A potent cadmium bioaccumulating Enterobacter cloacae strain displays phytobeneficial property in Cd-exposed rice seedlings

In agricultural soil, cadmium (Cd) pollution compromises soil health, reduces crop yield, and produces Cd-contaminated crops. Bio-based approaches are necessary as an eco-friendly and sustainable solution to mitigate Cd-polluted areas. A heavy metal-resistant rhizobacterial strain (AS10) has been is...

Descripción completa

Detalles Bibliográficos
Autores principales: Ghosh, Antara, Pramanik, Krishnendu, Bhattacharya, Shatabda, Mondal, Sayanta, Ghosh, Sudip Kumar, Maiti, Tushar Kanti
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Elsevier 2021
Materias:
Articles from the special issue: Beneficial microbes for crops, edited by Sergio de los Santos Villalobos and Fannie Isela Parra Cota
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8724972/
https://www.ncbi.nlm.nih.gov/pubmed/35024643
http://dx.doi.org/10.1016/j.crmicr.2021.100101
_version_ 1784626018639675392
author Ghosh, Antara
Pramanik, Krishnendu
Bhattacharya, Shatabda
Mondal, Sayanta
Ghosh, Sudip Kumar
Maiti, Tushar Kanti
author_facet Ghosh, Antara
Pramanik, Krishnendu
Bhattacharya, Shatabda
Mondal, Sayanta
Ghosh, Sudip Kumar
Maiti, Tushar Kanti
author_sort Ghosh, Antara
collection PubMed
description In agricultural soil, cadmium (Cd) pollution compromises soil health, reduces crop yield, and produces Cd-contaminated crops. Bio-based approaches are necessary as an eco-friendly and sustainable solution to mitigate Cd-polluted areas. A heavy metal-resistant rhizobacterial strain (AS10) has been isolated from a heavy metal-defiled rice field. The 16S rDNA sequence and MALDI-TOF MS analyses of ribosomal protein reveal its identity closely similar to Enterobacter cloacae. The strain was found to withstand up to 4000 μg/ml Cd(2+), 3312 µg/ml Pb(2+) and 1500 µg/ml As(3+). The Cd(2+) removal efficiency was recorded as high as 72.11% when grown in 4000 μg/ml Cd(2+). The strain's Cd-accumulation efficiency was also apprehended by TEM-EDAX followed by XRD-XRF-FTIR analyses. Besides, the strain showed solubilization of inorganic phosphate, ACC deaminase activity, nitrogen fixation and IAA production ability. Added further, the strain, as an efficient bioinoculant, significantly improved rice plant growth at the seedling stage through Cd immobilization. It prevented the surge of stress ethylene and oxidative stress in rice seedlings, resulting in overall plant growth improvement. Hence, the strain AS10 as potent plant growth-promoting rhizobacteria (PGPR) may be beneficial, especially in heavy metal-contaminated crop fields.
format Online
Article
Text
id pubmed-8724972
institution National Center for Biotechnology Information
language English
publishDate 2021
publisher Elsevier
record_format MEDLINE/PubMed
spelling pubmed-87249722022-01-11 A potent cadmium bioaccumulating Enterobacter cloacae strain displays phytobeneficial property in Cd-exposed rice seedlings Ghosh, Antara Pramanik, Krishnendu Bhattacharya, Shatabda Mondal, Sayanta Ghosh, Sudip Kumar Maiti, Tushar Kanti Curr Res Microb Sci Articles from the special issue: Beneficial microbes for crops, edited by Sergio de los Santos Villalobos and Fannie Isela Parra Cota In agricultural soil, cadmium (Cd) pollution compromises soil health, reduces crop yield, and produces Cd-contaminated crops. Bio-based approaches are necessary as an eco-friendly and sustainable solution to mitigate Cd-polluted areas. A heavy metal-resistant rhizobacterial strain (AS10) has been isolated from a heavy metal-defiled rice field. The 16S rDNA sequence and MALDI-TOF MS analyses of ribosomal protein reveal its identity closely similar to Enterobacter cloacae. The strain was found to withstand up to 4000 μg/ml Cd(2+), 3312 µg/ml Pb(2+) and 1500 µg/ml As(3+). The Cd(2+) removal efficiency was recorded as high as 72.11% when grown in 4000 μg/ml Cd(2+). The strain's Cd-accumulation efficiency was also apprehended by TEM-EDAX followed by XRD-XRF-FTIR analyses. Besides, the strain showed solubilization of inorganic phosphate, ACC deaminase activity, nitrogen fixation and IAA production ability. Added further, the strain, as an efficient bioinoculant, significantly improved rice plant growth at the seedling stage through Cd immobilization. It prevented the surge of stress ethylene and oxidative stress in rice seedlings, resulting in overall plant growth improvement. Hence, the strain AS10 as potent plant growth-promoting rhizobacteria (PGPR) may be beneficial, especially in heavy metal-contaminated crop fields. Elsevier 2021-12-18 /pmc/articles/PMC8724972/ /pubmed/35024643 http://dx.doi.org/10.1016/j.crmicr.2021.100101 Text en © 2021 The Author(s) https://creativecommons.org/licenses/by/4.0/This is an open access article under the CC BY license (http://creativecommons.org/licenses/by/4.0/).
spellingShingle Articles from the special issue: Beneficial microbes for crops, edited by Sergio de los Santos Villalobos and Fannie Isela Parra Cota
Ghosh, Antara
Pramanik, Krishnendu
Bhattacharya, Shatabda
Mondal, Sayanta
Ghosh, Sudip Kumar
Maiti, Tushar Kanti
A potent cadmium bioaccumulating Enterobacter cloacae strain displays phytobeneficial property in Cd-exposed rice seedlings
title A potent cadmium bioaccumulating Enterobacter cloacae strain displays phytobeneficial property in Cd-exposed rice seedlings
title_full A potent cadmium bioaccumulating Enterobacter cloacae strain displays phytobeneficial property in Cd-exposed rice seedlings
title_fullStr A potent cadmium bioaccumulating Enterobacter cloacae strain displays phytobeneficial property in Cd-exposed rice seedlings
title_full_unstemmed A potent cadmium bioaccumulating Enterobacter cloacae strain displays phytobeneficial property in Cd-exposed rice seedlings
title_short A potent cadmium bioaccumulating Enterobacter cloacae strain displays phytobeneficial property in Cd-exposed rice seedlings
title_sort potent cadmium bioaccumulating enterobacter cloacae strain displays phytobeneficial property in cd-exposed rice seedlings
topic Articles from the special issue: Beneficial microbes for crops, edited by Sergio de los Santos Villalobos and Fannie Isela Parra Cota
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8724972/
https://www.ncbi.nlm.nih.gov/pubmed/35024643
http://dx.doi.org/10.1016/j.crmicr.2021.100101
work_keys_str_mv AT ghoshantara apotentcadmiumbioaccumulatingenterobactercloacaestraindisplaysphytobeneficialpropertyincdexposedriceseedlings
AT pramanikkrishnendu apotentcadmiumbioaccumulatingenterobactercloacaestraindisplaysphytobeneficialpropertyincdexposedriceseedlings
AT bhattacharyashatabda apotentcadmiumbioaccumulatingenterobactercloacaestraindisplaysphytobeneficialpropertyincdexposedriceseedlings
AT mondalsayanta apotentcadmiumbioaccumulatingenterobactercloacaestraindisplaysphytobeneficialpropertyincdexposedriceseedlings
AT ghoshsudipkumar apotentcadmiumbioaccumulatingenterobactercloacaestraindisplaysphytobeneficialpropertyincdexposedriceseedlings
AT maititusharkanti apotentcadmiumbioaccumulatingenterobactercloacaestraindisplaysphytobeneficialpropertyincdexposedriceseedlings
AT ghoshantara potentcadmiumbioaccumulatingenterobactercloacaestraindisplaysphytobeneficialpropertyincdexposedriceseedlings
AT pramanikkrishnendu potentcadmiumbioaccumulatingenterobactercloacaestraindisplaysphytobeneficialpropertyincdexposedriceseedlings
AT bhattacharyashatabda potentcadmiumbioaccumulatingenterobactercloacaestraindisplaysphytobeneficialpropertyincdexposedriceseedlings
AT mondalsayanta potentcadmiumbioaccumulatingenterobactercloacaestraindisplaysphytobeneficialpropertyincdexposedriceseedlings
AT ghoshsudipkumar potentcadmiumbioaccumulatingenterobactercloacaestraindisplaysphytobeneficialpropertyincdexposedriceseedlings
AT maititusharkanti potentcadmiumbioaccumulatingenterobactercloacaestraindisplaysphytobeneficialpropertyincdexposedriceseedlings

Ejemplares similares