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991.
A mutant producing a pyranose oxidase, which has a higher thermal stability and lower Km values for d-glucose and 1,5-anhydro-d-glucitol than those of the wild type enzyme, was obtained. A single amino acid substitution, Lys for Glu at position 542, had occurred. This altered enzyme, E542K, was not only stable at 55°C, which was 5°C higher than the wild-type enzyme, but was stable in alkaline solution at pH 8.0–11.0. Km values of E542K for d-glucose and 1,5-anhydro-d-glucitol were 0.7 mM and 14.3 mM, respectively, in contrast with 1.4 mm and 35.3 mM for the wild-type enzyme. A little effect was observed in kcat values, and improvement in reactivity was mainly due to the decreases in Km values. This altered pyranose oxidase is useful for food analysis and diagnosis. 相似文献
992.
Andronis Christos Merry Stephen A.P. Durrant James R. Klug David R. Barber James Nixon Peter J. 《Photosynthesis research》1999,62(2):205-217
Primary charge separation within Photosystem II (PS II) is much slower (time constant 21 ps) than the equivalent step in the related reaction center (RC) found in purple bacteria ( 3 ps). In the case of the bacterial RC, replacement of a specific tyrosine residue within the M subunit (at position 210 in Rhodobacter sphaeroides), by a leucine residue slows down charge separation to 20 ps. Significantly the analogous residue in PS II, within the D2 polypeptide, is a leucine not a tyrosine (at position D2-205, Chlamydomonas reinhardtii numbering). Consequently, it has been postulated [Hastings et al. (1992) Biochemistry 31: 7638–7647] that the rate of electron transfer could be increased in PS II by replacing this leucine residue with tyrosine. We have tested this hypothesis by constructing the D2-Leu205Tyr mutant in the green alga, Chlamydomonas reinhardtii, through transformation of the chloroplast genome. Primary charge separation was examined in isolated PS II RCs by time-resolved optical spectroscopy and was found to occur with a time constant of 40 ps. We conclude that mutation of D2-Leu205 to Tyr does not increase the rate of charge separation in PS II. The slower kinetics of primary charge separation in wild type PS II are probably not due to a specific difference in primary structure compared with the bacterial RC but rather a consequence of the P680 singlet excited state being a shallower trap for excitation energy within the reaction center. 相似文献
993.
The discovery and characterization of genes specifically induced in vivo upon infection and/or at a specific stage of the infection will be the next phase in studying bacterial virulence at the molecular level. Genes isolated are most likely to encode virulence-associated factors or products essential for survival, bacterial cell division and multiplication in situ. Identification of these genes is expected to provide new means to prevent infection, new targets for, antimicrobial therapy, as well as new insights into the infection process. Analysis of genes and their sequences initially discovered as in vivo induced may now be revealed by functional and comparative genomics. The new field of virulence genomics and their clustering as pathogenicity islands makes feasible their in-depth analysis. Application of new technologies such as in vivo expression technologies, signature-tagged mutagenesis, differential fluorescence induction, differential display using polymerase chain reaction coupled to bacterial genomics is expected to provide a strong basis for studying in vivo induced genes, and a better understanding of bacterial pathogenicity in vivo. This review presents technologies for characterization of genes expressed in vivo. 相似文献
994.
Tayeh MA Howe DL Salleh HM Sheflyan GY Son JK Woodard RW 《Journal of Protein Chemistry》1999,18(1):55-68
The ACCO gene from Lycopersicon esculentum (tomato) has been cloned into the expression vector PT7-7. The highly expressed protein was recovered in the form of inclusion bodies. ACCO is inactivated by diethyl pyrocarbonate (DEPC) with a second-order rate constant of 170 M–1 min–1. The pH–inactivation rate data imply the involvement of an amino acid residue with a pK value of 6.05. The difference UV spectrum of the the DEPC-inactivated versus native ACCO showed a single peak at 242 nm indicating the modification of histidine residues. The inactivation was reversed by the addition of hydroxylamine to the DEPC-inactivated ACCO. Substrate/cofactor protection studies indicate that both iron and ACC bind near the active site, which contains histidine residues. Four histidines of ACCO were individually mutated to alanine and glycine. H39A is catalytically active, while H177A, H177G, H211A, H211G, H234A, and H234G are basically inactive. The results indicate that histidine residues 177, 211, and 234 may serve as ligands for the active-site iron of ACCO and/or may play some important structural or catalytic role. 相似文献
995.
996.
Using various transformation methods, T-DNA constructions for insertional mutagenesis were introduced into Arabidopsis thaliana
and the pattern of segregation of hygromycin resistance selectable marker was followed in succeeding generations in individual
transgenic lines up to T4 generation. Despite the low frequency of transformation, T-DNA was often inserted in two or more independent sites. Mendelian
segregation ratios 3:1, 15:1, and irregular segregation ratios were observed. We have also shown continuous decrease of the
expression of the resident hygromycin resistance transgenic trait in some lines.
This revised version was published online in July 2006 with corrections to the Cover Date. 相似文献
997.
Bacillus kaustophilus leucine aminopeptidase (bkLAP) was sensitive to oxidative damage by hydrogen peroxide. To improve its oxidative stability,
the oxidation-sensitive methionine residues in the enzyme were replaced with leucine by site-directed mutagenesis. The variants,
each with an apparent molecular mass of approximately 54 kDa, were overexpressed in recombinant Escherichia coli M15 cells and purified to homogeneity by nickel-chelate chromatography. The specific activity for M282L, M285L, M289L and
M321L decreased by more than 43%, while M400L, M426L, M445L, and M485L showed 191, 79, 313, and 103%, respectively, higher
activity than the wild-type enzyme. Although the mutations did not cause significant changes in the K
m value, more than 67.8% increase in the value of k
cat/K
m was observed in the M400L, M426L, M445L and M485L. In the presence of 50 mM H2O2, most variants were more stable with respect to the wild-type enzyme, indicating that the oxidative stability of the enzyme
can be improved by engineering the methionine residues.
This revised version was published online in June 2006 with corrections to the Cover Date. 相似文献
998.
999.
1000.
Guénet JL 《Genetica》2004,122(1):9-24
The careful comparison of the phenotypic variations generated by different alleles at a given locus, including of course, those alleles with a deleterious effect, is often an important source of information for the understanding of gene functions. In fact, every time it is possible to match a specific alteration observed at the genomic level with a particular pathology, it is possible to establish a relationship between a gene and its function. When considered from this point of view, the production of new mutations by experimental mutagenesis appears as an alternative to the strategy of in vitro gene invalidation by homologous recombination in embryonic stem (ES) cells, with the advantage that experimental mutagenesis does not require any previous knowledge of the gene structure at the molecular level. Homologous recombination in ES cells is a gene driven approach, in which mutant alleles are produced for those genes that we already know. Experimental mutagenesis, on the contrary, is a phenotype driven approach, in which unknown genes are identified based on phenotypic changes. Also, while homologous recombination in ES cells requires a rather sophisticated technology, mutagenesis is simple to achieve but relies greatly on the efficiency of the mutagenic treatment as well as on the use of an accurate protocol for phenotyping. In this review, we will address a few comments about the different techniques that can be used for the induction of point mutations in the mouse germ line with special emphasis on chemical mutagenesis. We will also discuss the limitations of experimental mutagenesis and the necessity to look for alternative ways for the discovery of new genes and gene functions in the mouse. 相似文献