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Thermotoga neapolitana
Aglycone Specificity of Thermotoga Neapolitana B-Glucosidase 1A
Fermentation of Biodegradable Organic Waste by the Family Thermotogaceae
Complete Genome Sequence of the Hyperthermophilic Bacteria- Thermotoga Sp
Biochemical and Structural Analysis of Thermostable Esterases
Comparative Kinetic Modeling of Growth and Molecular Hydrogen Overproduction by Engineered Strains of Thermotoga Maritima
H Synthesis from Pentoses and Biomass in Spp. Niels T
Development of Genetic Tools for Thermotoga Spp
Deciphering the Outer Envelope of Thermotoga Maritima Chaman Ranjit University of Connecticut - Storrs,
[email protected]
Widespread Distribution of Archaeal Reverse Gyrase in Thermophilic Bacteria Suggests a Complex History of Vertical Inheritance and Lateral Gene Transfers
Examination of Contribution of Pentose Catabolism to Molecular
Downloaded (July 2018) and Aligned Using Msaprobs V0.9.7 (16)
Thermotoga Maritima
Novel, Deep-Branching Heterotrophic Bacterial Populations Recovered from Thermal Spring Metagenomes
Towards a Congruent Reclassification and Nomenclature Of
Conners, Shannon Burns. Carbohydrate Utilization Pathway Analysis in the Hyperthermophile Thermotoga Maritima
1 Insights Into the Evolution of Mesophily from the Bacterial Phylum Thermotogae
Hydrogen Production by the Thermophilic Bacterium, Thermotoga Neapolitana
Systems Biology of Thermotoga Neapolitana for Biological Hydrogen Production
Top View
Insights Into Temperature Adaptation in the Thermotogae Gained Through Transcriptomics and Comparative Genomics by Stephen Micha
Modulation of the Regioselectivity of a Thermotoga Neapolitana Β-Glucosidase by Site-Directed Mutagenesis
Effect of Cultivation Parameters on Fermentation and Hydrogen Production in the Phylum Thermotogae
Hydrogen Production by the Hyperthermophilic Bacterium
Optimization of Fermentative Biohydrogen Production by Thermotoga Neapolitana Gilbert Dreschke
Improvement of CO2 and Acetate Coupling Into Lactic Acid by Genetic Manipulation of the Hyperthermophilic Bacterium Thermotoga Neapolitana
Biohydrogen Production by the Hyperthermophilic Bacterium Thermotoga Neapolitana Xiaohui Yu Clemson University,
[email protected]
Thermotoga Neapolitana Adenylate Kinase Is Highly Active at 30 C
Natural Transformation of Thermotoga Sp. Strain RQ7
BIOHYDROGEN PRODUCTION by <I>Thermotoga
Cloned DNA Polymerases from Thermotoga Neapolitana and Mutants Thereof
Enhancement of Fermentative Hydrogen Production By
Cloning and Characterization of Α-Amylase from Thermotoga Neapolitana in Escherichia Coli
Evolution of the Biosynthesis of Dimyoinositol Phosphate, a Marker
224634E7881d11fc9e0d61c364
Anaerobic Thermophiles
A Novel Thermotoga Strain TFO Isolated from a Californian Petroleum Reservoir Phylogenetically Related to Thermotoga Petrophila and T
Genetic Modification of Thermotoga to Degrade Cellulose
Exploring Marine Environments for the Identification of Extremophiles and Their Enzymes for Sustainable and Green Bioprocesses
Biochemical Characterisation of Four Rhamnosidases from Thermophilic
ABSTRACT GRAY, STEVEN R. Functional Genomics Analysis Of