Works about THERMOTOGA maritima
Results: 144
Crystal Structures of Glycoside Hydrolase Family 51 α-L-Arabinofuranosidase from Thermotoga maritima.
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- Bioscience, Biotechnology & Biochemistry, 2012, v. 76, n. 2, p. 423, doi. 10.1271/bbb.110902
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Development of a novel fluorescent protein construct by genetically fusing green fluorescent protein to the N-terminal of aspartate dehydrogenase.
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- Biotechnology & Applied Biochemistry, 2013, v. 60, n. 4, p. 399, doi. 10.1002/bab.1107
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Rational design of a thermostable glycoside hydrolase from family 3 introduces β-glycosynthase activity.
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- Glycobiology, 2017, v. 27, n. 2, p. 165, doi. 10.1093/glycob/cww081
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Engineering Thermotoga maritima β-glucosidase for improved alkyl glycosides synthesis by site-directed mutagenesis.
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- Journal of Industrial Microbiology & Biotechnology, 2021, v. 48, n. 5/6, p. 1, doi. 10.1093/jimb/kuab031
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Heterologous co-expression of two β-glucanases and a cellobiose phosphorylase resulted in a significant increase in the cellulolytic activity of the Caldicellulosiruptor bescii exoproteome.
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- Journal of Industrial Microbiology & Biotechnology, 2019, v. 46, n. 5, p. 687, doi. 10.1007/s10295-019-02150-0
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Discovery and characterization of a novel ATP/polyphosphate xylulokinase from a hyperthermophilic bacterium Thermotoga maritima.
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- Journal of Industrial Microbiology & Biotechnology, 2013, v. 40, n. 7, p. 661, doi. 10.1007/s10295-013-1265-7
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Resveratrol and arctigenin production from polydatin and arctiin respectively by a thermostable β-glucosidase from Thermotoga maritima.
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- Journal of Carbohydrate Chemistry, 2018, v. 37, n. 7/8, p. 414, doi. 10.1080/07328303.2018.1541996
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Harnessing the potential of chloroplast-derived expression elements for enhanced production of cellulases in Escherichia coli.
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- PeerJ, 2025, p. 1, doi. 10.7717/peerj.18616
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Development of a Novel Bi-Enzymatic Nanobiocatalyst for the Efficient Bioconversion of Oleuropein to Hydroxytyrosol.
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- Catalysts (2073-4344), 2021, v. 11, n. 6, p. 749, doi. 10.3390/catal11060749
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Synthesis of Chiral Acyclic Pyrimidine Nucleoside Analogues from DHAP-Dependent Aldolases.
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- Biomolecules (2218-273X), 2024, v. 14, n. 7, p. 750, doi. 10.3390/biom14070750
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Modifying Thermostability and Reusability of Hyperthermophilic Mannanase by Immobilization on Glutaraldehyde Cross-Linked Chitosan Beads.
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- Biomolecules (2218-273X), 2022, v. 12, n. 7, p. N.PAG, doi. 10.3390/biom12070999
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Cryo-EM Structure of Heterologous Protein Complex Loaded Thermotoga Maritima Encapsulin Capsid.
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- Biomolecules (2218-273X), 2020, v. 10, n. 9, p. 1342, doi. 10.3390/biom10091342
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Enhanced Biomass Yield of and Saccharification in Transgenic Tobacco Over-Expressing β-Glucosidase.
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- Biomolecules (2218-273X), 2020, v. 10, n. 5, p. 806, doi. 10.3390/biom10050806
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Systems biology of the structural proteome.
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- BMC Systems Biology, 2016, v. 11, p. 1, doi. 10.1186/s12918-016-0271-6
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Crystal structure of the cell division protein FtsA from Thermotoga maritima.
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- EMBO Journal, 2000, v. 19, n. 20, p. 5300, doi. 10.1093/emboj/19.20.5300
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COBRAme: A computational framework for genome-scale models of metabolism and gene expression.
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- PLoS Computational Biology, 2018, v. 14, n. 7, p. 1, doi. 10.1371/journal.pcbi.1006302
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Cloning, purification, and characterization of xylose isomerase from Thermotoga naphthophila RKU-10.
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- Journal of Basic Microbiology, 2016, v. 56, n. 9, p. 949, doi. 10.1002/jobm.201500589
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Cytoplasmic expression of a thermostable invertase from Thermotoga maritima in Lactococcus lactis.
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- Biotechnology Letters, 2017, v. 39, n. 5, p. 759, doi. 10.1007/s10529-017-2295-4
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Characterization of ribose-5-phosphate isomerase converting d-psicose to d-allose from Thermotoga lettingae TMO.
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- Biotechnology Letters, 2013, v. 35, n. 5, p. 719, doi. 10.1007/s10529-013-1136-3
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Characterization of an aldo-keto reductase from Thermotoga maritima with high thermostability and a broad substrate spectrum.
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- Biotechnology Letters, 2013, v. 35, n. 5, p. 757, doi. 10.1007/s10529-013-1141-6
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Structural basis of catalysis and substrate recognition by the NAD(H)-dependent _-dglucuronidase from the glycoside hydrolase family 4.
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- Biochemical Journal, 2021, v. 478, n. 4, p. 943, doi. 10.1042/BCJ20200824
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Multi-Objective Optimization of Thermophilic Biohydrogen Production.
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- CET Journal - Chemical Engineering Transactions, 2023, v. 105, p. 31, doi. 10.3303/CET23105006
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- Article
FUNCTIONAL INSIGHTS AND MOLECULAR MODEL ANALYSES OF Thermotoga maritima XYLANASES REVEAL THERMOSTABILITY AND COMPLEX EVOLUTIONARY LINEAGE.
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- Pakistan Journal of Agricultural Sciences, 2019, v. 56, n. 4, p. 809, doi. 10.21162/PAKJAS/19.7562
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Role of magnesium ions in the reaction mechanism at the interface between Tm1631 protein and its DNA ligand.
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- Chemistry Central Journal, 2016, v. 10, p. 1, doi. 10.1186/s13065-016-0188-6
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Biocatalysts from cyanobacterial hapalindole pathway afford antivirulent isonitriles against MRSA.
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- Journal of Biosciences, 2021, v. 46, n. 2, p. 1, doi. 10.1007/s12038-021-00156-4
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Improvement of Fucosylated Oligosaccharides Synthesis by α-L-Fucosidase from Thermotoga maritima in Water-Organic Cosolvent Reaction System.
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- Applied Biochemistry & Biotechnology, 2021, v. 193, n. 11, p. 3553, doi. 10.1007/s12010-021-03628-3
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Synthesis of a Fucosylated Trisaccharide Via Transglycosylation by α-L-Fucosidase from Thermotoga maritima.
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- Applied Biochemistry & Biotechnology, 2018, v. 186, n. 3, p. 681, doi. 10.1007/s12010-018-2771-x
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Expression and Characterization of a Novel Thermo-Alkalistable Lipase from Hyperthermophilic Bacterium Thermotoga maritima.
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- Applied Biochemistry & Biotechnology, 2015, v. 176, n. 5, p. 1482, doi. 10.1007/s12010-015-1659-2
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Recombinant S-Adenosylhomocysteine Hydrolase from Thermotoga maritima: Cloning, Overexpression, Characterization, and Thermal Purification Studies.
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- Applied Biochemistry & Biotechnology, 2013, v. 170, n. 3, p. 639, doi. 10.1007/s12010-013-0218-y
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Evidence Showing Duplication and Recombination of cel Genes in Tandem from Hyperthermophilic Thermotoga sp.
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- Applied Biochemistry & Biotechnology, 2012, v. 168, n. 7, p. 1834, doi. 10.1007/s12010-012-9901-7
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Bioinorganic chemistry: Enzymes activated by synthetic components.
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- Nature, 2013, v. 499, n. 7456, p. 40, doi. 10.1038/nature12260
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Improvement of the efficiency of transglycosylation catalyzed by α-galactosidase from Thermotoga maritima by protein engineering.
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- Biochemistry (00062979), 2013, v. 78, n. 10, p. 1112, doi. 10.1134/S0006297913100052
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Enhanced soluble expression of a thermostble β-glucosidase from Thermotoga maritima in Escherichia coli and its applicaton in immobilization.
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- Applied Biochemistry & Microbiology, 2015, v. 51, n. 3, p. 306, doi. 10.1134/S0003683815030175
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Structural insight on the mechanism of an electron-bifurcating [FeFe] hydrogenase.
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- eLife, 2022, p. 1, doi. 10.7554/eLife.79361
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XYLOSE ISOMERASES FROM THERMOTOGALES.
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- JAPS: Journal of Animal & Plant Sciences, 2015, v. 25, n. 1, p. 10
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Heterologous expression and characterization of a recombinant thermophilic arylsulfatase from Thermotoga maritima.
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- Biotechnology & Bioprocess Engineering, 2013, v. 18, n. 5, p. 897, doi. 10.1007/s12257-013-0094-x
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Biochemical properties of a novel thermostable and highly xylose-tolerant β-xylosidase/ a-arabinosidase from Thermotoga thermarum.
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- Biotechnology for Biofuels, 2013, v. 6, n. 1, p. 1, doi. 10.1186/1754-6834-6-27
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A pipeline for completing bacterial genomes using in silico and wet lab approaches.
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- BMC Genomics, 2015, v. 16, p. 1, doi. 10.1186/1471-2164-16-S3-S7
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Differential contributions of the latch in Thermotoga maritima reverse gyrase to the binding of single-stranded DNA before and after ATP hydrolysis.
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- Biological Chemistry, 2014, v. 395, n. 1, p. 83, doi. 10.1515/hsz-2013-0177
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Structural analysis of the diadenylate cyclase reaction of DNA-integrity scanning protein A (DisA) and its inhibition by 3'-dATP.
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- Biochemical Journal, 2015, v. 469, n. 3, p. 367, doi. 10.1042/BJ20150373
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CORRECTION.
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- 2013
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- Correction Notice
Exploring the structure and function of Thermotoga maritima CorA reveals the mechanism of gating and ion selectivity in Co<sup>2+</sup> /Mg<sup>2+</sup> transport.
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- Biochemical Journal, 2013, v. 451, n. 3, p. 365, doi. 10.1042/BJ20121745
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Structure, function and substrate preferences of archaeal S-adenosyl-l-homocysteine hydrolases.
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- Communications Biology, 2024, p. 1, doi. 10.1038/s42003-024-06078-9
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Novel Sequence Feature of SecA Translocase Protein Unique to the Thermophilic Bacteria: Bioinformatics Analyses to Investigate Their Potential Roles.
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- Microorganisms, 2020, v. 8, n. 1, p. 59, doi. 10.3390/microorganisms8010059
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A pH-gated conformational switch regulates the phosphatase activity of bifunctional HisKA-family histidine kinases.
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- Nature Communications, 2017, v. 8, n. 1, p. 1, doi. 10.1038/s41467-017-02310-9
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Biohydrogen Production and Quantitative Determination of Monosaccharide Production Using Hyperthermophilic Anaerobic Fermentation of Corn Stover.
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- Energies (19961073), 2024, v. 17, n. 7, p. 1734, doi. 10.3390/en17071734
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Hydrogen production by the hyperthermophilic bacterium Thermotoga maritima Part II: modeling and experimental approaches for hydrogen production.
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- Biotechnology for Biofuels, 2016, v. 9, p. 1, doi. 10.1186/s13068-016-0681-0
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Hydrogen production by the hyperthermophilic bacterium Thermotoga maritima part I: effects of sulfured nutriments, with thiosulfate as model, on hydrogen production and growth.
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- Biotechnology for Biofuels, 2016, v. 9, p. 1, doi. 10.1186/s13068-016-0678-8
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Correction: Site-Directed Mutagenesis of a Hyperthermophilic Endoglucanase Cel12B from Thermotoga maritima Based on Rational Design.
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- PLoS ONE, 2015, v. 10, n. 10, p. 1, doi. 10.1371/journal.pone.0141937
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Site-Directed Mutagenesis of a Hyperthermophilic Endoglucanase Cel12B from Thermotoga maritima Based on Rational Design.
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- PLoS ONE, 2015, v. 10, n. 7, p. 1, doi. 10.1371/journal.pone.0133824
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- Article