In the process of infecting plants, plant parasitic nematodes release a series of proteins that play an essential role in the successful infection and pathogenesis of plant cells and tissues through stylets or body wa...In the process of infecting plants, plant parasitic nematodes release a series of proteins that play an essential role in the successful infection and pathogenesis of plant cells and tissues through stylets or body walls. In this study,based on transcriptome data, a chorismate mutase gene of Radopholus similis(RsCM) was identified and cloned,which is a single copy gene specifically expressed in the oesophageal gland and highly expressed in juveniles and females. Transient expression of RsCM in tobacco leaves showed that it was localised in the cytoplasm and nucleus of tobacco leaf cells, which inhibited the pattern-triggered immunity(PTI) induced by flg22, including callose deposition and defence gene expression, and cell death induced by immune elicitors BAX, but could not inhibit cell death induced by immune elicitors Gpa2/RBP-1. The RNA interference(RNAi) transgenic tomato of RsCM obviously inhibited the infection, pathogenicity, and reproduction of R. similis. However, the resistance of the overexpression transgenic tomato of RsCM to R. similis infection was significantly reduced, and the expression levels of two salicylic acid(SA) pathway genes(PR1 and PR5) in roots infected by the nematode were significantly down-regulated,which indicated that RsCM might be involved in the inhibition of SA pathway. The results of this study demonstrate that RsCM suppresses the host immune system and might be a new target for the control of R. similis, which also provides new data for the function and mechanism of CM genes of migratory parasitic plant nematodes.展开更多
Watermelon fruit undergoes distinct development stages with dramatic changes during fruit ripening.To date,the molecular mechanics of watermelon ripening remain unclear.Genetic and transcriptome evidences suggested th...Watermelon fruit undergoes distinct development stages with dramatic changes during fruit ripening.To date,the molecular mechanics of watermelon ripening remain unclear.Genetic and transcriptome evidences suggested that the ethylene response factor(ERF)gene ClERF069 may be an important candidate factor affecting watermelon fruit ripening.To dissect the roles of ClERF069 in fruit ripening,structure and phylogenetic analysis were performed using the amplified full-length sequence.Normal-ripening watermelon 97103,non-ripening watermelon PI296341-FR and the RIL population were used to analyze ClERF069 expression dynamics and the correlation with fruit ripening indexs.The results indicated that ClERF069 belongs to ERF family group VI and show high homology(83%identity)to melon ERF069-like protein.ClERF069 expression in watermelon flesh was negatively correlated with fruit lycopene content and sugar content during fruit ripening progress.Further transgenic evidences indicated that overexpression of 35S:ClERF069 in tomato noticeably delayed the ripening process up to 5.2 days.Lycopene,β-carotenoid accumulation patterns were altered and ethylene production patterns in transgenic fruits was significantly delayed during fruit ripening.Taken together,watermelon ethylene response factor ClERF069 was concluded to be a negative regulator of fruit ripening.展开更多
Citrus fruits are rich in carotenoids.In the carotenoid biosynthetic pathway,lycopene β-cyclase(LCYb,EC:1.14.-.-) is a key regulatory enzyme in the catalysis of lycopene to β-carotene,an important dietary precurs...Citrus fruits are rich in carotenoids.In the carotenoid biosynthetic pathway,lycopene β-cyclase(LCYb,EC:1.14.-.-) is a key regulatory enzyme in the catalysis of lycopene to β-carotene,an important dietary precursor of vitamin A for human nutrition.Two closely related lycopene β-cyclase cDNAs,designated CsLCYb1 and CsLCYb2,were isolated from the pulp of orange fruits(Citrus sinensis).The expression level of CsLCYb genes is lower in the flavedo and juice sacs of a lycopeneaccumulating genotype Cara Cara than that in common genotype Washington,and this might be correlated with lycopene accumulation in Cara Cara fruit.The CsLCYb1 efficiently converted lycopene into the bicyclic β-carotene in an Escherichia coli expression system,but the CsLCYb2 exhibited a lower enzyme activity and converted lycopene into the β-carotene and the monocyclic γ-carotene.In tomato transformation studies,expression of CsLCYb1 under the control of the cauliflower mosaic virus(CaMV) 35S constitutive promoter resulted in a virtually complete conversion of lycopene into β-carotene,and the ripe fruits displayed a bright orange colour.However,the CsLCYb2 transgenic tomato plants did not show an altered fruit colour during development and maturation.In fruits of the CsLCYb1 transgenic plants,most of the lycopene was converted into β-carotene with provitamin A levels reaching about 700 μg g-1DW.Unexpectedly,most transgenic tomatoes showed a reduction in total carotenoid accumulation,and this is consistent with the decrease in expression of endogenous carotenogenic genes in transgenic fruits.Collectively,these results suggested that the cloned CsLCYb1 and CsLCYb2 genes encoded two functional lycopene β-cyclases with different catalytic efficiency,and they may have potential for metabolite engineering toward altering pigmentation and enhancing nutritional value of food crops.展开更多
Fruit firmness is an important quality trait of apple fruit texture,and the pre-harvest ripening period is the key period for the formation of apple fruit texture.Expansin is a cell wall loosing protein family that ha...Fruit firmness is an important quality trait of apple fruit texture,and the pre-harvest ripening period is the key period for the formation of apple fruit texture.Expansin is a cell wall loosing protein family that has four subfamilies:α-expansin(EXPA),β-expansin(EXPB),expansin-like A(EXLA),and expansin-like B(EXLB).In this study,we investigated the key period of pre-harvest texture formation in‘Golden Delicious’apples based on fruit longitudinal diameter,transverse diameter,firmness,tissue structure,respiration intensity,ethylene release rate,and expansin activity.Within the 10 days before harvest,the fruit was found to reach maturity.Semi-quantitative RT-PCR revealed that most of the expansins were expressed at the ripening stage before harvest.The biological function of the EXLB subfamily gene,MdEXLB1,was further identified,and its subcellular localization on the cell wall was confirmed by transient transformation experiments.Compared with the wild type(WT),the transgenic tomato lines overexpressing MdEXLB1 had lower plant height,earlier fruiting period,fewer days for fruit ripening,higher fruit maturity,lower fruit firmness,higher fruit expansin activity,more discrete flesh cell structure,and accelerated fruit ripening process.Overall,this is the first study to propose that the apple EXLB subfamily gene,MdEXLB1,has biological functions and plays an important role in promoting fruit ripening and softening.展开更多
Antifreeze proteins(AFP) are produced by certain plants, animals, fungi and bacteria that enable them to survive upon extremely low temperature. Perennial rye grass, Lolium perenne, was reported to possess AFP which...Antifreeze proteins(AFP) are produced by certain plants, animals, fungi and bacteria that enable them to survive upon extremely low temperature. Perennial rye grass, Lolium perenne, was reported to possess AFP which protects them from cold environments. In the present investigation, we isolated AFP gene from L. perenne and expressed it in tomato plants to elucidate its role upon chilling stress. The T1 transgenic tomato lines were selected and subjected to molecular, biochemical and physiological analyses. Stable integration and transcription of Lp AFP in transgenic tomato plants was confirmed by Southern blot hybridization and RT-PCR, respectively. Physiological analyses under chilling conditions showed that the chilling stress induced physiological damage in wild type(WT) plants, while the transgenic plants remained healthy. Total sugar content increased gradually in both WT and transgenic plants throughout the chilling treatment. Interestingly, transgenic plants exhibited remarkable alterations in terms of relative water content(RWC) and electrolyte leakage index(ELI) than those of WT. RWC increased significantly by 3-fold and the electrolyte leakage was reduced by 2.6-fold in transgenic plants comparing with WT. Overall, this report proved that Lp AFP gene confers chilling tolerance in transgenic tomato plants and it could be a potential candidate to extrapolate the chilling tolerance on other chilling-sensitive food crops.展开更多
基金funded by the Guangdong Basic and Applied Basic Research Foundation,China(2021A1515011273)he National Natural Science Foundation of China(31071665)。
文摘In the process of infecting plants, plant parasitic nematodes release a series of proteins that play an essential role in the successful infection and pathogenesis of plant cells and tissues through stylets or body walls. In this study,based on transcriptome data, a chorismate mutase gene of Radopholus similis(RsCM) was identified and cloned,which is a single copy gene specifically expressed in the oesophageal gland and highly expressed in juveniles and females. Transient expression of RsCM in tobacco leaves showed that it was localised in the cytoplasm and nucleus of tobacco leaf cells, which inhibited the pattern-triggered immunity(PTI) induced by flg22, including callose deposition and defence gene expression, and cell death induced by immune elicitors BAX, but could not inhibit cell death induced by immune elicitors Gpa2/RBP-1. The RNA interference(RNAi) transgenic tomato of RsCM obviously inhibited the infection, pathogenicity, and reproduction of R. similis. However, the resistance of the overexpression transgenic tomato of RsCM to R. similis infection was significantly reduced, and the expression levels of two salicylic acid(SA) pathway genes(PR1 and PR5) in roots infected by the nematode were significantly down-regulated,which indicated that RsCM might be involved in the inhibition of SA pathway. The results of this study demonstrate that RsCM suppresses the host immune system and might be a new target for the control of R. similis, which also provides new data for the function and mechanism of CM genes of migratory parasitic plant nematodes.
基金This work was financially supported by the National Key R&D Program of China(Grant No.2018YFD0100703)the Beijing Municipal Science and Technology Project(Grant No.D171100007617001)+4 种基金the Beijing Academy of Agricultural and Forestry Sciences(Grant Nos.QNJJ201733,KJCX20200202)the Ministry of Agriculture and Rural Affairs of China(Grant No.CARS-25)the Beijing Scholar Program(Grant No.BSP026)Beijing Innovation Consortium of Agriculture Research System(Grant No.BAIC10-2020)the Bagui Scholar Program(Grant No.2016A11).
文摘Watermelon fruit undergoes distinct development stages with dramatic changes during fruit ripening.To date,the molecular mechanics of watermelon ripening remain unclear.Genetic and transcriptome evidences suggested that the ethylene response factor(ERF)gene ClERF069 may be an important candidate factor affecting watermelon fruit ripening.To dissect the roles of ClERF069 in fruit ripening,structure and phylogenetic analysis were performed using the amplified full-length sequence.Normal-ripening watermelon 97103,non-ripening watermelon PI296341-FR and the RIL population were used to analyze ClERF069 expression dynamics and the correlation with fruit ripening indexs.The results indicated that ClERF069 belongs to ERF family group VI and show high homology(83%identity)to melon ERF069-like protein.ClERF069 expression in watermelon flesh was negatively correlated with fruit lycopene content and sugar content during fruit ripening progress.Further transgenic evidences indicated that overexpression of 35S:ClERF069 in tomato noticeably delayed the ripening process up to 5.2 days.Lycopene,β-carotenoid accumulation patterns were altered and ethylene production patterns in transgenic fruits was significantly delayed during fruit ripening.Taken together,watermelon ethylene response factor ClERF069 was concluded to be a negative regulator of fruit ripening.
基金supported by the National Basic Research Program of China (973 Program, 2011CB100600)the National Natural Science Foundation of China (30771482, 30921002)
文摘Citrus fruits are rich in carotenoids.In the carotenoid biosynthetic pathway,lycopene β-cyclase(LCYb,EC:1.14.-.-) is a key regulatory enzyme in the catalysis of lycopene to β-carotene,an important dietary precursor of vitamin A for human nutrition.Two closely related lycopene β-cyclase cDNAs,designated CsLCYb1 and CsLCYb2,were isolated from the pulp of orange fruits(Citrus sinensis).The expression level of CsLCYb genes is lower in the flavedo and juice sacs of a lycopeneaccumulating genotype Cara Cara than that in common genotype Washington,and this might be correlated with lycopene accumulation in Cara Cara fruit.The CsLCYb1 efficiently converted lycopene into the bicyclic β-carotene in an Escherichia coli expression system,but the CsLCYb2 exhibited a lower enzyme activity and converted lycopene into the β-carotene and the monocyclic γ-carotene.In tomato transformation studies,expression of CsLCYb1 under the control of the cauliflower mosaic virus(CaMV) 35S constitutive promoter resulted in a virtually complete conversion of lycopene into β-carotene,and the ripe fruits displayed a bright orange colour.However,the CsLCYb2 transgenic tomato plants did not show an altered fruit colour during development and maturation.In fruits of the CsLCYb1 transgenic plants,most of the lycopene was converted into β-carotene with provitamin A levels reaching about 700 μg g-1DW.Unexpectedly,most transgenic tomatoes showed a reduction in total carotenoid accumulation,and this is consistent with the decrease in expression of endogenous carotenogenic genes in transgenic fruits.Collectively,these results suggested that the cloned CsLCYb1 and CsLCYb2 genes encoded two functional lycopene β-cyclases with different catalytic efficiency,and they may have potential for metabolite engineering toward altering pigmentation and enhancing nutritional value of food crops.
基金the National Key R&D Program of China(2016YFD0201100)the earmarked fund for China Agriculture Research System(CARS-27)+1 种基金the National Natural Science Foundation of China(31672116)the Natural Science Foundation of Hebei Province,China(C2021204134).
文摘Fruit firmness is an important quality trait of apple fruit texture,and the pre-harvest ripening period is the key period for the formation of apple fruit texture.Expansin is a cell wall loosing protein family that has four subfamilies:α-expansin(EXPA),β-expansin(EXPB),expansin-like A(EXLA),and expansin-like B(EXLB).In this study,we investigated the key period of pre-harvest texture formation in‘Golden Delicious’apples based on fruit longitudinal diameter,transverse diameter,firmness,tissue structure,respiration intensity,ethylene release rate,and expansin activity.Within the 10 days before harvest,the fruit was found to reach maturity.Semi-quantitative RT-PCR revealed that most of the expansins were expressed at the ripening stage before harvest.The biological function of the EXLB subfamily gene,MdEXLB1,was further identified,and its subcellular localization on the cell wall was confirmed by transient transformation experiments.Compared with the wild type(WT),the transgenic tomato lines overexpressing MdEXLB1 had lower plant height,earlier fruiting period,fewer days for fruit ripening,higher fruit maturity,lower fruit firmness,higher fruit expansin activity,more discrete flesh cell structure,and accelerated fruit ripening process.Overall,this is the first study to propose that the apple EXLB subfamily gene,MdEXLB1,has biological functions and plays an important role in promoting fruit ripening and softening.
基金supported by the Senior Research Fellowship from the Council of Scientific and Industrial Research-Human Resource Development Group (CSIRHRDG), New Delhi, India (09/472(0164)/2012-EMR-I)the funds from the University Grants Commission-Special Assistance Programme (UGC-SAP)the Department of Science and Technology-Fund for Improvement of S&T Infrastructure (DST-FIST), Bharathiar University, Tamil Nadu, India
文摘Antifreeze proteins(AFP) are produced by certain plants, animals, fungi and bacteria that enable them to survive upon extremely low temperature. Perennial rye grass, Lolium perenne, was reported to possess AFP which protects them from cold environments. In the present investigation, we isolated AFP gene from L. perenne and expressed it in tomato plants to elucidate its role upon chilling stress. The T1 transgenic tomato lines were selected and subjected to molecular, biochemical and physiological analyses. Stable integration and transcription of Lp AFP in transgenic tomato plants was confirmed by Southern blot hybridization and RT-PCR, respectively. Physiological analyses under chilling conditions showed that the chilling stress induced physiological damage in wild type(WT) plants, while the transgenic plants remained healthy. Total sugar content increased gradually in both WT and transgenic plants throughout the chilling treatment. Interestingly, transgenic plants exhibited remarkable alterations in terms of relative water content(RWC) and electrolyte leakage index(ELI) than those of WT. RWC increased significantly by 3-fold and the electrolyte leakage was reduced by 2.6-fold in transgenic plants comparing with WT. Overall, this report proved that Lp AFP gene confers chilling tolerance in transgenic tomato plants and it could be a potential candidate to extrapolate the chilling tolerance on other chilling-sensitive food crops.