Verticillium wilt(VW),induced by the soil-borne fungus Verticillium dahliae(Vd),poses a substantial threat to a diverse array of plant species.Employing molecular breeding technology for the development of cotton vari...Verticillium wilt(VW),induced by the soil-borne fungus Verticillium dahliae(Vd),poses a substantial threat to a diverse array of plant species.Employing molecular breeding technology for the development of cotton varieties with heightened resistance to VW stands out as one of the most efficacious protective measures.In this study,we successfully generated two stable transgenic lines of cotton(Gossypium hirsutum L.),VdThitRNAi-1 and VdThit-RNAi-2,using host-induced gene silencing(HIGS)technology to introduce double-stranded RNA(dsRNA)targeting the thiamine transporter protein gene(VdThit).Southern blot analysis confirmed the presence of a single-copy insertion in each line.Microscopic examination showed marked reductions in the colonization and spread of Vd-mCherry in the roots of VdThit-RNAi cotton compared to wild type(WT).The corresponding disease index and fungal biomass of VdThit-RNAi-1/2 also exhibited significant reductions.Real-time quantitative PCR(qRT-PCR)analysis demonstrated a substantial inhibition of VdThit expression following prolonged inoculation of VdThit-RNAi cotton.Small RNA sequencing(sRNA-Seq)analysis revealed the generation of a substantial number of VdThit-specific siRNAs in the VdThit-RNAi transgenic lines.Additionally,the silencing of VdThit by the siVdThit produced by VdThit-RNAi-1/2 resulted in the elevated expression of multiple genes involved in the thiamine biosynthesis pathway in Vd.Under field conditions,VdThit-RNAi transgenic cotton exhibited significantly enhanced disease resistance and yield compared with WT.In summary,our findings underscore the efficacy of HIGS targeting VdThit in restraining the infection and spread of Vd in cotton,thereby potentially enabling the development of cotton breeding as a promising strategy for managing VW.展开更多
Verticillium dahliae is an important soil-borne fungal pathogen that causes great yield losses in many cash crops.Effectors of this fungus are known to regulate plant immunity but the mechanism much remains unclear.A ...Verticillium dahliae is an important soil-borne fungal pathogen that causes great yield losses in many cash crops.Effectors of this fungus are known to regulate plant immunity but the mechanism much remains unclear.A glycine-rich nuclear effector,VdCE51,was able to suppress immune responses in tobacco against Botrytis cinerea and Sclerotinia sclerotiorum.This effector was a required factor for full virulence of V.dahliae,and its nuclear localization was a requisite for suppressing plant immunity.The thioredoxin GhTRXH2,identified as a positive regulator of plant immunity,was a host target of VdCE51.Our findings show a virulence regulating mechanism whereby the secreted nuclear effector VdCE51 interferes with the transcription of PR genes,and the SA signaling pathway by inhibiting the accumulation of GhTRXH2,thus suppressing plant immunity.展开更多
The different resistance of cotton (Gossypium hirsutum L.) cultivars to crude toxin of Verticillium dah/iae(VD) was correlated with the activities of chitinase and β-1, 3-glucanase in callus cells. The activities of ...The different resistance of cotton (Gossypium hirsutum L.) cultivars to crude toxin of Verticillium dah/iae(VD) was correlated with the activities of chitinase and β-1, 3-glucanase in callus cells. The activities of chitinase and β-1, 3-glucanase in the callus cells treated with the VD-toxin were increased to the higher level at earlier time point in resistant cultivars than these in the susceptible cultivars. Exogenous salicylic acid (SA) induced the accumulation of chitinase and β -1,3-glucanase, which resulted in the resistance of callus cells to the VD. toxin. Western blot using a polyclonal antibody against β -1,3-glucanase identified 28 kD protein that was induced by VD-toxin, SA, or VD-toxin plus SA.展开更多
The Raphanus sativus L. antifungal protein 1 (Rs_AFP1) gene was isolated by polymerase chain reaction (PCR). The complete open reading frame and the fragment encoding the putative mature protein were inserted into the...The Raphanus sativus L. antifungal protein 1 (Rs_AFP1) gene was isolated by polymerase chain reaction (PCR). The complete open reading frame and the fragment encoding the putative mature protein were inserted into the prokaryotic expression vector pET_32b(+), respectively. Subsequent expression showed that the Rs_AFP1 was produced in E. coli as a 27 kD fusion protein only when the N_terminal signal peptide was removed. After treatment with thrombin to remove part of the N_terminal His.tag sequence, the bacterially expressed Rs_AFP1 was used for fungal growth inhibition assay which was conducted on Verticillium dahliae Kleb., a soil_born fungus causing the cotton wilt disease. Results showed that, in the liquid medium, the Rs_AFP1 fusion protein at a concentration of 0.3 g/L clearly inhibited the growth of V. dahliae and the germination of spores. Thus the bacterially expressed fusion protein had the antifungal activity against V. dahliae.展开更多
[Objective] This study aimed to investigate the functions and related mechanisms of xyloglucan Endotransglycosylase/hydrolases (XTHs) during the growth and development of dahlia. [Method] Using /3-actin as the refer...[Objective] This study aimed to investigate the functions and related mechanisms of xyloglucan Endotransglycosylase/hydrolases (XTHs) during the growth and development of dahlia. [Method] Using /3-actin as the reference gene, the rela- tive transcription levels of DpXTH1 and DpXTH2 genes in roots, stems, leaves and petals of dahlia were analyzed by real-time RT-PCR. [Result] The DpXTH1 and DpXTH2 were not expressed in the roots, but expressed abundantly in the petals of dahlia. There were little expressions in the stems and leaves of dahlia. [Conclusion] The DpXTH1 and DpXTH2 were petal-specific genes and closely related to the growth and development of petals in dahlia.展开更多
WRKY transcription factors (TFs) play important roles in the regulation of biotic and abiotic stresses. However, the functions of most WRKY TFs in upland cotton (Gossypium hirsutum) are still unknown. In this study, w...WRKY transcription factors (TFs) play important roles in the regulation of biotic and abiotic stresses. However, the functions of most WRKY TFs in upland cotton (Gossypium hirsutum) are still unknown. In this study, we functionally identified a group Ⅲ WRKY transcription factor, GhWRKY70, in upland cotton. Reverse transcription-quantitative PCR analysis showed that GhWRKY70 expression was induced by Verticillium dahliae, salicylic acid (SA) and methyl jasmonate. Virus-induced gene silencing of GhWRKY70 increased the resistance of cotton to V. dahliae. Specifically, jasmonic acid (JA) response-associated genes were upregulated and SA-related genes were downregulated in GhWRKY70-silenced cotton plants. Overexpression of GhWRKY70 reduced tolerance to V. dahliae in Arabidopsis thaliana. Transgenic Arabidopsis plants showed increased expression of SA-associated genes and reduced expression of JA response-associated genes. These results suggest that GhWRKY70 negatively regulates tolerance to V. dahliae in at least two ways: (ⅰ) by upregulating the expression of SA-associated genes and (ⅱ) by reducing the expression of JA-associated genes.展开更多
[Objective] This study aimed to explore the molecular mechanism of senescence in ethylene-insensitive flowers. [Method] The dahlia petals were used as matedal, and the senescence-associated proteins were isolated and ...[Objective] This study aimed to explore the molecular mechanism of senescence in ethylene-insensitive flowers. [Method] The dahlia petals were used as matedal, and the senescence-associated proteins were isolated and identified using two-dimensional electrophoresis, mass spectrometry and an encoding gene was cloned using molecular biology techniques. [Result] In the two-dimensional elec- trophorogram of proteins from dahlia petals at building color, full flowering and flow- er senescence pedods, a total of 44 protein spots with differences in expression level more than two times were detected. From the 44 protein spots, xyloglucan (XTHs), a senescence-associated protein, was iso- lated and identified and its expression level was increased continuously with the senescence process of dahlia petals. By using the total RNA of dahlia petals as matedal and a pair of degenerate pdmers, the cDNA sequence of XTH gene was cloned by RT-PCR. The encoding region of XTH gene has a full length of 882 bp, encoding 293 amino acid residues, and is named as DpXTH1 (Accession number: HM053613.1). The cluster analysis showed that the amino acid sequence of DpXTH1 has high homology with those of XTHs in other plants. [Conclusion] The isolated and identified DpXTH1 from dahlia petals belonged to the XTH family in plants, and its biological function was associated with the senescence process and regulation of dahlia petals.展开更多
This study was to explore the influence of the Verticillium dahliae Kleb inflection on the anti-enzyme inside the body of the cotton with a different root injured degree. When the cotton seedling was long, with four l...This study was to explore the influence of the Verticillium dahliae Kleb inflection on the anti-enzyme inside the body of the cotton with a different root injured degree. When the cotton seedling was long, with four leaves, it was flushed with water carefully, and then the following were obtained: (1) complete root seedling; (2) cut root seedling - by cutting off the lower part, 3-5 cm of the root, with a disinfected knife; (3) injured root seedling - by cutting off most of the side roots, but keeping the main root. Three kinds of cotton seedlings with different roots were immersed separately in different concentrations of the germ liquid (V. dahliae) of 20 mL each. Through 0- 48 h, the wilt degree of the seedling was recorded, and the related anti-enzyme of the variety was measured. After being immersed in the germ liquid, there was a significant difference in the wilt degree of the three kinds of injured root. When the germ liquid was in the ratio of 1:10, the complete root seedling was the lightest with no wilt; the injured root seedling was the second with a 2-degree wilt; but the cut root seedling was the most serious with a 3- degree wilt. At the same time, the changes in the peroxidase and malondialdehvde activities were determined. Peroxidase (POD) activities in the cut root seedling were 38.2 U mg^-1 min^-1, in the injured root seedling were 42.96 U mg^-1 min^-1, and in the complete root seedling were the highest at 49.2 U mg^-1 min^-1. The malondialdenvde (MDA) content in cut root seedling was 39.483 mmol g^-1, injured root seedling was 27.12 mmol g^-1, and the complete root seedling was only 3.845 mmol g^-1 The activity of the related anti-enzymes, such as POD was high or low, the quantity of the MDA was more or less, which they met the order of the harm of the seedlings. The change of SOD activities in cut root seedling was the most obvious as well. After injuring and inflecting the young roots, the exterior pathological reaction of the seedling and the dynamic state biochemical reaction of the related enzymes inside the plant body were studied. It showed that the plant exterior pathology responded to the test, with the internal biochemical reaction fitting together mutually.展开更多
Verticillium wilt,caused by the notorious fungal pathogen Verticillium dahliae,is one of the main limiting factors for cotton production.Due to the stable dormant structure microsclerotia,long-term variability and co-...Verticillium wilt,caused by the notorious fungal pathogen Verticillium dahliae,is one of the main limiting factors for cotton production.Due to the stable dormant structure microsclerotia,long-term variability and co-evolution with host plant,its pathogenicity mechanism is very complicated,and the interaction mechanism between pathogen and host plant is also unclear.So identification and functional analysis of the genes involved in the pathogenicity or virulence of this fungus will benefit to uncover the molecular pathogenic mechanism of V.dahliae.In this review,many multifunction genes covering microsclerotia development,pathogen infection,effector proteins,transcription factors,horizontal gene transfer and trans-kingdom RNA silencing have been summarized to provide a theoretical basis to deep understand the molecular pathogenicity mechanism of V.dahliae and promote to effectively control Verticillium wilt.Furtherly,these pathogenicity-related genes may be considered as targets for effective control of Verticillium wilt in cotton.展开更多
Plants produce reactive oxygen species(ROS) to defend pathogens. To counteract this attack, certain pathogens express superoxide dismutases(SODs) to scavenge host-derived ROS. However, the roles of SODs in Verticilliu...Plants produce reactive oxygen species(ROS) to defend pathogens. To counteract this attack, certain pathogens express superoxide dismutases(SODs) to scavenge host-derived ROS. However, the roles of SODs in Verticillium dahliae, an important vascular pathogen, are not clear. Our previous study has shown that a putative extracellular SOD(VdSOD5) of V. dahliae is significantly induced by culturing in cotton tissues, suggesting that VdSOD5 may play an important role in host–pathogen interactions and virulence. Here, we showed that VdSOD5 encoded a superoxide dismutase with a cofactor copper-binding site and a functional signal peptide that can conduct protein secretion in an invertase-mutated yeast strain. The mutations in VdSOD5(ΔVdSOD5) did not change the normal vegetative growth and conidial production but reduced the virulence of V. dahliae on susceptible host cotton. Further studies showed that the transcription of Vd SOD5 was significantly up-regulated during the early stage of infection, and the loss-of-function of VdSOD5 decreased culture filtrate and fungal tissue SOD activities of V. dahliae by 74 and 28%, respectively. Compared to the wild-type strain Vd991, the ΔVdSOD5 showed the same sensitivity to the intracellular ROS generator menadione. Furthermore, nitroblue tetrazolium(NBT) staining demonstrated that VdSOD5 functioned in the detoxification of superoxides generated by host roots during infection. These results suggest that VdSOD5 of V. dahliae is an important virulence factor, secreted out of cells to combat host-derived ROS.展开更多
Nine primers were employed to detect molecular polymorphisms in 103 Verticillium dahliae isolates that represent diverse groups of Vegetative Compatibility (VC). Our results showed that these isolates confer two disti...Nine primers were employed to detect molecular polymorphisms in 103 Verticillium dahliae isolates that represent diverse groups of Vegetative Compatibility (VC). Our results showed that these isolates confer two distinctive RAPD groups (RPGs). RPG1, consists of isolates belonging to vegetative compatibility group I (VCG I ), while RPG2 encompasses VCGⅢ and VCGⅣ . The genetic diversity associated with VCGⅢ was greater than that associated with VCG1. Five RAPD fragments, with frequencies more than 0.96 in VCG I but less than 0.1 in VCGⅢ, produced characteristic fragments for VCG I (defoliating type), suggesting strong correlation between RPGs and VCGs.展开更多
[Objectives] This study was conducted to investigate the effect of paclobutrazol (PBZ) on heat tolerance of dahlia.[Methods] A dahlia variety Danbanhuang was selected as the experimental material in this study. Afte...[Objectives] This study was conducted to investigate the effect of paclobutrazol (PBZ) on heat tolerance of dahlia.[Methods] A dahlia variety Danbanhuang was selected as the experimental material in this study. After 100, 200, 300 or 400 mg/L paclobutrazol was sprayed evenly to the leaves of dahlia seedlings, they were cultured in an incubator at high temperature (35 ℃/30 ℃, day/night) for two days, and then transferred to an incubator at normal temperature (25 ℃/20 ℃, day/night). The physiological and biochemical parameters of the dahlia seedlings were measured before exposure to high temperature (D0), after exposure to high temperature for two days (D2) and exposure to normal temperature for one day (R1).[Results] Compared to the negative control, foliar application of paclobutrazol decreased the content of MDA, increased the contents of chlorophyll, proline, soluble protein, and the activity of SOD, POD and CAT in dahlia plants under heat stress. The contents of MDA, soluble protein and proline in PBZ treated dahlia plants increased when they were subject to high temperature stress (35 ℃/30 ℃, day/night), and then decreased when the temperature returned to normal (25 ℃/20 ℃, day/night), and CAT activity decreased at high temperature, and then increased at normal temperature, while the activity of SOD and POD kept rising during the entire experimental period.[Conclusions] Foliar application of paclobutrazol can alleviate the adverse effect caused by high temperature to dahlia plants, and the experimental data provide a theoretical basis for the application of paclobutrazol in dahlia cultivation in South China.展开更多
The article is based on the use of experimental polyploidy method, with the introduction of new introgressive hybrid forms combining several species genotype with pathogenic Verticillium dahliae Kleb. and the effects ...The article is based on the use of experimental polyploidy method, with the introduction of new introgressive hybrid forms combining several species genotype with pathogenic Verticillium dahliae Kleb. and the effects of mycotoxins separated from the Fusarium oxysporum f.sp. vasinfectum micromicette on the yield of plant seeds. New artificial complex hypertension forms based on experimental polyploidy Verticillium dahliae Kleb. and Fusarium oxysporum f.sp. vasinfectum combine the potential of resistance to mycotoxins separated from microcrystals, making a tremendous contribution to the selection of new varieties and to the effectiveness of selection as a result of the use of genetic selective research as genetic-selective genetic-selector studies.展开更多
Background:Verticillium wilt,caused by Verticillium dahliae,is called a "cancer" disease of cotton.The discovery and identification of defense-related genes is essential for the breeding of Verticillium wilt...Background:Verticillium wilt,caused by Verticillium dahliae,is called a "cancer" disease of cotton.The discovery and identification of defense-related genes is essential for the breeding of Verticillium wilt-resistant varieties.In previous research we identified some possible broad-spectrum resistance genes.Here,we report a tryptophan synthesis-related gene GbTRP1 and its functional analysis in relation to the resistance of cotton to V.dahliae.Results:Expression analysis shows that GbTRP1 is suppressed at 1 h and 6 h post V.dahliae infection,but activated at 12 h and 24 h,and the expression of GbTRP1 is highly induced by treatment with salicylic acid and jasmonic acid.Sub-cellular localization studies show that GbTRP1 is localized in the chloroplast.Suppression of GbTRP1 expression leads to lesion-mimic phenotypes and activates the immune response in cotton by showing enhanced resistance to V.dahliae and B.cinerea.Metabolomic analysis shows that anthranilic compounds significantly accumulated in GbTRP1-silenced plants,and these metabolites can inhibit the growth of V.dahliae and B.cinerea in vitro.Conclusions:Our results show that suppression of GbTRPI expression dramatically activates the immune response and increases resistance of cotton to V.dahliae and B.cinerea,possibly due to the accumulation of anthranilate compounds.This study not only provides genetic resources for disease resistance breeding,but also may provide a basis for new chemical control methods for combatting of fungal disease in cotton.展开更多
基金supported by the National Key Research and Development Program of China(2022YFD1200300)the National Natural Science Foundation of China(32072376 and 32372515)+3 种基金Winall Hi-tech Seed Co.,Ltd.,China(GMLM2023)the Nanfan Special Project of Chinese Academy of Agricultural Sciences(CAAS)(ZDXM2303 and YBXM2415)the Natural Science Foundation of Hebei Province,China(C2022204205)the Agricultural Science and Technology Innovation Program of CAAS。
文摘Verticillium wilt(VW),induced by the soil-borne fungus Verticillium dahliae(Vd),poses a substantial threat to a diverse array of plant species.Employing molecular breeding technology for the development of cotton varieties with heightened resistance to VW stands out as one of the most efficacious protective measures.In this study,we successfully generated two stable transgenic lines of cotton(Gossypium hirsutum L.),VdThitRNAi-1 and VdThit-RNAi-2,using host-induced gene silencing(HIGS)technology to introduce double-stranded RNA(dsRNA)targeting the thiamine transporter protein gene(VdThit).Southern blot analysis confirmed the presence of a single-copy insertion in each line.Microscopic examination showed marked reductions in the colonization and spread of Vd-mCherry in the roots of VdThit-RNAi cotton compared to wild type(WT).The corresponding disease index and fungal biomass of VdThit-RNAi-1/2 also exhibited significant reductions.Real-time quantitative PCR(qRT-PCR)analysis demonstrated a substantial inhibition of VdThit expression following prolonged inoculation of VdThit-RNAi cotton.Small RNA sequencing(sRNA-Seq)analysis revealed the generation of a substantial number of VdThit-specific siRNAs in the VdThit-RNAi transgenic lines.Additionally,the silencing of VdThit by the siVdThit produced by VdThit-RNAi-1/2 resulted in the elevated expression of multiple genes involved in the thiamine biosynthesis pathway in Vd.Under field conditions,VdThit-RNAi transgenic cotton exhibited significantly enhanced disease resistance and yield compared with WT.In summary,our findings underscore the efficacy of HIGS targeting VdThit in restraining the infection and spread of Vd in cotton,thereby potentially enabling the development of cotton breeding as a promising strategy for managing VW.
基金supported by the National Key Research and Development Program of China(2018YFE0112500)the Natural Science Basic Research Program of Shannxi Province(2024JCYBMS-183).We thank Professor Hui-shan Guo from the Institute of Microbiology,Chinese Academy of Sciences for providing the pNat-Tef-TrpC and pGKO-HPT vector,and Dr.Siwei Zhang from Northwest A&F University for providing the pER8-NeYFP,pER8-CeYFP,and pGEX-4T-1 vectors.
文摘Verticillium dahliae is an important soil-borne fungal pathogen that causes great yield losses in many cash crops.Effectors of this fungus are known to regulate plant immunity but the mechanism much remains unclear.A glycine-rich nuclear effector,VdCE51,was able to suppress immune responses in tobacco against Botrytis cinerea and Sclerotinia sclerotiorum.This effector was a required factor for full virulence of V.dahliae,and its nuclear localization was a requisite for suppressing plant immunity.The thioredoxin GhTRXH2,identified as a positive regulator of plant immunity,was a host target of VdCE51.Our findings show a virulence regulating mechanism whereby the secreted nuclear effector VdCE51 interferes with the transcription of PR genes,and the SA signaling pathway by inhibiting the accumulation of GhTRXH2,thus suppressing plant immunity.
文摘The different resistance of cotton (Gossypium hirsutum L.) cultivars to crude toxin of Verticillium dah/iae(VD) was correlated with the activities of chitinase and β-1, 3-glucanase in callus cells. The activities of chitinase and β-1, 3-glucanase in the callus cells treated with the VD-toxin were increased to the higher level at earlier time point in resistant cultivars than these in the susceptible cultivars. Exogenous salicylic acid (SA) induced the accumulation of chitinase and β -1,3-glucanase, which resulted in the resistance of callus cells to the VD. toxin. Western blot using a polyclonal antibody against β -1,3-glucanase identified 28 kD protein that was induced by VD-toxin, SA, or VD-toxin plus SA.
文摘The Raphanus sativus L. antifungal protein 1 (Rs_AFP1) gene was isolated by polymerase chain reaction (PCR). The complete open reading frame and the fragment encoding the putative mature protein were inserted into the prokaryotic expression vector pET_32b(+), respectively. Subsequent expression showed that the Rs_AFP1 was produced in E. coli as a 27 kD fusion protein only when the N_terminal signal peptide was removed. After treatment with thrombin to remove part of the N_terminal His.tag sequence, the bacterially expressed Rs_AFP1 was used for fungal growth inhibition assay which was conducted on Verticillium dahliae Kleb., a soil_born fungus causing the cotton wilt disease. Results showed that, in the liquid medium, the Rs_AFP1 fusion protein at a concentration of 0.3 g/L clearly inhibited the growth of V. dahliae and the germination of spores. Thus the bacterially expressed fusion protein had the antifungal activity against V. dahliae.
基金Supported by Applied Basic Research Project of Suzhou City(SYN201405)National College Students’Innovative Entrepreneurial Training Program(201410285049Z)~~
文摘[Objective] This study aimed to investigate the functions and related mechanisms of xyloglucan Endotransglycosylase/hydrolases (XTHs) during the growth and development of dahlia. [Method] Using /3-actin as the reference gene, the rela- tive transcription levels of DpXTH1 and DpXTH2 genes in roots, stems, leaves and petals of dahlia were analyzed by real-time RT-PCR. [Result] The DpXTH1 and DpXTH2 were not expressed in the roots, but expressed abundantly in the petals of dahlia. There were little expressions in the stems and leaves of dahlia. [Conclusion] The DpXTH1 and DpXTH2 were petal-specific genes and closely related to the growth and development of petals in dahlia.
基金supported by the National Key Research and Development Program of China (2016YFD0100200)Science and Technology Development Program of Xinjiang Production and Construction Groups (2015AC007)Crops Breeding Project of Shihezi University (YZZX201704)
文摘WRKY transcription factors (TFs) play important roles in the regulation of biotic and abiotic stresses. However, the functions of most WRKY TFs in upland cotton (Gossypium hirsutum) are still unknown. In this study, we functionally identified a group Ⅲ WRKY transcription factor, GhWRKY70, in upland cotton. Reverse transcription-quantitative PCR analysis showed that GhWRKY70 expression was induced by Verticillium dahliae, salicylic acid (SA) and methyl jasmonate. Virus-induced gene silencing of GhWRKY70 increased the resistance of cotton to V. dahliae. Specifically, jasmonic acid (JA) response-associated genes were upregulated and SA-related genes were downregulated in GhWRKY70-silenced cotton plants. Overexpression of GhWRKY70 reduced tolerance to V. dahliae in Arabidopsis thaliana. Transgenic Arabidopsis plants showed increased expression of SA-associated genes and reduced expression of JA response-associated genes. These results suggest that GhWRKY70 negatively regulates tolerance to V. dahliae in at least two ways: (ⅰ) by upregulating the expression of SA-associated genes and (ⅱ) by reducing the expression of JA-associated genes.
基金Supported by Applied Basic Research Project of Suzhou City(SYN201405)National College Students’Innovative Entrepreneurial Training Program(201410285049)~~
文摘[Objective] This study aimed to explore the molecular mechanism of senescence in ethylene-insensitive flowers. [Method] The dahlia petals were used as matedal, and the senescence-associated proteins were isolated and identified using two-dimensional electrophoresis, mass spectrometry and an encoding gene was cloned using molecular biology techniques. [Result] In the two-dimensional elec- trophorogram of proteins from dahlia petals at building color, full flowering and flow- er senescence pedods, a total of 44 protein spots with differences in expression level more than two times were detected. From the 44 protein spots, xyloglucan (XTHs), a senescence-associated protein, was iso- lated and identified and its expression level was increased continuously with the senescence process of dahlia petals. By using the total RNA of dahlia petals as matedal and a pair of degenerate pdmers, the cDNA sequence of XTH gene was cloned by RT-PCR. The encoding region of XTH gene has a full length of 882 bp, encoding 293 amino acid residues, and is named as DpXTH1 (Accession number: HM053613.1). The cluster analysis showed that the amino acid sequence of DpXTH1 has high homology with those of XTHs in other plants. [Conclusion] The isolated and identified DpXTH1 from dahlia petals belonged to the XTH family in plants, and its biological function was associated with the senescence process and regulation of dahlia petals.
基金Natural Science Foundation of Hebei Province,China(C2006000744)International Project of Science and Technology between South Africa and China's Mainland(2006DFB02480)+1 种基金National Key Project of Scientific and Technical Supporting Programs in the 11th Five-Year-Plan of Ministry of Science and Technology,China(2006BAD01A05-04)Key Technologies R&D Program of Hebei Province,China(06220113D).
文摘This study was to explore the influence of the Verticillium dahliae Kleb inflection on the anti-enzyme inside the body of the cotton with a different root injured degree. When the cotton seedling was long, with four leaves, it was flushed with water carefully, and then the following were obtained: (1) complete root seedling; (2) cut root seedling - by cutting off the lower part, 3-5 cm of the root, with a disinfected knife; (3) injured root seedling - by cutting off most of the side roots, but keeping the main root. Three kinds of cotton seedlings with different roots were immersed separately in different concentrations of the germ liquid (V. dahliae) of 20 mL each. Through 0- 48 h, the wilt degree of the seedling was recorded, and the related anti-enzyme of the variety was measured. After being immersed in the germ liquid, there was a significant difference in the wilt degree of the three kinds of injured root. When the germ liquid was in the ratio of 1:10, the complete root seedling was the lightest with no wilt; the injured root seedling was the second with a 2-degree wilt; but the cut root seedling was the most serious with a 3- degree wilt. At the same time, the changes in the peroxidase and malondialdehvde activities were determined. Peroxidase (POD) activities in the cut root seedling were 38.2 U mg^-1 min^-1, in the injured root seedling were 42.96 U mg^-1 min^-1, and in the complete root seedling were the highest at 49.2 U mg^-1 min^-1. The malondialdenvde (MDA) content in cut root seedling was 39.483 mmol g^-1, injured root seedling was 27.12 mmol g^-1, and the complete root seedling was only 3.845 mmol g^-1 The activity of the related anti-enzymes, such as POD was high or low, the quantity of the MDA was more or less, which they met the order of the harm of the seedlings. The change of SOD activities in cut root seedling was the most obvious as well. After injuring and inflecting the young roots, the exterior pathological reaction of the seedling and the dynamic state biochemical reaction of the related enzymes inside the plant body were studied. It showed that the plant exterior pathology responded to the test, with the internal biochemical reaction fitting together mutually.
基金supported by the Agricultural Science and Technology Innovation Program of Chinese Academy of Agricultural SciencesCentral Publicinterest Scientific Institution Basal Research Fund (No. 1610162021031).
文摘Verticillium wilt,caused by the notorious fungal pathogen Verticillium dahliae,is one of the main limiting factors for cotton production.Due to the stable dormant structure microsclerotia,long-term variability and co-evolution with host plant,its pathogenicity mechanism is very complicated,and the interaction mechanism between pathogen and host plant is also unclear.So identification and functional analysis of the genes involved in the pathogenicity or virulence of this fungus will benefit to uncover the molecular pathogenic mechanism of V.dahliae.In this review,many multifunction genes covering microsclerotia development,pathogen infection,effector proteins,transcription factors,horizontal gene transfer and trans-kingdom RNA silencing have been summarized to provide a theoretical basis to deep understand the molecular pathogenicity mechanism of V.dahliae and promote to effectively control Verticillium wilt.Furtherly,these pathogenicity-related genes may be considered as targets for effective control of Verticillium wilt in cotton.
基金supported by the National Natural Science Foundation of China (31501588, 31972228, and 31970142)。
文摘Plants produce reactive oxygen species(ROS) to defend pathogens. To counteract this attack, certain pathogens express superoxide dismutases(SODs) to scavenge host-derived ROS. However, the roles of SODs in Verticillium dahliae, an important vascular pathogen, are not clear. Our previous study has shown that a putative extracellular SOD(VdSOD5) of V. dahliae is significantly induced by culturing in cotton tissues, suggesting that VdSOD5 may play an important role in host–pathogen interactions and virulence. Here, we showed that VdSOD5 encoded a superoxide dismutase with a cofactor copper-binding site and a functional signal peptide that can conduct protein secretion in an invertase-mutated yeast strain. The mutations in VdSOD5(ΔVdSOD5) did not change the normal vegetative growth and conidial production but reduced the virulence of V. dahliae on susceptible host cotton. Further studies showed that the transcription of Vd SOD5 was significantly up-regulated during the early stage of infection, and the loss-of-function of VdSOD5 decreased culture filtrate and fungal tissue SOD activities of V. dahliae by 74 and 28%, respectively. Compared to the wild-type strain Vd991, the ΔVdSOD5 showed the same sensitivity to the intracellular ROS generator menadione. Furthermore, nitroblue tetrazolium(NBT) staining demonstrated that VdSOD5 functioned in the detoxification of superoxides generated by host roots during infection. These results suggest that VdSOD5 of V. dahliae is an important virulence factor, secreted out of cells to combat host-derived ROS.
文摘Nine primers were employed to detect molecular polymorphisms in 103 Verticillium dahliae isolates that represent diverse groups of Vegetative Compatibility (VC). Our results showed that these isolates confer two distinctive RAPD groups (RPGs). RPG1, consists of isolates belonging to vegetative compatibility group I (VCG I ), while RPG2 encompasses VCGⅢ and VCGⅣ . The genetic diversity associated with VCGⅢ was greater than that associated with VCG1. Five RAPD fragments, with frequencies more than 0.96 in VCG I but less than 0.1 in VCGⅢ, produced characteristic fragments for VCG I (defoliating type), suggesting strong correlation between RPGs and VCGs.
基金Supported by Applied Basic Research Project of Suzhou City(SYN201405)
文摘[Objectives] This study was conducted to investigate the effect of paclobutrazol (PBZ) on heat tolerance of dahlia.[Methods] A dahlia variety Danbanhuang was selected as the experimental material in this study. After 100, 200, 300 or 400 mg/L paclobutrazol was sprayed evenly to the leaves of dahlia seedlings, they were cultured in an incubator at high temperature (35 ℃/30 ℃, day/night) for two days, and then transferred to an incubator at normal temperature (25 ℃/20 ℃, day/night). The physiological and biochemical parameters of the dahlia seedlings were measured before exposure to high temperature (D0), after exposure to high temperature for two days (D2) and exposure to normal temperature for one day (R1).[Results] Compared to the negative control, foliar application of paclobutrazol decreased the content of MDA, increased the contents of chlorophyll, proline, soluble protein, and the activity of SOD, POD and CAT in dahlia plants under heat stress. The contents of MDA, soluble protein and proline in PBZ treated dahlia plants increased when they were subject to high temperature stress (35 ℃/30 ℃, day/night), and then decreased when the temperature returned to normal (25 ℃/20 ℃, day/night), and CAT activity decreased at high temperature, and then increased at normal temperature, while the activity of SOD and POD kept rising during the entire experimental period.[Conclusions] Foliar application of paclobutrazol can alleviate the adverse effect caused by high temperature to dahlia plants, and the experimental data provide a theoretical basis for the application of paclobutrazol in dahlia cultivation in South China.
文摘The article is based on the use of experimental polyploidy method, with the introduction of new introgressive hybrid forms combining several species genotype with pathogenic Verticillium dahliae Kleb. and the effects of mycotoxins separated from the Fusarium oxysporum f.sp. vasinfectum micromicette on the yield of plant seeds. New artificial complex hypertension forms based on experimental polyploidy Verticillium dahliae Kleb. and Fusarium oxysporum f.sp. vasinfectum combine the potential of resistance to mycotoxins separated from microcrystals, making a tremendous contribution to the selection of new varieties and to the effectiveness of selection as a result of the use of genetic selective research as genetic-selective genetic-selector studies.
基金Supports by China Agricultural Research System(CARS-15-04)
文摘Background:Verticillium wilt,caused by Verticillium dahliae,is called a "cancer" disease of cotton.The discovery and identification of defense-related genes is essential for the breeding of Verticillium wilt-resistant varieties.In previous research we identified some possible broad-spectrum resistance genes.Here,we report a tryptophan synthesis-related gene GbTRP1 and its functional analysis in relation to the resistance of cotton to V.dahliae.Results:Expression analysis shows that GbTRP1 is suppressed at 1 h and 6 h post V.dahliae infection,but activated at 12 h and 24 h,and the expression of GbTRP1 is highly induced by treatment with salicylic acid and jasmonic acid.Sub-cellular localization studies show that GbTRP1 is localized in the chloroplast.Suppression of GbTRP1 expression leads to lesion-mimic phenotypes and activates the immune response in cotton by showing enhanced resistance to V.dahliae and B.cinerea.Metabolomic analysis shows that anthranilic compounds significantly accumulated in GbTRP1-silenced plants,and these metabolites can inhibit the growth of V.dahliae and B.cinerea in vitro.Conclusions:Our results show that suppression of GbTRPI expression dramatically activates the immune response and increases resistance of cotton to V.dahliae and B.cinerea,possibly due to the accumulation of anthranilate compounds.This study not only provides genetic resources for disease resistance breeding,but also may provide a basis for new chemical control methods for combatting of fungal disease in cotton.
