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.     

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…     

Isolation and characterization of pathogenicity genes of Pseudomonas syringae pv. tabaci.

Pseudomonas syringae pv. tabaci BR2 produces tabtoxin and causes wildfire disease on tobacco and bean plants. Approximately 2,700 Tn5 insertion mutants of a plasmid-free strain, PTBR 2.024, were generated by using suicide plasmid pGS9. Of these Tn5 mutants, 8 were no longer pathogenic on tobacco plants and 10 showed reduced symptoms. All of the eight nonpathogenic mutants caused typical wildfire disease symptoms on bean plants. Two of the nonpathogenic mutants failed to produce tabtoxin. The eight nonpathogenic mutants have Tn5 insertions into different EcoRI and SalI restriction fragments. The EcoRI fragments containing Tn5 from the eight nonpathogenic mutants were cloned into vector pTZ18R or pLAFR3. A genomic library of the parent strain was constructed in the broad-host-range cosmid pLAFR3. Three different cosmid clones that hybridized to the cloned Tn5-containing fragment from one of the nonpathogenic mutants, PTBR 4.000, were isolated from the genomic library. These clones contained six contiguous EcoRI fragments (a total of 57 kilobases [kb]). A 7.2-kb EcoRI fragment common to all three restored pathogenicity to mutant PTBR 4.000. None of the six EcoRI fragments hybridized to Tn5-containing fragments from the other seven mutants. The 7.2-kb fragment was conserved in P. syringae pv. tabaci and P. syringae pv. angulata, but not in other pathovars or strains. Because the mutants retained pathogenicity on bean plants and because of the conservation of the 7.2-kb EcoRI fragment only in pathovars of tobacco, we suggest that genes on the fragment might be related to host specificity.     

Identification and mapping of nitrogen fixation genes of Rhodobacter capsulatus: duplication of a nifA-nifB region.

Rhodobacter capsulatus mutants unable to fix nitrogen were isolated by random transposon Tn5 mutagenesis. The Tn5 insertion sites of 30 Nif- mutants were mapped within three unlinked chromosomal regions designated A, B, and C. The majority of Tn5 insertions (21 mutants) map within nif region A, characterized by two ClaI fragments of 2.5 and 25 kilobases (kb). The 17-kb ClaI fragment of nif region B contains six nif::Tn5 insertions, and the three remaining mutations are located on a 32-kb ClaI fragment of nif region C. Hybridization experiments using all 17 Klebsiella pneumoniae nif genes individually as probes revealed homology to nifE, nifS, nifA, and nifB in nif region A. The nifHDK genes were localized in nif region B. About 2 kb away from this operon, a second copy of the DNA fragments homologous to nifA and nifB, originally found in nif region A, was identified.     

Cloning and characterization of hydrogen uptake genes from Rhizobium leguminosarum.

A gene library of genomic DNA from the hydrogen uptake (Hup)-positive strain 128C53 of Rhizobium leguminosarum was constructed by using the broad-host-range mobilizable cosmid vector pLAFR1. The resulting recombinant cosmids contained insert DNA averaging 21 kilobase pairs (kb) in length. Two clones from the above gene library were identified by colony hybridization with DNA sequences from plasmid pHU1 containing hup genes of Bradyhizobium japonicum. The corresponding recombinant cosmids, pAL618 and pAL704, were isolated, and a region of about 28 kb containing the sequences homologous to B. japonicum hup-specific DNA was physically mapped. Further hybridization analysis with three fragments from pHU1 (5.9-kb HindIII, 2.9-kb EcoRI, and 5.0-kb EcoRI) showed that the overall arrangement of the R. leguminosarum hup-specific region closely parallels that of B. japonicum. The presence of functional hup genes within the isolated cosmid DNA was demonstrated by site-directed Tn5 mutagenesis of the 128C53 genome and analysis of the Hup phenotype of the Tn5 insertion strains in symbiosis with peas. Transposon Tn5 insertions at six different sites spanning 11 kb of pAL618 completely suppressed the hydrogenase activity of the pea bacteroids.     

Isolation and characterization of Tn5 insertion mutants of Pseudomonas syringae pv. syringae altered in the production of the peptide phytotoxin syringotoxin.

A syringotoxin-producing strain of Pseudomonas syringae pv. syringae (B457) was subjected to Tn5 mutagenesis by the transposon vector pSUP1011. Analyses of auxotrophs obtained suggested simple random insertions of Tn5. Syringotoxin-negative mutants arose at a frequency of about 0.28%. In a Southern blot analysis, the loss of toxin production was associated with Tn5 insertions into chromosomal EcoRI fragments of about 10.5, 17.8, and 19.3 kilobases. Data from a Southern blot analysis of SstI-digested DNA from these mutants suggest that the 10.5- and 17.8-kilobase EcoRI fragments may be adjacent to or near each other. Mutants that produced only 3 to 4% wild-type toxin levels also were identified.     

Analysis of hemolytic determinants of plasmid pHly185 by Tn5 mutagenesis.

A nonconjugative hemolysin plasmid, pHly185, was isolated from Escherichia coli 185. Tn5 mutagenesis produced nonhemolytic derivatives that either expressed no hemolytic activity or did not secrete activity. These Tn5 insertions were located in three contiguous EcoRI fragments. Insertions inactivating hemolysin structural gene(s) were identified on all three EcoRI fragments. Mutations affecting the secretory function were clustered in one portion of a single EcoRI fragment.     

Cloning of the Alcaligenes eutrophus genes for synthesis of poly-beta-hydroxybutyric acid (PHB) and synthesis of PHB in Escherichia coli.

Eight mutants of Alcaligenes eutrophus defective in the intracellular accumulation of poly-beta-hydroxybutyric acid (PHB) were isolated after transposon Tn5 mutagenesis with the suicide vector pSUP5011. EcoRI fragments which harbor Tn5-mob were isolated from pHC79 cosmid gene banks. One of them, PPT1, was used as a probe to detect the intact 12.5-kilobase-pair EcoRI fragment PP1 in a lambda L47 gene bank of A. eutrophus genomic DNA. In six of these mutants (PSI, API, GPI, GPIV, GPV, and GPVI) the insertion of Tn5-mob was physically mapped within a region of approximately 1.2 kilobase pairs in PP1; in mutant API, cointegration of vector DNA has occurred. In two other mutants (GPII and GPIII), most probably only the insertion element had inserted into PP1. All PHB-negative mutants were completely impaired in the formation of active PHB synthase, which was measured by a radiometric assay. In addition, activities of beta-ketothiolase and of NADPH-dependent acetoacetyl coenzyme A (acetoacetyl-CoA) reductase were diminished, whereas the activity of NADPH-dependent acetoacetyl-CoA reductase was unaffected. In all PHB-negative mutants the ability to accumulate PHB was restored upon complementation in trans with PP1. The PHB-synthetic pathway of A. eutrophus was heterologously expressed in Escherichia coli. Recombinant strains of E. coli JM83 and K-12, which harbor pUC9-1::PP1, pSUP202::PP1, or pVK101::PP1, accumulated PHB up to 30% of the cellular dry weight. Crude extracts of these cells had significant activities of the enzymes PHB synthase, beta-ketothiolase, and NADPH-dependent acetoacetyl-CoA reductase. Therefore, PP1 most probably encodes all three genes of the PHB-synthetic pathway in A. eutrophus. In addition to PHB-negative mutants, we isolated mutants which accumulate PHB at a much lower rate than the wild type does. These PHB-leaky mutants exhibited activities of all three PHB-synthetic enzymes; Tn5-mob had not inserted into PP1, and the phenotype of the wild type could not be restored with fragment PP1. The rationale for this mutant type remains unknown.     

Broad-host-range IncP-4 plasmid R1162: effects of deletions and insertions on plasmid maintenance and host range

R1162 is an 8.7-kilobase (kb) broad-host-range replicon encoding resistance to streptomycin and sulfa drugs. In vitro deletion of 1.8-kb DNA between coordinates 3.0 and 5.3 kb did not affect plasmid maintenance, but a Tn1 insertion at coordinate 6.3 kb led to a recessive defect in plasmid maintenance. The only cis-acting region necessary for plasmid replication appears to lie between the Tn1 insertion at coordinate 6.3 kb and a second Tn1 insertion at coordinate 6.5 kb. All R1162 sequences between position 6.5 kb and the EcoRI site at coordinate 8.7/0 kb were dispensible for replication in Escherichia coli and Pseudomonas putida. Plasmids carrying insertions in a variety of restriction sites in an R1162::Tn1 derivative were unstable in P. putida but stable in E. coli. Tn5 insertions in R1162 showed a hot spot at coordinate 7.5 kb. A Tn5 insertion at coordinate 8.2 kb appeared to mark the 3' end of the streptomycin phosphotransferase coding sequence. All R1162::Tn5 derivatives showed specific instability in Pseudomonas strains but not in E. coli. The instability could be relieved by internal deletions of Tn5 sequences. In the haloaromatic-degrading Pseudomonas sp. strain B13, introduction of an unstable R1162::Tn5 plasmid led to loss of ability to utilize m-chlorobenzoate as a growth substrate. Our results showed that alteration of plasmid sequence organization in nonessential regions can result in restriction of plasmid host range.     

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.     

chlC (nar) operon of Escherichia coli includes structural genes for alpha and beta subunits of nitrate reductase.

The synthesis of the alpha and beta subunits of nitrate reductase by 20 chlC::Tn5 insertion mutants of Escherichia coli was determined by immune precipitation of the subunits from fractions of cell extracts. Only two of the mutants produced either subunit in detectable amounts; these two accumulated the alpha subunit, but no beta subunit. In both cases the alpha subunit was present in the cytosolic fraction, in contrast to wild-type cells, in which both subunits are present mainly in the membrane fraction. EcoRI restriction fragments containing the Tn5 inserts from five of the mutants were cloned into pBR322. The insertions were localized on two contiguous EcoRI fragments spanning a 5.6-kilobase region that overlapped the contiguous ends of the two fragments. An insertion that permitted alpha subunit formation defined one end of the 5.6-kilobase region. The results indicated that the genes encoding the alpha and beta subunits of nitrate reductase were part of a chlC (nar) operon that is transcribed in the direction alpha leads to beta.     

Molecular cloning of structural and regulatory hydrogenase (hox) genes of Alcaligenes eutrophus H16

A gene bank of the 450-kilobase (kb) megaplasmid pHG1 from the hydrogen-oxidizing bacterium Alcaligenes eutrophus H16 was constructed in the broad-host-range mobilizable vector pSUP202 and maintained in Escherichia coli. hox DNA was identified by screening the E. coli gene bank for restoration of hydrogenase activity in A. eutrophus Hox mutants. Hybrid plasmids that contained an 11.6-kb EcoRI fragment restored soluble NAD-dependent hydrogenase activity when transferred by conjugation into one class of Hos- mutants. An insertion mutant impaired in particulate hydrogenase was partially restored in Hop activity by an 11-kb EcoRI fragment. A contiguous sequence of two EcoRI fragments of 8.6 and 2.0 kb generated Hox+ recombinants from mutants that were devoid of both hydrogenase proteins. hox DNA was subcloned into the vector pVK101. The resulting recombinant plasmids were used in complementation studies. The results indicate that we have cloned parts of the structural genes coding for Hos and Hop activity and a complete regulatory hox DNA sequence which encodes the thermosensitive, energy-dependent derepression signal of hydrogenase synthesis in A. eutrophus H16.     

Transposon-induced non-motile mutants of Vibrio cholerae

Non-motile mutants of Vibrio cholerae were isolated after transposon insertion mutagenesis with either Tn5 on a plasmid or Tn10ptac mini-kan in bacteriophage lambda. The physical location and number of transposon insertions was determined. Eighteen Tn5 insertion mutants and 11 Tn10ptac mini-kan insertion mutants had single unique insertion sites. The 18 Tn5 insertions were contained within six different EcoRI fragments and the 11 Tn10ptac mini-kan insertions were contained within eight different fragments of V. cholerae chromosomal DNA. These data suggest that multiple genes are involved in motility. Immunoblot analysis of non-motile mutants with antibody to wild-type flagellar core protein indicated that two of the non-motile mutants made flagellar core protein. Three additional mutants reacted weakly with the antibodies. However, these mutants with immunopositive reactions did not produce any structures which resembled flagella by transmission electron microscopy. In addition, none of the other non-motile mutants produced wild-type flagella. However, five mutants which did not react in the immunoblot produced a structure which resembled a flagellar sheath without the internal flagellar core. In addition to having no filamentous core, the sheaths often extended from the sides of the bacteria, rather than from the poles where the flagellum is normally located. The data suggest that sheath formation is independent of flagellar filament formation, but that proper positioning of the sheath may require the flagellar filament.     

Increased Nitrogenase-Dependent H(2) Photoproduction by hup Mutants of Rhodospirillum rubrum

Transposon Tn5 mutagenesis was used to isolate mutants of Rhodospirillum rubrum which lack uptake hydrogenase (Hup) activity. Three Tn5 insertions mapped at different positions within the same 13-kb EcoRI fragment (fragment E1). Hybridization experiments revealed homology to the structural hydrogenase genes hupSLM from Rhodobacter capsulatus and hupSL from Bradyrhizobium japonicum in a 3.8-kb EcoRI-ClaI subfragment of fragment E1. It is suggested that this region contains at least some of the structural genes encoding the nickel-dependent uptake hydrogenase of R. rubrum. At a distance of about 4.5 kb from the fragment homologous to hupSLM, a region with homology to a DNA fragment carrying hypDE and hoxXA from B. japonicum was identified. Stable insertion and deletion mutations were generated in vitro and introduced into R. rubrum by homogenotization. In comparison with the wild type, the resulting hup mutants showed increased nitrogenase-dependent H(2) photoproduction. However, a mutation in a structural hup gene did not result in maximum H(2) production rates, indicating that the capacity to recycle H(2) was not completely lost. Highest H(2) production rates were obtained with a mutant carrying an insertion in a nonstructural hup-specific sequence and with a deletion mutant affected in both structural and nonstructural hup genes. Thus, besides the known Hup activity, a second, previously unknown Hup activity seems to be involved in H(2) recycling. A single regulatory or accessory gene might be responsible for both enzymes. In contrast to the nickel-dependent uptake hydrogenase, the second Hup activity seems to be resistant to the metal chelator EDTA.     

Identification and molecular characterization of the acetyl coenzyme A synthetase gene (acoE) of Alcaligenes eutrophus.

The gene locus acoE, which is involved in the utilization of acetoin in Alcaligenes eutrophus, was identified as the structural gene of an acetyl coenzyme A synthetase (acetate:coenzyme A ligase [AMP forming]; EC 6.2.1.1). This gene was localized on a 3.8-kbp SmaI-EcoRI subfragment of an 8.1-kbp EcoRI restriction fragment (fragment E) that was cloned recently (C. Fründ, H. Priefert, A. Steinbüchel, and H. G. Schlegel, J. Bacteriol. 171:6539-6548, 1989). The 1,983 bp acoE gene encoded a protein with a relative molecular weight of 72,519, and it was preceded by a putative Shine-Dalgarno sequence. A comparison analysis of the amino acid sequence deduced from acoE revealed a high degree of homology to primary structures of acetyl coenzyme A synthetases from other sources (amounting to up to 50.5% identical amino acids). Tn5 insertions in two transposon-induced mutants of A. eutrophus, that were impaired in the catabolism of acetoin were mapped 481 and 1,159 bp downstream from the translational start codon of acoE. The expression of acoE in Escherichia coli led to the formation of an acyl coenzyme A synthetase that accepted acetate as the preferred substrate (100% relative activity) but also reacted with propionate (46%) and hydroxypropionate (87%); fatty acids consisting of four or more carbon atoms were not accepted. In addition, evidence for the presence of a second acyl coenzyme A synthetase was obtained; this enzyme exhibited a different substrate specificity. The latter enzyme is obviously required for the activation of propionate, e.g., during the formation of the storage compound poly(3-hydroxybutyric acid-co-3-hydroxyvaleric acid) when propionate is provided as the sole carbon source. An analysis of mutants provided evidence that the expression of the uptake protein for propionate depends on the presence of alternate sigma factor sigma 54.     

Cloning of the pif region of the F sex factor and identification of a pif protein product

This paper reports a detailed investigation of the pif region of the F factor responsible for inhibition of development of T7 and related "female-specific" phages. We have mapped a series of pif::Tn5 insertions to a region between 39.6 and 42.8 kilobases on the physical map of F. All pif::Tn5 insertions plated T7 at full efficiency; most were clustered in a 1.8-kilobase interval on both sides of the EcoRI site located at F coordinate 40.3 kilobases. A 5.2-kilobase Pst-I fragment with F coordinates 38.9 to 44.1 has been cloned into a pSC101 vector to create the Pif+ plasmid pGS103. A series of Pif- deletion mutants and nonsense mutants were isolated from pGS103. Using minicells carrying pGS103 or its derivatives, we have identified a 70,000-dalton pif protein.     

Isolation and characterization of a Rhizobium loti gene required for effective nodulation of Lotus pedunculatus

A Rhizobium loti gene required for effective invasion of the host Lotus pedunculatus has been identified by transposon Tn5 mutagenesis. Cosmids that complemented a previously isolated mutation (239) at this invasion (inv) locus were identified by in planta complementation and used to construct a physical map of the gene region. The insertion site of Tn5 in PN239 was mapped to a 7.5-kb EcoRI fragment, which complemented the mutation when subcloned into pLAFR1. Further Tn5 mutagenesis of the 7.5-kb fragment was carried out in Escherichia coli using bacteriophage lambda 467, and the mutations homogenotized into R. loti NZP2037. Three additional Fix- mutations were isolated, and these were found to map adjacent to the position of the original mutation in strain PN239. All the other Tn5 insertions isolated in the 7.5-kb fragment gave a Fix+ phenotype on L. pedunculatus. Electron microscopic examination of the L. pedunculatus nodules induced by the isolated Fix- mutants showed that bacteria were either blocked in release from the infection threads or were unable to undergo normal bacteroid development. The inv locus as defined by the Tn5 insertions was sequenced, and a single open-reading frame (ORF) of 576 bp, corresponding to a polypeptide of 21.3 kDa, was identified. The position and orientation of this ORF were consistent with those of the isolated Tn5 Fix- insertions.