Strong evolutionary conservation of broadly expressed protein isoforms in the troponin I gene family and other vertebrate gene families

The sequences of the adenylate kinase gene (adk) and the RecA gene (recA) were determined from the same isolates ofNeisseria gonorrhoeae, N. meningitidis, N. lactamica, N. polysaccharea, N. cinerea, N. mucosa, N. pharyngis var.flava, N. flavescens, andN. animalis. The patterns of sequence divergence observed atadk andrecA were very different. Dendrograms constructed from therecA data using two different algorithms were statistically robust and were congruent with each other and with the relationships between the species previously proposed using other data. In contrast, the dendrograms derived from theadk data were noncongruent with each other, and with those from therecA data, and were statistically poorly supported. These results, along with the uniform distribution of pairwise sequence divergences between the species atadk, suggest there has been a history of interspecies recombination within theadk gene of the humanNeisseria species which has obscured the phylogenetic relationships between the species. This view was supported by Sawyer's runs test, and the Index of Association (I_A) between codons, which provided significant evidence for interspecies recombination between theadk genes from the humanNeisseria species, but no evidence of interspecies recombination between therecA sequences.     

Cloning and characterization of an adenosine kinase from Physcomitrella involved in cytokinin metabolism

Adenosine kinase (adk) from the moss Physcomitrella patens (Hedw.) B.S.G. was cloned from a cDNA library by functional complementation of an Escherichia coli purine auxotrophic strain. The length of the entire cDNA clone was 1175 bp with an open reading frame coding for a protein with a predicted molecular weight of 37.3 kDa. Southern analysis indicated the presence of a single adenosine kinase gene within the Physcomitrella genome. The deduced amino acid sequence had a 52% identity with the human adenosine kinase. The transfer of phosphate from ATP to adenosine resulting in AMP, as well as the phosphorylation of the cytokinin, isopentenyladenosine, to isopentenyladenosine monophosphate, was shown by in vitro enzyme assays using crude extracts from E. coli mutants expressing the adk cDNA clone and from Physcomitrella chloronemal tissue. Results from in vivo feeding of chloronemal tissue with tritiated isopentenyladenosine suggest that adenosine kinase plays an important role in the conversion of cytokinins towards their nucleotides in Physcomitrella.     

Temperature sensitive initiation of DNA synthesis in a mutant of Salmonella typhimurium

Summary A mutant (dna-1) of Salmonella typhimurium defective in DNA synthesis is described. DNA synthesis is stopped in this mutant at 42° after a residual synthesis amounting to about 50 to 60% of the total cellular DNA in minimal medium and about 120 to 200% in a medium enriched with amino acids. Reshift back to permissive temperature after the inhibition of DNA synthesis at 42° allows for recovery of DNA synthesis after a lag of about 30 min. Protein synthesis is required during that lag for the recovery of DNA synthesis at permissive temperature. The density transfer experiments indicate that in the mutant dna-1 chromosome termini are replicated normally at 42° while the initiation of new rounds of replication is inhibited although the mutation is probably leaky at this temperature. The mutant is hypersensitive to sodium deoxycholate at 42° which suggests alteration of the membrane structure.     

Sorbitol regulates energy transfer from allophycocyanin to the terminal emitter within phycobilisomes in <Emphasis Type="Italic">Synechocystis</Emphasis> sp

The effects of sorbitol on energy transfer of phycobilisomes (PBSs) in vivo were investigated in a chlN deletion mutant of Synechocystis sp. PCC 6803. When the mutant was grown in the dark, it contained intact and functional PBSs but essentially no chlorophyll or photosystems. Therefore, the structural and functional changes of the mutant PBSs in vivo can be detected by measurement of low temperature (77 K) and room temperature fluorescence emission spectra. Our results, for the first time, demonstrate that sorbitol decreases the energy transfer from allophycocyanin to the terminal emitter, indicating the site for osmotic regulation of excitation transfer in PBSs.     

A new mutation rpoD800, affecting the sigma subunit of E. coli RNA polymerase is allelic to two other sigma mutants

Summary We have characterized a new mutation rpoD800 affecting the sigma gene of E. coli. Upon transfer to high temperature, a strain with the rpoD800 mutation ceases growth within 30 min. We find that this mutation renders sigma about 10-fold more thermolabile than the wild type sigma at 45°C in vitro. We have compared the temperature profile for inactivation of wild type and mutant sigma and find that the mutant inactivates at a temperature about 9° C lower than does the wild type.The chromosomal locus affected by rpoD800 is shown to be allelic to the locus affected by the spontaneous mutants ts285 and alt-1. All three mutations result in altered sigma and in altered growth at high temperature. We argue that the single locus affected is the structural gene for the sigma subunit of E. coli RNA polymerase.     

Characterization of a plasmid mutation affecting maintenance, transfer and elimination by novobiocin

Summary We have isolated a mutant H group plasmid temperature-sensitive for plasmid maintenance. Unlike the wild type plasmid (pSD114), the mutant (pDT4) was eliminated at 37° C and also at 30° C after novobiocin treatment. The mutant plasmid interfered with host cell growth at the non-permissive temperature. Conjugative transfer of the mutant was reduced at 30° C compared to the wild-type plasmid. Introduction of a coumermycin-novobiocin resistance DNA gyrase (cou) mutation into Escherichia coli prevented pDT4 elimination by novobiocin but did not affect the temperature-sensitive phenotype. The evidence indicates that the mutant plasmid used bacterial DNA gyrase for replication. Models to account for the behaviour of this unusual mutant are discussed.     

Temperature dependence and polarization of fluorescence from Photosystem I in the cyanobacterium Synechocystis sp. PCC 6803

To determine the fluorescence properties of cyanobacterial Photosystem I (PS I) in relatively intact systems, fluorescence emission from 20 to 295 K and polarization at 77 K have been measured from phycobilisomes-less thylakoids of Synechocystis sp. PCC 6803 and a mutant strain lacking Photosystem II (PS II). At 295 K, the fluorescence maxima are 686 nm in the wild type from PS I and PS II and at 688 nm from PS I in the mutant. This emission is characteristic of bulk antenna chlorophylls (Chls). The 690-nm fluorescence component of PS I is temperature independent. For wild-type and mutant, 725-nm fluorescence increases by a factor of at least 40 from 295 to 20 K. We model this temperature dependence assuming a small number of Chls within PS I, emitting at 725 nm, with an energy level below that of the reaction center, P700. Their excitation transfer rate to P700 decreases with decreasing temperature increasing the yield of 725-nm fluorescence.Fluorescence excitation spectra of polarized emission from low-energy Chls were measured at 77 and 295 K on the mutant lacking PS II. At excitation wavelengths longer than 715 nm, 760-nm emission is highly polarized indicating either direct excitation of the emitting Chls with no participation in excitation transfer or total alignment of the chromophores. Fluorescence at 760 nm is unpolarized for excitation wavelengths shorter than 690 nm, inferring excitation transfer between Chls before 760-nm fluorescence occurs.Our measurements illustrate that: 1) a single group of low-energy Chls (F725) of the core-like PS I complex in cyanobacteria shows a strongly temperature-dependent fluorescence and, when directly excited, nearly complete fluorescence polarization, 2) these properties are not the result of detergent-induced artifacts as we are examining intact PS I within the thylakoid membrane of S. 6803, and 3) the activation energy for excitation transfer from F725 Chls to P700 is less than that of F735 Chls in green plants; F725 Chls may act as a sink to locate excitations near P700 in PS I.Abbreviations Chl chlorophyll - BChl bacteriochlorophyll - PS Photosystem - S. 6803 Synechocystis sp. PCC 6803 - PGP potassium glycerol phosphate     

The role of DNA polymerase I, II and III in the replication of the bacteriocinogenic factor Clo DF13

Summary The replication of the bacteriocinogenic factor Clo DF13 was studied in Escherichia coli mutants which lack either DNA polymerase I (polA1 and resA1 mutants), DNA polymerase II (polB1 mutant) or DNA polymerase III (dnaE mutant). DNA polymerase I is required for Clo DF13 replication. The Clo DF13 factor, however, can be maintained in a strain carrying the polA107 mutation and thus lacking the 53 exonucleolytic activity of DNA polymerase I. DNA polymerase II is not required for transfer replication and maintenance of the Clo DF13 plasmid. In the temperature sensitive dnaE mutant, Clo DF13 can replicate at the nonpermissive temperature during the first two hours after the temperature shift from 30°C to 43°C. During this period DNA polymerase III seems not to be essential for Clo DF13 replication.     

Unstable ascospore color mutants of Ascobolus immersus

Summary In Ascobolus immersus, 16 unstable mutants with white ascospores were isolated. These mutants mutate back to the wild-type phenotype with brown ascospores. Only two mutants B and 301 are the object of the present study. At least in these two mutants it was demonstrated that true back-mutations occur. The frequencies of back-mutations are quite high and can reach 0.30 in the case of mutant B.The reversions appear at well defined but different for each mutant stages of the developmental cycle. These stages are relatively short and involve not more than about ten nuclear divisions cycles. In the case of mutant B, the back-mutations occur only in very young mycelia and at elevated temperature. Thus, the frequencies of back-mutations observed depend on the time of the transfer to higher temperature condition.The back-mutations of 301 mutant occur only in spermatized female organ and depend on the genotype of the female parent.The data established for Ascobolus immersus are compared with genic instability due to transposable elements described in corn by B. Mc Clintock.     

Hypoviral-regulated HSP90 co-chaperone p23 (CpCop23) determines the colony morphology,virulence, and viral response of chestnut blight fungus Cryphonectria parasitica

We previously identified a protein spot that showed down-regulation in the presence of Cryphonectria hypovirus 1 (CHV1) and tannic acid supplementation as a Hsp90 co-chaperone p23 gene (CpCop23). The CpCop23-null mutant strain showed retarded growth with less aerial mycelia and intense pigmentation. Conidia of the CpCop23-null mutant were significantly decreased and their viability was dramatically diminished. The CpCop23-null mutant showed hypersensitivity to Hsp90 inhibitors. However, no differences in responsiveness were observed after exposure to other stressors such as temperature, reactive oxygen species, and high osmosis, the exception being cell wall-disturbing agents. A severe reduction in virulence was observed in the CpCop23-null mutant. Interestingly, viral transfer to the CpCop23-null mutant from CHV1-infected strain via anastomosis was more inefficient than a comparable transfer with the wild type as a result of decreased hyphal branching of the CpCop23-null mutant around the peripheral region, which resulted in less fusion of the hyphae. The CHV1-infected CpCop23-null mutant exhibited recovered mycelial growth with less pigmentation and sporulation. The CHV1-transfected CpCop23-null mutant demonstrated almost no virulence, that is, even less than that of the CHV1-infected wild type (UEP1), a further indication that reduced virulence of the mutant is not attributable exclusively to the retarded growth but rather is a function of the CpCop23 gene. Thus, this study indicates that CpCop23 plays a role in ensuring appropriate mycelial growth and development, spore viability, responses to antifungal drugs, and fungal virulence. Moreover, the CpCop23 gene acts as a host factor that affects CHV1-infected fungal growth and maintains viral symptom development.     

ELECTROMAGNETIC ACTIVITY OF YEAST CELLS IN THE M PHASE

Electromagnetic activity around yeast mitotic cells (Saccharomyces cerevisiae) was measured in the frequency range 8–9 MHz and special care was taken to extract reliable information from the raw signals. The characteristic of cold-sensitive tubulin mutants tub2-401 and tub2-406, which come to arrest before mitosis at a restrictive temperature (14°C) and which re-enter mitosis upon a shift back to a permissive temperature (28°C), was used to prepare synchronized mitotic cells. Immunofluorescence microscopy using an antitubulin antibody was used to analyze microtubular structures. The arrested tub2-401 mutant that had back-shifted to permissive temperature displayed no microtubules and no electromagnetic activity around the cells. In contrast, the arrested cells of the mutant tub2-406 displayed developed, but aberrant, nonfunctional microtubules and a high electromagnetic activity around the cells. The electromagnetic activity around the arrested mutant tub2-401 back-shifted to permissive temperature peaks at four time points which may coincide with (i) formation of the mitotic spindle, (ii) binding of chromatids to kinetochore microtubules, (iii) elongation of the spindle in anaphase A, and (iv) elongation of the spindle in anaphase B. The profile of the electromagnetic activity around the synchronized mutant tub2-406 at permissive temperature seems to be delayed by the time required for aberrant nonfunctional microtubules to be depolymerized. Experimental results presented in this paper support Pohl's idea of existence of the electromagnetic field around yeast cells.     

Improvement of the Optimum Temperature of Penicillium expansum Lipase by Site-Directed Mutagenesis

In order to improve the optimum temperature of lipases, the Penicillum expansum lipase (PEL) gene was mutated by site-directed mutagenesis using overlap extension PCR technique. The recombinant plasmid containing mutant E83V pPIC3.5K-lip-E83V was expressed in Pichia pastoris GS115. Comparison experiments of the mutant PEL-E83V-GS and the wild-type PEL-GS showed that the optimum temperature (45°C) of the mutant was 5°C higher than that of the wild type. The thermostability of the mutant was similar to that of the wild type. The enzymatic activity of the mutant was 188 U/ml at 37°C, which was 80% that of the wild type in the same conditions. Hydrophobic interaction may be enhanced in the surface region by the hydrophilic amino acid Glu substituted with the hydrophobic amino acid Val, and may be responsible for the improvement of the optimum temperature. Translated from Microbiology, 2005, 32(1) (in Chinese)     

Regulation of histidine biosynthetic enzymes in a mutant of Escherichia coli with an altered histidyl-tRNA synthetase

Summary A mutant of Escherichia coli was isolated that grew at a normal rate in minimal medium at 26°C, grew at a normal rate in minimal medium at 37°C only if exogenous histidine was supplied, and grew more slowly than normal at 42°C even in the presence of histidine. In very rich media the growth rate of the mutant was normal at 26°C and 30°C, but not at 37°C or 42°C. It may be described as a temperature-conditional histidine bradytroph with a decreased ceiling to its growth rate.The histidyl-tRNA synthetase of the mutant was found to be abnormal; in crude extracts the enzyme activity was less stable and had approximately a tenfold higher apparent K _Mfor histidine than normal.Under many growth conditions the histidine biosynthetic enzymes in the mutant were derepressed several hundred fold compared to the wild strain, even in the presence of exogenous genous histidine. In general, the degree of derepression in the mutant was proportional to the difference in growth rate between the mutant and normal strains; this relationship, however, did not hold below 30°C or above 37°C.The properties of the mutant could be related to the properties of its histidyl-tRNA synthetase by assuming that the enzyme participates both in protein synthesis and in histidine biosynthetic enzyme regulation and that at low temperature it functions relatively more effectively in protein synthesis than in repression, while at high temperature it functions relatively more effectively in repression.Abbreviations used tRNA transfer RNA - AICAR aminoimidazole carboxamide ribose-5-phosphate     

Radiation sensitivity of a mutant of Escherichia coli K-12 associated with DNA replication: Evidence for a new repair function

Summary The isolation and properties of a new radiation sensitive mutant of Escherichia coli K-12 are described which shows a correlation between radiation sensitivity and replication of irradiated DNA. The mutation, called rer, is located between argB and purD loci. The mutant, when grown in tryptone broth after irradiation, is sensitive to UV and -rays and incorporates little or no ³H-thymidine but in minimal glucose-salts medium both the radiation sensitivity and incorporation of ³H-thymidine remain identical to that of the parent strain. Studies with a temperature sensitive double mutant rer dnaC show that 1 hr incubation of irradiated cells at 42° C before their transfer to 30° C results in higher survival as compared to their incubation at 30° C only. It is suggested that rer controls the replication of irradiated DNA and thus regulates the coordination between replication and repair of DNA.     

The Saccharomyces cerevisiae protein YJR043C (Pol32) interacts with the catalytic subunit of DNA polymerase α and is required for cell cycle progression in G2?/?M

We have analysed the YJR043c gene of Saccharomyces cerevisiae, previously identified by systematic sequencing. The deletion mutant (yjr043cΔ) shows slow growth at low temperature (15° C), while at 30° C and 37° C the growth rate of mutant cells is only moderately affected. At permissive and nonpermissive temperatures, mutant cells were larger and showed a high proportion of large-budded cells with a single duplicated nucleus at or beyond the bud neck and a short spindle. This phenotype was even more striking at low temperature, the mutant cells becoming dumbbell shaped. All these phenotypes suggest a role for YJR043C in cell cycle progression in G2/M phase. In two-hybrid assays, the YJR043c gene product specifically interacted with Poll, the catalytic subunit of DNA polymerase α. The pol1-1 /yjr043cΔ double mutant showed a more severe growth defect than the pol1-1 single mutant at permissive temperature. Centromeric plasmid loss rate elevated in yjr043cΔ. Analysis of the sequence upstream of the YJR043c ORF revealed the presence of an MluI motif (ACGCGT), a sequence associated with many genes involved in DNA replication in budding yeast. The cell cycle phenotype of the yjr043cΔ mutant, the evidence for genetic interaction with Pol1, the presence of an MluI motif upstream and the elevated rate of CEN plasmid loss in mutants all support a function for YJR043C in DNA replication. Received: 22 July 1998 / Accepted: 22 September 1998     

The effect of temperature onshibire ts cell clones in the compound eye ofDrosophila melanogaster

Summary We have analysed the effect of temperature on both developing and adult eye cell clones homozygous forshi ^ST139, a temperature-sensitive mutant ofDrosophila melanogaster. The mutant gene, autonomous in its cellular expression, causes structural modifications of ommatidial cells when adult clones of cells are exposed to the restrictive temperature (29°C) for several days. However, the mutant phenotype reverses to normal within 4 days at the permissive temperature (20°C). The results of pulse, shift-up and shift-down experiments show that the temperaturesensitive period for developing compound eye cells is from the late second instar up to the early pupa. Cytodifferentiation of compound eye cells is blocked by restrictive temperature treatment during this period, whereas cell proliferation does not seem to be directly affected. These results are discussed with regard to the other known aspects of the phenotype observed in mutant individuals.     

A temperature-sensitive Escherichia coli mutant defective in DNA replication: dnaA, a new gene adjacent to the dnA, gene

Summary An Escherichia coli mutant defective in replication of the chromosome has been isolated from temperature-sensitive mutants that cannot support colicin E1 plasmid DNA synthesis in the presence of chloramphenicol. Cellular DNA synthesis of the mutant ceases almost immediately after transfer to the nonpermissive temperature. The defect is due to a single mutation, dna-59, which is located close to the sites of dnaA mutations and a cou ^R mutation conferring DNA gyrase with resistance to coumermycin. The dna-59 mutant is not able to support DNA synthesis of phage at the high temperature. The mutant also restricts growth of X174 phage at the high temperature, but permits formation of supercoiled closedcircular duplex replicative intermediates. T7 phage can grow on the mutant even at the high temperature.A specialized transducing phage imm ²¹[tna dnaA]#2 (Miki et al., 1978) supports growth of dna-59, dnaA46 and dna-167 cells at the high temperature. Some of the EDTA-resistant derivatives of the phage have lost part or all of the dnaA gene, but carry gene function complementing the defect of dna-59 cells, as judged by conversion of the above dna strains to wild type cells by phage infection, and by suppression of the loss of viability of dna-59 cells at the high temperature by phage infection. The gene containing the dna-59 mutation site is thus distinct from the dnaA gene. Since the dna-59 mutation does not affect expression of the cou ^r gene of DNA gyrase, which is another known gene involved in DNA synthesis near the dnaA gene, this mutation is probably in a new gene, dnaN. From analysis of the suppression activities of imm ²¹[tna dnaA]#2 phage and its deletion derivatives against dnaN59 cells, it is suggested that the expression of the dnaN gene function is reduced by deletion in the dnaA region.