Precise physical mapping of theEscherichia coli rnb gene,encoding ribonuclease II

Ribonuclease II (encoded byrnb) is one of the two main exonucleases involved in mRNA degradation inEscherichia coli. We report the precise physical mapping ofrnb to 29 min on the chromosomal map in the vicinity ofpyrF, and clarify the genetic and physical maps of thisE. coli chromosomal region. The results were confirmed by the construction of a strain partially deleted forrnb.     

Location of the ompT gene relative to that of appY on the physical map of the Escherichia coli chromosome

Results concerning the precise location of the ompT gene (encoding the outer membrane protease OmpT) on the Escherichia coli chromosome were obtained which disagree with published restriction sites in the gene. It is shown that the gene, together with appY, is present on a 3.075 PstI fragment, encompassing positions 596–598 of the E. coli physical map.     

Unusual characteristics of Codium fragile chloroplast DNA revealed by physical and gene mapping

Summary A complete physical map of the Codium fragile chloroplast genome was constructed and the locations of a number of chloroplast genes were determined. Several features of this circular genome are unusual. At 89 kb in size, it is the smallest chloroplast genome known. Unlike most chloroplast genomes it lacks any large repeat elements. The 8 kb spacer region between the 16 S and 23 S rRNA genes is the largest such spacer characterized to date in chloroplast DNA. This spacer region is also unusual in that it contains the rps12 gene or at least a portion thereof. Three regions polymorphic for size are present in the Codium chloroplast genome. The psbA and psbC genes map closely to one of these regions, another region is in the spacer between the 16 S and 23 S rRNA genes and the third is very close to or possibly within the 16 S rRNA gene. The gene order in the Codium genome bears no marked resemblance to either the consensus vascular plant order or to that of any green algal or bryophyte genome. Present address: Department of Biology, Texas A&M University, College Station, TX 77843; USA     

Genetic and physical characterization of putP, the proline carrier gene of Escherichia coli K12

Summary Two new mutants of E. coli K12, strains PT9 and PT32 were isolated, that were defective in proline transport. They had no high affinity proline transport activity, but their cytoplasmic membranes retained proline binding activity with altered sensitivity to inhibition by p-chloromercuribenzoate(pCMB). The lesion was mapped at the putP gene, which is located at min 23 on the revised E. coli genetic map (Bachmann 1983) as a composite gene in the proline utilization gene cluster, putP, putC, and putA, arranged in this order. The putC gene was shown to regulate the synthesis of proline dehydrogenase (putA gene product).Hybrid plasmids carrying the put region (Motojima et al. 1979; Wood et al. 1979) were used to construct the physical map of the put region. The possible location of the putP gene in the DNA segment was determined by subcloning the putP gene, genetic complementation, and recombination analyses using several proline transport mutants.Abbreviations pCMB p-chloromercuribenzoate - DM Davis and Mingioli - Ap ampicillin - NTG N-methyl-N-nitro-N-nitrosoguanidine - EMS ethylmethane sulfonate - Str streptomycin - Tet tetracycline - Ac l-azetidine-2-carboxylic acid - DHP 3, 4-dehydro-d,l-proline - MTT 3-(4,5-dimethyl-2)2,5-diphenyl tetrazolium bromide - Tris tris(hydroxymethyl)aminomethane - EDTA ethylenediamine tetraacetic acid - Kan kanamycin - Spc spectinomycin     

RifR mutations in the beginning of the Escherichia coli rpoB gene

In Escherichia coli, mutations conferring rifampicin (Rif) resistance map to the rpoB gene, which encodes the 1342-amino acid subunit of RNA polymerase. Almost all sequenced RifR mutations occur within the Rif region, encompassing rpoB codons 500–575. A strong Rif^R mutation lying outside the Rif region, which changed Val¹⁴⁶ to Phe was previously reported, but was not recovered in subsequent studies. Here, we used site-directed mutagenesis followed by selection on Rif to search for Rif^R mutations in the evolutionarily conserved segment of rpoB around codon 146. Strong Rif^R mutations were obtained when Val¹⁴⁶ was mutated, and several weak Rif^R mutations were also isolated near position 146. The results define a new, N-terminal cluster of Rif^R mutations, in addition to the classical central Rif region.     

Genetic mapping of phe V, an Escherichia coli gene for tRNAPhe

Summary We report the physical and genetic mapping of pheV, an Escherichia coli gene for phenylalanine tRNA, to 64 min on the chromosomal map in the near vicinity of speC coding for ornithine decarboxylase.     

Micrococcus luteus homolog of theEscherichia coli uvrA gene: Identification of a mutation in the UV-sensitive mutant DB7

Summary Restriction fragments ofMicrococcus luteus DNA containing the gene affected by a mutation in the UV-sensitive mutant DB7 were cloned both from the wild type and from the mutant in anEscherichia coli host-vector system. The wild-type fragment was able to reverse the multiple sensitivity of the mutant to UV, mitomycin C, and 4-nitroquinoline 1-oxide by a one-step transformation. Determination of the nucleotide sequences revealed a potential open reading frame coding for a protein of 992 (tentative) amino acid residues, within which the DB7 mutation was identified as a CG-to-TA transition causing a translation termination. The putative product of the open reading frame shares an extensive amino acid sequence homology with theE. coli UvrA protein comprising 940 residues. The homology extends over the greater part of both polypeptides except for two extra sequences of 31 and 24 amino acid residues located at the amino-terminal and in the interior, respectively, of theM. luteus protein. In the homologous region, 56.7% and 16.7% of the 933 pairs of the aligned amino acids were accounted for by conserved residues and conservative substitutions, respectively. These results indicate that the gene defined by the mutation in DB7 represents a homolog of theE. coli uvrA gene. Hence, it has to be concluded that DB7, known for its deficiency in UV endonuclease (pyrimidine dimer DNA glycosylase/apurinic-apyrimidinic endonuclease) activity, is a double mutant which is also defective in an enzyme complex similar to theE. coli UvrABC excinuclease. Dedicated to the memory of Shunzo Okubo (1930–1978), who considered the possibility of a double-mutant status for the mutant DB7 most seriously     

Genetic and physical mapping of an hydrogenase gene cluster from Rhodobacter capsulatus

Summary An hydrogenase-deficient (Hup^–) mutant of Rhodobacter capsulatus was obtained by adventitious insertion of IS21 DNA into an hydrogenase structural gene (hup) of the wild-type strain 1310. The resulting Hup^– mutant, strain JP91, selected by its inability to grow autotrophically (Aut^– phenotype) together with other Hup^– mutant strains obtained by classical ethyl methane sulphonate mutagenesis were used in R plasmid-mediated conjugation experiments to map the hup/aut loci on the chromosome of R. capsulatus. The hup genes tested in this study were found to cluster on the chromosome in the proximity of the his-1 marker. A cluster of hup genes comprising the structural genes was isolated from a gene bank constructed in the cosmid vector pHC79 with 40 kb insert DNA. The clustered hup genes, characterized by hybridization studies and complementation analyses of the R. capsulatus Hup^– mutants, span 15–20 kb of DNA.     

Requirement of the Escherichia coli dnaA gene function for integrative suppression of dnaA mutations by plasmid R100-1

Summary The phenotype of Escherichia coli dnaA missense and nonsense mutations was integratively suppressed by plasmid R100-1. The suppressed strains, however, could not survive when the dnaA function was totally inactivated. This was demonstrated by the inability of replacing the dnaA allele in the suppressed strain by a dnaA::Tn10 insertion using phage P1-mediated transduction. When the intact dnaA ⁺ allele was additionally supplied by a specialized transducing phage, imm ²¹ dnaA ⁺, which integrated at the att site on the E. coli chromosome, then the dnaA::Tn10 insertion, together with a oriC deletion, were able to be introduced into the suppressed strain. Thus, the mechanisms of dnaA function for oriC and for the replication origin of R100-1 may not be quite the same.     

A new Escherichia coli gene, fdrA, identified by suppression analysis of dominant negative FtsH mutations

An Escherichia coli membrane protein, FtsH, has been implicated in several cellular processes, including integration of membrane proteins, translocation of secreted proteins, and degradation of some unstable proteins. However, how it takes part in such diverse cellular events is largely unknown. We previously isolated dominant negative ftsH mutations and proposed that FtsH functions in association with some other cellular factor(s). To test this proposal we isolated multicopy suppressors of dominant negative ftsH mutations. One of the multicopy suppressor clones contained an N-terminally truncated version of a new gene that was designated fdrA. The FdrA fragment suppressed both of the phenotypes — increased abnormal translocation of a normally cytoplasmic domain of a model membrane protein and retardation of protein export — caused by dominant negative FtsH proteins. The intact fdrA gene (11.9 min on the chromosome) directed the synthesis of a 60 kDa protein in vitro.     

Cloning, sequencing and analysis of a gene encoding Escherichia coli proline dehydrogenase

Abstract Using a genomic subtraction technique, we cloned a DNA sequence that is present in wild-type Escherichia coli strain CSH4 but is missing in a presumptive proline dehydrogenase deletion mutant RM2. Experimental evidence indicated that the cloned fragment codes for proline dehydrogenase (EC 1.5.99.8) since RM2 cells transformed with a plasmid containing this sequence was able to survive on minimal medium supplemented with proline as the sole nitrogen and carbon sources. The cloned DNA fragment has an open reading frame of 3942 bp and encodes a protein of 1313 amino acids with a calculated M _r of 143 808. The deduced amino acid sequence of the E. colli proline dehydrogenase has an 84.9% homology to the previously reported Salmonella typhimurium putA gene but it is 111 amino acids longer at the C-terminal than the latter.     

Escherichia coli parA is an allele of the gyrB gene

Summary A thermosensitive (ts) parA mutant, MFT110, of Escherichia coli carried at least two ts mutations. The major ts defect, resulting from a mutation mapped originally at 95 min and complemented by pLC8-47, was most probably due to psd. A plasmid carrying the 1.6 kb BamHI-PvuII fragment recloned from pLC8-47 complemented the major ts mutation in MFT110 and psd(ts) in two mutants, but did not correct the Par phenotype of MFT110. The second ts mutation was salt-repairable and mapped at 83 min close to recF and tnaA. This mutation was linked with the Par phenotype as shown unambiguously by 4,6-diamidino-2-phenylindole stained nucleoids in parA mutant cells with the W3110 genetic background. Both salt-repairable ts and Par traits were corrected concomitantly by a plasmid carrying the chromosomal region solely for the gyrB gene. This strongly suggests that parA is an allele of gyrB.     

Mutational specificity of thymine deprivation-induced mutation in the lacI gene of Escherichia coli

LacI⁻ mutants obtained following 2 and 6 h of thymine deprivation were cloned and sequenced. The mutational spectra recovered were dissimilar. After 2 h of starvation the majority of mutations were base substitutions, largely G: C→C: G transversions. Frameshift mutations but not deletions were observed. In contrast, following 6 h of starvation, with the exception of the G: C→C: G transversion, all possible base substitutions were recovered. Moreover, several deletions but no frameshift events were observed. The differences in the mutational spectra recovered after two periods of thymine deprivation highlight the role of altered nucleotide pools and the potential influence of DNA replication mechanisms.     

Karyotype analysis and physical mapping of 45S rDNA in eight species of Sophora, Robinia , and Amorpha

The karyotype analysis and physical locations of 45S rDNA were carried out by means of fluorescence in situ hybridization in three species, and two forms of Sophora, two species of Robina, and one species of Amorpha. S. japonica L., S. japonica L. f. oligophylla Franch., S. japonica L. f. pendula Loud., and S. xanthantha C. Y. Ma. are all tetraploids with 2n = 28. There were four 45S rDNA sites in pericentromeric regions of two pairs of chromosomes in each of them. S. rubriflora Tsoong. is a triploid with 2n = 21, and three sites were located in each satellite of group 5 chromosomes. In R. pseudoacacia L. (2n = 2x = 22), we examined four intensive signals in telomeric regions of two pairs of satellite chromosomes. In R. hispida L. (2n = 2x = 30), there were four other signals in centromeric regions besides those like in R. pseudoacacia. Amorpha fruticosa L. has most chromosomes (2n = 40) among the eight materials, however, there were only six 45S rDNA loci and they laid in centromeric regions, and satellites of three pairs of chromosomes. 45S rDNA is a valuable chromosomal landmark in karyotype analysis. The distribution and genomic organization of rDNA in the three genera were also discussed. __________ Translated from Acta Botanica Yunnanica, 2005, 27(3): 261–268 [译自: 云南植物研究, 2005, 27(3): 261–268]     

Selective cloning of genes encoding RNase H from Salmonella typhimurium, Saccharomyces cerevisiae and Escherichia coli rnh mutant

Summary We have cloned genes encoding RNase H from Escherichia coli rnh mutants, Salmonella typhimurium and Saccharomyces cerevisiae. Selection was accomplished by suppression of the temperature-sensitive growth phenotype of Escherichia coli strains containing the rnh-339::cat and either recB270 (Ts) or recC271 (Ts) mutations. RNases H from E. coli and S. typhimurium contained 155 amino acid residues and differed at only 11 positions. The S. cerevisiae and E. coli RNases H were about 30% homologous. A comparison of the amino acid sequences of several RNases H from cellular and retroviral sources revealed some strongly conserved regions as well as variable regions; the carboxyl-terminus was particularly variable. The overlapping, divergent promoter gene organization found in E. coli was observed to be present in S. typhimurium.     

编码腈水解酶的大豆疫霉基因PsNIA的克隆与转录分析

包括大豆在内的许多植物都可以产生氰化物,对侵染的病原菌产生毒害作用而阻碍其进一步扩展。采用抑制性差减杂交(suppression subtractive hybridization,SSH)的方法,筛选到一个在大豆疫霉侵染早期上调表达的、编码腈水解酶的cDNA片段;克隆了该基因的全长序列,命名为PsNIA。Southern杂交结果显示,PsNIA在大豆疫霉基因组中只有1个拷贝。系统发育分析表明,PsNIA与绿脓杆菌Pseudomonas aeruginosa的腈水解酶的序列同源性最高,且该基因编码的氨基酸序列具有腈水解酶的保守结构域。RT-PCR分析表明,该基因在大豆疫霉侵染大豆12h时可以检测到转录。     

编码腈水解酶的大豆疫霉基因PsNIA的克隆与转录分析

包括大豆在内的许多植物都可以产生氰化物,对侵染的病原菌产生毒害作用而阻碍其进一步扩展。采用抑制性差减杂交(suppression subtractive hybridization,SSH)的方法,筛选到一个在大豆疫霉侵染早期上调表达的、编码腈水解酶的cDNA片段;克隆了该基因的全长序列,命名为PsNIA。Southern杂交结果显示,PsNIA在大豆疫霉基因组中只有1个拷贝。系统发育分析表明,PsNIA与绿脓杆菌Pseudomonas aeruginosa的腈水解酶的序列同源性最高,且该基因编码的氨基酸序列具有腈水解酶的保守结构域。RT-PCR分析表明,该基因在大豆疫霉侵染大豆12h时可以检测到转录。