Extent of polyteny in the pericentric heterochromatin of polytene chromosomes of pseudonurse cells of otu (ovarian tumor) mutants of Drosophila melanogaster

In the polytene nuclei of germ-line cells (ovarian pseudonurse cells) of Drosophila melanogaster females mutant for otu ¹¹ (ovarian tumor), the pericentric heterochromatin is much more abundant than in somatic salivary gland cells. This is due to the degree of heterochromatin compaction (and consequently the level of underreplication) being lower in the nurse cells than in the salivary gland cells. The lower level of compaction probably results in a very low degree of position effect gene inactivation in the ovarian nurse cells.     

Molecular cloning of the Salmonella typhimurium lep gene in Escherichia coli

Summary A system is described which enabled the selection of a heterologous ep gene, encoding signal peptidase I, in Escherichia coli. It is based on complementation of an E. coli mutant, in which the synthesis of signal peptidase I can be regulated. With this system the lep gene of Salmonella typhimurium was cloned and the nucleotide sequence was determined. The S. typhimurium lep gene encodes a protein of 324 amino acids. Expression of the gene in the E. coli mutant resulted in suppression of growth inhibition and in the restoration of processing activity under conditions where synthesis of E. coli signal peptidase I was repressed. The cloned S. typhimurium signal peptidase I had an apparent molecular weight of 36000 daltons, which is in agreement with the calculated molecular weight of 35782 daltons. The system described for selection of the S. typhimurium lep gene may permit the cloning and expression of other heterologous signal peptidase I gen/es.     

Intermolecular ligation mediates efficient cotransformation in Phytophthora infestans

The processing of DNA molecules during transformation was characterized in the oomycete Phytophthora infestans. Linear and circular forms of nonreplicating transformation vectors supported similar rates of stable transformation. Remarkably, digestion of plasmids within the selectable marker genes neomycin phosphotransferase (npt) or hygromycin phosphotransferase (hpt) had little effect on the recovery of drug-resistant transformants, and the cleaved sites were shown to be reconstituted in the transformants. An assay for the transient expression of -glucuronidase (GUS) in protoplasts treated with partial or disrupted GUS genes demonstrated that active genes could be reconstituted through intramolecular and/or intermolecular ligation between compatible ends, while incompatible ends were inefficiently joined. Stable transformation studies also demonstrated that complementing portions of incomplete npt or hpt genes joined through homologous recombination. Based on the indication of efficient ligation between DNA molecules during transformation, an efficient procedure for cotransformation was developed. The frequency of cotransformation between vectors expressing selected genes (npt or hpt) and nonselected sequences (GUS, -galactosidase, or streptomycin phosphotransferase) approached unity when the plasmids were linearized with the same restriction enzyme before transformation. In contrast, cotransformation between circular plasmids or those cut with different enzymes occurred infrequently (10%). Hybridization analysis of DNA from cotransformants demonstrated that linearized plasmids became colocalized within genomic DNA, while circular plasmids typically inserted at unliked sites.     

Protein export elements from Lactococcus lactis

Summary Broad-host-range plasmids carrying -amylase or -lactamase reporter genes lacking a signal sequence were used to select export elements from Lactococcus lactis chromosomal DNA that could function as signal sequences. Fragments containing such elements were identified by their ability to direct the export of the reporter proteins in Escherichia coli. Several of the selected export elements were also active in Bacillus subtilis and L. lactis, although the efficiencies depended strongly on the host organism and reporter gene used. The export elements AL9 and BL1 were highly efficient in L. lactis in the expression and secretion of at least two heterologous proteins (Bacillus licheniformis -amylase and E. coli TEM--lactamase). AL9 even permitted growth of this organism on starch as the sole carbon source. Nucleotide sequence analysis of five selected fragments indicated that these encode oligopeptides with the major characteristics of typical signal peptides. The putative expression signals had a limited similarity to previously described expression signals for E. coli, B. subtilis and L. lactis. Differences in both expression and export efficiency are likely to underlie the host-specific effects.     

The base-alteration spectrum of spontaneous and ultraviolet radiation-induced forward mutations in the URA3 locus of Saccharomyces cerevisiae

Summary A forward mutation system has been developed to obtain rapidly clonable mutants at the URA3 locus in yeast by means of selection for 5-fluoroorotic acid resistance. We have used this system to determine base changes in 35 spontaneous and 34 ultraviolet radiation-induced ura3 base substitution mutants. Other mutants (frameshift, deletion, duplication, replacement) were detected as well. Evidence is reported which suggests cyclobutane dimers are the principal mutagenic lesions induced by UV radiation in stationary phase cells of the yeast Saccharomyces cerevisiae. Since most of the induced lesions are at 5-TT-3 sites, the results suggest that the A-rule, preferential insertion of adenine residues opposite poorly pairing sites in DNA, does not apply for yeast cells irradiated in stationary phase, whereas the spontaneous mutation data indicate that the A-rule applies for cells in logarithmic phase. Most of the spontaneous mutations are transversions. UV-induced transitions and transversions occur at approximately equal frequencies.     

Sequence and promoter analysis of the highly expressed TEF gene of the filamentous fungus Ashbya gossypii

Ashbya gossypii carries only a single gene (TEF) coding for the abundant translation elongation factor 1. Cloning and sequencing of this gene and deletion analysis of the promoter region revealed an extremely high degree of similarity with the well studied TEF genes of the yeast Saccharomyces cerevisiae including promoter upstream activation sequence (UAS) elements. The open reading frames in both species are 458 codons long and show 88.6% identity at the DNA level and 93.7% identity at the protein level. A short DNA segment in the promoter, between nucleotides -268 and -213 upstream of the ATG start codon, is essential for high-level expression of the A. gossypii TEF gene. It carries two sequences, GCCCATACAT and ATCCATACAT, with high homology to the UAS_rpg sequence of S. cerevisiae, which is an essential promoter element in genes coding for highly expressed components of the translational apparatus. UAS_rpg sequences are binding sites for the S. cerevisiae protein TUF, also called RAP1 or GRF1. In gel retardation with A. gossypii protein extracts we demonstrated specific protein binding to the short TEF promoter segment carrying the UAS_rpg homologous sequences.     

ThegrpD55 locus ofEscherichia coli appears to be an allele ofdnaB

Attempts to characterize thegrpD55 mutation ofEscherichia coli have led us to conclude that the gene had been assigned an incorrect map position. The mutation was found to cotransduce withmalF3089:: Tn10 (at 91.5 min) and adnaB-expressing plasmid was able to complement fully thegrpD55 defect in replication. These studies strongly suggest thatgrpD55 is an allele ofdnaB and is localized near 92 min on theE. coli linkage map.     

Functional assignment of Erwinia herbicola Eho10 carotenoid genes expressed in Escherichia coli

Erwinia herbicola is a nonphotosynthetic bacterium that is yellow pigmented due to the presence of carotenoids. When the Erwinia carotenoid biosynthetic genes are expressed in Escherichia coli, this bacterium also displays a yellow phenotype. The DNA sequence of the plasmid pPL376, carrying the entire Erwinia carotenoid gene cluster, has been found to contain 12 open reading frames (ORFs). Six of the ORFs have been identified as carotenoid biosynthesis genes that code for all the enzymes required for conversion of farnesyl pyrophosphate (FPP) to zeaxanthin diglucoside via geranylgeranyl pyrophosphate, phytoene, lycopene, -carotene, and zeaxanthin. These enzymatic steps were assigned after disruption of each ORF by a specific mutation and analysis of the accumulated intermediates. Carotenoid intermediates were identified by the absorption spectra of the colored components and by high pressure liquid chromatographic analysis. The six carotenoid genes are arranged in at least two operons. The gene coding for -carotene hydroxylase is transcribed in the opposite direction from that of the other carotenoid genes and overlaps with the gene for phytoene synthase.     

The dominant mutation Suppressor of black indicates that de novo pyrimidine biosynthesis is involved in the Drosophila tan pigmentation pathway

A deficiency in the production of -alanine causes the black (b) phenotype of Drosophila melanogaster. This phenotype is normalized by a semi-dominant mutant gene Su(b) shown previously to be located adjacent to or within the rudimentary (r) locus. The r gene codes for three enzyme activities involved in de novo pyrimidine biosynthesis. Pyrimidines are known to give rise to -alanine. However, until recently it has been unclear whether de novo pyrimidine biosynthesis is directly coupled to -alanine synthesis during the tanning process. In this report we show that flies carrying Su(b) can exhibit an additional phenotype, resistance to toxic pyrimidine analogs (5-fluorouracil, 6-azathymine and 6-azauracil). Our interpretation of this observation is that the pyrimidine pool is elevated in the mutant flies. However, enzyme assays indicate that r enzyme activities are not increased in Su(b) flies. Genetic mapping of the Su(b) gene now places the mutation within the r gene, possibly in the carbamyl phosphate synthetase (CPSase) domain. The kinetics of CPSase activity in crude extracts has been studied in the presence of uridine triphosphate (UTP). While CPSase from wild-type flies was strongly inhibited by the end-product, UTP, CPSase from Su(b) was inhibited to a lesser extent. We propose that diminished end-product inhibition of de novo pyrimidine biosynthesis in Su(b) flies increases available pyrimidine and consequently the -alanine pool. Normalization of the black phenotype results.     

Isolation and characterisation of transposon-induced mutants of Erwinia carotovora subsp. atroseptica exhibiting reduced virulence

Summary The blackleg pathogen Erwinia carotovora subsp. atroseptica (Eca) causes an economically important disease of potatoes. We selected a genetically amenable Eca strain for the genetic analysis of virulence. Tn5 mutagenesis was used to generate nine mutants which exhibited reduced virulence (Rvi^-) of strain SCRI1043. Following physiological characterisation, mutants were divided into three classes: (1) auxotrophs; (2) extracellular enzyme mutants; and (3) a growth rate mutant. The isolation of these Rvi^- mutants has allowed us to consider some factors that affect Eca virulence.     

ISL2, a new mobile genetic element in Lactobacillus helveticus

Spontaneous, phenotypically stable mutations at the -galactosidase locus (lacL-lacM) in Lactobacillus helveticus were identified and analyzed. We found that a significant number of mutations were caused by integration of a new IS element, ISL2, into these lac genes. ISL2 is 858 by long, flanked by 16-bp perfect inverted repeats and generates 3-bp target duplications upon insertion. It contains one open reading frame, which shows significant homology (40.1 % identity) to the putative transposase of IS702 from Cyanobacterium calothrix. ISL2 is present in 4–21 copies in the L. helveticus genome, but it is not found in other lactic acid bacteria. Its divergence in copy number and genomic locations in different L. helveticus strains makes it useful as a tool for strain identification by genetic fingerprinting.     

Ovarian development in Culex nigripalpus and its implication for disease transmission

Ovarian development was investigated in wild and colonized Culex nigripalpus Theobald females. Blood-seeking females with morphologically distinct nulliparous, parous and resorbed ovarian follicles (as opposed to females with degenerating follicles) were collected from the field all year, indicating year around gonoactivity. During the cooler months a larger number of females with resorbed follicles were collected from the field than in warmer months. Laboratory experiments showed that resorbed ovarian follicles occurred in sucrose fed females when deprived of a blood meal after emergence. These resorbed ovarian follicles were functional, since most of them began to develop and mature after the females took a blood meal to repletion. Among females fed a partial blood meal, some did not begin ovarian development and, therefore, exhibited gonotrophic dissociation. Females fed partial blood meals had similar patterns of ovarian development, irrespective of temperature at which they were maintained. Implications of occurrence of females with resorbed ovarian follicles and disease transmission are discussed.Supported in part by National Institutes of Health Research Grants No. A1-06587 and RR-07021. A contribution of the Florida Medical Entomology Laboratory, Vero Beach, Florida, Florida Agriculture Experimental Station Journal Series No. 2367     

Lambda red-mediated synthesis of plasmid linear multimers in Escherichia coli K12

Summary Expression of the red ⁺ and gam ⁺ genes of bacteriophage in plasmids cloned in Escherichia coli wild-type cells leads to plasmid linear multimer (PLM) formation. In mutants that lack exonuclease I (sbcB sbcC), either of these functions mediates PLM formation. In order to determine whether PLM formation in sbcB sbcC mutants occurs by conservative (break-join) recombination of circular plasmids or by de novo DNA synthesis, thyA sbcB sbcC mutants were transferred from thymine- to 5-bromo-2-deoxyuridine (BUDR)-supplemented medium, concurrently with induction of red ⁺ or gam ⁺ expression, and the density distribution of plasmid molecular species was analyzed. After a period of less than one generation in the BUDR-supplemented medium, most PLM were of heavy/heavy density. Circular plasmids, as well as chromosomal DNA, were of light/light or light/heavy density. These results indicate that Red or Gam activities mediate de novo synthesis of PLM in sbcB sbcC mutants. Examination of plasmid DNA preparations from sbcB sbcC mutants expressing gam ⁺ or red ⁺ reveals the presence of two molecular species that may represent intermediates in the PLM biosynthesis pathway: single-branched circles (-structures) and PLM with single-stranded DNA tails. While Gam-mediated PLM synthesis in sbcB mutants depends on the activity of the RecF pathway genes, Red-mediated PLM synthesis, like Red-mediated recombination, is independent of recA and recF activities. One of the red ⁺ products, protein, suppresses RecA deficiency in plasmid recombination and PLM synthesis in RecBCD^– Exol^– cells. The dependence of PLM synthesis on the RecE, RecF or Red recombination pathways and the dependence of plasmid recombination by these pathways on activities that are required for plasmid replication support the proposal that PLM synthesis and recombination by these pathways are mutually dependent. We propose the hypothesis that DNA double-stranded ends, which are produced in the process of PLM synthesis, are involved in plasmid recombination by the RecE, RecF and Red pathways. Conversely, recombination-dependent priming of DNA synthesis at 3 singles-tranded DNA ends is hypothesized to initiate PLM synthesis on circular plasmid DNA templates.Abbreviations PLM plasmid linear multimers - BUDR 5-bromo-2-deoxyuridine - bp base pair     

Induced transposition of Ds by a stable Ac in crosses of transgenic tobacco plants

Summary Rhizoxin and ansamitocin P-3 (a maytansinoid compound), potent inhibitors of mammalian brain tubulin assembly, inhibit growth of a variety of fungi including Aspergillus nidulans. Mutants of A. nidulans, benA10 which is a benomyl resistant -tubulin gene mutant and tubAl which is a benomyl supersensitive a-tubulin gene mutant, were both sensitive to rhizoxin and ansamitocin P-3 to the same extent as wild-type strains. We isolated 18 rhizoxin resistant mutants of A. nidulans. All of these mutants were cross-resistant to ansamitocin P-3, but not to benzimidazole antimitotic drugs. These mutants mapped to two loci, rhiA and rhiB, and all of those with high resistance mapped to rhiA. The fact that the protein extracts of rhiA mutants lost rhizoxin binding affinity and that rhiA was closely linked to benA, the major -tubulin gene in A. nidulans, indicated that rhiA must be a structural gene for -tubulin and that rhiA mutants are a new class of -tubulin gene mutants. All of this suggested that, in A. nidulans, these antimitotic drugs bind to -tubulin, and that rhizoxin and ansamitocin P-3 share the same binding site but the site does not overlap with the benzimidazole binding site. Protein extracts from a rhiB mutant retained rhizoxin binding affinity, therefore this rhizoxin resistance mechanism should not be a tubulin mediated process.     

Subdomain organization ofBacillus thuringiensis entomocidal proteins'' N-terminal domains

N-Terminal domain (65 kD) of -endotoxin produced byBacillus thuringiensis ssp.alesti, as shown by limited proteolysis, consists of two subdomains of molecular mass 30 and 33 kD that correspond, respectively, to conservative and variable regions of the -endotoxin primary structure. Furthermore, proteolysis of these subdomains leads to their conversion into at least two fragments of molecular mass 10 kD stable to proteinase action. Such a pattern of molecular organization appears to be common for several structurally related -endotoxins that belong to thekurstaki group. Entomicidal protein produced by ssp.israelensis (70 kD), which differs strongly fromalesti and otherkurstaki group -endotoxins, retains a similar type of molecular organization and consists of two subdomains with molecular mass of 35 kD. Apparently, the characteristic pattern of the -endotoxins' molecular structure reflects separation of functions (e.g., host recognition and toxicityper se) between domains and subdomains of these proteins.     

Levels of chromosomally encoded Umu proteins and requirements for in vivo UmuD cleavage

Summary Most of the inducible mutagenesis observed in Escherichia coli after treatment with many DNA damaging agents is dependent upon the products of the umuD,C operon. RecA-mediated proteolytic processing of UmuD yields a carboxyl-terminal fragment (UmuD) that is active for mutagenesis. Processing of UmuD is therefore a critical step in the fixation of mutations. In this paper we have analyzed the requirements for UmuD processing in vivo. Standard immuno-detection assays, coupled with a sensitive chemiluminescence detection assay, have been utilized to probe levels of chromosomally encoded Umu proteins from whole-cell E. coli extracts. We found that the derepression of additional SOS gene products, other than RecA, was not required for UmuD processing. Moreover, efficient cleavage of UmuD was observed only in the presence of elevated levels of activated RecA, suggesting that efficient processing would occur only under conditions of severe DNA damage. Detection of chromosomally encoded Umu proteins has allowed us, for the first time, to measure directly the cellular steady-state levels of these proteins under various SOS inducing conditions. UmuD was present at 180 copies per uninduced cell and was measured at 2400 copies per cell in strains that lacked a functional repressor. Induced levels of UmuC were approximately 12-fold lower than UmuD with 200 molecules per cell. These levels of cellular UmuC protein suggest that it functions through specific protein-DNA or protein-protein interactions, possibly as a lesion recognition protein or by interacting with DNA polymerase III.     

Isolation and molecular characterization of dTnp1, a mobile and defective transposable element of Nicotiana plumbaginifolia

By Northern blot analysis of nitrate reductase-deficient mutants of Nicotiana plumbaginifolia, we identified a mutant (mutant D65), obtained after -ray irradiation of protoplasts, which contained an insertion sequence in the nitrate reductase (NR) mRNA. This insertion sequence was localized by polymerase chain reaction (PCR) in the first exon of NR and was also shown to be present in the NR gene. The mutant gene contained a 565 by insertion sequence that exhibits the sequence characteristics of a transposable element, which was thus named dTnp1. The dTnp1 element has 14 by terminal inverted repeats and is flanked by an 8-bp target site duplication generated upon transposition. These inverted repeats have significant sequence homology with those of other transposable elements. Judging by its size and the absence of a long open reading frame, dTnp1 appears to represent a defective, although mobile, transposable element. The octamer motif TTTAGGCC was found several times in direct orientation near the 5 and 3 ends of dTnp1 together with a perfect palindrome located after the 5 inverted repeat. Southern blot analysis using an internal probe of dTnp1 suggested that this element occurs as a single copy in the genome of N. plumbaginifolia. It is also present in N. tabacum, but absent in tomato or petunia. The dTnp1 element is therefore of potential use for gene tagging in Nicotiana species.