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21.
The versatile plant acyltransferase (VPAT) family is a recently identified protein family consisting of acyltransferases involved in secondary metabolism in plants along with numerous homologues with as yet unidentified biochemical functions. Malonyl-CoA:anthocyanin 5-O-glucoside-6' "-O-malonyltransferase of Salvia splendens flowers (Ss5MaT1) is a member of this family that catalyzes the regiospecific transfer of the malonyl group from malonyl-CoA to the 6' "-hydroxyl group of the 5-glycosyl moiety of anthocyanins. To elucidate the mechanism and functional amino acid residues of VPAT family enzymes, steady-state kinetic analyses and site-directed mutagenesis of Ss5MaT1 guided by sequence comparison studies were carried out. On the basis of the results of product and dead-end inhibition studies as well as sequence comparison studies, the kinetic mechanism of Ss5MaT1 could be most consistently described in terms of a ternary complex mechanism in which both substrates and the enzyme form a complex before catalysis can occur, as in the case of chloramphenicol O-acetyltransferase (CAT) and histone acetyltransferase (HAT). Eight polar or ionizable amino acid residues that are invariant among 12 VPAT family enzymes were replaced by alanine, and the mutant enzymes were kinetically characterized. A significant diminution of the k(cat) value was observed with the substitution of His167 (relative k(cat), 0.02%) and Asp390 (<0.01%), strongly suggesting that His167 and Asp390 are very important for catalytic activity. The log k(cat) versus pH plots of the Ss5MaT1-catalyzed malonyl transfer suggested that a deprotonated active site group of pK(a) = 7.0 +/- 0.1 may be involved in the catalytic steps of the "substrate to product" conversion in the ternary enzyme-substrate complex. Taking these lines of evidence together with the suggested similarity of the kinetic and catalytic mechanisms of Ss5MaT1 to those of CAT and HAT, the following Ss5MaT1 mechanism based on general acid/base catalysis was proposed: in the ternary complex, a general base deprotonates the 6' "-hydroxyl group of the anthocyanin substrate, thereby promoting a nucleophilic attack on the carbonyl of the thioester of malonyl-CoA; His167 and Asp390 appear to be involved in the general acid/base mechanism of Ss5MaT1. 相似文献
22.
Kotani Hirokazu; Nakamura Yasukazu; Sato Shusei; Asamizu Erika; Kaneko Takakazu; Miyajima Nobuyuki; Tabata Satoshi 《DNA research》1998,5(3):203-216
Nineteen Pl and TAC clones, which have been mapped on the finephysical map of the Arabidopsis thaliana chromosome 5, weresequenced according to the shotgun-based strategy, and theirstructural features were analysed. The total length of the regionssequenced in this study was 1,367,185 bp. Combining this withthe regions covered by 90 P1 and TAC clones proviously reported,the total length of chromosome 5 sequenced to date becomes 8,058,855bp. On the basis of similarity search against protein and ESTdatabases and gene modeling with computer programs, a totalof 330 potential protein-coding regions were identified, bringingan average density of the genes to approximately one gene per4.1 kb. Introns were identified in 81.0% of the potential proteingenes for which the entire gene structure was predicted, withan average number per gene of 4.2 and an average length of theintrons of 180 bp. The RNA-coding genes identified were 9 tRNAgenes corresponding to 8 amino acid species and 2 genes forU2 nuclear RNA. These sequence features are essentially identicalto those in the previously reported sequences. The sequencedata and gene information are available on the World Wide Webdatabase KAOS (Kazusa Arabidopsis data Opening Site) at http://www.kazusa.or.jp/arabi/. 相似文献
23.
Given the reported degraded nature of DOC in the Rio Negro, and low oxygen, pH, and bacterial riverine levels, we hypothesized: (1) DOC would have strong humic and fulvic acid fluorescence signals with high aromaticity and large mean molecular weight; and (2) photo-oxidation rates would be slow, and reactive oxygen species (ROS) concentrations low, producing no oxidative stress in biota. We surveyed the environment and properties of DOC and explored DOC photo-oxidation and fish sensitivity to DOC products. DOC properties were investigated using absorption and fluorescence indices and parallel factor analysis (PARAFAC) of excitation–emission matrices. ROS concentrations were measured spectrophotometrically. A native fish, Hemigrammus levis, was exposed to photo-oxidizing DOC and its tissues (brain, gill, liver) assayed for changes in antioxidant and biotransformation enzymes. With respect to our hypotheses, (1) DOC was highly terrigenous, with high SAC340 values (aromaticity), high capacity to produce ROS, and high tryptophan-like fluorescence (bacterial, autochthonous signal); (2) photo-oxidation rates were appreciable, while products were related to mean UV-radiation levels (total radiation was constant). ROS levels were often higher than freshwater averages, yet fish experienced no oxidative stress. Results suggest photo-oxidation influences patterns in C-cycling, bacterial production and community dynamics between wet and dry seasons. 相似文献
24.
Yoko Ino Yutaro Yamaoka Kiho Tanaka Kei Miyakawa Mayuko Nishi Yasuyoshi Hatayama Hirokazu Kimura Yayoi Kimura Akihide Ryo 《Proteomics》2023,23(11):2200334
Peptide tag systems are a robust biophysical and biochemical method that is widely used for protein detection and purification. Here, we developed a novel tag system termed “HiP4” (histidine plus four amino acids) whose epitope sequence comprises only seven amino acids (HHHDYDI) that partially overlap with the conventional 6x histidine tag (6xHis-tag). We produced a monoclonal antibody against the HiP4 tag that can be used in multiple immunoassays with high specificity and affinity. Using this system, we developed a tandem affinity purification (TAP) and mass spectrometry (TAP-MS) system for comprehensive protein interactome analysis. The integrated use of nickel bead purification followed by HiP4 tag immunoprecipitation made it possible to reduce nonspecific binding and improve selectivity, leading to the recovery of previously unrecognized proteins that interact with hepatitis B virus X (HBx) protein or TAR DNA-binding protein 43 (TARDBP or TDP-43). Our results indicate that this system may be viable as a simple and powerful tool for TAP-MS that can achieve low background and high selectivity in comprehensive protein–protein interaction analyses. 相似文献
25.
Takaaki Fujiwara Wataru Saburi Hirokazu Matsui Haruhide Mori Min Yao 《The Journal of biological chemistry》2014,289(6):3405-3415
Cellobiose 2-epimerase (CE) reversibly converts d-glucose residues into d-mannose residues at the reducing end of unmodified β1,4-linked oligosaccharides, including β-1,4-mannobiose, cellobiose, and lactose. CE is responsible for conversion of β1,4-mannobiose to 4-O-β-d-mannosyl-d-glucose in mannan metabolism. However, the detailed catalytic mechanism of CE is unclear due to the lack of structural data in complex with ligands. We determined the crystal structures of halothermophile Rhodothermus marinus CE (RmCE) in complex with substrates/products or intermediate analogs, and its apo form. The structures in complex with the substrates/products indicated that the residues in the β5-β6 loop as well as those in the inner six helices form the catalytic site. Trp-322 and Trp-385 interact with reducing and non-reducing end parts of these ligands, respectively, by stacking interactions. The architecture of the catalytic site also provided insights into the mechanism of reversible epimerization. His-259 abstracts the H2 proton of the d-mannose residue at the reducing end, and consistently forms the cis-enediol intermediate by facilitated depolarization of the 2-OH group mediated by hydrogen bonding interaction with His-200. His-390 subsequently donates the proton to the C2 atom of the intermediate to form a d-glucose residue. The reverse reaction is mediated by these three histidines with the inverse roles of acid/base catalysts. The conformation of cellobiitol demonstrated that the deprotonation/reprotonation step is coupled with rotation of the C2-C3 bond of the open form of the ligand. Moreover, it is postulated that His-390 is closely related to ring opening/closure by transferring a proton between the O5 and O1 atoms of the ligand. 相似文献
26.
Komeda Yoshibumi; Yamashita Hirofumi; Sato Naoki; Tsukaya Hirokazu; Naito Satoshi 《Plant & cell physiology》1991,32(6):737-743
The 5'-upstream region (2.4 kb) of the gene for phytochromeI from Pisum sativum (phyl) was fused to the uidA gene fromEscherichia coli that encodes ß-glucuronidase (GUS).The resulting PHY-GUS fusion was introduced into Petunia hybridaand was used as a reporter of the expression of the phyI genewhich was recognized by GUS activity. The PHY-GUS fusion wasexpressed at a relatively high level when transgenic plantswere grown in the dark, while leaves and stems of light-grownplants showed background activity. Flowers of light-grown plantswere shown to have significant levels of GUS activity but rootsdid not have such activity. When light-grown transgenic plantswere transferred to the dark, they expressed the activity atlevels that corresponded to those of dark-grown plants. Lighttreatment prior to growth in darkness revealed red/far-red reversibilityof recovery of the activity. Thus, the 2.4-kb fragment fromthe 5' region of the phyI gene carries the information necessaryfor the light-repressible autoregulation. (Received March 30, 1991; Accepted May 20, 1991) 相似文献
27.
Wataru Higuchi Mineo Muramatsu Soshi Dohmae Tomomi Takano Hirokazu Isobe Shizuka Yabe Shi Da Tatiana Baranovich Tatsuo Yamamoto 《Microbiology and immunology》2008,52(11):559-563
The use of probiotics such as Lactobacillus in animal feeds has gained popularity in recent years. In this study the 16S rRNA gene sequence of L. acidophilus in two commercial agents which have been used in animal feeds, LAB‐MOS and Ghenisson 22, was determined. Phylogenetic tree analysis revealed that the two agents, strain MNFLM01 in LAB‐MOS and strain GAL‐2 in Ghenisson 22, belonged to L. rhamnosus (a member of the L. casei group) and L. johnsonii (a member of the L. acidophilus group), respectively. Biochemical tests assigned the two as L. rhamnosus and ambiguously as L. acidophilus. The data suggest that 16S rRNA gene sequence analysis provides more accurate identification of Lactobacillus species than biochemical tests and would allow quality assurance of relevant commercial products. The 16S rRNA gene sequences of strains MNFLM01 and GAL‐2 determined in this study have been submitted to the DDBJ/EMBL/GenBank accession numbers under accession numbers AB288235 and AB295648, respectively. 相似文献
28.
A subpopulation of bone marrow cells depleted by a novel antibody, anti-Liv8, is useful for cell therapy to repair damaged liver 总被引:26,自引:0,他引:26
Yamamoto N Terai S Ohata S Watanabe T Omori K Shinoda K Miyamoto K Katada T Sakaida I Nishina H Okita K 《Biochemical and biophysical research communications》2004,313(4):1110-1118
We previously reported a new in vivo model named as "GFP/CCl(4) model" for monitoring the transdifferentiation of green fluorescent protein (GFP) positive bone marrow cell (BMC) into albumin-positive hepatocyte under the specific "niche" made by CCl(4) induced persistent liver damage, but the subpopulation which BMCs transdifferentiate into hepatocytes remains unknown. Here we developed a new monoclonal antibody, anti-Liv8, using mouse E 11.5 fetal liver as an antigen. Anti-Liv8 recognized both hematopoietic progenitor cells in fetal liver at E 11.5 and CD45-positive hematopoietic cells in adult bone marrow. We separated Liv8-positive and Liv8-negative cells and then transplanted these cells into a continuous liver damaged model. At 4 weeks after BMC transplantation, more efficient repopulation and transdifferentiation of BMC into hepatocytes were seen with Liv8-negative cells. These findings suggest that the subpopulation of Liv8-negative cells includes useful cells to perform cell therapy on repair damaged liver. 相似文献
29.
He J Nankai H Hashimoto W Murata K 《Biochemical and biophysical research communications》2004,322(3):712-717
Cells of Sphingomonas sp. A1 (strain A1) directly incorporate a macromolecule, alginate, into cytoplasm through a biosystem, or "super-channel," consisting of a pit on the cell surface, alginate-binding proteins in periplasm, and an ABC transporter in the inner membrane. The pit functions as a concentrator for extracellular alginate. Through differential display analysis, a protein (p8) with a molecular mass of 20kDa and a pI of 7.4 was found to be inducibly expressed in the outer membrane of alginate-grown cells. The gene coding for p8 was identified in the genome of strain A1 and shown to be similar to that for the polyhydroxyalkanoate granule-associated protein of Ralstonia eutropha. The disruptant of p8 gene showed significant growth retardation in the alginate medium. An overexpression system for p8 was constructed in Escherichia coli, and the protein was purified and characterized. Surface plasmon resonance biosensor analysis indicated that p8 is able to bind alginate most efficiently at pH 4.0. The above results indicate that p8 is a cell surface protein able to bind alginate and facilitates the concentration of alginate in the pit on the cell surface of strain A1. 相似文献
30.
Furukawa S Nojima N Nozaka S Hirayama S Satoh A Ogihara H Morinaga Y 《Bioscience, biotechnology, and biochemistry》2012,76(2):326-330
Lactic acid bacteria (LAB) mutants deficient in inter-species co-aggregation with yeast were spontaneously derived from Lactobacillus plantarum ML11-11, a significant mixed-species biofilm former in static co-cultures with budding yeasts. These non-co-aggregative mutants also showed significant decreases in mixed-species biofilm formation. These results suggest the important role of co-aggregation between LAB and yeast in mixed-species biofilm formation. Cell surface proteins obtained by 5 M LiCl extraction from the wild-type cells and non-co-aggregative mutant cells were analyzed by SDS-PAGE. There was an obvious difference in protein profiles. The protein band at 30 kDa was present abundantly in the wild-type cell surface fraction but was significantly decreased in the mutant cells. This band assuredly corresponded to the LAB surface factors that contribute to co-aggregation with yeasts. 相似文献