Sequence Analysis of Mutations Arising during Prolonged Starvation of Salmonella Typhimurium

We have examined the effects of prolonged histidine deprivation on the reversion of Salmonella typhimurium histidine auxotrophs containing either hisG46, a missense mutation (CTC----CCC), or hisG428, an ochre mutation (CAA----TAA). Both of these mutants can revert to His+ via intragenic and extragenic mechanisms. Whereas the hisG46 mutant site consists of G/C base pairs, extragenic suppression of hisG46 requires mutation at an A/T site. Conversely, the hisG428 site itself contains only A/T base pairs, and extragenic suppression of hisG428 occurs principally at G/C sites. Thus, by examining the mutational spectrum of hisG46 and hisG428 revertants that occurred in the presence and in the absence of histidine, it was possible to determine the effects of histidine starvation on mutations at G/C vs. A/T sites as well as on intragenic sites vs. extragenic suppressor sites. Using DNA-colony hybridization, we determined the DNA sequences of over 1300 hisG46 and hisG428 revertants. Histidine-independent revertants that arose during growth in liquid medium that contained histidine included both intragenic and extragenic suppressor mutations. The relative frequency of such extragenic suppressors was greatly reduced among the His+ revertants that were isolated after 5-10 days of histidine starvation on agar medium. Moreover, DNA sequence analysis revealed striking differences in the distribution of particular transversions at the hisG428 locus in revertants arising after prolonged histidine starvation as compared to those arising after growth in the presence of histidine.     

Influence of uvrB and pKM101 on the spectrum of spontaneous, UV- and gamma-ray-induced base substitutions that revert hisG46 in Salmonella typhimurium

Oligonucleotide probes were used to identify base substitutions in 1089 revertants of hisG46 in Salmonella typhimurium that arose spontaneously or following irradiation with UV- or gamma-rays. The hisG46 allele, carrying a mutant CCC codon (Pro) in place of the wild-type codon CTC (Leu69) reverted via 6 distinguishable mutational events--C to T transitions at codon sites 1 or 2, C to A or C to G transversions at codon site 1, C to A at codon site 2, and an extragenic suppressor mutation. The distribution of hisG46 revertants differed among treatments and was influenced by the DNA-repair capacity of the bacteria. Plasmid pKM101 enhanced the frequencies of both spontaneous and induced mutations; transversion events were enhanced more efficiently by pKM101 than were transition events. Compared to Uvr+ bacteria, Uvr- bacteria had higher frequencies of spontaneous and induced mutations; transition mutations were enhanced more efficiently than were transversion mutations. The influence of DNA-repair activities on the mutational spectra provides some insights on the origins of spontaneous and UV-induced mutations.     

trans-Recessive mutation in the first structural gene of the histidine operon that results in constitutive expression of the operon.

The first enzyme for histidine biosynthesis, encoded in the hisG gene, is involved in regulation of expression of the histidine operon in Salmonella typhimurium. The studies reported here concern the question of how expression of the histidine operon is affected by a mutation in the hisG gene that alters the allosteric site of the first enzyme for histidine biosynthesis, rendering the enzyme completely resistant to inhibition by histidine. The intracellular concentrations of the enzymes encoded in the histidine operon in a strain carrying such a mutation on an episome and missing the chromosomal hisG gene are three- to fourfold higher than in a strain carrying a wild-type hisG gene on the episome. The histidine operon on such a strain fails to derepress in response to histidine limitation and fails to repress in response to excess histidine. Furthermore, utilizing other merodiploid strains, we demonstrate that the wild-type hisG gene is trans dominant to the mutant allele with respect to this regulatory phenomenon. Examination of the regulation of the histidine operon in strains carrying the feedback-resistant mutation in an episome and hisT and hisW mutations in the chromosome showed that the hisG regulatory mutation is epistatic to the hisT and hisW mutations. These data provide additional evidence that the first enzyme for histidine biosynthesis is involved in autogenous regulation of expression of the histidine operon.     

Two Mutations in the First Gene of the Histidine Operon of Salmonella typhimurium Affecting Control

Two strains with mutations in the first structural gene of the histidine operon of Salmonella typhimurium were characterized. (The first structural gene specifies the first enzyme of histidine biosynthesis, phosphoribosyltransferase, which is sensitive to feedback inhibition by histidine.) One mutation, hisG3934, results in a phosphoribosyltransferase which is no longer sensitive to feedback inhibition by histidine but is instead subject to inhibition by aspartic acid. The other mutation, hisG3935, allows the histidine operon to be partially repressed by several amino acids, including aspartic acid. Analysis of hisG3935 is consistent with the hypothesis that phosphoribosyltransferase is directly involved in the regulation of the histidine operon.     

一个46,XY"女性"不育症家系的遗传学分析

运用常规的染色体G带分析和基因分析技术对-46,XY男性女性化家系进行遗传学分析,发现：先证者及其妹妹的染色体核型为46,XY,其母亲和父亲的核型正常;对睾丸决定基因（SRY）和雄激素受体基因（AR）进行突变检测,在SRY基因的整个编码区中没有发现突变,而AR基因的第7个外显子的第840个密码子由CGT（编码精氨酸）变为CAT（编码组氨酸）,这一改变可能是导致核型为46,XY女性化而发生不育。     

Mutations in Salmonella typhimurium recovered from livers and spleens of mice

Balb/c mice were inoculated intraperitoneally with TA2662, a smooth derivative of the Salmonella typhimurium Ames tester strain (TA102) which carries the mutable hisG locus on a multicopy plasmid, or TA103, which carries the same hisG gene on the chromosome. The bacteria were recovered at various times from the livers and spleens of the infected mice. Total numbers of bacteria were determined and the mutant frequency was estimated. The frequency of occurrence of histidine prototrophs in experiments using TA2662 was substantially above the frequency found with this strain grown in vitro. The mutant frequencies in experiments using TA103 recovered from mice were also highly significantly increased above background. We did not identify factors which might suggest selection in vivo for histidine prototrophs. There is sufficient histidine in body fluids of the host for the growth of His- bacteria. The His- and His+ derivatives were found to grow equally well in vitro in the presence of amounts of histidine approximating concentrations known to exist in vivo. It is probable that mutations in TA2662 are greatly underestimated, since the hisG-containing plasmid is lost at relatively high frequency during incubation in a variety of conditions.     

Cloning and expression of the histidine operon of Salmonella typhimurium in cells of Escherichia coli

The histidine operon of Salmonella typhimurium and its fragments were cloned in Escherichia coli cells on a multicopy plasmid. Expression of the cloned genes and histidine production by the variants possessing the hisG mutation which desensibilizes the ATP phosphoribosyl transferase for histidine were studied. Amplification of the complete operon including the hisG gene enables histidine accumulation of 2-3 g/l after 72 hours of fermentation.     

Genetic Analysis of a Family with 46, XY “Female” Associated with Infertility

Genetic analysis of a family with 46, XY “female” associated with infertility was performed using the conventional G-banding and gene mutation screening. The karyotypes of the two female patients were 46, XY and those of their parents were normal. The mutation screenings in sex-determining region Y (SRY) gene and androgen receptor (AR) gene were carried out. No mutation has been found in the whole coding sequence of SRY gene. The mutation of codon 840 CGT (arginine) to CAT (histidine) of AR gene led to the infertility in the patients. The patients showed androgen insensitivity. The clinical phenotype of theirs presented more deleteriously than and different from the one reported before, though they had the same mutation of codon 840 CGT (arginine) to CAT (histidine) of AR gene, which was very different from the mutation of 840 CGT (arginine) to TGT (cysteine) at the same codon.     

The role of the excision and error-prone repair systems in mutagenesis by fluorinated quinolones in Salmonella typhimurium.

Patterns of reversion produced by ciprofloxacin, enoxacin and ofloxacin in Salmonella typhimurium strains carrying the hisG428 ochre mutation have been studied. These fluorinated quinolones produce a significant increase in reversion of this mutation, even when it is located on the chromosome. Nevertheless, reversion is higher when the hisG428 mutation is on the multicopy plasmid pAQ1 than when it is on the chromosome. Reversion of hisG428 induced by fluorinated quinolones is abolished both in a uvrB genetic background and in the absence of the plasmid pKM101. Therefore, mutagenesis produced by fluorinated quinolones in the Salmonella mutagenicity assay is significantly affected by both the excision repair and the error-prone repair systems. Furthermore, fluorinated quinolones are also detected as moderate mutagens with the base substitution hisG46 mutation when both repair systems are functional in the tester strain.     

tRNA(2Gln) mutants that translate the CGA arginine codon as glutamine in Escherichia coli.

We present a novel missense suppression system for the selection of tRNA(2GIn) mutants that can efficiently translate the CGA (arginine) codon as glutamine. tRNA(2Gln) mutants were cloned from a partially randomized synthetic gene pool using a plasmid vector that simultaneously expresses the tRNA gene and, to ensure efficient aminoacylation, the glutamine aminoacyl-tRNA synthetase gene (glnS). tRNA mutants that insert glutamine at CGA were selected as missense suppressors of a lacZ mutant (lacZ625(CGA)) that contains CGA substituted for an essential glutamine codon. Preliminary characterizations of four suppressors is presented. All of them contain two anticodon mutations: C-->U at position 34 and U-->C at position 35, which allow for cognate translation of CGA. U35 was previously shown to be an important determinant for glutaminylation of tRNA(2Gln) in vitro; suppression in vivo requires overexpression of the glutaminyl-tRNA synthetase gene (glnS). One tRNA variant contains no further mutations and has the highest missense suppression activity (8%). Three other isolates each contain an additional point mutation that alters suppression efficiency. This system will be useful for further studies of tRNA structure and function. In addition, because relatively efficient translation of the rare CGA codon as glutamine is not toxic for Escherichia coli, it may be possible to translate this sense codon with other alternate meanings, a property which could greatly facilitate protein engineering.     

Characterization of a Cold-Sensitive hisW Mutant of Salmonella typhimurium

A cold-sensitive mutant of Salmonella typhimurium LT2 that grows at 37 C but not at 20 C has altered repression regulation in at least two amino acid biosynthetic pathways (histidine and isoleucine). The lesion conferring cold sensitivity that is linked with hisW is recessive. Assays for the acceptance of some amino acids by transfer ribonucleic acid (tRNA) reveal a decreased ability of the mutant tRNA to accept arginine, phenylalanine, and histidine. A mutation in a gene for tRNA maturation is a likely possibility for the mutation producing these effects on growth, regulation, and amino acid acceptance.     

Suppression of Amber and Ochre Mutants in Salmonella typhimurium by a Mutant F′-1-gal Factor Carrying an Ochre Suppressor Gene

A Salmonella typhimurium strain was given the amber mutation hisC527 by transduction, made galactose-negative by mutation, then infected with the F'-1-gal factor. Of 107 spontaneous and mutagen-induced histidine-independent mutants tested, 3 proved to result from suppressor mutations within the F' factor. The mutant F' factors, when transferred to S. typhimurium and E. coli auxotrophs, suppressed amber and ochre but not UGA or missense mutants, and are inferred to carry ochre suppressor genes. Attempts to isolate an F' amber suppressor mutant were unsuccessful. A suppressor F' factor was transferred to 14 rough mutants which had been isolated from LT2 hisC527 (amber) by selection for resistance to phage P22.c2. One rough mutant was partly suppressed, as shown by its acquisition of O agglutinability and by alterations in its phage resistance pattern. Phage P22h grown on the suppressed mutant contransduced its rf. gene with cysE(+) and with pyrE(+), and the affected locus is inferred to be rfaL. Both the original and the mutant F' factors conferred resistance to the rough-specific phage Br60, which is therefore "female-specific."     

The role of the excision and error-prone repair systems in mutagenesis by fluorinated quinolones in Salmonella typhimurium

Patterns of reversion produced by ciprofioxacin, enoxacin and ofloxacin in Salmonella typhimurium strains carrying the hisG428 ochre mutation have been studied. These fluorinated quinolones produce a significant increase in reversion of this mutation, even when it is located on the chromosome. Nevertheless, reversion is higher when the hisG428 mutation is on the multicopy plasmid pAQ1 than when it is on the chromosome. Reversion of hisG428 induced by fluorinated quinolones is abolished both in a uvrB genetic background and in the absence of the plasmid pKM101. Therefore, mutagenesis produced by fluorinated quinolones in the Salmonella mutagenicity assay is significantly affected by both the excision repair and the error-prone repair systems. Furthermore, fluorinated quinolones are also detected as moderate mutagens with the base substitution hisG46 mutation when both repair systems are functional in the tester strain.     

Association of TP53 gene codon 72 polymorphism with endometriosis in Mexican women

The TP53 tumor suppressor gene plays an important role in cell cycle regulation; polymorphisms of this gene have been associated with endometriosis. We examined the role of TP53 codon 72 polymorphism by comparing genotypes of 235 healthy Mexican women (controls with surgically excluded endometriosis) with the genotypes of 151 Mexican women with endometriosis. The observed genotype frequencies for controls and endometriosis patients were 8 and 22% for proline/proline (Pro/Pro), 30 and 34% for proline/arginine (Pro/Arg), and 62 and 44% for arginine/arginine (Arg/Arg), respectively. We found that odds ratio (OR) = 3.3; 95% confidence intervals (95%CI) = 1.7-6.4; P = 0.0001. The association was also evident in the comparison of the distributions of genotypes Pro/Pro and Pro/Arg in patients with moderate-to-severe endometriosis; OR = 1.9; 95%CI = 0.95-3.9; P = 0.049. We suggest that genotype Pro/Pro of codon 72 polymorphism in TP53 contributes significantly to endometriosis susceptibility in the Mexican population.     

Molecular defects in Drosophila rhodopsin mutants

Four well characterized Drosophila rhodopsin (ninaE) mutants possess low levels of rhodopsin in their major class of photoreceptors. The molecular defect present in each strain was determined by isolating and sequencing the mutant genes. Two missense mutants encode proteins which have arginine residues positioned within membrane-spanning domains. The third missense mutant eliminates a proline found near an extracellular domain/membrane-spanning domain interface. Thus, the low levels of rhodopsin protein found in these mutants result directly from changes in protein structure which likely affect the positioning and stability of membrane-spanning domains. The fourth and most severe mutation is a nonsense mutation.     

Expected frequencies of codon use as a function of mutation rates and codon fitnesses

Summary A method is shown to determine the expected pattern of codon use for any given set of mutation rates between nucleotides and any set of fitnesses for the codons. If it is assumed that mutations to stop codons are lethal then those codons which can mutate in one step to a stop codon tend to be used less frequently. This tendency is however, a very small one and is not likely to be observable within a single gene. Nor is it necessarily a general tendency. For example, the leucine pretermination codons may be used preferentially when mutations to proline are deleterious. It is shown that different mutation rates (eg: transitions occuring more frequently than transversions) may have as large an effect on codon usage as would strong selection for particular codons. For the model presented, an increase in the rate of transitions strongly decreases the expected frequency of UGG and CRR codons. Other codes are moderately affected by such a change in the mutation rates. Many other models can be examined using this method.     

Isolation and mapping of a uracil-sensitive mutant of Salmonella typhimurium

Summary A uracil-sensitive mutant of Salmonella typhimurium was isolated by diethyl sulfate mutagenesis and penicillin counterselection. This mutation identifies a new Salmonella gene that is well separated from the structural genes for arginine and pyrimidine biosynthesis. The use-1 mutation was located between the ilv gene cluster (isoleucine-valine operon) and hisR (structural gene for histidine tRNA) at 83 map units.     

Chediak-Higashi syndrome mutation and genetic testing in Japanese black cattle (Wagyu)

Chediak-Higashi Syndrome (CHS) is an autosomal recessive disorder that affects several species including mice, humans, and cattle. Evidence based on clinical characteristics and somatic cell genetics suggests that mutations in a common gene cause CHS in the three species. The CHS locus on human chromosome 1 and mouse chromosome 13 encodes a lysosomal trafficking regulator formerly known as LYST, now known as CHS1, and is defective in CHS patients and beige mice, respectively. We have mapped the CHS locus to the proximal region of bovine chromosome 28 by linkage analysis using microsatellite markers previously mapped to this chromosome. Furthermore, we have identified a missense A:T-->G:C mutation that results in replacement of a histidine with an arginine residue at codon 2015 of the CHS1 gene. This mutation is the most likely cause of CHS in Wagyu cattle. In addition, we describe quick, inexpensive, PCR based tests that will permit elimination of the CHS mutation from Wagyu breeding herds.