vet Entomology

Author:

Song Xuhao¹²^ORCID,Huang Ting³⁴,Yan Xianghui¹,Zuo Mengyuan¹,Pan Ying¹,He Hengguo¹,Li Yujie¹,Zou Yuan⁵,Du Chao⁶,Zheng Fake¹,Yang Tingbang¹²

Affiliation:

1. Key Laboratory of Southwest China Wildlife Resources Conservation (Ministry of Education) China West Normal University Nanchong Sichuan China

2. Institute of Ecology China West Normal University Nanchong Sichuan China

3. National Base for International Science and Technology Cooperation, School of Pharmacy Chengdu University Chengdu China

4. Antibiotics Research and Re‐Evaluation Key Laboratory of Sichuan Province, School of Pharmacy Chengdu University Chengdu China

5. School of Ecology Sun Yat‐sen University Guangzhou Guangdong China

6. Faculty of Biological Science and Technology Baotou Teachers' College Baotou Inner Mongolia China

Abstract

AbstractPederin, a defensive toxin in Paederus fuscipes, is produced by an uncultured Gram‐negative symbiont, which establishes a stable symbiotic relationship with a female host before completion of metamorphosis. However, the transmission process of pederin‐producing bacteria (PPB) in P. fuscipes at different life stages remains unknown. Herein, the PPB population dynamics and transcriptome atlas for P. fuscipes development (egg, first‐instar larva, second‐instar larva, pupa, and newly emerged female and male) were characterised. We found that a microbial layer containing PPB covered the eggshell, which could be sterilised by smearing the eggshell with streptomycin. Maternal secretions over the eggshell are likely the main PPB acquisition route for P. fuscipes offspring. The PPB density in eggs was significantly higher than that in other life stages (p < 0.05), which demonstrated that the beetle mothers gave more PPB than the larvae acquired. Physiological changes (hatching and eclosion) led to a decreased PPB density in P. fuscipes. Pattern recognition receptors related to Gram‐negative bacteria recognition were identified from P. fuscipes transcriptomes across various life stages, which might be used to screen genes involved in PPB regulation. These results will help advance future efforts to determine the molecular mechanisms of PPB colonisation of P. fuscipes.

Funder

Fundamental Research Funds of China West Normal University

Publisher

Wiley

Subject

Insect Science,General Veterinary,Ecology, Evolution, Behavior and Systematics,Parasitology

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