IDENTIFICATION OF ENDOPHYTIC BACTERIA ASSOCIATED WITH N<inf>2</inf>FIXATION AND INDOLE ACETIC ACID SYNTHESIS AS GROWTH PROMOTERS IN CURCUMA ALISMATIFOLIA GAGNEP

IDENTIFICATION OF ENDOPHYTIC BACTERIA ASSOCIATED WITH N<inf>2</inf>FIXATION AND INDOLE ACETIC ACID SYNTHESIS AS GROWTH PROMOTERS IN CURCUMA ALISMATIFOLIA GAGNEP

Endophytic bacteria carrying out dinitrogen (N 2 ) fixation and indole acetic acid (IAA) synthesis were firstly identified in C. alismatifolia, a globally important flower crop. Their potential as growth promoters to stimulate the rapid growth of host plant was also examined. It will be beneficial t...

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Main Authors: Apiraya Thepsukhon, Somporn Choonluchanon, Shikeyuki Tajima, Mika Nomura, Soraya Ruamrungsri
Format: Journal
Published: 2018
Online Access:https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=84879928130&origin=inward
http://cmuir.cmu.ac.th/jspui/handle/6653943832/47843
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Institution: Chiang Mai University
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spelling th-cmuir.6653943832-478432018-04-25T08:44:39Z IDENTIFICATION OF ENDOPHYTIC BACTERIA ASSOCIATED WITH N<inf>2</inf>FIXATION AND INDOLE ACETIC ACID SYNTHESIS AS GROWTH PROMOTERS IN CURCUMA ALISMATIFOLIA GAGNEP Apiraya Thepsukhon Somporn Choonluchanon Shikeyuki Tajima Mika Nomura Soraya Ruamrungsri Endophytic bacteria carrying out dinitrogen (N 2 ) fixation and indole acetic acid (IAA) synthesis were firstly identified in C. alismatifolia, a globally important flower crop. Their potential as growth promoters to stimulate the rapid growth of host plant was also examined. It will be beneficial to reduce the propagation period of tissue culture plantlets, and also utilize as a biofertilizer for rhizome production in the field. Seven endophytic bacteria were isolated from the leaf, four isolates from the leaf base, and two from the rhizome. ECS203, a gram-negative bacterium with a round shape, showed the highest N 2 fixation at 4.2 nmol C 2 H 4 /10 6 cells/hr, and ECS202 showed the highest IAA synthesis at 296 μL μg - 1 protein. Three selected isolates of N 2 -fixing and IAA synthesizing endophytic bacteria, i.e., ECS202, ECS203, and ECS204, isolated from the leaf base, were used to reinoculate Curcuma plantlets derived from tissue culture. Then, plants were grown in sterilized sand for 2 months and weekly supplied with N-free nutrient solution. Plant growth, colonization, nitrogen fixation, and IAA synthesis were measured at two months after planting. The inoculated plants clearly showed a better performance of plant gr owth and yield in terms of the plant height, plant weight, leaf area, and diameter of new rhizomes compared with uninoculated plants. The chlorophyll content and N concentration of leaves and roots also increased in inoculated plants. Endophytic bacteria from inoculated plants colonized the roots, rhizome, and leaf base. Partial sequence analysis using 16S rDNA indicated that the isolate ECS202 corresponded to Sphingomonas pseudosanguinis (99.2% similarity over 1,371 bp), ECS203 to Bacillus drentensis (99.4% similarity over 1,450 bp) and ECS204 to Bacillus methylotrophicus (99.9% similarity over 13,06 bp). © 2013 Copyright Taylor and Francis Group, LLC. 2018-04-25T08:44:39Z 2018-04-25T08:44:39Z 2013-07-01 Journal 15324087 01904167 2-s2.0-84879928130 10.1080/01904167.2013.793712 https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=84879928130&origin=inward http://cmuir.cmu.ac.th/jspui/handle/6653943832/47843
institution Chiang Mai University
building Chiang Mai University Library
country Thailand
collection CMU Intellectual Repository
description Endophytic bacteria carrying out dinitrogen (N 2 ) fixation and indole acetic acid (IAA) synthesis were firstly identified in C. alismatifolia, a globally important flower crop. Their potential as growth promoters to stimulate the rapid growth of host plant was also examined. It will be beneficial to reduce the propagation period of tissue culture plantlets, and also utilize as a biofertilizer for rhizome production in the field. Seven endophytic bacteria were isolated from the leaf, four isolates from the leaf base, and two from the rhizome. ECS203, a gram-negative bacterium with a round shape, showed the highest N 2 fixation at 4.2 nmol C 2 H 4 /10 6 cells/hr, and ECS202 showed the highest IAA synthesis at 296 μL μg - 1 protein. Three selected isolates of N 2 -fixing and IAA synthesizing endophytic bacteria, i.e., ECS202, ECS203, and ECS204, isolated from the leaf base, were used to reinoculate Curcuma plantlets derived from tissue culture. Then, plants were grown in sterilized sand for 2 months and weekly supplied with N-free nutrient solution. Plant growth, colonization, nitrogen fixation, and IAA synthesis were measured at two months after planting. The inoculated plants clearly showed a better performance of plant gr owth and yield in terms of the plant height, plant weight, leaf area, and diameter of new rhizomes compared with uninoculated plants. The chlorophyll content and N concentration of leaves and roots also increased in inoculated plants. Endophytic bacteria from inoculated plants colonized the roots, rhizome, and leaf base. Partial sequence analysis using 16S rDNA indicated that the isolate ECS202 corresponded to Sphingomonas pseudosanguinis (99.2% similarity over 1,371 bp), ECS203 to Bacillus drentensis (99.4% similarity over 1,450 bp) and ECS204 to Bacillus methylotrophicus (99.9% similarity over 13,06 bp). © 2013 Copyright Taylor and Francis Group, LLC.
format Journal
author Apiraya Thepsukhon
Somporn Choonluchanon
Shikeyuki Tajima
Mika Nomura
Soraya Ruamrungsri
spellingShingle Apiraya Thepsukhon
Somporn Choonluchanon
Shikeyuki Tajima
Mika Nomura
Soraya Ruamrungsri
IDENTIFICATION OF ENDOPHYTIC BACTERIA ASSOCIATED WITH N<inf>2</inf>FIXATION AND INDOLE ACETIC ACID SYNTHESIS AS GROWTH PROMOTERS IN CURCUMA ALISMATIFOLIA GAGNEP
author_facet Apiraya Thepsukhon
Somporn Choonluchanon
Shikeyuki Tajima
Mika Nomura
Soraya Ruamrungsri
author_sort Apiraya Thepsukhon
title IDENTIFICATION OF ENDOPHYTIC BACTERIA ASSOCIATED WITH N<inf>2</inf>FIXATION AND INDOLE ACETIC ACID SYNTHESIS AS GROWTH PROMOTERS IN CURCUMA ALISMATIFOLIA GAGNEP
title_short IDENTIFICATION OF ENDOPHYTIC BACTERIA ASSOCIATED WITH N<inf>2</inf>FIXATION AND INDOLE ACETIC ACID SYNTHESIS AS GROWTH PROMOTERS IN CURCUMA ALISMATIFOLIA GAGNEP
title_full IDENTIFICATION OF ENDOPHYTIC BACTERIA ASSOCIATED WITH N<inf>2</inf>FIXATION AND INDOLE ACETIC ACID SYNTHESIS AS GROWTH PROMOTERS IN CURCUMA ALISMATIFOLIA GAGNEP
title_fullStr IDENTIFICATION OF ENDOPHYTIC BACTERIA ASSOCIATED WITH N<inf>2</inf>FIXATION AND INDOLE ACETIC ACID SYNTHESIS AS GROWTH PROMOTERS IN CURCUMA ALISMATIFOLIA GAGNEP
title_full_unstemmed IDENTIFICATION OF ENDOPHYTIC BACTERIA ASSOCIATED WITH N<inf>2</inf>FIXATION AND INDOLE ACETIC ACID SYNTHESIS AS GROWTH PROMOTERS IN CURCUMA ALISMATIFOLIA GAGNEP
title_sort identification of endophytic bacteria associated with n<inf>2</inf>fixation and indole acetic acid synthesis as growth promoters in curcuma alismatifolia gagnep
publishDate 2018
url https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=84879928130&origin=inward
http://cmuir.cmu.ac.th/jspui/handle/6653943832/47843
_version_ 1681423138229846016

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