Characterization of theHelicoverpa assulta nucleopolyhedrovirus genome and sequence analysis of the polyhedrin gene region

A local strain ofHelicoverpa assulta nucleopolyhedrovirus (HasNPV) was isolated from infectedH. assulta larvae in Korea. Restriction endonuclease fragment analysis, using 4 restriction enzymes, estimated that the total genome size of HasNPV is about 138 kb. A degenerate polymerase chain reaction (PCR) primer set for the polyhedrin gene successfully amplified the partial polyhedrin gene of HasNPV. The sequencing results showed that the about 430 bp PCR product was a fragment of the corresponding polyhedrin gene. Using HasNPV partial predicted polyhedrin to probe the Southern blots, we identified the location of the polyhedrin gene within the 6 kbEcoRI, 15 kbNcoI, 20 kbXhoI, 17 kbBgl II and 3 kbClaI fragments, respectively. The 3 kbClaI fragment was cloned and the nucleotide sequences of the polyhedrin coding region and its flaking regions were determined. Nucleotide sequence analysis indicated the presence of an open reading frame of 735 nucleotides which could encode 245 amino acids with a predicted molecular mass of 29 kDa. The nucleotide sequences within the coding region of HasNPV polyhedrin shared 73.7% identity with the polyhedrin gene fromAutographa californica NPV but were most closely related toHelicoverpa andHeliothis species NPVs with over 99% sequence identity.     

Biochemical evidence for multiple forms of acetohydroxy acid synthase in Spirulina platensis

Two isoforms of acetohydroxy acid synthase (AHAS), the first enzyme of the branched-chain amino acids biosynthetic pathway, were detected in cell-free extracts of the cyanobacterium Spirulina platensis and separated both by ion-exchange chromatography and by hydrophobic interaction. Several biochemical properties of the two putative isozymes were analysed and it was found that they differ for pH optimum, FAD requirement for both activity and stability, and for heat lability. The results were partially confirmed with the characterization of the enzyme extracted from a recombinant Escherichia coli strain transformed with one subcloned S. platensis coli strain transformed with one subcloned S. platensis AHAS gene. The approximate molecular mass of both AHAS activities, estimated by gel filtration, indicates that they are distinct isozymes and not different oligomeric species or aggregates of identical subunits.Abbreviations AHAS acetohydroxy acid synthase - DEAE cellulose diethylaminoethyl cellulose - DTT dithiothreitol - FAD flavin adenine dinucleotide - TPP thiamine pyrophosphate     

Complementation and regulatory interaction between two cloned fimbrial gene clusters of Escherichia coli strain KS71

Summary Complementation experiments with cloned DNA fragments encoding either the KS71A, the KS71B or the KS71C fimbriae of the pyelonephritogenic Escherichia coli strain KS71 were used to localise the P-fimbrillin genes and to demonstrate regulatory interactions between the cloned genes. The structural genes of the KS71A and KS71B fimbriae were located within a common 1.1 kilobase pair ClaI-SmaI fragment, and it was shown that the gene clusters for these fimbriae could complement each other in trans. The gene cluster encoding the KS71C fimbriae did not complement for the other KS71 fimbriae. A DNA fragment, located near the KS71A fimbrillin gene, was found to enhance the production of the KS71B fimbriae in trans.     

Cloning and Function of <Emphasis Type="Italic">sanQ</Emphasis>: A Gene Involved in Nikkomycin Biosynthesis of <Emphasis Type="Italic">Streptomyces ansochromogenes</Emphasis>

A 2.8-kb BamHI fragment was cloned from the cosmid library of Streptomyces ansochromogenes by using the 1.35-kb BamHI-ApaI fragment of sanO involved in nikkomycin biosynthesis as a probe. Sequence analysis showed that the BamHI fragment contains an open reading frame with 1191 bp, which was designated sanQ. In search of databases, the deduced product of sanQ gene has 56% similarity to the cytochrome P450. sanQ gene was inactivated by insertion of a kanamycin resistance gene. The resulting disruptants failed to produce nikkomycin X, but nikkomycin Z was at the same level as the wild type, indicating that sanQ is essential for the biosynthesis of nikkomycin X. Received: 26 November 2001 / Accepted: 21 December 2001     

Chlorsulfuron resistance in Daucus carota cell lines and plants:Involvement of gene amplification

Daucus carota L. cell lines stably resistant to the herbicide chlorsulfuron (CS) have been isolated according to a stepwise selection. Studies carried out during different selection steps show that the specific activity of the target enzyme acetohydroxyacid synthase (AHAS) increases along with CS resistance. Southern hybridization analysis performed with aBrassica napus AHAS probe in a CS highly-resistant cell line reveals the presence of a greatly amplifiedEcoRI fragment of genomic DNA. This indicates that AHAS overproduction induced by stepwise selection is due to gene amplification. Regenerants from some resistant cell lines maintained the CS-resistant trait at the whole plant level.     

Cloning of the glutamine synthetase gene fromspirulina platensis

An 8 Kilobase-pair (Kbp) HindIII fragment containing the coding sequence forSpirulina platensis glutamine synthetase [EC 6.3.1.1.] has been identified utilizing a probe derived fromAnabaena 7120 and cloned in the vector pAT153.     

Multiple resistance to sulfonylureas and imidazolinones conferred by an acetohydroxyacid synthase gene with separate mutations for selective resistance

Summary The acetohydroxyacid synthase (AHAS) gene from the Arabidopsis thaliana mutant line GH90 carrying the imidazolinone resistance allele imr1 was cloned. Expression of the AHAS gene under the control of the CaMV 35S promoter in transgenic tobacco resulted in selective imidazolinone resistance, confirming that the single base-pair change found near the 3 end of the coding region of this gene is responsible for imidazolinone resistance. A chimeric AHAS gene containing both the imr1 mutation and the csr1 mutation, responsible for selective resistance to sulfonylurea herbicides, was constructed. It conferred on transgenic tobacco plants resistance to both sulfonylurea and imidazolinone herbicides. The data illustrate that a multiple-resistance phenotype can be achieved in an AHAS gene through combinations of separate mutations, each of which individually confers resistance to only one class of herbicides.     

A novel gene——samfR involved in early stage of Streptomyces ansochromogenes differentiation

A 4.6 kb DNA fragment was cloned from the DNA library ofStreptomyces ansochromogenes using a partial DNA fragment located in the downstream of promoter-P_TH4 as probe. The experiments revealed that this DNA fragment consists ofsaw D gene and a 1.4 kbPvu II fragment which can accelerate mycelium formation ofS. ansochromogenes. The nucleotide sequence of 1.4 kb DNA fragment was determined and analysed; the result indicated that the fragment contains one complete open reading frame (ORF) which encodes a protein with 213 amino acids, and this gene was designated assamfR. The deduced protein has 36% amino acid identities and 52% amino acid similarities in comparison with that encoded byhppR gene, which is involved in the regulation of catabolism for 3-(3-hydroxyphenyl) propionate (3HPP) inRhodococcus globerulus. The function ofsamfR gene was studied using strategy of gene disruption, and the resultingsamfR mutant failed to form aerial hyphae and spores, its development and differentiation stopped at the stage of substrate mycelium in contrast with wild type strain. The results showed that thesamfR gene is closely related toS. ansochromogenes differentiation. Project supported by the National Natural Science Foundation of China (Grant No. 39830010).     

Cloning and expression of a tylosin resistance gene from a tylosin-producing strain of Streptomyces fradiae

Summary A gene conferring high-level resistance to tylosin in Streptomyces lividans and Streptomyces griseofuscus was cloned from a tylosin-producing strain of Streptomyces fradiae. The tylosin-resistance (Tyl^r) gene (tlrA) was isolated on five overlapping DNA fragments which contained a common 2.6 Kb KpnI fragment. The KpnI fragment contained all of the information required for the expression of the Tyl^r phenotype in S. lividans and S. griseofuscus. Southern hybridization indicated that the sequence conferring tylosin resistance was present on the same 5 kb SalI fragment in genomic DNA from S. fradiae and several tylosin-sensitive (Tyl^s) mutants. The cloned tlrA gene failed to restore tylosin resistance in two Tyl^s mutants derived by protoplast formation and regeneration, and it restored partial resistance in a Tyl^s mutant obtained by N-methyl-N-nitro-N-nitrosoguanidine (MNNG) mutagenesis. The tlrA gene conferred resistance to tylosin, carbomycin, niddamycin, vernamycin-B and, to some degree, lincomycin in S. griseofuscus, but it had no effect on sensitivity to streptomycin or spectinomycin, suggesting that the cloned gene is an MLS (macrolide, lincosamide, streptogramin-B)-resistance gene. Twenty-eight kb of S. fradiae DNA surrounding the tlrA gene was isolated from a genomic library in bacteriophage Charon 4. Introduction of these DNA sequence into S. fradiae mutants blocked at different steps in tylosin biosynthesis failed to restore tylosin production, suggesting that the cloned Tyl^r gene is not closely linked to tylosin biosynthetic genes.     

pMH2, a small plasmid bearing the nif gene cluster of Enterobacter agglomerans 333 as an excisable cassette

A small plasmid containing the entire nif gene cluster of Enterobacter agglomerans 333 as an excisable cassette has been constructed, using pACYC177 as a vector. Two cosmid clones taken from a gene library of E. agglomerans plasmid pEA3 were used as a source of nif genes. A SmaI fragment of peaMS2-2, containing the H,D,K,Y,E,N,X,U,S,V,W,Z,M,L,A and B genes and an ApaI fragment of peaMS2-16 containing nifA,B,Q,F and J were selected to construct pMH2. The resulting plasmid of 33 kb carries the complete nif gene cluster as a nif cassette on a single XbaI fragment. The nif construct pMH2 in Escherichia coli strains has significant nitrogenase activity compared to wild-type E. agglomerans 333. The nif gene cluster construct was found to be very stable.     

Cloning and characterization of the gene, speC, for pyrogenic exotoxin type C from Streptococcus pyogenes

Summary The structural gene of streptococcal pyrogenic exotoxin type C (SPE C) was cloned from the chromosome of Streptococcus pyogenes strain T18P into Escherichia coli using pBR328 as the vector plasmid. Subcloning enabled the localization of the gene (speC) to a 1.7 kb fragment. Partially purified E. coli-derived SPE C and purified streptococcal-derived SPE C, were shown to have the same molecular weight (23 800) and biological activities. A DNA probe, prepared from cloned speC, cross-hybridized with the structural genes of SPE A and SPE B indicating relatedness at the nucleotide level. The speC-derived probe also hybridized to a fragment of CS112 bacteriophage DNA containing the phage attachment site.     

Gibberellin Biosynthetic Pathway inGibberella fujikuroi:Evidence for a Gene Cluster

Differential screening of aGibberella fujikuroicDNA library was used to successfully clone and identify genes involved in the pathway of gibberellin biosynthesis. Several cDNA clones that hybridized preferentially to a cDNA probe prepared from mycelium induced for gibberellin production were isolated and characterized. The deduced amino acid sequences of two (identical) clones contained the conserved heme-binding motif of cytochrome P450 monooxygenases (FXXGXXXCXG). One of these cDNA fragments was used as a homologous probe for the screening of a genomic library. A hybridizing 6.7-kb genomicSalI fragment was cloned into pUC19. The sequencing of this clone revealed that a second cytochrome P450 monooxygenase gene was closely linked to the first one. Since at least four cytochrome P450 monooxygenase-catalyzed steps are involved in the synthesis of gibberellins, chromosome walking was performed to find a further gene of this family or other genes involved in gibberellin pathway. Next to the two P450 monooxygenase genes, a putative geranylgeranyl diphosphate synthase gene, the copalyl diphosphate synthase gene, which is the first specific gene of the gibberellin pathway, and a third P450 monooxygenase gene were identified. These results suggest that at least some of the genes involved in the biosynthesis of gibberellins are closely linked in a gene cluster inG. fujikuroi,as has been recently found for other “dispensable” pathways in fungi.     

In Bradyrhizobium japonicum the common nodulation genes, nodABC, are linked to nifA and fixA

Summary Using cloned Rhizobium phaseoli nodulation (nod) genes as hybridization probes homologous restriction fragments were detected in the genome of the slow-growing soybean symbiont, Bradyrhizobium japonicum strain 110. These fragments were isolated from a cosmid library, and were shown to lie 10 kilobasepairs (kb) upstream from the nifA and fixA genes. Specific nod probes from Rhizobium leguminosarum were used to identify nodA-, nodB-, and nodC-like sequences clustered within a 4.5 kb PstI fragment. A mutant was constructed in which the kanamycin resistance gene from Tn5 was inserted into the nodA homologous B. japonicum region. This insertion was precisely located, by DNA sequencing, to near the middle of the nodA gene. B. japonicum mutants carrying this insertion were completely nodulation deficient (Nod^-).     

Organization,inheritance and expression of acetohydroxyacid synthase genes in the cotton allotetraploid Gossypium hirsutum

The acetohydroxyacid synthase (AHAS) gene family of the cotton AD allotetraploid Gossypium hirsutum has been cloned and characterized. We have identified six different AHAS genes from an analysis of genomic clones and Southern blots of genomic DNA. Four of the six genes are organized as tandem pairs, in which the genes are separated by only 2–3 kb. Conservation of restriction fragment length polymorphisms between G. hirsutum and A-genome and D-genome-containing diploid cottons was sufficient to assign the single genes in clones A5 and A19 to the A and D subgenomes, respectively. Each diploid genome has one tandem pair, but in these cases we could not make specific subgenomic assignments. DNA and deduced amino acid sequences were determined for the A5 and A19 genes, and an AHAS cDNA clone isolated from a leaflibrary. The sequence of the A19 gene matches that of the cDNA clone, while the A5 gene is 97.8% similar. The four genes comprising the tandem pairs are much less similar to the cDNA clone. The deduced amino acid sequences of the mature polypeptides encoded by the A5 and A19 genes are collinear with the housekeeping forms of AHAS from Arabidopsis thaliana, Nicotiana tabacum and Brassica napus. The constitutive expression of A5 and A19 was confirmed with RNase protection assays and northern blots. We conclude that these genes encode the main house-keeping froms of AHAS in G. hirsutum. Among the four AHAS genes comprising the two tandem pairs, at least two are functional. These genes exhibit either low-level constitutive expression (one or both of the downstream genes of each pair), or highly specific expression in reproductive tissue (one or both of the upstream genes of each pair). The AHAS gene family of G. hirsutum is more complex than that of other plants so far examined.     

Isolation of Hem3 mutants from Candida albicans by sequential gene disruption

Summary Molecular methods for directed mutagenesis in Candida albicans have relied on a combination of gene disruption by transformation to inactivate one allele and UV-induced mitotic recombination or point mutation to produce lesions in the second allele. An alternate method which uses two sequential gene disruptions was developed and used to construct a C. albicans mutant defective in a gene essential for synthesizing tetrapyrrole (uroporphyrinogen I synthase). The Candida gene was cloned from a random library by complementation of the hem3 mutation in Saccharomyces cerevisiae. The complementing region was limited to a 2.0 kb fragment by subcloning and a BglII site was determined to be within an essential region. Linear fragments containing either the Candida URA3 or LEU2 gene inserted into the BglII site were used to disrupt both alleles of a leu2, ura3 mutant by sequential transformation. Ura⁺, Leu⁺ heme-requiring strains were recovered and identified as hem3 mutants by Southern hybridization, transformation to heme independence by the cloned gene, and enzyme assays.     

Effect of Sucrose Concentration on the Infectivity of ϕX 174 DNA to Protoplast of Escherichia coli

The first step in branched-chain amino acid biosynthesis is catalyzed by acetohydroxyacid synthase (EC 2.2.1.6). This reaction involves decarboxylation of pyruvate followed by condensation with either an additional pyruvate molecule or with 2-oxobutyrate. The enzyme requires three cofactors, thiamine diphosphate (ThDP), a divalent ion, and flavin adenine dinucleotide (FAD). Escherichia coli contains three active isoenzymes, and acetohydroxyacid synthase I (AHAS I) large subunit is encoded by the ilvB gene. In this study, the ilvB gene from E. coli K-12 was cloned into expression vector pETDuet-1, and was expressed in E. coli BL21 (DH3). The purified protein was identified on a 12% SDS–PAGE gel as a single band with a mass of 65 kDa. The optimum temperature, buffer, and pH for E. coli K-12 AHAS I were 37 °C, potassium phosphate buffer, and 7.5. Km values for E. coli K-12 AHAS I binding to pyruvate, Mg⁺², ThDP, and FAD were 4.15, 1.26, 0.2 mM, and 0.61 μM respectively. Inhibition of purified AHAS I protein was determined with herbicides and new compounds.     

Genetic aspects of aromatic amino acid biosynthesis in Lactococcus lactic

Polymerase chain reaction (PCR) primers designed from a multiple alignment of predicted amino acid sequences from bacterial aroA genes were used to amplify a fragment of Lactococcus lactis DNA. An 8 kb fragment was then cloned from a lambda library and the DNA sequence of a 4.4 kb region determined. This region was found to contain the genes tyrA, aroA, aroK, and pheA, which are involved in aromatic amino acid biosynthesis and folate metabolism. TyrA has been shown to be secreted and AroK also has a signal sequence, suggesting that these proteins have a secondary function, possibly in the transport of amino acids. The aroA gene from L. lactis has been shown to complement an E. coli mutant strain deficient in this gene. The arrangement of genes involved in aromatic amino acid biosynthesis in L. lactis appears to differ from that in other organisms.The nucleotide sequence data reported in this paper have been submitted to the EMBL, GenBank, and DDBJ Nucleotide Sequence Databanks and have been assigned the accession number X78413     

Construction of a barley (Hordeum vulgare L.) YAC library and isolation of a Hor1-specific clone

We have constructed an EcoRI-based YAC (yeast artificial chromosome) library from barley (Hordeum vulgare L. cv. Franka) using the vector pYAC4. The library consists of approximately 18 000 recombinant YACs with insert sizes ranging between 100 and 1000 kb (average of 160 kb) corresponding to 50% of the barley genome. Size fractionation after ligation resulted in an increased average insert size (av. 370 kb) but also in a substantial decrease in cloning efficiency. Less than 1% of the colonies showed homology to a plastome-specific probe; approximately 50% of the colonies displayed a signal with a dispersed, highly repetitive barley-specific probe. Using a primer combination deduced from the sequence of a member of the small Hor1 gene family coding for the C-hordein storage proteins, the library was screened by polymerase chain reaction and subsequently by the colony hybridization technique. A single YAC, designated Y66C11, with a 120 kb insert was isolated. This DNA fragment represents a coherent stretch from the terminal part of the Hor1 gene region as judged from the correspondence of the restriction patterns between Y66C11 DNA and barley DNA after hybridization with the Hor1-specific probe. Restriction with the isoschizomeric enzymes HpaII/MspI suggests a high degree of methylation of the Hor1 region in mesophyll cells but not in YAC-derived (yeast) DNA.     

Identification of the protein products of the rrnC, ilv, rho region of the Escherichia coli K-12 chromosome

Summary Two methods have been used to identify the protein products of the Escherichia coli K-12 ilv region at 84 min and the flanking rrnC (counterclockwise) and rho (clockwise) loci. First, a set of dilv specialized transducing phages, including some phages that carry rho and others that carry part of rrnC, was used to infect UV irradiated cells. The proteins produced by the infecting dilv phage were selectively labelled with radioactive amino acids and identified by SDS gel electrophoresis and autoradiography. Second, restriction enzyme fragments were cloned from the dilv phage into pBR322 and the plasmid specific gene products produced in maxicells were similarly identified by SDS gel electrophoresis and autoradiography. The proteins produced were correlated with specific genes and restriction enzyme fragments present in the dilv phage and the pBR322 derivatives. Several ilv gene products that have previously been refractory to protein purification attempts have been identified for the first time by this technique. The presence of mutations at the ilvO site is shown to activate the cryptic ilvG gene and to result in the production of a 62,000 dalton protein. A 15,000 dalton protein of unknown function is synthesized from a DNA segment between ilv and rrnC. The rho gene was cloned from dilv phage into pBR322 and shown to be dominant to a rho mutation on the host cromosome. The rho gene product and four additional proteins coded by genes near or between rho and ilv have been detected.     

Molecular cloning and sequence of theBacillus stearothermophilus translational initiation factor IF2 gene

Summary The structural gene for theBacillus stearothermophilus initiation factor IF2 was localized to a 6 kbHindIII restriction fragment by cross-hybridization with theSstI-SmaI fragment of theEscherichia coli infB gene. This fragment corresponds to the central region of the molecule containing the GTP-binding domain which is homologous inE. coli IF2, EF-Tu, EF-G and the humanras1 oncogene protein. After cloning into pACYC177, theHindIII fragment was further analysed by restriction mapping and cross-hybridization. A smaller (2.2 kb)SphI-HindIII fragment, which showed cross-hybridization, was subcloned into M13 phage and sequenced by the dideoxy chain-terminating method. This fragment was found to contain the entire IF2 gene except for the region coding for the N-terminus. This remaining region, coding for 45 amino acids, was located by homologous hybridization on an overlappingClaI-SstI fragment which was also subcloned and sequenced. Overall, theB. stearothermophilus IF2 gene codes for a protein of 742 amino acids (M_r=82,043) whose primary sequence displays extensive homology with the C-terminal two-thirds (but little or no homology with the N-terminal one-third) of the correspondingE. coli IF2 molecule. When cloned into an expression vector under the control of the λP_L promoter, theB. stearothermophilus IF2 gene, reconstituted by ligation of the two separately cloned pieces, could be expressed at high levels inE. coli cells.