TY - JOUR

T1 - Cytokinin producing bacteria stimulate amino acid deposition by wheat roots

AU - Kudoyarova, Guzel R.

AU - Melentiev, Alexander I.

AU - Martynenko, Elena V.

AU - Timergalina, Leila N.

AU - Arkhipova, Tatiana N.

AU - Shendel, Galina V.

AU - Kuz'mina, Ludmila Yu

AU - Dodd, Ian C.

AU - Veselov, Stanislav Yu

PY - 2014/10

Y1 - 2014/10

N2 - Phytohormone production is one mechanism by which rhizobacteria can stimulate plant growth, but it is not clear whether the bacteria gain from this mechanism. The hypothesis that microbial-derived cytokinin phytohormones stimulate root exudation of amino acids was tested. The rhizosphere of wheat plants was drenched with the synthetic cytokinin trans-zeatin or inoculated with Bacillus subtilis IB-22 (which produces zeatin type cytokinins) or B. subtilis IB-21 (which failed to accumulate cytokinins). Growing plants in a split root system allowed spatial separation of zeatin application or rhizobacterial inoculation to one compartment and analyses of amino acid release from roots (rhizodeposition) into the other compartment (without either microbial inoculation or treatment with exogenous hormone). Supplying B. sub tills IB-22 or zeatin to either the whole root system or half of the roots increased concentrations of amino acids in the soil solution although the magnitude of the increase was greater when whole roots were treated. There was some similarity in amino acid concentrations induced by either bacterial or zeatin treatment. Thus B. subtilis IB-22 increased amino acid rhizodeposition, likely due to its ability to produce cytokinins. Furthermore, B. subtilis strain IB-21, which failed to accumulate cytokinins in culture media, did not significantly affect amino acid concentrations in the wheat rhizosphere. The ability of rhizobacteria to produce cytokinins and thereby stimulate rhizodeposition may be important in enhancing rhizobacterial colonization of the rhizoplane. (C) 2014 Elsevier Masson SAS. All rights reserved.

AB - Phytohormone production is one mechanism by which rhizobacteria can stimulate plant growth, but it is not clear whether the bacteria gain from this mechanism. The hypothesis that microbial-derived cytokinin phytohormones stimulate root exudation of amino acids was tested. The rhizosphere of wheat plants was drenched with the synthetic cytokinin trans-zeatin or inoculated with Bacillus subtilis IB-22 (which produces zeatin type cytokinins) or B. subtilis IB-21 (which failed to accumulate cytokinins). Growing plants in a split root system allowed spatial separation of zeatin application or rhizobacterial inoculation to one compartment and analyses of amino acid release from roots (rhizodeposition) into the other compartment (without either microbial inoculation or treatment with exogenous hormone). Supplying B. sub tills IB-22 or zeatin to either the whole root system or half of the roots increased concentrations of amino acids in the soil solution although the magnitude of the increase was greater when whole roots were treated. There was some similarity in amino acid concentrations induced by either bacterial or zeatin treatment. Thus B. subtilis IB-22 increased amino acid rhizodeposition, likely due to its ability to produce cytokinins. Furthermore, B. subtilis strain IB-21, which failed to accumulate cytokinins in culture media, did not significantly affect amino acid concentrations in the wheat rhizosphere. The ability of rhizobacteria to produce cytokinins and thereby stimulate rhizodeposition may be important in enhancing rhizobacterial colonization of the rhizoplane. (C) 2014 Elsevier Masson SAS. All rights reserved.

KW - Bacillus subtilis

KW - Cytokinin

KW - Plant/microbe interaction

KW - Rhizodeposition

KW - Wheat

KW - GROWTH PROMOTING RHIZOBACTERIA

KW - PLANT-GROWTH

KW - BACILLUS-SUBTILIS

KW - RHIZOSPHERE

KW - SOIL

KW - EXPRESSION

KW - GENE

KW - RHIZODEPOSITION

KW - COLONIZATION

KW - EXUDATION

U2 - 10.1016/j.plaphy.2014.08.015

DO - 10.1016/j.plaphy.2014.08.015

M3 - Journal article

VL - 83

SP - 285

EP - 291

JO - Plant Physiology and Biochemistry

JF - Plant Physiology and Biochemistry

SN - 0981-9428

ER -