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1.
Genome‐wide analysis identifies an african‐specific variant in SEMA4D associated with body mass index 下载免费PDF全文
Jie Zhou Lin Lei Amy R. Bentley Fasil Tekola-Ayele Sally N. Adebamowo Jennifer L. Baker Olufemi Fasanmade Godfrey Okafor Benjamin Eghan Jr. Kofi Agyenim‐Boateng Albert Amoah Clement Adebamowo Joseph Acheampong Thomas Johnson Johnnie Oli Daniel Shriner Adebowale A. Adeyemo Charles N. Rotimi 《Obesity (Silver Spring, Md.)》2017,25(4):794-800
2.
Alpha/beta‐hydrolases: A unique structural motif coordinates catalytic acid residue in 40 protein fold families 下载免费PDF全文
Polytimi S. Dimitriou Alexander Denesyuk Seiji Takahashi Satoshi Yamashita Mark S. Johnson Toru Nakayama Konstantin Denessiouk 《Proteins》2017,85(10):1845-1855
The alpha/beta‐hydrolases are a family of acid‐base‐nucleophile catalytic triad enzymes with a common fold, but using a wide variety of substrates, having different pH optima, catalyzing unique catalytic reactions and often showing improved chemical and thermo stability. The ABH enzymes are prime targets for protein engineering. Here, we have classified active sites from 51 representative members of 40 structural ABH fold families into eight distinct conserved geometries. We demonstrate the occurrence of a common structural motif, the catalytic acid zone, at the catalytic triad acid turn. We show that binding of an external ligand does not change the structure of the catalytic acid zone and both the ligand‐free and ligand‐bound forms of the protein belong to the same catalytic acid zone subgroup. We also show that the catalytic acid zone coordinates the position of the catalytic histidine loop directly above its plane, and consequently, fixes the catalytic histidine in a proper position near the catalytic acid. Finally, we demonstrate that the catalytic acid zone plays a key role in multi‐subunit complex formation in ABH enzymes, and is involved in interactions with other proteins. As a result, we speculate that each of the catalytic triad residues has its own supporting structural scaffold, similar to the catalytic acid zone, described above, which together form the extended catalytic triad motif. Each scaffold coordinates the function of its respective catalytic residue, and can even compensate for the loss of protein function, if the catalytic amino acid is mutated. 相似文献
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Kayla J. Vastenhout Ruthellen H. TornbergAmanda L. Johnson Michael W. AmolinsJared R. Mays 《Analytical biochemistry》2014
Isothiocyanates (ITCs) are one of several hydrolysis products of glucosinolates, plant secondary metabolites that are substrates for the thioglucohydrolase myrosinase. Recent pursuits toward the development of synthetic non-natural ITCs have consequently led to an exploration of generating these compounds from non-natural glucosinolate precursors. Evaluation of the myrosinase-dependent conversion of select non-natural glucosinolates to non-natural ITCs cannot be accomplished using established ultraviolet–visible (UV–Vis) spectroscopic methods. To overcome this limitation, an alternative high-performance liquid chromatography (HPLC)-based analytical approach was developed where initial reaction velocities were generated from nonlinear reaction progress curves. Validation of this HPLC method was accomplished through parallel evaluation of three glucosinolates with UV–Vis methodology. The results of this study demonstrate that kinetic data are consistent between both analytical methods and that the tested glucosinolates respond similarly to both Michaelis–Menten and specific activity analyses. Consequently, this work resulted in the complete kinetic characterization of three glucosinolates with Sinapis alba myrosinase, with results that were consistent with previous reports. 相似文献
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Optimal administration of dual screening tests for detecting a characteristic with special reference to low prevalence diseases. 总被引:1,自引:0,他引:1
We consider the problem of deciding optimally whether a characteristic exists based on one or two screening tests. We discuss the relative merits of giving either one or two tests, including the order in which they might be given, as well as their costs. Operating in the Bayesian mode, we derive posterior distributions for the accuracies of the tests and the prevalence of the characteristic. Applications to detecting rare conditions, such as the AIDS virus, are discussed. 相似文献
8.
Refined crystal structure of the phosphorylase-heptulose 2-phosphate-oligosaccharide-AMP complex 总被引:9,自引:0,他引:9
The crystal structure of phosphorylase b-heptulose 2-phosphate complex with oligosaccharide and AMP bound has been refined by molecular dynamics and crystallographic least-squares with the program XPLOR. Shifts in atomic positions of up to 4 A from the native enzyme structure were correctly determined by the program without manual intervention. The final crystallographic R value for data between 8 and 2.86 A resolution is 0.201, and the overall root-mean-square difference between the native and complexed structure is 0.58 A for all protein atoms. The results confirm the previous observation that there is a direct hydrogen bond between the phosphate of heptulose 2-phosphate and the pyridoxal phosphate 5'-phosphate group. The close proximity of the two phosphates is stabilized by an arginine residue, Arg569, which shifts from a site buried in the protein to a position where it can make contact with the product phosphate. There is a mutual interchange in position between the arginine and an acidic group, Asp283. These movements represent the first stage of the allosteric response which converts the catalytic site from a low to a high-affinity binding site. Communication of these changes to other sites is prevented in the crystal by the lattice forces, which also form the subunit interface. The constellation of groups in the phosphorylase transition state analogue complex provides a structural basis for understanding the catalytic mechanism in which the cofactor pyridoxal phosphate 5'-phosphate group functions as a general acid to promote attack by the substrate phosphate on the glycosidic bond when the reaction proceeds in the direction of glycogen degradation. In the direction of glycogen synthesis, stereoelectronic effects contribute to the cleavage of the C-1-O-1 bond. In both reactions the substrate phosphate plays a key role in transition state stabilization. The details of the oligosaccharide, maltoheptaose, interactions with the enzyme at the glycogen storage site are also described. 相似文献
9.
S W Johnson J A Alhadeff 《Comparative biochemistry and physiology. B, Comparative biochemistry》1990,97(4):713-717
alpha-L-Fucosidase from hamster and six inbred mouse strains contains two to three unique basic isoelectric forms (above pI 7.0) in addition to the usual acidic and neutral isoforms from pI 4-7. Rat liver alpha-L-fucosidase contains multiple isoforms between pI values of 4.0 and 7.3 whereas guinea pig liver alpha-L-fucosidase exhibits a single broad isoform at pI 5.3. 2. All the alpha-L-fucosidases have similar KM values (0.05-0.12 mM) for 4-methylumbelliferyl-alpha-L-fucopyranoside but pH-activity curves which are significantly different in optima and per cent of optimal activity in the acid region. 3. Double-antibody immunoprecipitation experiments indicate that rodent liver alpha-L-fucosidases crossreact to varying extents with polyclonal antibody against human liver alpha-L-fucosidase. 4. Hamster, guinea pig and mouse liver alpha-L-fucosidases exhibit significantly less binding than human and rat liver fucosidases to the agarose-epsilon-aminocaproylfucosamine affinity resin. 相似文献
10.
Yufeng Qian Aashiq H. Kachroo Christopher M. Yellman Edward M. Marcotte Kenneth A. Johnson 《The Journal of biological chemistry》2014,289(9):5970-5985
Mutations in the human mitochondrial polymerase (polymerase-γ (Pol-γ)) are associated with various mitochondrial disorders, including mitochondrial DNA (mtDNA) depletion syndrome, Alpers syndrome, and progressive external opthamalplegia. To correlate biochemically quantifiable defects resulting from point mutations in Pol-γ with their physiological consequences, we created “humanized” yeast, replacing the yeast mtDNA polymerase (MIP1) with human Pol-γ. Despite differences in the replication and repair mechanism, we show that the human polymerase efficiently complements the yeast mip1 knockouts, suggesting common fundamental mechanisms of replication and conserved interactions between the human polymerase and other components of the replisome. We also examined the effects of four disease-related point mutations (S305R, H932Y, Y951N, and Y955C) and an exonuclease-deficient mutant (D198A/E200A). In haploid cells, each mutant results in rapid mtDNA depletion, increased mutation frequency, and mitochondrial dysfunction. Mutation frequencies measured in vivo equal those measured with purified enzyme in vitro. In heterozygous diploid cells, wild-type Pol-γ suppresses mutation-associated growth defects, but continuous growth eventually leads to aerobic respiration defects, reduced mtDNA content, and depolarized mitochondrial membranes. The severity of the Pol-γ mutant phenotype in heterozygous diploid humanized yeast correlates with the approximate age of disease onset and the severity of symptoms observed in humans. 相似文献