Categoria
Top Downloads
Entrar
Registrar
Recobrar
Pesquisar
Categoria
Top Downloads
Entrar
Registrar
Pesquisar
Home
Categories
Substrate Specificity
Substrate Specificity
Streptomyces spp. as efficient expression system for a d,d-peptidase/d,d-carboxypeptidase involved in glycopeptide antibiotic resistance
Technology / Biomass / Biological Sciences / Streptomyces / Molecular cloning / Anti-Bacterial Agents / Actinomycetales / Substrate Specificity / Carboxypeptidases / Recombinant Proteins / Anti-Bacterial Agents / Actinomycetales / Substrate Specificity / Carboxypeptidases / Recombinant Proteins
Identification of a novel β-N-acetylhexosaminidase (Pcb-NAHA1) from marine Zoanthid Palythoa caribaeorum (Cnidaria, Anthozoa, Zoanthidea)
Kinetics / Sequence alignment / Anthozoa / Animals / Affinity chromatography / Enzyme / Protein expression and purification / Specific Activity / Substrate Specificity / Protein Expression / Enzyme activity / Molecular Mass / Amino Acid Sequence / Elevated Temperature / Size Exclusion Chromatography / Ammonium Sulfate / Biochemistry and cell biology / Enzyme / Protein expression and purification / Specific Activity / Substrate Specificity / Protein Expression / Enzyme activity / Molecular Mass / Amino Acid Sequence / Elevated Temperature / Size Exclusion Chromatography / Ammonium Sulfate / Biochemistry and cell biology
A novel NADPH:diamide oxidoreductase activity in Arabidopsis thaliana P1 ζ-crystallin
Enzyme Inhibitors / Oxidative Stress / Arabidopsis thaliana / Escherichia coli / Animals / Oxidoreductases / Arabidopsis / European / Substrate Specificity / Amino Acid Sequence / Recombinant Proteins / Crystallins / Hydrogen-Ion Concentration / PLANT PROTEINS / Nucleotides / Biochemistry and cell biology / Nitrofurantoin / Dimerization / Oxidoreductases / Arabidopsis / European / Substrate Specificity / Amino Acid Sequence / Recombinant Proteins / Crystallins / Hydrogen-Ion Concentration / PLANT PROTEINS / Nucleotides / Biochemistry and cell biology / Nitrofurantoin / Dimerization
Catalytic Properties of Lipase Extracts from Aspergillus niger
Bioinformatics / Microbiology / Molecular Biology / Biotechnology / Industrial Biotechnology / Olive Oil / Food Technology / Amines / Food Technology and Biotechnology / Aspergillus niger / Enzyme / Rhodamine B / Substrate Specificity / Food Sciences / Submerged Culture / Olive Oil / Food Technology / Amines / Food Technology and Biotechnology / Aspergillus niger / Enzyme / Rhodamine B / Substrate Specificity / Food Sciences / Submerged Culture
Biosynthesis of estragole and methyl-eugenol in sweet basil (Ocimum basilicum L). Developmental and chemotypic association of allylphenol O-methyltransferase activities
Plant Biology / Plant Science / Essential Oil / Substrate Specificity / LEAF DEVELOPMENT
Sperm express a Ca2+-regulated NAADP synthase
Calcium / Biological Sciences / Animals / Male / Biochemical / Sea Urchins / CHEMICAL SCIENCES / Substrate Specificity / Spermatozoa / Sea Urchins / CHEMICAL SCIENCES / Substrate Specificity / Spermatozoa
Light traffic: photo-crosslinking a novel transport system
Protein Folding / Energy Conservation / Intelligent Transport System / Biological Sciences / Bacteria / Light / Membrane transport proteins / CHEMICAL SCIENCES / Lysine / Substrate Specificity / Arginine / Amino Acid Sequence / Amino Acid Substitution Rates / PLANT PROTEINS / Protein Transport / Chloroplasts / Light / Membrane transport proteins / CHEMICAL SCIENCES / Lysine / Substrate Specificity / Arginine / Amino Acid Sequence / Amino Acid Substitution Rates / PLANT PROTEINS / Protein Transport / Chloroplasts
Catalytic properties of lipase extracts from Aspergillus niger
Bioinformatics / Microbiology / Molecular Biology / Biotechnology / Industrial Biotechnology / Olive Oil / Food Technology / Amines / Food Technology and Biotechnology / Aspergillus niger / Enzyme / Rhodamine B / Substrate Specificity / Food Sciences / Submerged Culture / Olive Oil / Food Technology / Amines / Food Technology and Biotechnology / Aspergillus niger / Enzyme / Rhodamine B / Substrate Specificity / Food Sciences / Submerged Culture
The F420H2:heterodisulfide oxidoreductase system from Methanosarcina species
Thermodynamics / Kinetics / Oxidoreductases / Phenazines / Electron Transport / Enzyme / Anti-Bacterial Agents / Specific Activity / Substrate Specificity / Water soluble polymers / Oxidation-Reduction / Glutamic Acid / Biochemistry and cell biology / Enzyme / Anti-Bacterial Agents / Specific Activity / Substrate Specificity / Water soluble polymers / Oxidation-Reduction / Glutamic Acid / Biochemistry and cell biology
Novel copper amine oxidase activity from rat liver mitochondria matrix
Biochemistry / Biophysics / Enzyme Inhibitors / Transmission Electron Microscopy / Enzyme Kinetics / Dopamine / Copper / Animals / Enzyme Inhibition / Sodium Dodecyl Sulfate-Polyacrylamide Gel Electrophoresis / Affinity chromatography / Enzyme / Hydrogen Peroxide / Rats / Substrate Specificity / Enzyme activity / Enzymatic Activity / Biochemistry and cell biology / Dopamine / Copper / Animals / Enzyme Inhibition / Sodium Dodecyl Sulfate-Polyacrylamide Gel Electrophoresis / Affinity chromatography / Enzyme / Hydrogen Peroxide / Rats / Substrate Specificity / Enzyme activity / Enzymatic Activity / Biochemistry and cell biology
Mycobacterium tuberculosis transporter MmpL7 is a potential substrate for kinase PknD
Mass Spectrometry / Virulence / Tuberculosis / Mycobacterium tuberculosis / Protein Kinases / Phosphorylation / Biochemical / Membrane transport proteins / Substrate Specificity / Virulence factor / Protein Kinase / Amino Acid Sequence / Cell Wall / Protein Binding / Drug Targeting / Biochemistry and cell biology / Phosphorylation / Biochemical / Membrane transport proteins / Substrate Specificity / Virulence factor / Protein Kinase / Amino Acid Sequence / Cell Wall / Protein Binding / Drug Targeting / Biochemistry and cell biology
Heterologous expression and physicochemical characterization of a fungal dye-decolorizing peroxidase from Auricularia auricula-judae
Kinetics / Peroxidase / Escherichia coli / Protein expression and purification / Substrate Specificity / Amino Acid Sequence / Oxidation-Reduction / Biochemistry and cell biology / BASIDIOMYCOTA / Amino Acid Sequence / Oxidation-Reduction / Biochemistry and cell biology / BASIDIOMYCOTA
Polygalacturonic Acid/endo-Polygalacturonase System: A Kinetic Study in Batch Reactors
Engineering / Technology / Kinetics / Biological Sciences / Computer Simulation / Substrate Specificity / Bioreactors / Pectins / Molecular weight / Batch Reactor / Protein Binding / Oxidation-Reduction / Polygalacturonase / Substrate Specificity / Bioreactors / Pectins / Molecular weight / Batch Reactor / Protein Binding / Oxidation-Reduction / Polygalacturonase
Polygalacturonic acid/endo-polygalacturonase system: a kinetic study in batch reactors
Engineering / Technology / Kinetics / Biological Sciences / Computer Simulation / Substrate Specificity / Bioreactors / Pectins / Molecular weight / Batch Reactor / Protein Binding / Oxidation-Reduction / Polygalacturonase / Substrate Specificity / Bioreactors / Pectins / Molecular weight / Batch Reactor / Protein Binding / Oxidation-Reduction / Polygalacturonase
Poly-3-hydroxyalkanoate synthases from Pseudomonas putida U: substrate specificity and ultrastructural studies
Microbiology / Microbial biotechnology / Microbial Biotechnology / Microbial / Pseudomonas putida / Substrate Specificity / Polyhydroxyalkanoates / Protein Conformation / Substrate Specificity / Polyhydroxyalkanoates / Protein Conformation
Noncanonical Vancomycin Resistance Cluster from Desulfitobacterium hafniense Y51
Microbiology / Medical Microbiology / Antibiotic Resistance / Genetic Diversity / Gram Positive / Anti-Bacterial Agents / Substrate Specificity / Desulfitobacterium / Antimicrobial agents / Genome sequence / Pathogenic Bacteria / Vancomycin resistance / Anti-Bacterial Agents / Substrate Specificity / Desulfitobacterium / Antimicrobial agents / Genome sequence / Pathogenic Bacteria / Vancomycin resistance
«
1
2
3
4
5
6
7
8
9
»
Copyright © 2017 DADOSPDF Inc.