microbiology 2
Terms
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- chromatium cell shape
- rod with sulfur granules
- chromatium metabolic type
- anoxygenic phototroph
- chromatium phylogeny
- gamma proteobacteria
- chromatium taxonomic classification
- purple sulfur bacteria
- chromatium metabolism
- H2S to So42 Co2 to carbon energy from light
- chromatium habitat
- stratified lakes and salt marsh mats
- chromatium ecological importance
- co2 fixation sulfide oxidation
- anabaena cell shape
- filament with heterocysts
- anabaena metabolic type
- oxygenic phototroph
- anabaena phylogeny
- cyanobacteria-chloroplast division of bacteria
- anabaena taxonomic classification
- filamentous heterocystous heterobacteria
- anabaena metabolism
- H2O to O2 Co2 to cell material light for energy
- anabaena habitat
- soil, water, varied
- anabaena ecological importance
- O2 production, Co2 fixation nitrogen fixation
- nitrosococcus cell shape
- coccus with inner membranes
- nitrosococcus metabolic type
- aerobic chemolithotroph
- nitrosococcus phylogeny
- alpha proteobacteria
- nitrosococcus taxonomic classification
- nitrifying bacteria
- nitrosococcus metabolism
- NH3 to No2- Co2 to cell material O2 to H20
- nitrosococcus ecological importance
- nitrofication
- Thiobacillus ferrooxidans cell shape
- rod
- Thiobacillus ferrooxidans metabolic type
- aerobic chemolithotroph
- Thiobacillus ferrooxidans phylogeny
- beta proteobacteria
- Thiobacillus ferrooxidans taxonomic classification
- colorless sulfur bacteria
- Thiobacillus ferrooxidans metabolism
- So to So42 Fe2 to Fe3 O2 to H20 Co2 to cell material
- Thiobacillus ferrooxidans habitat
- acid mines, acidic soil
- Thiobacillus ferrooxidans ecological importance
- iron and sulfur oxidation
- Thiobacillus ferrooxidans exploitation
- microbial mining
- methylobacteria metabolic type
- respiration
- methylobacteria phylogeny
- alpha proteobacteria
- methylobacteria taxonomic classification
- ink-pigmented facultative methylotroph, Gram negative rod, motile, strict aerobe
- methylobacteria metabolism
- organic acids, C2 compounds, C1 compounds to Co2
- methylobacteria habitats
- soil, plant leaf surfaces
- methylobacteria ecological importance
- degradation of C1 to C4 compounds
- methylobacteria exploitation
- biocatalysis
- azotobacter cell shape
- rod
- azotobacter metabolic type
- aerobic chemoorganotroph, nitrogen fixing
- azotobacter phylogeny
- gamma proteobacteria
- azotobacter taxonomic classification
- gram negative aerobic rod
- azotobacter metabolism
- N2 to NH3 to cell material org compounds to Co2 O2 to H2o
- azotobacter habitat
- soil
- azotobacter ecological importance
- nitrogen fixation
- Pseudomonas cell shape
- rod with polar flagella
- Pseudomonas metabolic type
- aerobic chemoorganotroph
- Pseudomonas phylogeny
- gamma proteobacteria
- Pseudomonas taxonomic classification
- gram negative aerobic rod
- Pseudomonas metabolism
- org compounds to Co2 o2 to h20
- Pseudomonas habitat
- soil, water, plant and animal associations
- Pseudomonas ecological importance
- degradation of organic compounds, including recalcitrant compounds
- Pseudomonas exploitation
- bioremediation
- Rhizobium cell shape
- rod
- Rhizobium metabolic type
- aerobic chemoorganotroph
- Rhizobium phylogeny
- alpha proteobacteria
- Rhizobium taxonomic classification
- gram negative aerobic rod
- Rhizobium metabolism
- organic compds to Co2 o2 to h20 N2 to NH3
- Rhizobium habitat
- soil, nodules of legumes
- Rhizobium ecological importance
- nitrogen fixation
- Rhizobium exploitation
- improved growth of crop plants
- glutamate dehydrogenase
- a ketoglutarate + NH3 -> glutamate
- glutamine synthetase
- glutamate + NH3 -> glutamine
- glutamate synthase
- gln (2n) + akg -> 2 glutamate