Mutagenesis of PhaR, a Regulator Gene of Polyhydroxyalkanoate Biosynthesis of Xanthomonas oryzae pv. oryzae Caused Pleiotropic Phenotype Changes.

Polyhydroxyalkanoates (PHAs) are intracellular carbon and energy storage materials produced in various microorganisms under nutrient-limited conditions. PhaR is a regulatory protein involved in PHA synthesis. Xanthomonas oryzae pv. oryzae (Xoo) is one of the most important bacterial pathogens in rice and has PHA biosynthesis genes in its genome, but the biological function of phaR in Xoo is unknown. In this study, we investigated the effects of the mutagenesis of phaR gene in Xoo strain PXO99A. Compared to the wildtype, the PhaR gene knock-out mutant PXO99ΔphaR was hypermotile and showed decreased growth rates in both rich and limited nutrient media. PXO99ΔphaR also showed almost 75% decrease in extracellular polysaccharide (EPS) production. When inoculated in rice leaves by leaf-clipping method, PXO99ΔphaR displayed reduced virulence in terms of lesion length and bacterial multiplication compared with the wildtype strain. PXO99ΔphaR also showed enhanced hypersensitive response (HR) induction in the leaves of non-host Nicotiana benthamiana with elevated hpa1 gene expression. Introduction of a cosmid containing the phaR coding sequence restored the phenotypes of the mutant to those of the wildtype strain. These results suggest that PhaR gene is an important gene that affects multiple bacterial characteristics, including EPS production, growth rate, defense response induced harpin production and motility, related to its virulence in plant.

Indole-3-acetic acid reverses the harpin-induced hypersensitive response and alters the expression of hypersensitive-response-related genes in tobacco.

Harpin proteins stimulate hypersensitive response (HR) in plants. However, the mechanism by which HR is regulated is not clear. The role of the auxin, indole-3-acetic acid (IAA), in the control of harpin-stimulated HR was investigated. IAA was used to inhibit HR that was stimulated by purified fusion harpin(Xoo) protein in tobacco. Semi-quantitative PCR and qRT-PCR were employed to detect the expression of HR related genes. IAA at 100 µM reversed harpin-induced HR which was inhibited by 500 µM 2,3,5-triiodobenzoic acid (TIBA). Semi-quantitative PCR and qRT-PCR showed the combined application of 100 µM IAA and harpin protein from Xanthomonas oryzae enhanced the expression of HR marker gene, hsr203J, but weakened the expression of the disease-defense gene, chia5. TIBA also decreased the expression of hsr203J but increased the expression of chia5. Thus, the auxin can reverse harpin(Xoo)-induced HR.

[Study on the transgenic tobacco expressing truncated wheat cold shock protein gene TA3-13 and analysis of disease resistance].

TA3-13 is a truncated gene coding for the fragment of wheat (Triticum aestivum L.) cold shock protein WCP1. It has been shown previously that the procaryotically expressed TA3-13 can induce resistance to Tobacco mosaic virus (TMV) when sprayed onto plant leaves. In this study, we constructed an expression vector pB-3-13 by cloning TA3-13 into the bionary vector pBI121 and transformed it into Agrobacterium tumefaciense strain EHA105 via freeze-thaw method. Tobacco (Nicotiana tobacum cv. Xanthi nc.) transformation was performed using the leaf disc infection method. After screening on MS medium containing kanamycin and PCR analysis, 33 T0 plantlets were identified as transgenic. Seeds from twenty T0 plants were collected and planted as T1 lines. Two T1 lines were selected for further characterization. PCR and GUS staining analysis showed that TA3-13 was integrated into the T1 tobacco genome and expressed. When inoculated on leaves, the transgenic tobacco showed significant resistance against TMV and rot pathogen Pectobactrium carotovorum subsp. carotovorum. These results suggest that the expression of TA3-13 in tobacco can induce defense responses to pathogen infection.

HpaXm from Xanthomonas citri subsp. malvacearum is a novel harpin with two heptads for hypersensitive response.

A novel harpin-like protein, HpaXm, was described from cotton leaf blight bacteria, Xanthomonas. citri subsp. malvacearum. The hpaXm was found to be localized between hrp2 and hrcC. A phylogenetic analysis of the complete amino acid sequence or solely the 13 highly conserved residues H2N-SEKQLDQLLTQLI-COOH in the N-terminal alpha-helix indicates that HpaXm is evolutionarily closer to HpaGXag and HpaXac than to Hpa1Xoo and Hpa1Xoc. A synthesized peptide containing two heptads, 39-LDQLLTQ-LIMALLQ-52, from the N-terminal alpha-helical region of HpaXm displayed a comparable activity in inducing HR, but other two synthesized derivatives, HpaXmDeltaT44C and HpaXmDeltaM48Q showed a reduced activity of HR. The data from a GST trap test revealed that HpaXm was released into the extracellular medium, hpaXm mutant deficient for the leader peptide (1-MNSLNTQIGANSSFL-15) was unable to be secreted outside cells but still induced HR in tobacco leaves.

Mutations in the N-terminal coding region of the harpin protein Hpa1 from Xanthomonas oryzae cause loss of hypersensitive reaction induction in tobacco.

Harpins encoded by many gram-negative phytopathogenic bacterial hrp genes induce hypersensitive response (HR) and associated defense responses on nonhost plants. Hpa1(Xoo) and Hpa1(Xoc), two harpin proteins from Xanthomonas oryzae pathovars, induce HR when infiltrated into tobacco leaves. N- and C-terminal mutations of Hpa1(Xoo) and Hpa1(Xoc), respectively, were tested for their ability to elicit HR on tobacco. Deletion of codons for 12 highly hydrophilic amino acids (H(2)N-QGISEKQLDQLL-COOH) that partially overlap the N-terminal alpha-helical regions of respective proteins was found to be critical for the elicitation of HR in tobacco. Furthermore, two single missense mutants Hpa1(Xoo) (L51P) and Hpa1(Xoc) (L53P) that are predicted to destroy the coiled-coil integrity and inhibit the dimer formation eliminated HR elicitation activity in tobacco. However, both wild-type proteins and derivative mutants retained the ability to induce systemic acquired resistance in tobacco against tobacco mosaic virus. Accumulations of npr1 (nonexpressor of pathogenesis-related protein 1), hsr515 (hypersensitivity-related protein 515), and pr2 (pathogenesis-related protein 2) transcripts were found in tobacco plants infiltrated with wild-type or mutated proteins.

Cloning and expression of an alternative oxidase gene from Lycopersicon esculentum.

A full-length cDNA gene (LeAox1au) was isolated from a cDNA library made from ripening fruit of tomato "UC-82B" (Lycopersicon esculentum), after probing with alternative oxidase (AOX) gene fragments, obtained by degenerate primer PCR. Sequence analysis showed that LeAox1au was 1418 bp long and contained a 1077-bp open reading frame encoding a about 40 kD precursor protein which is processed to a mature protein of 32 kD. Southern blot analysis suggested LeAox1au is present as a single copy in the genome of tomato. RT-PCR analysis indicated LeAox1au was expressed in roots, stems, leaves and cotyledons of tomato plants. A recombinant construct containing the open reading frame sequence of the LeAox1au was transformed into Escherichia coli to express the alternative oxidase precursor protein.