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The 11 gene products of the Agrobacterium tumefaciens virB operon, together with the VirD4 protein, are proposed to form a membrane complex which mediates the transfer of T-DNA to plant cells. This study examined one putative component of that complex, VirB4. A deletion of the virB4 gene on the Ti plasmid pTiA6NC was constructed by replacing the virB4 gene with the kanamycin resistance-conferring nptII gene. The virB4 gene was found to be necessary for virulence on plants and for the transfer of IncQ plasmids to recipient cells of A. tumefaciens. Genetic complementation of the deletion strain by the virB4 gene under control of the virB promoter confirmed that the deletion was nonpolar on downstream virB genes. Genetic complementation was also achieved with the virB4 gene placed under control of the lac promoter, even though synthesis of the VirB4 protein from this promoter is far below wild-type levels. Having shown a role for the VirB4 protein in DNA transfer, lysine-439, found within the conserved mononucleotide binding domain of VirB4, was changed to a glutamic acid, methionine, or arginine by oligonucleotide-directed mutagenesis. virB4 genes bearing these mutations were unable to complement the virB4 deletion for either virulence or for IncQ transfer, showing that an intact mononucleotide binding site is necessary for the function of VirB4 in DNA transfer. The necessity of the VirB4 protein with an intact mononucleotide binding site for extracellular complementation of virE2 mutants was also shown. In merodiploid studies, lysine-439 mutations present in trans decreased IncQ plasmid transfer frequencies, suggesting that VirB4 functions within a complex to facilitate DNA transfer.  相似文献   

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The 11 gene products of the Agrobacterium tumefaciens virB operon, together with the VirD4 protein, are proposed to form a membrane complex which mediates the transfer of T-DNA to plant cells. This study examined one putative component of that complex, VirB4. A deletion of the virB4 gene on the Ti plasmid pTiA6NC was constructed by replacing the virB4 gene with the kanamycin resistance-conferring nptII gene. The virB4 gene was found to be necessary for virulence on plants and for the transfer of IncQ plasmids to recipient cells of A. tumefaciens. Genetic complementation of the deletion strain by the virB4 gene under control of the virB promoter confirmed that the deletion was nonpolar on downstream virB genes. Genetic complementation was also achieved with the virB4 gene placed under control of the lac promoter, even though synthesis of the VirB4 protein from this promoter is far below wild-type levels. Having shown a role for the VirB4 protein in DNA transfer, lysine-439, found within the conserved mononucleotide binding domain of VirB4, was changed to a glutamic acid, methionine, or arginine by oligonucleotide-directed mutagenesis. virB4 genes bearing these mutations were unable to complement the virB4 deletion for either virulence or for IncQ transfer, showing that an intact mononucleotide binding site is necessary for the function of VirB4 in DNA transfer. The necessity of the VirB4 protein with an intact mononucleotide binding site for extracellular complementation of virE2 mutants was also shown. In merodiploid studies, lysine-439 mutations present in trans decreased IncQ plasmid transfer frequencies, suggesting that VirB4 functions within a complex to facilitate DNA transfer.  相似文献   

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The virB gene products of the Agrobacterium tumefaciens tumor-inducing (Ti) plasmid have been proposed to mediate T-DNA transport through the bacterial cell wall into plant cells. Previous genetic analysis of the approximately 9.5-kilobase-pair virB operon has been limited to transposon insertion mutagenesis. Due to the polarity of the transposon insertions, only the last gene in the operon, virB11, is known to provide an essential virulence function. We have now begun to assess the contribution of the other virB genes to virulence. First, several previously isolated Tn3-HoHo1 insertions in the 3' end of the virB operon were precisely mapped by nucleotide sequence analysis. Protein extracts from A. tumefaciens strains harboring these insertions on the Ti plasmid were subjected to immunostaining analysis with VirB4-, VirB10-, and VirB11-specific antisera to determine the effect of the insertion on virB gene expression. In this manner, avirulent mutants containing polar insertions in the virB9 and virB10 genes were identified. To carry out a complementation analysis with these virB mutants, expression vectors were constructed that allow cloned genes to be expressed from the virB promoter in A. tumefaciens. These plasmids were used to express combinations of the virB9, virB10, and virB11 genes in trans in the virB insertion mutants, thereby creating strains lacking only one of these three virB gene products. Virulence assays on Kalanchoe daigremontiana demonstrated that in addition to virB11, the virB9 and virB10 genes are required for tumorigenicity.  相似文献   

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The Agrobacterium tumefaciens virB gene products are proposed to assemble into a transport system capable of exporting complexes of DNA and protein across the bacterial envelope en route to plant cells. Nonpolar null mutations were constructed in each of the 11 virB genes of the A. tumefaciens pTiA6NC plasmid. In tumorigenicity assays, delta virB1 mutants exhibited severely attenuated virulence and delta virB2 through delta virB11 mutants exhibited avirulence. NdeI restriction sites introduced at the predicted translational start sites of the virB genes were used to subclone each of the virB genes downstream of the lacZ or virB promoter on broad-host-range plasmids. virB gene expression plasmids were used to define promoter and general sequence requirements for genetic complementation of the deletion mutations. Whereas virB1 and virB2 complemented delta virB1 and delta virB2, respectively, only when expressed in trans from the virB promoter, virB3 through virB11 complemented the corresponding deletion mutations when expressed in trans from either the lacZ or virB promoter. Several virB genes required additional upstream or downstream sequences for complementation: (i) virB2 complemented the delta virB2 mutation only when the complementing plasmid coexpressed virB1 and virB2, (ii) virB6 and virB9 complemented the delta virB6 and delta virB9 mutations only when the complementing plasmids carried at most 55 and 230 bp of sequences residing 5' of these genes, respectively, and (iii) virB7 and virB8 complemented the delta virB7 and delta virB8 mutations only when the complementing plasmid coexpressed virB7 and virB8. These studies established that virB1 is an accessory virulence determinant and virB2 through virB11 are absolutely essential for the A. tumefaciens infection process.  相似文献   

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An open reading frame upstream from nifHDK operon of Klebsiella pneumoniae had been described. The orientation of this open reading frame is opposite to that of nifHDK and sequence homology was found between the open reading frame promoter and the promoter of nifHDK operon. A recombinant plasmid carrying the promoter region of the open reading frame fused to the beta-galactosidase gene was constructed. Strains of E.coli were transformed with the plasmid containing this open reading frame promoter-lacZ fusion or co-transformed with it and a plasmid carrying the nifA gene. An appreciable activity of beta-galactosidase was found in strains which received both plasmids, indicating that the promoter of the open reading frame can be activated by the product of nifA gene. Thus, the open reading frame found between nifHDK operon and nifJ behaves just like other nif genes of K.pneumoniae in requiring the product of nifA as the positive effector for expression.  相似文献   

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The 9.5kb virB operon is the largest of the six major operons in the Ti plasmid vir region. This operon contains eleven genes, the largest of which is virB4. This gene encodes an 84kDa protein whose function has not been identified. Its roles in conferring virulence on Agrobacterium tumefaciens and in the T-DNA transfer process were determined by generating non-polar mutants by using the Tn5pvirB transposon in which the virB promoter is transcribed downstream of its position of insertion. Several independent mutants were isolated and each insertion site in virB4 was confirmed by nucleotide sequence analysis. These mutants were tested for T-DNA transfer ability by agroinfection and for tumorigenicity by inoculation in Brassica and Datura. All mutants were agroinfection- and tumorigenicity-negative. These data strongly suggest that virB4 is essential for both the interkingdom transfer of the T-DNA and virulence. Furthermore, by using anti-VirB4 serum, the protein product of virB4 was localized to the inner-membrane fraction of A. tumefaciens. Purified VirB4 protein hydrolyses ATP and this activity was quenched by the anti-VirB4 serum. The energy generated by VirB4 ATPase therefore may be used to transfer T-DNA or to assemble the T-DNA transfer apparatus on the bacterial membrane. Protein sequence analyses revealed striking similarities between VirB4 protein and the proteins required for conjugative transfer, which include TraC, TrwK, and TrbE of plasmids F, R388, and RP4, repectively. These findings suggest that VirB proteins play a direct role in the assembly of a conjugative transfer apparatus required for the transfer of the T-DNA from A. tumefaciens to plant cells.  相似文献   

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The nucleotide sequence of the relaxase operon and the leader operon which are part of the Tra1 region of the promiscuous plasmid RP4 was determined. These two polycistronic operons are transcribed divergently from an intergenic region of about 360 bp containing the transfer origin and six close-packed genes. A seventh gene completely overlaps another one in a different reading frame. Conjugative DNA transfer proceeds unidirectionally from oriT with the leader operon heading the DNA to be transferred. The traI gene of the relaxase operon includes within its 3' terminal region a promoter controlling the 7.2-kb polycistronic primase operon. Comparative sequence analysis of the closely related IncP plasmid R751 revealed a similarity of 74% at the nucleotide sequence level, indicating that RP4 and R751 have evolved from a common ancestor. The gene organization of relaxase- and leader operons is conserved among the two IncP plasmids. The transfer origins and the genes traJ and traK exhibit greater sequence divergence than the other genes of the corresponding operons. This is conceivable, because traJ and traK are specificity determinants, the products of which can only recognize homologous oriT sequences. Surprisingly, the organization of the IncP relaxase operons resembles that of the virD operon of Agrobacterium tumefaciens plasmid pTiA6 that mediates DNA transfer to plant cells by a process analogous to bacterial conjugation. Furthermore, the IncP TraG proteins and the product of the virD4 gene share extended amino acid sequence similarity, suggesting a functional relationship.  相似文献   

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[目的]细菌基因组大片段尤其是基因簇的克隆与操作,是细菌基因功能分析的一个难点.基因组测序工作的不断完成和序列信息的大量积累,为细菌基因组:DNA的操作提供了方便.本文报道了利用细菌的全基因组信息和质粒拯救法的原理建立的一种克隆细菌基因组大片段的方法.[方法]首先,根据基因组序列信息,在待克隆片段的一侧扩增一段DNA,并将其克隆到自杀载体上构建打靶质粒,然后,将打靶质粒整合到细菌的基因组中构建重组菌,提取重组菌的基因组DNA,酶切,自连,转化,将自杀质粒与待克隆的目的片段一起拯救出来.最后,根据需要将拯救的DNA片段亚克隆到新的载体中.[结果]我们利用该方法克隆了布鲁氏菌中长度为11kb的virB操纵子,并构建了互补质粒.将该质粒导入到virB的突变株中后使virB操纵子的转录活性得到了恢复,表明该策略切实可行.[结论]这种重组克隆策略给我们提供了一种新的对细菌基因组大片段进行操作的方法.  相似文献   

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Abstract The virB operon of the Agrobacterium tumefaciens Ti plasmid encodes 11 proteins. Specific antisera to VirB2, VirB3 and VirB9 were used to locate these virulence proteins in the A. tumefaciens cell. Immunoblot analysis located VirB2 protein to the inner and outer membranes; VirB3 and VirB9 were likewise associated with both membranes, but mainly in the outer membrane. VirB2 is processed from a 12.3-kDa protein into a 7.2-kDa polypeptide. Such sized protein results from cleavage at residue Ala47, upstream of which two additional alanine residues Ala45-Ala46 are contained and bearing resemblance to a signal peptide peptidase-I cleavage sequence. VirB2 and VirB3 sequences are strikingly similar to the pilin biosynthetic proteins TraA and TraL encoded by the tra operon of F and R1-19 plasmids. Since traA encodes a propilin that is cleaved into a 7.2-kDa conjugative pilin product and since this cleavage site is present in both TraA and VirB2, we propose that virB2 encodes a pilin-like protein which together with VirB3 and VirB9 as well as other VirB proteins may be used for interkingdom T-DNA transfer between bacteria and plants.  相似文献   

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