About Beng Soon Teh:
No description specified
SEEK ID: https://data.chembiosys.de/people/63
Location: Germany
ORCID: Not specified
Joined: 4th Jun 2015
Expertise: Not specified
Tools: Not specified
Related items
Advanced Projects list for this Person with search and filtering
Chemical Factors Structuring Gut Microbial Communities of Insects
Public web page: Not specified
Advanced Publications list for this Person with search and filtering
Abstract (Expand)
Microbes that live inside insects play critical roles in host nutrition, physiology, and behavior. Although Lepidoptera (butterflies and moths) are one of the most diverse insect taxa, their microbial … symbionts are little-studied, particularly during metamorphosis. Here, using ribosomal tag pyrosequencing of DNA and RNA, we investigated biodiversity and activity of gut microbiotas across the holometabolous life cycle of Spodoptera littoralis, a notorious agricultural pest worldwide. Proteobacteria and Firmicutes dominate but undergo a structural "metamorphosis" in tandem with its host. Enterococcus, Pantoea and Citrobacter were abundant and active in early-instar, while Clostridia increased in late-instar. Interestingly, only enterococci persisted through metamorphosis. Female adults harbored high proportions of Enterococcus, Klebsiella and Pantoea, whereas males largely shifted to Klebsiella. Comparative functional analysis with PICRUSt indicated that early-instar larval microbiome was more enriched for genes involved in cell motility and carbohydrate metabolism, whereas in late-instar amino acid, cofactor and vitamin metabolism increased. Genes involved in energy and nucleotide metabolism were abundant in pupae. Female adult microbiome was enriched for genes relevant to energy metabolism, while an increase in the replication and repair pathway was observed in male. Understanding the metabolic activity of these herbivore-associated microbial symbionts may assist the development of novel pest-management strategies.
Authors: B. Chen, , C. Sun, S. Hu, X. Lu, , Y. Shao
Date Published: 9th Jul 2016
Publication Type: Not specified
PubMed ID: 27389097
Citation:
Created: 20th Oct 2016 at 12:37, Last updated: 9th Feb 2023 at 08:34
Abstract (Expand)
The alkaline gut of Lepidopterans plays a crucial role in shaping communities of bacteria. Enterococcus mundtii has emerged as one of the predominant gut microorganisms in the gastrointestinal tract … of the major agricultural pest, Spodoptera littoralis. Therefore, it was selected as a model bacterium to study its adaptation to harsh alkaline gut conditions in its host insect throughout different stages of development (larvae, pupae, adults, and eggs). To date, the mechanism of bacterial survival in insects' intestinal tract has been unknown. Therefore, we have engineered a GFP-tagged species of bacteria, E. mundtii, to track how it colonizes the intestine of S. littoralis. Three promoters of different strengths were used to control the expression of GFP in E. mundtii. The promoter ermB was the most effective, exhibiting the highest GFP fluorescence intensity, and hence was chosen as our main construct. Our data show that the engineered fluorescent bacteria survived and proliferated in the intestinal tract of the insect at all life stages for up to the second generation following ingestion.
Date Published: 6th Jul 2016
Publication Type: Not specified
PubMed ID: 27379058
Citation:
Created: 20th Oct 2016 at 12:34, Last updated: 9th Feb 2023 at 08:34