Agrobacterium tumefaciens-mediated DNA transformation method was applied to transformNodulisporium sylviforme fusant HDF-68,a taxol-producing fungus.We constructed a binary vectorpBI121-43 carrying a hygromycin-resist...Agrobacterium tumefaciens-mediated DNA transformation method was applied to transformNodulisporium sylviforme fusant HDF-68,a taxol-producing fungus.We constructed a binary vectorpBI121-43 carrying a hygromycin-resistant gene cassette between the right and left borders of T-DNA.Optimal co-cultivation of N.sylviforme with A.turnefaciens containing pBI121-43 led to 110~130 hy-gromycin-resistant transformants per million conidia.Putative transformants were found to be mitoticallystable.The molecular analysis of transformants demonstrated the random integration of single copy of theT-DNA into the host genome.This transformation system serves as a basic tool for insertional mutagenesisin N.sylviforme fusant HDF-68,and the development of such system lays a solid foundation for con-structing high-yied gene engineering strain and clarifying taxol biosynthesis pathway in this fungus.展开更多
bZIP transcription factor family is one of the largest groups of the plant transcription factor families and plays an important role in plant growth and adaption to the abiotic stresses. In this study, two AtbZIP1 mut...bZIP transcription factor family is one of the largest groups of the plant transcription factor families and plays an important role in plant growth and adaption to the abiotic stresses. In this study, two AtbZIP1 mutant Arabidopsis (bzipl) were used with T-DNA inserted into two different sites, designated as SALK-556773 and SALK-660942, in order to identify different effects on AtbZIP1 gene expression by different T-DNA insertion sites. PCR and RT-PCR results revealed that T-DNA insertion in CDS region could effectively inhibit AtbZIP1 gene expression, while T-DNA insertion in 3'-UTR couldn't. The phenotype analysis further confirmed the differences and showed that T-DNA insertion in CDS region decreased plants' drought resistance, while in 3'-UTR couldn't. The phenotype assays also suggested that AtbZIP1 held pivotal roles in plant response to drought stress.展开更多
AtERF4 (ethylene response factor) is a negative regulator in jasmonic acid mediated signal transduction pathway and ethylene mediated signal transduction pathway of Arabidopsis. It could respond to abscisic acid (...AtERF4 (ethylene response factor) is a negative regulator in jasmonic acid mediated signal transduction pathway and ethylene mediated signal transduction pathway of Arabidopsis. It could respond to abscisic acid (ABA) and ethylene stimulus ATSYR1 gene encodes a syntaxin localizing at the plasma membrane in Arabidopsis, which can be induced by abiotic stress. To identify mutation lines for gene functional analysis, real-time PCR was employed to detect the expression level of AtERF4 and ATSYR1 in homozygous T-DNA insertion mutant line, respectively. Real-time PCR is a powerful tool which can be used to detect steady-state mRNA levels specifically, sensitively and reproducibly. Comparing to other forms of quantitative RT-PCR, the amount of amplified products can be detected by real-time PCR instantly and thus is a preferable alternative. In this study, RNA with T-DNA inserting into exon could be detected in AtERF4 knock-out mutation line. The results indicated that AtERF4 had been trucked in transcription level. On the other hand, T-DNA inserting into the promoter of gene ATSYR1 had no effect on reducing the expression level ofATSYR1 gene. Further molecular and phenotype studies now are ongoing to clarify the potential consequences of AtERF4 and ATSYR1 deficiency in Arabidopsis展开更多
[Objective] The aim of this study is to understand the genetic characteristics of a grain shape mutant and its possible role in genetic improvement of grain yield in rice. [Method] On the basis of the collection of T-...[Objective] The aim of this study is to understand the genetic characteristics of a grain shape mutant and its possible role in genetic improvement of grain yield in rice. [Method] On the basis of the collection of T-DNA tag lines, the progeny of homozygous plants carrying T-DNA insertion were screened for mutants with mutated phenotypes. The genetic analysis of the mutant and test for the linkage between the mutated phenotype and the T-DNA insertion were carried out to determine its genetic characteristics. [Result] In the present study, a grain shape mutant induced by T-DNA insertion in rice was identified, which showed small grain. Genetic analysis of the mutant showed that the two types of phenotype, normal and small grain in the segregating populations derived from the T-DNA heterozygotes, fit the ratio of 3∶1. Test for Basta resistance showed that all the mutants were resistant while the normal plants segregated for resistant and susceptible by the ratio of 2∶1. The results indicated that the mutant phenotype cosegregated with Bar gene. The small grain mutant caused by T-DNA insertion was confirmed by PCR amplification aiming at T-DNA. [Conclusion] The grain shape mutant is useful for isolation of the tagged gene and genetic improvement in rice.展开更多
基金the National Natural Science Foundation of China(No.30570025)the Education Department of Heilongjiang Province(No.10551238)
文摘Agrobacterium tumefaciens-mediated DNA transformation method was applied to transformNodulisporium sylviforme fusant HDF-68,a taxol-producing fungus.We constructed a binary vectorpBI121-43 carrying a hygromycin-resistant gene cassette between the right and left borders of T-DNA.Optimal co-cultivation of N.sylviforme with A.turnefaciens containing pBI121-43 led to 110~130 hy-gromycin-resistant transformants per million conidia.Putative transformants were found to be mitoticallystable.The molecular analysis of transformants demonstrated the random integration of single copy of theT-DNA into the host genome.This transformation system serves as a basic tool for insertional mutagenesisin N.sylviforme fusant HDF-68,and the development of such system lays a solid foundation for con-structing high-yied gene engineering strain and clarifying taxol biosynthesis pathway in this fungus.
基金Supported by National Natural Science Foundation of China (30570990)National Major Project for Cultivation of Transgenic Crops (20082x08004)+1 种基金Key Research Plan of Heilongjiang Province (GA06B103)Innovation Research Group of NEAU (CXT004)
文摘bZIP transcription factor family is one of the largest groups of the plant transcription factor families and plays an important role in plant growth and adaption to the abiotic stresses. In this study, two AtbZIP1 mutant Arabidopsis (bzipl) were used with T-DNA inserted into two different sites, designated as SALK-556773 and SALK-660942, in order to identify different effects on AtbZIP1 gene expression by different T-DNA insertion sites. PCR and RT-PCR results revealed that T-DNA insertion in CDS region could effectively inhibit AtbZIP1 gene expression, while T-DNA insertion in 3'-UTR couldn't. The phenotype analysis further confirmed the differences and showed that T-DNA insertion in CDS region decreased plants' drought resistance, while in 3'-UTR couldn't. The phenotype assays also suggested that AtbZIP1 held pivotal roles in plant response to drought stress.
基金Supported by National High Technology Program (2008ZX08004-002, 2009ZX08009-032B)Key Research Plan of Heilongjiang Province (GA06B103)Education Department Plan of Heilongjiang Province(11521021, 1152024)
文摘AtERF4 (ethylene response factor) is a negative regulator in jasmonic acid mediated signal transduction pathway and ethylene mediated signal transduction pathway of Arabidopsis. It could respond to abscisic acid (ABA) and ethylene stimulus ATSYR1 gene encodes a syntaxin localizing at the plasma membrane in Arabidopsis, which can be induced by abiotic stress. To identify mutation lines for gene functional analysis, real-time PCR was employed to detect the expression level of AtERF4 and ATSYR1 in homozygous T-DNA insertion mutant line, respectively. Real-time PCR is a powerful tool which can be used to detect steady-state mRNA levels specifically, sensitively and reproducibly. Comparing to other forms of quantitative RT-PCR, the amount of amplified products can be detected by real-time PCR instantly and thus is a preferable alternative. In this study, RNA with T-DNA inserting into exon could be detected in AtERF4 knock-out mutation line. The results indicated that AtERF4 had been trucked in transcription level. On the other hand, T-DNA inserting into the promoter of gene ATSYR1 had no effect on reducing the expression level ofATSYR1 gene. Further molecular and phenotype studies now are ongoing to clarify the potential consequences of AtERF4 and ATSYR1 deficiency in Arabidopsis
文摘[Objective] The aim of this study is to understand the genetic characteristics of a grain shape mutant and its possible role in genetic improvement of grain yield in rice. [Method] On the basis of the collection of T-DNA tag lines, the progeny of homozygous plants carrying T-DNA insertion were screened for mutants with mutated phenotypes. The genetic analysis of the mutant and test for the linkage between the mutated phenotype and the T-DNA insertion were carried out to determine its genetic characteristics. [Result] In the present study, a grain shape mutant induced by T-DNA insertion in rice was identified, which showed small grain. Genetic analysis of the mutant showed that the two types of phenotype, normal and small grain in the segregating populations derived from the T-DNA heterozygotes, fit the ratio of 3∶1. Test for Basta resistance showed that all the mutants were resistant while the normal plants segregated for resistant and susceptible by the ratio of 2∶1. The results indicated that the mutant phenotype cosegregated with Bar gene. The small grain mutant caused by T-DNA insertion was confirmed by PCR amplification aiming at T-DNA. [Conclusion] The grain shape mutant is useful for isolation of the tagged gene and genetic improvement in rice.