Robert D. Locy scite author profile

Plant growth-promoting rhizobacteria (PGPR) colonize plant roots and exert beneficial effects on plant health and development. We are investigating the mechanisms by which PGPR elicit plant growth promotion from the viewpoint of signal transduction pathways within plants. We report here our first study to determine if wellcharacterized PGPR strains, which previously demonstrated growth promotion of various other plants, also enhance plant growth in Arabidopsis thaliana. Eight different PGPR strains, including Bacillus subtilis GB03, B. amyloliquefaciens IN937a, B. pumilus SE-34, B. pumilus T4, B. pasteurii C9, Paenibacillus polymyxa E681, Pseudomonas fluorescens 89B-61, and Serratia marcescens 90-166, were evaluated for elicitation of growth promotion of wildtype and mutant Arabidopsis in vitro and in vivo. In vitro testing on MS medium indicated that all eight PGPR strains increased foliar fresh weight of Arabidopsis at distances of 2, 4, and 6 cm from the site of bacterial inoculation. Among the eight strains, IN937a and GB03 inhibited growth of Arabidopsis plants when the bacteria were inoculated 2 cm from the plants, while they significantly increased plant growth when inoculated 6 cm from the plants, suggesting that a bacterial metabolite that diffused into the agar accounted for growth promotion with this strain. In vivo, eight PGPR strains promoted foliar fresh weight under greenhouse conditions 4 weeks after sowing. To define signal transduction pathways associated with growth promotion elicited by PGPR, various planthormone mutants of Arabidopsis were evaluated in vitro and in vivo. Elicitation of growth promotion by PGPR strains in vitro involved signaling of brassinosteroid, IAA, salicylic acid, and gibberellins. In vivo testing indicated that ethylene signaling was involved in growth promotion. Results suggest that elicitation of growth promotion by PGPR in Arabidopsis is associated with several different signal transduction pathways and that such signaling may be different for plants grown in vitro vs. in vivo.

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Cloning of a polycistronic cDNA from tomato encoding γ-glutamyl kinase and γ-glutamyl phosphate reductase

Garcia-Rios

Fujita

LaRosa

et al. 1997

Proc. Natl. Acad. Sci. U.S.A.

148

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We isolated from a tomato cDNA library the tomPRO1 locus, which encodes ␥-glutamyl kinase (GK) and ␥-glutamyl phosphate reductase (GPR). This locus is unusual among eukaryotic genetic elements because it contains two open reading frames, and thus resembles prokaryotic polycistronic operons. The first open reading frame, specifying GK, is terminated by a TAA codon, which is followed by five nucleotides, an ATG translation initiation codon, and the second open reading frame, encoding GPR. DNA sequence analysis of fragments obtained by PCR amplification confirmed that the internal TAA and neighboring sequences are present in the endogenous tomPRO1 sequence in tomato. We demonstrated with RNase protection assays that the tomPRO1 locus is transcribed in tomato tissue culture cells, into a product that contains the internal stop codon. In Escherichia coli, tomPRO1 directed the synthesis of two proteins, a 33-kDa GK and a 44-kDa GPR. Antibodies against the 44-kDa GPR purified from E. coli recognized a 70-kDa product in tomato tissue culture cells and a 60-kDa product in leaves and roots. These results suggest that in tomato tissues, GPR is made as part of a longer polypeptide by some translational mechanism that enables bypass of the internal stop codon, such as frameshifting or ribosome hopping. The tomPRO1 locus may be the first example of a nuclear genetic element in plants that encodes two functional enzymes in two distinct open reading frames.

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GABA shunt mediates thermotolerance in Saccharomyces cerevisiae by reducing reactive oxygen production

Cao

Barbosa

Singh

et al. 2013

Yeast

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The GABA shunt pathway involves three enzymes, glutamate decarboxylase (GAD), GABA aminotransferase (GAT) and succinate semialdehyde dehydrogenase (SSADH). These enzymes act in concert to convert glutamate (a-ketoglutarate) to succinate. Deletion mutations in each of these genes in Saccharomyces cerevisiae resulted in growth defects at 45 C. Double and triple mutation constructs were compared for thermotolerance with the wild-type and single mutant strains. Although wild-type and all mutant strains were highly susceptible to brief heat stress at 50 C, a non-lethal 30 min at 40 C temperature pretreatment induced tolerance of the wild-type and all of the mutants to 50 C. The mutant strains collectively exhibited similar susceptibility at 45 C to the induced 50 C treatments. Intracellular reactive oxygen intermediate (ROI) accumulation was measured in wild-type and each of the mutant strains. ROI accumulation in each of the mutants and in various stress conditions was correlated to heat susceptibility of the mutant strains. The addition of ROI scavenger N-tert-butyl-a-phenylnitrone (PBN) enhanced survival of the mutants and strongly inhibited the accumulation of ROI, but did not have significant effect on the wild-type. Measurement of intracellular GABA, glutamate and a-ketoglutarate during lethal heat exposure at 45 C showed higher levels of accumulation of GABA and a-ketoglutarate in the uga1 and uga2 mutants, while glutamate accumulated at higher level in the gad1 mutant. These results suggest that the GABA shunt pathway plays a crucial role in protecting yeast cells from heat damage by restricting ROI production involving the flux of carbon from a-ketoglutarate to succinate during heat stress.

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Nitrate uptake and utilization is modulated by exogenous γ-aminobutyric acid in Arabidopsis thaliana seedlings

Barbosa

Singh

Cherry

et al. 2010

Plant Physiology and Biochemistry

126

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Robert D. Locy

Study of mechanisms for plant growth promotion elicited by rhizobacteria in Arabidopsis thaliana

Cloning of a polycistronic cDNA from tomato encoding γ-glutamyl kinase and γ-glutamyl phosphate reductase

GABA shunt mediates thermotolerance in Saccharomyces cerevisiae by reducing reactive oxygen production

Nitrate uptake and utilization is modulated by exogenous γ-aminobutyric acid in Arabidopsis thaliana seedlings

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