Characterization of Cd-resistant Klebsiella michiganensis MCC3089 and its potential for rice seedling growth promotion under Cd stress

Application of heavy metal resistant plant growth promoting rhizobacteria has an important role as they help to evade metal-induced toxicity in plants on one hand and enhance plant growth on the other. The present study is therefore focused on the characterization of a cadmium resistant bacterial st...

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Published inMicrobiological research Vol. 210; pp. 12 - 25
Main Authors Mitra, Soumik, Pramanik, Krishnendu, Ghosh, Pallab Kumar, Soren, Tithi, Sarkar, Anumita, Dey, Ramendra Sundar, Pandey, Sanjeev, Maiti, Tushar Kanti
Format Journal Article
LanguageEnglish
Published Germany Elsevier GmbH 01.05.2018
Subjects
ACC deaminase
Bioremediation
Cadmium resistant bacteria
Ethylene
Klebsiella sp
PGPR
MALDI TOF-MS
Cadmium resistant bacteria
Ethylene
Klebsiella sp
FAME
AAS
PGP traits
ACC deaminase
EDX
SEM
Bioremediation
PGPR
TEM
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Summary:Application of heavy metal resistant plant growth promoting rhizobacteria has an important role as they help to evade metal-induced toxicity in plants on one hand and enhance plant growth on the other. The present study is therefore focused on the characterization of a cadmium resistant bacterial strain isolated from heavy metal contaminated rhizospheric soil designated as S8. This S8 strain was selected in terms of cadmium resistance and plant growth promoting traits. Moreover, it also showed resistance to lead and arsenic to a considerable extent. The selected strain S8 was identified as Klebsiella michiganensis by modern approaches of bacterial taxonomy. The plant growth promoting traits exhibited by the strain include 1-aminocyclopropane-1-carboxylic acid deaminase activity (58.33 ng α-keto butyrate/mg protein/h), Indole-3-acetic acid production (671 μg/ml), phosphate solubilization (71.98 ppm), nitrogen fixation (3.72 μg of nitrogen fixed/h/mg protein) etc. Besides, the strain also exhibited high cadmium removal efficiency (73–97%) from the medium and intracellular accumulation as well. Its efficiency to alleviate cadmium-induced toxicity was determined against a rice cultivar in terms of morphological and biochemical changes. Enhanced growth and reduced oxidative stress were detected in presence of the bacterium. On the basis of these results, it can be concluded that K. michiganensis strain S8 is cadmium accumulating plant growth promoting rhizobacterium that can be applied in cadmium contaminated agricultural soil to achieve better productivity of rice.
ISSN:0944-5013
1618-0623
DOI:10.1016/j.micres.2018.03.003