Alleviation of Salt Stress in Wheat Seedlings via Multifunctional <i>Bacillus aryabhattai</i> PM34: An <i>In-Vitro</i> Study

Plant growth-promoting rhizobacteria play a substantial role in plant growth and development under biotic and abiotic stress conditions. However, understanding about the functional role of rhizobacterial strains for wheat growth under salt stress remains largely unknown. Here we investigated the ant...

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Main Authors: Shehzad Mehmood, Amir Abdullah Khan, Fuchen Shi, Muhammad Tahir, Tariq Sultan, Muhammad Farooq Hussain Munis, Prashant Kaushik, Mohammed Nasser Alyemeni, Hassan Javed Chaudhary
Format: Article
Language:English
Published: MDPI AG 2021-07-01
Series:Sustainability
Subjects:
Online Access:https://www.mdpi.com/2071-1050/13/14/8030
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spelling doaj-cb59e4120acb4b5da0886351decc80c82021-07-23T14:08:33ZengMDPI AGSustainability2071-10502021-07-01138030803010.3390/su13148030Alleviation of Salt Stress in Wheat Seedlings via Multifunctional <i>Bacillus aryabhattai</i> PM34: An <i>In-Vitro</i> StudyShehzad Mehmood0Amir Abdullah Khan1Fuchen Shi2Muhammad Tahir3Tariq Sultan4Muhammad Farooq Hussain Munis5Prashant Kaushik6Mohammed Nasser Alyemeni7Hassan Javed Chaudhary8Department of Plant Sciences, Quaid-i-Azam University, Islamabad 45320, PakistanDepartment of Plant Biology and Ecology, Nankai University, Tianjin 300071, ChinaDepartment of Plant Biology and Ecology, Nankai University, Tianjin 300071, ChinaDepartment of Environmental Sciences, Vehari Campus, COMSATS University Islamabad, Vehari 61100, PakistanLand Resource Research Institute, NARC, Islamabad 44000, PakistanDepartment of Plant Sciences, Quaid-i-Azam University, Islamabad 45320, PakistanKikugawa Research Station, Yokohama Ueki, 2265, Kamo, Kikugawa, Shizuoka 439-0031, JapanDepartment of Botany and Microbiology, College of Science, King Saud University, Riyadh 11451, Saudi ArabiaDepartment of Plant Sciences, Quaid-i-Azam University, Islamabad 45320, PakistanPlant growth-promoting rhizobacteria play a substantial role in plant growth and development under biotic and abiotic stress conditions. However, understanding about the functional role of rhizobacterial strains for wheat growth under salt stress remains largely unknown. Here we investigated the antagonistic bacterial strain <i>Bacillus aryabhattai</i> PM34 inhabiting ACC deaminase and exopolysaccharide producing ability to ameliorate salinity stress in wheat seedlings under in vitro conditions. The strain PM34 was isolated from the potato rhizosphere and screened for different PGP traits comprising nitrogen fixation, potassium, zinc solubilization, indole acetic acid, siderophore, and ammonia production, along with various extracellular enzyme activities. The strain PM34 showed significant tolerance towards both abiotic stresses including salt stress (NaCl 2 M), heavy metal (nickel, 100 ppm, and cadmium, 300 ppm), heat stress (60 °C), and biotic stress through mycelial inhibition of <i>Rhizoctonia solani</i> (43%) and <i>Fusarium solani</i> (41%). The PCR detection of <i>ituC, nifH</i>, and <i>acds</i> genes coding for iturin, nitrogenase, and ACC deaminase enzyme indicated the potential of strain PM34 for plant growth promotion and stress tolerance. In the in vitro experiment, NaCl (2 M) decreased the wheat growth while the inoculation of strain PM34 enhanced the germination% (48%), root length (76%), shoot length (75%), fresh biomass (79%), and dry biomass (87%) over to un-inoculated control under 2M NaCl level. The results of experiments depicted the ability of antagonistic bacterial strain <i>Bacillus aryabhattai</i> PM34 to augment salt stress tolerance when inoculated to wheat plants under saline environment.https://www.mdpi.com/2071-1050/13/14/8030salinity stressbiocontrolPGPR<i>Bacillus aryabhattai</i>
collection DOAJ
language English
format Article
sources DOAJ
author Shehzad Mehmood
Amir Abdullah Khan
Fuchen Shi
Muhammad Tahir
Tariq Sultan
Muhammad Farooq Hussain Munis
Prashant Kaushik
Mohammed Nasser Alyemeni
Hassan Javed Chaudhary
spellingShingle Shehzad Mehmood
Amir Abdullah Khan
Fuchen Shi
Muhammad Tahir
Tariq Sultan
Muhammad Farooq Hussain Munis
Prashant Kaushik
Mohammed Nasser Alyemeni
Hassan Javed Chaudhary
Alleviation of Salt Stress in Wheat Seedlings via Multifunctional <i>Bacillus aryabhattai</i> PM34: An <i>In-Vitro</i> Study
Sustainability
salinity stress
biocontrol
PGPR
<i>Bacillus aryabhattai</i>
author_facet Shehzad Mehmood
Amir Abdullah Khan
Fuchen Shi
Muhammad Tahir
Tariq Sultan
Muhammad Farooq Hussain Munis
Prashant Kaushik
Mohammed Nasser Alyemeni
Hassan Javed Chaudhary
author_sort Shehzad Mehmood
title Alleviation of Salt Stress in Wheat Seedlings via Multifunctional <i>Bacillus aryabhattai</i> PM34: An <i>In-Vitro</i> Study
title_short Alleviation of Salt Stress in Wheat Seedlings via Multifunctional <i>Bacillus aryabhattai</i> PM34: An <i>In-Vitro</i> Study
title_full Alleviation of Salt Stress in Wheat Seedlings via Multifunctional <i>Bacillus aryabhattai</i> PM34: An <i>In-Vitro</i> Study
title_fullStr Alleviation of Salt Stress in Wheat Seedlings via Multifunctional <i>Bacillus aryabhattai</i> PM34: An <i>In-Vitro</i> Study
title_full_unstemmed Alleviation of Salt Stress in Wheat Seedlings via Multifunctional <i>Bacillus aryabhattai</i> PM34: An <i>In-Vitro</i> Study
title_sort alleviation of salt stress in wheat seedlings via multifunctional <i>bacillus aryabhattai</i> pm34: an <i>in-vitro</i> study
publisher MDPI AG
series Sustainability
issn 2071-1050
publishDate 2021-07-01
description Plant growth-promoting rhizobacteria play a substantial role in plant growth and development under biotic and abiotic stress conditions. However, understanding about the functional role of rhizobacterial strains for wheat growth under salt stress remains largely unknown. Here we investigated the antagonistic bacterial strain <i>Bacillus aryabhattai</i> PM34 inhabiting ACC deaminase and exopolysaccharide producing ability to ameliorate salinity stress in wheat seedlings under in vitro conditions. The strain PM34 was isolated from the potato rhizosphere and screened for different PGP traits comprising nitrogen fixation, potassium, zinc solubilization, indole acetic acid, siderophore, and ammonia production, along with various extracellular enzyme activities. The strain PM34 showed significant tolerance towards both abiotic stresses including salt stress (NaCl 2 M), heavy metal (nickel, 100 ppm, and cadmium, 300 ppm), heat stress (60 °C), and biotic stress through mycelial inhibition of <i>Rhizoctonia solani</i> (43%) and <i>Fusarium solani</i> (41%). The PCR detection of <i>ituC, nifH</i>, and <i>acds</i> genes coding for iturin, nitrogenase, and ACC deaminase enzyme indicated the potential of strain PM34 for plant growth promotion and stress tolerance. In the in vitro experiment, NaCl (2 M) decreased the wheat growth while the inoculation of strain PM34 enhanced the germination% (48%), root length (76%), shoot length (75%), fresh biomass (79%), and dry biomass (87%) over to un-inoculated control under 2M NaCl level. The results of experiments depicted the ability of antagonistic bacterial strain <i>Bacillus aryabhattai</i> PM34 to augment salt stress tolerance when inoculated to wheat plants under saline environment.
topic salinity stress
biocontrol
PGPR
<i>Bacillus aryabhattai</i>
url https://www.mdpi.com/2071-1050/13/14/8030
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