Détail du document
Identifiant

doi:10.1186/s12866-023-02980-0...

Auteur
Diba, Farzana Hoque, M. Nazmul Rahman, M. Shaminur Haque, Farhana Rahman, Khondaker Md. Jaminur Moniruzzaman, Md. Khan, Mala Hossain, M. Anwar Sultana, Munawar
Langue
en
Editeur

BioMed Central

Catégorie

Mycology

Année

2023

Date de référencement

06/09/2023

Mots clés
arsenotrophic bacteria arsenotrophic genes whole-genome shotgun sequencing amrs vfgs bioremediation genes isolates bangladesh metagenomic approaches groundwater arsenotrophic
Métrique

Résumé

Background Arsenic (As) and its species are major pollutants in ecological bodied including groundwater in Bangladesh rendering serious public health concern.

Bacteria with arsenotrophic genes have been found in the aquifer, converting toxic arsenite [As (III)] to less toxic arsenate [As (V)] that is easily removed using chemical and biological trappers.

In this study, genomic and metagenomic approaches parallel to culture-based assay (Graphical abstract) have made it possible to decipher phylogenetic diversity of groundwater arsenotrophic microbiomes along with elucidation of their genetic determinants.

Results Seventy-two isolates were retrieved from six As-contaminated (average As concentration of 0.23 mg/L) groundwater samples from Munshiganj and Chandpur districts of Bangladesh.

Twenty-three isolates harbored arsenite efflux pump ( ars B) gene with high abundance, and ten isolates possessing arsenite oxidase ( aio A) gene, with a wide range of minimum inhibitory concentration, MIC_As (2 to 32 mM), confirming their role in arsenite metabolism.

There was considerable heterogeneity in species richness and microbial community structure.

Microbial taxa from Proteobacteria, Firmicutes and Acidobacteria dominated these diversities.

Through these combinatorial approaches, we have identified potential candidates such as, Pseudomonas , Acinetobacter , Stenotrophomonas , Achromobacter , Paraburkholderia , Comamonas and Klebsiella and associated functional genes ( ars B, acr 3, ars D, ars H, ars R) that could significantly contribute to arsenite detoxification, accumulation, and immobilization.

Conclusions Culture-dependent and -independent shotgun metagenomic investigation elucidated arsenotrophic microbiomes and their functions in As biogeochemical transformation.

These findings laid a foundation for further large-scale researches on the arsenotrophic microbiomes and their concurrent functions in As biogeochemical transformation in As-contaminated areas of Bangladesh and beyond.

Diba, Farzana,Hoque, M. Nazmul,Rahman, M. Shaminur,Haque, Farhana,Rahman, Khondaker Md. Jaminur,Moniruzzaman, Md.,Khan, Mala,Hossain, M. Anwar,Sultana, Munawar, 2023, Metagenomic and culture-dependent approaches unveil active microbial community and novel functional genes involved in arsenic mobilization and detoxification in groundwater, BioMed Central

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