Recombinant wheat antifungal PR4 proteins expressed in Escherichia coli.

PR proteins are soluble and host-coded molecules with antifungal activity induced by a variety of agents. Wheat contains several PR proteins and among them are those of the class 4 coded wheatwin1 and wheatwin2; the two native proteins have been isolated from wheat kernel and the coding cDNA clones have been recently characterized. Herein, we report the expression of recombinant wheatwin1 and wheatwin2 in Escherichia coli-insoluble fractions; a new protocol for the purification in high yields and correct processing of the two proteins was developed. The recombinant proteins have molecular weights identical to that of the native proteins, indicating that the removal of the N-terminal methionine and cyclization of glutamine to pyroglutamate was complete. Both recombinant proteins inhibited in vitro the growth of Fusarium culmorum exhibiting antifungal properties similar to those of the native proteins.     

Structural and antifungal properties of a pathogenesis-related protein from wheat kernel

We have purified and characterized a protein from the water-soluble fraction of wheat kernel (Triticum aestivum cv. S. Pastore) consisting of a single polypeptide chain blocked at its N-terminus by a pyroglutamate residue; the complete amino acid sequence has been determined by automated sequence analysis performed on peptide fragments obtained by enzymatic hydrolyses of the protein. Homology studies have shown that this protein is very similar (97% sequence identity) to the previously characterized wheatwin1 as well as to other members of the pathogenesis-related (PR) proteins of class 4; in analogy with wheatwin1, we have termed this protein wheatwin2. Both wheatwin1 and wheatwin2 have specific antifungal activity toward the wide-host-range pathogenBotrytis cinerea and the wheat-specific pathogenic fungi of wheatFusarium culmorum andFusarium graminearum of groups 1 and 2. On the basis of their structural and functional properties, wheatwin1 and wheatwin2 can be classified as members of the PR4 protein family; this represents the first report concerning the presence of this kind of protein in wheat.     

Structural basis of the antifungal activity of wheat PR4 proteins

PR4 proteins possess antifungal activity against several pathogenic fungi suggesting a pivotal role in defence reactions against plant pathogen attack. We already showed that wheatwin1, a wheat PR protein of class 4, is endowed with ribonuclease activity. In this study we produced three mutants altering the active site and performed comparative analysis with the native protein also in the presence of the ribonuclease inhibitor 5′-ADP. We characterized the RNA binding site and its interaction with 5′-ADP by 3D modelling and docking studies. Moreover, in vitro antifungal assays have been carried out in order to study the relationship between antifungal and ribonuclease activities. Finally, localization of wheatwin1 in Fusarium culmorum spores was evaluated using fluorescence light microscope.     

Isolation and amino acid sequence of two new PR-4 proteins from wheat

We have purified and characterized two new pathogenesis-related (PR) proteins from wheat belonging to the PR-4 family. We named the proteins wheatwin3 and wheatwin4 in analogy with the previously characterized wheatwin1 and wheatwin2. Their isoelectric points were 7.1 and 8.4, respectively. We determined the complete amino acid sequence of both proteins by a rapid approach based on the knowledge of the primary structures of the homologous wheatwin1 and wheatwin2. Wheatwin3 differs from wheatwin1 in one substitution at position 88, while wheatwin4 differs from wheatwin2 in one substitution at position 78. The secondary structure and solvent accessibility of these residues were determined on the three-dimensional model of wheatwin1. Residue 88 was very accessible and was located in a flexible region. Preliminary results indicate that, like wheatwin1 and wheatwin2, wheatwin3 and wheatwin4 have antifungal activity.     

Comparing the modeled structures of PR-4 proteins from wheat

We have constructed three-dimensional models of four pathogenesis-related (PR) proteins from wheat (wheatwins) belonging to the PR-4 family. All the models were based on the knowledge of the tertiary structure of barwin, a highly homologous protein from barley. Wheatwin1 and wheatwin2 differ in two amino acid residues (positions 62 and 68) out of 125. Wheatwin4 differs from wheatwin2 in one residue at position 78, while wheatwin3 differs from wheatwin1 in one residue at position 88. The global folding and the secondary structures were very similar through all the sequences, including the regions of the amino acid substitutions. The main differences were found in the traits 15-21, 84-86 and 91-93. Trait 15-21 was predicted as ss-sheet in wheatwin4 and random-coil in the other proteins. Trait 84-86 was predicted as ss-sheet in wheatwin3 and random-coil in the other proteins. Trait 91-93 was predicted as random coil in wheatwin1 and wheatwin3 and ss-sheet in the other two proteins. Traits 15-21 and 84-86 were exposed, while trait 91-93 was quite hidden in all the proteins. The antifungal activities of the four proteins towards the specific pathogenic fungus Fusarium culmorum were distinct and well correlated to the structural differences. These results suggest that these regions may have a role in the action mechanism, which is still unknown.     

The amino acid sequence of a protein from wheat kernel closely related to proteins involved in the mechanisms of plant defence

The amino acid sequence of wheatwin1, a monomeric protein of 125 residues isolated from wheat kernel (variety S. Pastore), is reported. Wheatwin1 is highly homologous (95%) to barwin, a protein from barley seed, which was shown to be related to the C-terminal domain of two proteins encoded by the wound-induced geneswin1 andwin2 in potato and to a protein encoded by the same domain of the hevein gene (hev1) in rubber tree. Similarly to barwin, wheatwin1 contains six cysteine residues all linked in disulfide bridges and the N-terminal residue is pyroglutamate. Moreover, structural studies performed on wheatwin1 andwin1 protein by predictive methods demonstrated that these proteins and barwin are closely related in the secondary structure also. The high level of homology found with the product ofwin1,win2, andhev1 genes strongly suggests that barwin and wheatwin1 play a common role in the mechanism of plant defence.     

Isolation and characterization of six pathogenesis-related (PR) proteins of Samsun NN tobacco

The purification to homogeneity of pathogenesis-related (PR) proteins R and S from Nicotiana tabacum cv. Samsun NN leaves has been achieved by using a combination of conventional and high-performance chromatographic supports. The same procedure allowed the purification and the characterization of four other proteins which displayed some properties characteristic of tobacco PR proteins and were shown to accumulate in tobacco leaves in response to virus infection. They can be, therefore, considered as new tobacco PR proteins which we designate as PR-s₁,-s₂,-r₁ and-r₂. The relative electrophoretic mobilities (Rf) under non-denaturing conditions were estimated to 0.30 for PR-r₁ and-r₂, 0.25 for Pr-R, 0.20 for PR-s₁ and-s₂ and 0.15 for PR-S. On SDS gels PR proteins R and S possessed the same apparent molecular weight (M _r 24000) as did PR-proteins s₁ and r₁ (M _r 14500) and PR-s₂ and-r₂ (M _r 13000). However, proteins s₁, s₂, r₁ and r₂ had identical electrophoretic mobilities on SDS gels when the loading sample buffer contained no reducing agent. Polyclonal antisera were raised against PR proteins R and S and used in immunoblotting experiments. Proteins R and S were shown to be serologically closely related. No cross-reaction was detected with any of the four new tobacco PR proteins r₁, r₂, s₁ and s₂ or with the previously described PR proteins, i.e. PR-1a,-1b,-1c,-2,-N,-O,-P and-Q.     

Transgenic Tobacco Plants Constitutively Overexpressing a Rice Thaumatin-like Protein (PR-5) Show Enhanced Resistance to Alternaria alternata

Overexpression of antifungal pathogenesis-related (PR) proteins in crop plants has the potential for enhancing resistance against fungal pathogens. Thaumatin-like proteins (TLPs) are one group (PR-5, permatins) of antifungal PR-proteins isolated from various plants. In the present study, a plasmid containing a cDNA of rice tlp (D34) under the control of the CaMV-35S promoter was introduced into tobacco plants through Agrobacterium-mediated transformation system. A considerable overproduction of TLP was observed in transformed tobacco plants by Western blot analysis. There was a large accumulation of tlp mRNA in transgenic plants as revealed by Northern blot analysis. Southern blot analysis of the DNA from transgenic tobacco plants confirmed the presence of the rice tlp gene in the genomic DNA of transgenic tobacco plants. Immunoblot analysis of intracellular and extracellular proteins of transgenic tobacco leaves using a Pinto bean TLP antibody demonstrated that the 23-kDa TLP was secreted into the extracellular matrix. T₂ progeny of regenerated plants transformed with TLP gene were tested for their disease reaction to Alternaria alternata, the brown spot pathogen. Transgenic tobacco plants expressing TLP at high levels showed enhanced tolerance to necrotization caused by the pathogen. This revised version was published online in July 2006 with corrections to the Cover Date.     

Evolutionary conservation and DNA binding properties of the Ssh7 proteins fromSulfolobus shibatae

The thermoacidophilic archaeon Sulfolobus shibatae synthesizes a large amount of the 7-ku DNA binding proteins known as Ssh7. Our hybridization experiments showed that two Ssh7-encoding genes existed in the genome of S. shibatae. These two genes, designated ssh7a and ssh7b, have been cloned, sequenced and expressed in Escherichia coli. The two Ssh7 proteins differ only at three amino acid positions. In addition, the cis-regulatory sequences of the ssh7a and ssh7b genes are highly conserved. These results suggest the presence of a selective pressure to maintain not only the sequence but also the expression of the two genes. We have also found that there are two genes encoding the 7-ku protein in Sulfolobus solfataricus. Based on this and other studies, we suggest that the gene encoding the 7-ku protein underwent duplication before the separation of Sulfolobus species. Binding of native Ssh7 and recombinant (r)Ssh7 to short duplex DNA fragments was analyzed by electrophoretic mobility shift assays. Both native and recombinant forms of the protein behaved in a similar fashion in the assays, suggesting that the interaction of Ssh7 with DNA is not affected either by specific lysine methylation found in the native Ssh7 proteins or by the difference between the two Ssh7 isomers in amino acid sequence. Our data show that Ssh7 binds duplex DNA fragments with a binding size of ~ 6.6 base pairs and an apparent dissociation constant of (0.7—1.0)×10^-7 mol/L under the assay conditions employed in the present study. In addition, Ssh7 binds more tightly to negatively supercoiled DNA than to linear or relaxed DNA. :     

Proteomic approach: Identification of <Emphasis Type="Italic">Medicago truncatula</Emphasis> proteins induced in roots after infection with the pathogenic oomycete <Emphasis Type="Italic">Aphanomyces euteiches</Emphasis>

The legume root rot disease caused by the oomycete pathogen Aphanomyces euteiches is one major yield reducing factor in legume crop production. A comparative proteomic approach was carried out in order to identify proteins of the model legume Medicago truncatula which are regulated after an infection with A. euteiches. Several proteins were identified by two dimensional gel electrophoresis to be differentially expressed after pathogen challenge. Densitometric evaluation of expression values showed different regulation during the time-course analysed. Proteins regulated during the infection were identified by matrix assisted laser desorption/ionization-time of flight-mass spectrometry (MALDI-TOF-MS). Among the differentially expressed proteins, two encoded putative cell wall proteins and two were designated as small heat shock proteins. Furthermore, an isoform of the chalcone-O-methyltransferase was found to be increased in infected roots. The majority of induced proteins belonged to the family of class 10 of pathogenesis related proteins (PR10). Previously, various PR10-like proteins have been shown to be regulated by general stress or abscisic acid (ABA). Therefore, these proteins were further investigated concerning their regulation in response to drought stress and exogenous ABA-application. Complex regulation patterns were identified: three of the A. euteiches-induced PR10-like proteins were also induced by exogenous ABA- but none of them is induced after drought stress. In contrast, three of these proteins are down-regulated by drought stress. Hence, the strong expression of different PR10-family members and their regulation profiles indicates that this set of proteins plays a major role during root adaptations to various stress conditions.     

Pea PR 10.1 is a Ribonuclease and its Transgenic Expression Elevates Cytokinin Levels

The constitutive expression of a cDNA encoding a pea (Pisum sativum L.) PR 10 protein in Brassica napus leading to an enhancement of germination under saline conditions has been previously reported. In order to understand the biochemical function of this pea PR 10 protein, its cDNA has been expressed in Escherichia coli and the recombinant protein purified to homogeneity. Ribonuclease activity of the recombinant pea PR 10 protein has been demonstrated for the first time using an in-solution as well as an in-gel RNA degradation assay. Furthermore, in order to characterize the changes brought about as a result of the constitutive expression of the pea PR 10 cDNA in B. napus, we have measured the endogenous concentrations of several phytohormones. Increased cytokinin and, decreased abscisic acid (ABA) were observed in 7-day-old transgenic seedlings whereas no significant changes in the concentrations of gibberellin (GA) or indoleacetic acid (IAA) were observed at this stage of growth and development. The potential role(s) of PR 10 proteins with RNase activity and elevated cytokinins during plant stress responses as well as the possible relationship between PR 10 protein and changes in cytokinin concentrations are discussed.     

A new pathogenesis-related protein,LrPR4, from <Emphasis Type="Italic">Lycoris radiata</Emphasis>, and its antifungal activity against <Emphasis Type="Italic">Magnaporthe grisea</Emphasis>

A new Lycoris radiata pathogenesis-related (PR)-4 gene, LrPR4 was isolated. LrPR4 encodes a 142 amino acid protein with a predicted molecular mass of 15.43 kDa and pI of 7.56. The putative LrPR4 shows high similarity to PR4 type proteins from various plant species and belongs to the Barwin family. Like other PR4s from monocot plants, LrPR4 protein contains a conserved Barwin domain and has a signal peptide at its N-terminus. The recombinant LrPR4 protein expressed in Escherichia coli showed activity towards hydrolysing RNA from L. radiata bulbs and antifungal activity. The results of this study suggest that LrPR4 may play a role in the disease resistance responses of plant against pathogen attacks though its antifungal activity.     

Co-bombardment,integration and expression of rice chitinase and thaumatin-like protein genes in barley (<Emphasis Type="Italic">Hordeum vulgare</Emphasis> cv. Conlon)

Pathogenesis-related (PR) proteins associated with degradation of structural components of pathogenic filamentous fungi were overexpressed in the two-rowed malting barley (Hordeum vulgare L.) cultivar Conlon. Transgenes were introduced by co-bombardment with two plasmids, one carrying a rice (Oryza sativa L.) chitinase gene (chi11) and another carrying a rice thaumatin-like protein gene (tlp). Each gene was under the control of the maize ubiquitin (Ubi1) promoter. Fifty-eight primary transformants from three independent transformation events were regenerated. T₁ plants with high rice chi11 and tlp protein expression levels were advanced to identify T₂ homozygotes by herbicide spray and subjected to further molecular analyses. T₃ progeny from one event (E2) had stable integration and expression of the rice chi11 and tlp while those from the other events (E1 and E3) showed stable integration only of tlp. The successful production of these lines overexpressing the antifungal chi and tlp proteins provides materials to test the effects of these genes on a variety of fungal diseases that attack barley and to serve as potential additional sources of disease resistance.     

Evolutionary conservation and DNA binding properties of the Ssh7 proteins fromSulfolobus shibatae

The thermoacidophilic archaeonSulfolobus shibatae synthesizes a large amount of the 7-ku DNA binding proteins known as Ssh7. Our hybridization experiments showed that two Ssh7-encoding genes existed in the genome of S.shibatae. These two genes, designatedssh7a andssh7b, have been cloned, sequenced and expressed inEscherichia coli. The two Ssh7 proteins differ only at three amino acid positions. In addition, thecis-regulatory sequences of thessh7a andssh7b genes are highly conserved. These results suggest the presence of a selective pressure to maintain not only the sequence but also the expression of the two genes. We have also found that there are two genes encoding the 7-ku protein inSulfolobus solfataricus. Based on this and other studies, we suggest that the gene encoding the 7-ku protein underwent duplication before the separation ofSulfolobus species. Binding of native Ssh7 and recombinant (r)Ssh7 to short duplex DNA fragments was analyzed by electrophoretic mobility shift assays. Both native and recombinant forms of the protein behaved in a similar fashion in the assays, suggesting that the interaction of Ssh7 with DNA is not affected either by specific lysine methylation found in the native Ssh7 proteins or by the difference between the two Ssh7 isomers in amino acid sequence. Our data show that Ssh7 binds duplex DNA fragments with a binding size of ∼ 6.6 base pairs and an apparent dissociation constant of (0.7–1.0) × 10^-7 mol/L under the assay conditions employed in the present study. In addition, Ssh7 binds more tightly to negatively supercoiled DNA than to linear or relaxed DNA.     

The effect of chemical stress on the polypeptide composition of the intercellular fluid of barley leaves

The effect of chemical stress on the polypeptide composition of the intercellular fluid of barley (Hordeum vulgare L.) and tomato (Lycopersicon esculentum Mill.) leaves has been studied. In some dicotyledonous plant species, including tomato, exposure to chemical stress leads to the denovo synthesis of intercellular proteins known as pathogenesis-related proteins which have been implicated to be part of a defence mechanism. In barley, however, no such changes in the polypeptide composition of the intercellular fluid could be detected. On the other hand, similar stress conditions induce in barley a strong accumulation of mRNA encoding leaf-specific thionins. These barley thionins represent a novel class of cell-wall proteins toxic to phytopathogenic fungi and are possibly involved in the defence mechanism. These proteins could not be detected in tomato plants. In contrast to the pathogenesis-related proteins of dicotyledonous plants, the leaf-specific thionins of barley are not present in the intercellular fluid of leaves. These results indicate that barley may have evolved a different mechanism to cope with the presence of stress.Abbreviations PAGE polyacrylamide gel electrophoresis - PR pathogenesis-related - SDS sodium dodecyl sulfate     

水稻病程相关蛋白质在逆境胁迫下的表达研究

植物病程相关(PR)基因一般在病原物侵染过程中受诱导发生转录上调．目前有证据提示植物PR基因在非生物逆境胁迫下也发生转录变化,但其蛋白质的表达变化情况还鲜有报道．为了解水稻PR蛋白质在逆境胁迫下的表达特征,本文采用免疫印迹技术(Western blotting,WB)调查了8个PR蛋白质在冷、热、旱、淹和盐等5种胁迫下的表达谱．结果表明：在冷胁迫下PR8表达上调,在热胁迫下PR1a、PR3、PR5和PR16表达下调;在旱胁迫下PR1a、PR2和PR8表达上调,而PR5 和PR16表达下调,在淹胁迫下PR1、PR2和PR15表达上调,PR1a、PR3、PR5和PR8表达下调;在盐胁迫下PR2和PR3表达上调,而PR1a、PR5、PR8和PR16表达下调．另外,对这些PR 基因的上游启动子区进行分析,发现存在与胁迫响应相关的调控元件,其中脱落酸反应元件(ABRE)、TC-rich repeats和HSE的出现频率较高．这些蛋白质表达数据进一步佐证了PR蛋白在逆境胁迫反应中发挥着重要且不尽相同的作用．     

Patterns of molecular evolution and predicted function in thaumatin-like proteins of Populus trichocarpa

Some pathogenesis-related proteins (PR proteins) are subject to positive selection, while others are under negative selection. Here, we report the patterns of molecular evolution in thaumatin-like protein (TLP, PR5 protein) genes of Populus trichocarpa. Signs of positive selection were found in 20 out of 55 Populus TLPs using the likelihood ratio test and ML-based Bayesian methods. Due to the connection between the acidic cleft and the antifungal activity, the secondary structure and three-dimensional structure analyses predicted antifungal activity β-1,3-glucanase activities in these TLPs. Moreover, the coincidence with variable basic sites in the acidic cleft and positively selected sites suggested that fungal diseases may have been the main environmental stress that drove rapid adaptive evolution in Populus.