Transposon mutagenesis and complementation of the fructokinase gene in Rhizobium leguminosarum biovar trifolii

Transposon Tn5 was used to generate a fructokinase mutation in Rhizobium leguminosarum biovar trifolii BAL. The section of the genome containing Tn5 was cloned into the EcoRI site of the vector pHC79 and isolated by direct selection on medium containing kanamycin and tetracycline. Total EcoRI digestion was used to obtain a single fragment containing Tn5 and flanking DNA sequences. The flanking DNA was used as a probe to isolate an intact fructokinase gene from a pLAFR1 cosmid clone bank of the parental strain. A cosmid showing homology to the probe was tri-parentally conjugated into the fructokinase-negative strain, complementing the mutation. The complemented mutant exhibited the wild-type phenotype, with an increase in fructokinase production presumably due to multiple copies of the gene.     

Isolation and characterization of Rhizobium (IC3342) genes that determine leaf curl induction in pigeon pea.

Nodulation by the Rhizobium strain IC3342 causes a leaf curl syndrome in certain tropical legumes such as pigeon pea (Cajanus cajan) (N.M. Upadhyaya, J.V.D.K. Kumar Rao, D.S. Letham, and P.J. Dart, Physiological and Molecular Plant Pathology 39:357-373, 1991). Transposon (Tn5) mutagenesis of this leaf curl-inducing (Curl+) Rhizobium strain yielded two Curl- Fix- and three Curl- Fix+ mutants. Plasmid visualization and subsequent Southern blot hybridization analyses with Tn5, nif and nod gene probes showed that the Tn5 element had inserted into the symbiotic (Sym) plasmid in three of the mutants. Restriction endonuclease analyses indicated that none of the Tn5 insertions were closely linked. Tn5-containing EcoRI fragments were cloned from each mutant and used as probes to isolate the corresponding wild-type DNA fragments from a cosmid (pLAFR3) genomic library. Fix+ and/or Curl+ phenotypes were restored in each mutant by the introduction of cosmids containing the corresponding wild-type DNA. A closely related but Curl- Rhizobium strain ANU240 was shown, by Southern hybridization, to contain conserved DNA sequences of all but one of the identified genetic regions of the Curl+ Rhizobium strain IC3342. Cosmids containing the genetic region unique to the strain IC3342, designated lcr1, conferred a Curl+ phenotype on the strain ANU240. DNA sequence analysis of the cloned lcr1 region revealed five open reading frames (ORFs). The ORF2 showed homology with the Escherichia coli regulatory gene ompR, and ORF4 showed homology with E. coli and Rhizobium meliloti regulatory genes fnr and fixK, respectively.     

Identification and cloning of genes involved in phaseolotoxin production by Pseudomonas syringae pv. "phaseolicola"

Genes involved in the production of phaseolotoxin by Pseudomonas syringae pv. "phaseolicola" NPS3121 were identified by Tn5 mutagenesis and cosmid cloning. A total of 5,180 kanamycin-resistant colonies were screened for the loss of phaseolotoxin production by a microbiological assay. Six independent, prototrophic, Tox- mutants were isolated that had Tn5 insertions in five different EcoRI fragments. All six mutants had Tn5 inserted in the same KpnI fragment, which had a length of ca. 28 kilobases including Tn5. The mutants produced residual toxin in vitro. An EcoRI fragment containing Tn5 and flanking sequences from mutant NPS4336 was cloned and used to probe a wild-type genomic library by colony hybridization. Seven recombinant plasmids showing homology to this probe were identified. Each Tox- mutant was restored in OCTase-specific toxin production by two or more of the recombinant plasmids. The data suggest that at least some of the genes involved in phaseolotoxin production were clustered in a large KpnI fragment. No homology was detected between the Tn5 target fragment cloned from mutant NPS4336 and the total genomic DNA from closely or distantly related bacteria that do not produce phaseolotoxin.     

Cloning the Arabidopsis GA1 Locus by Genomic Subtraction

Arabidopsis thaliana ga1 mutants are gibberellin-responsive dwarfs. We used the genomic subtraction technique to clone DNA sequences that are present in wild-type Arabidopsis (ecotype Landsberg erecta, Ler) but are missing in a presumptive ga1 deletion mutant, ga1-3. The cloned sequences correspond to a 5.0-kb deletion in the ga1-3 genome. Three lines of evidence indicated that the 5.0-kb deletion in the ga1-3 mutant is located at the GA1 locus. First, restriction fragment length polymorphism mapping showed that DNA sequences within the 5.0-kb deletion map to the GA1 locus. Second, cosmid clones that contain wild-type DNA inserts spanning the deletion in ga1-3 complemented the dwarf phenotype when integrated into the ga1-3 genome by Agrobacterium tumefaciens-mediated transformation. Third, we identified molecular lesions in four additional ga1 alleles within the 5.0-kb region deleted in mutant ga1-3. One of these lesions is a large insertion or inversion located within the most distal intron encoded by the GA1 locus. The three other lesions are all single base changes located within the two most distal exons. RNA gel blot analysis indicated that the GA1 locus encodes a 2.8-kb mRNA. We calculated a recombination rate of 10-5 cM per nucleotide for the GA1 region of the Arabidopsis genome.     

A new approach for molecular cloning in cyanobacteria: cloning of an Anacystis nidulans met gene using a Tn901-induced mutant

A new strategy for molecular cloning in the cyanobacterium Anacystis nidulans R-2 is described. This strategy involved the use of a transposon and was developed for the cloning of a gene encoding methionine biosynthesis. A met::Tn901 mutant was isolated. Chromosomal DNA fragments were cloned in the Escherichia coli plasmid vector pACYC184. A recombinant plasmid carrying the inactivated met::Tn901 gene was selected after transformation to E. coli. The cloned met::Tn901 DNA fragment was used as a probe to select the corresponding A. nidulans R-2 wild-type met gene from a gene library prepared in E. coli, using the newly constructed shuttle cosmid vector pPUC29. When transformed into A. nidulans Met- mutants, this cloned gene allowed the mutants to grow prototrophically.     

Gene cluster of Pseudomonas syringae pv. "phaseolicola" controls pathogenicity of bean plants and hypersensitivity of nonhost plants

Loss of the ability of Pseudomonas syringae pv. "phaseolicola" NPS3121 to elicit a hypersensitive response on tobacco and other nonhost plants was associated with loss of pathogenicity on the susceptible host bean. Eight independent, prototrophic transposon Tn5 insertion mutants which had lost the ability to elicit a hypersensitive response on tobacco plants were identified. Six of these mutants no longer produced disease lesions on primary leaves of the susceptible bean cultivar Red Kidney and failed to elicit a hypersensitive response on the resistant bean cultivar Red Mexican and on the nonhost plants tomato, cowpea, and soybean. The two remaining mutants had reduced pathogenicity on Red Kidney bean and elicited variable hypersensitive responses on the other plants tested. Southern blot analysis indicated that each mutant carried a single independent Tn5 insertion in one of three EcoRI fragments of about 17, 7, and 5 kilobases. Marker exchange mutagenesis further supported the conclusion that the pleiotropic mutant phenotype was not associated with multiple Tn5 insertions. A genomic library of the wild-type strain was constructed in the cosmid vector pLAFR3. A recombinant plasmid, designated pPL6, that carried P. syringae pv. "phaseolicola" genomic sequences was identified by colony hybridization. This plasmid restored the wild-type phenotype to all but one mutant, suggesting that genes affected by the insertions were clustered. Structural analysis of pPL6 and the wild-type genome indicated that the 17- and 5-kilobase EcoRI fragments were contiguous in the strain NPS3121 genome.     

At least two separate gene clusters are involved in albicidin production by Xanthomonas albilineans.

Transposon mutagenesis was used to obtain mutations affecting production of the toxin albicidin in Xanthomonas albilineans, which causes leaf scald disease of sugarcane and is also pathogenic to corn. Transposon Tn5-gusA inserted randomly into genomic DNA of X. albilineans Xa23R1 at a frequency of 10(-4) to 10(-5) per recipient after conjugal transfer from Escherichia coli. Fifty prototrophic mutants defective in albicidin production were isolated from 7,100 Tn5-gusA insertional derivatives tested for toxin production by an antibiosis bioassay. EcoRI fragments containing Tn5 flanking sequences from two mutants (AM15 and AM40) were cloned and used to probe a wild-type Xa23R1 DNA library by colony hybridization. Nine cosmids showed homology to the AM15 probe, and six showed homology to the AM40 probe. Four cosmid clones hybridized to both probes. Forty-five of the 50 defective mutants were restored to albicidin production with two overlapping cosmid clones. Restriction mapping showed that these mutants span a genomic region of about 48 kb. At least one other gene cluster is also involved in albicidin production in Xa23R1. DNA fragments from the 48-kb cluster proved to be very specific to X. albilineans. Some mutants affected in albicidin production retain their ability to colonize sugarcane cultivated in vitro.     

Cloning of the Alcaligenes eutrophus alcohol dehydrogenase gene

Mutants of Alcaligenes eutrophus which are altered with respect to the utilization of 2,3-butanediol and acetoin were isolated after transposon mutagenesis. The suicide vehicle pSUP5011 was used to introduce the drug resistance transposable element Tn5 into A. eutrophus. Kanamycin-resistant transconjugants of the 2,3-butanediol-utilizing parent strains CF10141 and AS141 were screened for mutants impaired in the utilization of 2,3-butanediol or acetoin. Eleven mutants were negative for 2,3-butanediol but positive for acetoin; they were unable to synthesize active fermentative alcohol dehydrogenase protein (class 1). Forty mutants were negative for 2,3-butanediol and for acetoin (class 2). Tn5-mob was also introduced into a Smr derivative of the 2,3-butanediol-nonutilizing parent strain H16. Of about 35,000 transconjugants, 2 were able to grow on 2,3-butanediol. Both mutants synthesized the fermentative alcohol dehydrogenase constitutively (class 3). The Tn5-labeled EcoRI fragments of genomic DNA of four class 1 and two class 3 mutants were cloned from a cosmid library. They were biotinylated and used as probes for the detection of the corresponding wild-type fragments in a lambda L47 and a cosmid gene bank. The gene which encodes the fermentative alcohol dehydrogenase in A. eutrophus was cloned and localized to a 2.5-kilobase (kb) SalI fragment which is located within a 11.5-kb EcoRI-fragment. The gene was heterologously expressed in A. eutrophus JMP222 and in Pseudomonas oxalaticus. The insertion of Tn5-mob in class 3 mutants mapped near the structural gene for alcohol dehydrogenase on the same 2.5-kb SalI fragment.     

Genetic organization of a cluster of genes involved in the production of phaseolotoxin, a toxin produced by Pseudomonas syringae pv. phaseolicola.

Phaseolotoxin [N delta(N'-sulfo-diaminophosphinyl)-ornithyl-alanyl- homoarginine] produced by Pseudomonas syringae pv. phaseolicola, the bean halo blight pathogen, is a potent inhibitor of ornithine carbamoyltransferase (OCT). Inhibition of OCT in infected plants leads to chlorosis and growth inhibition. A genomic cosmid clone, pHK120, containing a 25-kb fragment of DNA from a wild-type strain of P. syringae pv. phaseolicola restores toxin production in Tox- mutants. Tn5 mutagenesis of pHK120 and marker exchange of pHK120::Tn5 plasmids in the wild-type strain resulted in the isolation of 39 chromosomal mutants that harbor Tn5 insertions at known positions. Toxin bioassays revealed that 28 of the mutants, with Tn5 insertions distributed throughout the insert of pHK120, were Tox-, indicating that a functional locus for toxin production in each mutant was inactivated. Complementation analysis was done by testing for toxin production strains that carried a genomic Tn5 at one location and a plasmid-borne Tn5 at another location (pair complementation). Pair complementation analysis of nine marker exchange mutants and a random genomic Tn5 mutant revealed that there are a minimum of eight toxin loci (phtA through phtH) in pHK120. Mutants carrying Tn5 insertions in the phtA, phtD, and phtF loci were complemented by deletion subclones containing fragments from pHK120; mutants carrying Tn5 insertions in the phtC locus were partially complemented by a subclone, and mutants carrying Tn5 insertions in the phtB, phtE, phtG, and phtH loci were not complemented by any of the available subclones. A comparison of the insert from pHK120 with that from pRCP17, a clone reported previously (R. C. Peet, P. B. Lindgren, D. K. Wills, and N. J. Panopoulos, J. Bacteriol. 166:1096-1105, 1986) by another laboratory to contain some of the phaseolotoxin genes and the phaseolotoxin-resistant OCT gene, revealed that the inserts in these two cosmids overlap but differ in important respects.     

Molecular characterization of a STreptococcus mutans mutant altered in environmental stress responses.

A mutant defective in aciduricity, GS5Tn1, was constructed following mutagenesis of Streptococcus mutans GS5 with the conjugative transposon Tn916. The mutant grew poorly at acidic pH levels and was sensitive to high osmolarity and elevated temperatures. These properties resulted from a single insertion of Tn916 into the GS5 chromosome, and the DNA fragment harboring the transposon was isolated into the cosmid vector, charomid 9-20. Spontaneous excision of Tn916 from the cosmid revealed that Tn916 inserted into a 8.6-kb EcoRI fragment. On the basis of the restriction analyses of insert fragments, it was found that Tn916 inserted into a 0.9-kb EcoRI-XbaI fragment. Nucleotide sequence analysis of this fragment indicated the presence of two open reading frames, ORF1 and ORF2. By using a marker rescue strategy, a 6.0-kb HindIII fragment including the target site for Tn916 insertion and the 5' end of ORF1 was isolated and sequenced. The deduced amino acid sequences of ORF1 and ORF2 showed significant homology with the diacylglycerol kinase and Era proteins, respectively, from Escherichia coli. Nucleotide sequence analysis of the Tn916 insertion junction region in the GS5Tn1 chromosome revealed that the transposon inserted near the 3' terminus of ORF1. Restoration of ORF1 to its original sequence in mutant GS5Tn1 was carried out following transformation with integration vector pVA891 containing an intact ORF1. The resultant transformant showed wild-type levels of aciduricity as well as resistance to elevated temperatures and high osmolarity. These results suggest that the S. mutans homolog of diacylglycerol kinase is important for adaptation of the organism to several environmental stress signals.     

Clustering of mutations blocking synthesis of xanthan gum by Xanthomonas campestris.

Mutations that block the synthesis of xanthan gum by Xanthomonas campestris B1459S-4L-II were isolated as nonmucoid colonies after treatment with ethyl methanesulfonate. Complete libraries of DNA fragments from wild-type X. campestris were cloned into Escherichia coli by using a broad-host-range cosmid vector and then transferred into each mutant strain by conjugal mating. Cloned fragments that restored xanthan gum synthesis (Xgs+; mucoidy) were compared according to restriction pattern, DNA sequence homology, and complementation of a subset of Xgs- mutations. Groups of clones that contained overlapping homologous DNA were found to complement specific Xgs- mutations. The results suggest clustering of the genetic loci involved in xanthan synthesis. The clustering occurred within three unlinked regions. Two forms of complementation were observed. In most instances, independently isolated cosmid clones that complemented a single mutation were found to be partially homologous. Less frequent was the second form of complementation, in which two cosmid clones that lacked any homologous sequences restored the mucoid phenotype to a single mutant. Finally, xanthan production was measured for wild-type X. campestris carrying multiple plasmid copies of the cloned xanthan genes.     

Organization of genes necessary for growth of the hydrogen-methanol autotroph Xanthobacter sp. strain H4-14 on hydrogen and carbon dioxide

Mutants unable to grow on H2 and CO2 were isolated in the hydrogen-methanol autotroph Xanthobacter sp. strain H4-14 and complemented with a clone bank constructed in a broad-host-range cosmid vector. The mutants fell into two classes. Class I mutants (Cfx-) cannot grow on hydrogen or methanol and are deficient in one or more of the key enzymes of the Calvin Cycle. Class II mutants (Hox-) can grow on methanol but not on hydrogen and lack hydrogenase activity. Restriction maps of the complementing clones show that each class is not linked to the other. Subcloning and Tn5 mutagenesis have localized the regions of DNA complementing these mutants. The region complementing a class I mutant which is deficient in ribulosebisphosphate carboxylase activity is approximately 3.2 kilobase pairs in size. Expression of this enzyme activity from cloned DNA gave evidence for the orientation of an operon containing the structural genes for this enzyme. The region complementing most of the class II mutants is 3 to 4.5 kilobase pairs in size.     

Genetic analysis of type 5 capsular polysaccharide expression by Staphylococcus aureus.

Capsules are produced by over 90% of Staphylococcus aureus strains, and approximately 25% of clinical isolates express type 5 capsular polysaccharide (CP5). We mutagenized the type 5 strain Reynolds with Tn918 to target genes involved in CP5 expression. From a capsule-deficient mutant, we cloned into a cosmid vector an approximately 26-kb EcoRI fragment containing the transposon insertion. In the absence of tetracycline selection, Tn918 was spontaneously excised, thereby resulting in a plasmid containing 9.4 kb of S. aureus DNA flanking the Tn918 insertion site. The 9.4-kb DNA fragment was used to screen a cosmid library prepared from the wild-type strain. Positive colonies were identified by colony hybridization, and a restriction map of one clone (pJCL19 with an approximately 34-kb insert) carrying the putative capsule gene region was constructed. Fragments of pJCL19 were used to probe genomic DNA digests from S. aureus strains of different capsular serotypes. Fragments on the ends of the cloned DNA hybridized to fragments of similar sizes in most of the strains examined. Blots hybridized to two fragments flanking the central region of the cloned DNA showed restriction fragment length polymorphism. A centrally located DNA fragment hybridized only to DNA from capsular types 2, 4, and 5. DNA from pJCL19 was subcloned to a shuttle vector for complementation studies. A 6.2-kb EcoRI-ClaI fragment complemented CP5 expression in a capsule-negative mutant derived by mutagenesis with ethyl methanesulfonate. These experiments provide the necessary groundwork for identifying genes involved in CP5 expression by S. aureus.     

浑球红细菌谷氨酸合酶基因(glt)的克隆和图谱分析

利用转座子Tn5随机插入诱变筛选得到12株浑球红细菌(Rhodobacter sphaeroides)氨同化缺陷突变株(Asm~-)。这些突变株胞内均无GOGAT活性,同时它们均无固氮酶活性(Nif~-),并且具有氮代谢多效性缺失表型(Ntr~-)。将含有Azorhizobium sesbaniae ORS571的完整glt基因的质粒pHB10转入突变株中能互补上述表型。通过筛选携带Tn5的R-prime质粒克隆了glt::Tn5片段。Southern杂交证明所克隆glt::Tn5片段与E. coli的gltBD基因有同源性。用此片段与以pLAFR3为载体所构建的R. sphaeroides 601基因文库进行菌落原位杂交筛选到了携带glt基因的cosmid pLT27。pLT27能互补所有12株R.sphaeroides氨同化缺陷突变株。酶切分析表明在该cosmid中插人的染色体DNA片段大小约为26.5kb。以pRK415为载体亚克隆了4.0kb与10.5kh的pLT27的Hindlll酶切片段,分别命名为pLTRK271与pLTRK272。pLTRK272能互补变种GT6、GT10、GT11,pLTRK…     

Intracellular carbonic anhydrase is essential to photosynthesis in Chlamydomonas reinhardtii at atmospheric levels of CO2. Demonstration via genomic complementation of the high-CO2-requiring mutant ca-1.

Genomic complementation of the high-CO2-requiring mutant ca-1-12-1C of Chlamydomonas reinhardtii was achieved by transformation with DNA pools from an indexed cosmid library of wild-type genomic DNA. Transformation of mutant cells with cosmid DNA from two microtiter plates in the library produced colonies that grew phototrophically at atmospheric CO2 levels. Transformations with cosmid DNA from each of the rows and files of the two plates pinpointed one well in each plate with a cosmid bearing the targeted gene. Sequencing of cosmid subclones revealed a gene encoding a recently identified C. reinhardtii chloroplast carbonic anhydrase (CAH3). Transformations with chimeric constructs combining different portions of the wild-type and mutant genes indicated the presence of a mutation in the 5'-half of the gene. Comparison of mutant and wild-type gene sequences in this region revealed a G-to-A substitution in the mutant gene, which produced a nonsense codon. The data presented demonstrate that the carbonic anhydrase produced from the CAH3 gene is essential to the inorganic carbon-concentrating mechanism in C. reinhardtii and that genomic complementation can be a facile and efficient means for isolating genes associated with defects affecting photosynthesis and other physiological processes in this eukaryotic green alga.     

Cloning of wild-type Pseudomonas solanacearum phcA, a gene that when mutated alters expression of multiple traits that contribute to virulence.

Pseudomonas solanacearum undergoes a spontaneous mutation that pleiotropically reduces extracellular polysaccharide (EPS) production, endoglucanase activity, and virulence and increases motility. We refer to the process that coordinately affects these traits as phenotype conversion (PC) and the resulting mutants as PC types. Previous research with the wild-type strain AW1 suggested that inactivation of a single locus could mimic phenotype conversion (T. P. Denny, F. W. Makini, and S. M. Brumbley, Mol. Plant-Microbe Interact. 1:215-223, 1988). Additional Tn5 mutagenesis of AW1 generated three more mutants (AW1-81, AW1-82, and AW1-84) that were indistinguishable from the PC type and one slightly leaky mutant (AW1-87); all four had single insertions in the same 4.0-kilobase (kb) EcoRI fragment that were responsible for the PC-like phenotype. Another insertion mutant, AW1-83, which lacks an insertion in this 4.0-kb fragment, resembled the PC type except that it was reversibly induced to produce wild-type levels of EPS when cultured adjacent to AW1. The wild-type region containing the gene that controls traits affected by phenotype conversion in AW1, designated phcA, was cloned on a 2.2-kb DNA fragment that restored all the phcA::Tn5 mutants and 11 independent spontaneous PC-type derivatives of AW1 to wild-type status. Homology with the phcA region was found in diverse wild-type strains of P. solanacearum, although restriction fragment length polymorphisms were seen. No major DNA alterations were observed in the phcA homologous region of PC types from strain AW1 or 82N. PC types from 7 of 11 conjugal strains of P. solanacearum were restored to EPS+ by phcA from AW1; however, only some PC types of strain K60 were restored, whereas others were not. We believe that a functional phcA gene is required to maintain the wild-type phenotype in P. solanacearum, and for most strains phenotype conversion results from a loss of phcA gene expression or the function of its gene product.     

Isolation of Escherichia coli mutants defective in uptake of molybdate.

For the study of molybdenum uptake by Escherichia coli, we generated Tn5lac transposition mutants, which were screened for the pleiotropic loss of molybdoenzyme activities. Three mutants A1, A4, and M22 were finally selected for further analysis. Even in the presence of 100 microM molybdate in the growth medium, no active nitrate reductase, formate dehydrogenase, and trimethylamine-N-oxide reductase were detected in these mutants, indicating that the intracellular supply of molybdenum was not sufficient. This was also supported by the observation that introduction of plasmid pWK225 carrying the complete nif regulon of Klebsiella pneumoniae did not lead to a functional expression of nitrogenase. Finally, molybdenum determination by induced coupled plasma mass spectroscopy confirmed a significant reduction of cell-bound molybdenum in the mutants compared with that in wild-type E. coli, even at high molybdate concentrations in the medium. A genomic library established with the plasmid mini-F-derived cop(ts) vector pJE258 allowed the isolation of cosmid pBK229 complementing the molybdate uptake deficiency of the chlD mutant and the Tn5lac-induced mutants. Certain subfragments of pBK229 which do not contain the chlD gene are still able to complement the Tn5lac mutants. Mapping experiments showed that the Tn5lac insertions did not occur within the chromosomal region present in pBK229 but did occur very close to that region. We assume that the Tn5lac insertions have a polar effect, thus preventing the expression of transport genes, or that a positively acting regulatory element was inactivated.