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71.
Yu Wang Huimin Xu Laura L. Grochowski Robert H. White 《Journal of bacteriology》2014,196(17):3191-3198
The gene encoding 7,8-dihydroneopterin aldolase (DHNA) was recently identified in archaea through comparative genomics as being involved in methanopterin biosynthesis (V. Crécy-Lagard, G. Phillips, L. L. Grochowski, B. El Yacoubi, F. Jenney, M. W. Adams, A. G. Murzin, and R. H. White, ACS Chem. Biol. 7:1807–1816, 2012, doi:10.1021/cb300342u). Archaeal DHNA shows a unique secondary and quaternary structure compared with bacterial and plant DHNAs. Here, we report a detailed biochemical examination of DHNA from the methanogen Methanocaldococcus jannaschii. Kinetic studies show that M. jannaschii DHNA possesses a catalytic capability with a kcat/Km above 105 M−1 s−1 at 70°C, and at room temperature it exhibits a turnover number (0.07 s−1) comparable to bacterial DHNAs. We also found that this enzyme follows an acid-base catalytic mechanism similar to the bacterial DHNAs, except when using alternative catalytic residues. We propose that in the absence of lysine, which is considered to be the general base in bacterial DHNAs, an invariant water molecule likely functions as the catalytic base, and the strictly conserved His35 and Gln61 residues serve as the hydrogen bond partners to adjust the basicity of the water molecule. Indeed, substitution of either His35 or Gln61 causes a 20-fold decrease in kcat. An invariant Tyr78 is also shown to be important for catalysis, likely functioning as a general acid. Glu25 plays an important role in substrate binding, since replacing Glu25 by Gln caused a ≥25-fold increase in Km. These results provide important insights into the catalytic mechanism of archaeal DHNAs. 相似文献
72.
Byoungjin Kim Ryan P. Sullivan Huimin Zhao 《Applied microbiology and biotechnology》2010,87(4):1407-1414
L-Arabinitol 4-dehydrogenase (LAD) catalyzes the conversion of L-arabinitol to L-xylulose with concomitant NAD+ reduction in fungal L-arabinose catabolism. It is an important enzyme in the development of recombinant organisms that convert L-arabinose to fuels and chemicals. Here, we report the cloning, characterization, and engineering of four fungal LADs from
Penicillium chrysogenum, Pichia guilliermondii, Aspergillus niger, and Trichoderma longibrachiatum, respectively. The LAD from P. guilliermondii was inactive, while the other three LADs were NAD+-dependent and showed high catalytic activities, with P. chrysogenum LAD being the most active. T. longibrachiatum LAD was the most thermally stable and showed the maximum activity in the temperature range of 55–65°C with the other LADs
showed the maximum activity in the temperature range of 40–50°C. These LADs were active from pH 7 to 11 with an optimal pH
of 9.4. Site-directed mutagenesis was used to alter the cofactor specificity of these LADs. In a T. longibrachiatum LAD mutant, the cofactor preference toward NADP+ was increased by 2.5 × 104-fold, whereas the cofactor preference toward NADP+ of the P. chrysogenum and A. niger LAD mutants was also drastically improved, albeit at the expense of significantly reduced catalytic efficiencies. The wild-type
LADs and their mutants with altered cofactor specificity could be used to investigate the functionality of the fungal L-arabinose pathways in the development of recombinant organisms for efficient microbial L-arabinose utilization. 相似文献
73.
The biocatalytic reduction of d-xylose to xylitol requires separation of the substrate from l-arabinose, another major component of hemicellulosic hydrolysate. This step is necessitated by the innate promiscuity of xylose reductases, which can efficiently reduce l-arabinose to l-arabinitol, an unwanted byproduct. Unfortunately, due to the epimeric nature of d-xylose and l-arabinose, separation can be difficult, leading to high production costs. To overcome this issue, we engineered an E. coli strain to efficiently produce xylitol from d-xylose with minimal production of l-arabinitol byproduct. By combining this strain with a previously engineered xylose reductase mutant, we were able to eliminate l-arabinitol formation and produce xylitol to near 100% purity from an equiweight mixture of d-xylose, l-arabinose, and d-glucose. 相似文献
74.
Sun L Ren H Liu R Li B Wu T Sun F Liu H Wang X Dong H 《Molecular plant-microbe interactions : MPMI》2010,23(11):1470-1485
Various thioredoxin (Trx) proteins have been identified in plants. However, many of the physiological roles played by these proteins remain to be elucidated. We cloned a TRXh-like gene predicted to encode an h-type Trx in tobacco (Nicotiana tabacum) and designated it NtTRXh3, based on the biochemical activity of the NtTRXh3 protein. Overexpression of NtTRXh3 conferred resistance to Tobacco mosaic virus and Cucumber mosaic virus, both of which showed reduced multiplication and pathogenicity in NtTRXh3-overexpressing plants compared with controls. NtTRXh3 overexpression also enhanced tobacco resistance to oxidative stress induced by paraquat, an herbicide that inhibits the production of reducing equivalents by chloroplasts. The NtTRXh3 protein localized exclusively to chloroplasts in coordination with the maintenance of cellular reducing conditions, which accompanied an elevation in the glutathione/glutathione disulfide couple ratio. NtTRXh3 gene expression and NtTRXh3 protein production were necessary for these defensive responses, because they were all arrested when NtTRXh3 was silenced and the production of NtTRXh3 protein was abrogated. These results suggest that NtTRXh3 is involved in the resistance of tobacco to virus infection and abiotic oxidative stress. 相似文献
75.
An NAD+-dependent l-arabinitol 4-dehydrogenase (LAD, EC 1.1.1.12) from Neurospora crassa was cloned and expressed in Escherichia coli and purified to homogeneity. The enzyme was a homotetramer and contained two Zn2+ ions per subunit, displaying similar characteristics to medium-chain sorbitol dehydrogenases (SDHs). High enzymatic activity
was observed for substrates l-arabinitol, adonitol, and xylitol and no activity for d-mannitol, d-arabinitol, or d-sorbitol. The enzyme showed strong preference for NAD+ but also displayed a very low yet detectable activity with NADP+. Mutational analysis of residue F59, the single different substrate-binding residue between LADs and d-SDHs, failed to confer the enzyme the ability to accept d-sorbitol as a substrate, suggesting that the amino acids flanking the active site cleft may be responsible for the different
activity and affinity patterns between LADs and SDHs. This enzyme should be useful for in vivo and in vitro production of
xylitol and ethanol from l-arabinose.
Electronic supplementary material The online version of this article (doi:) contains supplementary material, which is available to authorized users. 相似文献
76.
Yu S Yin S Li C Wong P Chang B Xiao F Kang SC Yan H Xiao G Tien P Sy MS 《The Biochemical journal》2007,403(2):343-351
Mutation in the prion gene, PRNP, accounts for approx. 10-15% of human prion diseases. However, little is known about the mechanisms by which a mutant prion protein (PrP) causes disease. We compared the biochemical properties of a wild-type human prion protein, rPrP(C) (recombinant wild-type PrP), which has five octapeptide-repeats, with two recombinant human prion proteins with insertion mutations, one with three more octapeptide repeats, rPrP(8OR), and the other with five more octapeptide repeats, rPrP(10OR). We found that the insertion mutant proteins are more prone to aggregate, and the degree and kinetics of aggregation are proportional to the number of inserts. The octapeptide-repeat and alpha-helix 1 regions are important in aggregate formation, because aggregation is inhibited with monoclonal antibodies that are specific for epitopes in these regions. We also showed that a small amount of mutant protein could enhance the formation of mixed aggregates that are composed of mutant protein and wild-type rPrP(C). Accordingly, rPrP(10OR) is also more efficient in promoting the aggregation of rPrP(C) than rPrP(8OR). These findings provide a biochemical explanation for the clinical observations that the severity of the disease in patients with insertion mutations is proportional to the number of inserts, and thus have implications for the pathogenesis of inherited human prion disease. 相似文献
77.
The sensitivity of hairpin-probe-based fluorescence resonance energy transfer (FRET) analysis was sequence-dependent in detecting single base mismatches with different positions and identities. In this paper, the relationship between the sequence-dependent effect and the discrimination sensitivity of a single base mismatch was systematically investigated by fluorescence analysis and force spectroscopy analysis. The same hairpin probe was used. The uneven fluorescence analysis sensitivity was obviously influenced by the guanine-cytosine (GC) contents as well as the location of the mismatched base. However, we found that force spectroscopy analysis distinguished itself, displaying a high and even sensitivity in detecting differently mismatched targets. This could therefore be an alternative and novel way to minimize the sequence-dependent effect of the hairpin probe. The advantage offered by force spectroscopy analysis could mainly be attributed to the percentage of rupture force reduction, which could be directly and dramatically influenced by the percentage of secondary structure disruption contributed by each mismatched base pair, regardless of its location and identity. This yes-or-no detection mechanism should both contribute to a comprehensive understanding of the sensitivity source of different mutation analyses and extend the application range of hairpin probes. 相似文献
78.
Generation of singlet oxygen is first investigated in the decomposition of polyunsaturated lipid peroxide, alpha-linolenic acid hydroperoxide (LAOOH), by heme-proteins such as cytochrome c and lactoperoxidase. Chemiluminescence and electron spin resonance methods are used to confirm the singlet oxygen generation and quantify its yield. Decomposition products of LAOOH are characterized by HPLC-ESI-MS, which suggests that singlet oxygen is produced via the decomposition of a linear tetraoxide intermediate (Russell's mechanism). Free radicals formed in the decomposition are also identified by the electron spin resonance technique, and the results show that peroxyl, alkyl, and epoxyalkyl radicals are involved. The changes of cytochrome c and lactoperoxidase in the reaction are monitored by UV-visible spectroscopy, revealing the action of a monoelectronic and two-electronic oxidation for cytochrome c and lactoperoxidase, respectively. These results suggest that cytochrome c causes a homolytic reaction of LAOOH, generating alkoxyl radical and then peroxyl radical, which in turn releases singlet oxygen following the Russell mechanism, whereas lactoperoxidase leads to a heterolytic reaction of LAOOH, and the resulting ferryl porphyryl radical of lactoperoxidase abstracts the hydrogen atom from LAOOH to give peroxyl radical and then singlet oxygen. This observation would be important for a better understanding of the damage mechanism of cell membrane or lipoprotein by singlet oxygen and various radicals generated in the peroxidation and decomposition of lipids induced by heme-proteins. 相似文献
79.
In an attempt to obtain biologic control agents for grey mildew of tomato, a total of 628 bacterial strains were isolated
from agricultural soil samples in Beijing, China, and screened for in vitro antibiosis toward Botrytis cinerea. Strain P94 exhibited the most obvious antagonistic activity. It P94 had no pathogenicity and was identified as Pseudomonas corrugata by the Biolog identification system combined with 16S rDNA sequence analysis and biochemical and physiologic characteristics.
The specific products of polymerase chain reaction with two pairs of specific primers indicated that P94 belonged to P. corrugata genomic group II. Strain P94 inhibited the growth of a number of phytopathogenic fungal and bacterial species and showed
inhibition activity to tomato grey mildew by tomato leaf testing in vitro. Strain P94 showed a positive reaction for HCN,
protease, phosphatase, and indole acetic acid tests and a negative reaction for siderophore-, chitinase-, and cellulase-production
tests. Therefore, the secondary metabolites producing novel P. corrugata strain P94 exhibited an innate potential of biocontrol activities in vitro. 相似文献
80.
Fui Chin Chong Beng Ti Tey Zanariah Mohd Dom Kok Hing Cheong Budiatman Satiawihardja Mohd Nordin Ibrahim Russly Abdul Rahman Dayang Radiah Awang Biak Tau Chuan Ling 《Biotechnology and Bioprocess Engineering》2007,12(3):250-256
Rice bran lipase (RBL) was delipidated to enhance its stability in organic solvent and its esterification activity at elevated
temperature. The esterification activity of delipidated RBL increased as temperature was increased from 45 to 65°C. The esterification
activity of delipidated RBL at 65°C was about 14 times greater than that of the non-delipidated RBL. As temperature was further
increased to 75°C, the non-delipidated RBL lost all esterification activity, whereas the delipidated RBL retained approximately
48% of its esterilication activity. The delipidated RBL maintained a relative esterification activity greater than 80% after
16 h of incubation in hexane, whereas the non-delipidated RBL maintained a relative esterification activity of only 50%. A
method for production of acylglycerol using delipidated RBL to esterify palm oil fatty acid distillate (PFAD) with glycerol
in hexane was successfully developed. The effects of reaction temperatures and type of water removal agents (silica gel and
molecular sieve) on the degree of esterification were also examined. A 4 h reaction at 65°C, catalyzed by delipidated RBL
and using silica gel as the water removal agent resulted in 53.8% esterification. Thin layer chromatography analysis suggested
that the esterified product was primarily comprised of mono-and di-acylglycerols. 相似文献