Syntrophic metabolism is diverse in two respects: phylogenetically with microorganisms capable of syntrophic metabolism found in the Deltaproteobacteria and in the low G+C gram-positive bacteria, and metabolically given the wide variety of compounds that can be syntrophically metabolized.The latter includes saturated fatty acids, unsaturated fatty acids, alcohols, and hydrocarbons. Besides residing in freshwater and marine anoxic sediments and soils, microbes capable of syntrophic metabolism also have been observed in more extreme habitats, including acidic soils, alkaline soils, thermal springs, and permanently cold soils, demonstrating that syntrophy is a widely distributed metabolic process in nature. Recent ecological and physiological ...
Below the familiar oxygenated biosphere lay ecosystems teeming with “anaerobic” prokaryotes thriving...
Microbial syntrophy is a vital metabolic interaction necessary for the complete oxidation of organic...
Microbial syntrophy is a vital metabolic interaction necessary for the complete oxidation of organic...
Syntrophic metabolism is diverse in two respects: phylogenetically with microorganisms capable of sy...
Syntrophic metabolism is diverse in two respects: phylogenetically with microorganisms capable of sy...
Syntrophic metabolism is diverse in two respects: phylogenetically with microorganisms capable of sy...
Syntrophic metabolism is diverse in two respects: phylogenetically with microorganisms capable of sy...
Carbon is recycled in the anaerobic environment by fatty acid and aromatic compound-degrading syntro...
In sulfate-reducing and methanogenic environments complex biopolymers are degraded by fermentative ...
Hydrocarbon compounds can be biodegraded by anaerobic microorganisms to form methane through an ener...
Hydrocarbon compounds can be biodegraded by anaerobic microorganisms to form methane through an ener...
In sulfate-reducing and methanogenic environments complex biopolymers are hydrolyzed and degraded by...
AbstractIn sulfate-reducing and methanogenic environments complex biopolymers are hydrolyzed and deg...
In sulfate-reducing and methanogenic environments complex biopolymers are hydrolyzed and degraded by...
Syntrophy is a tightly coupled mutualistic interaction among microorganisms that is essential for th...
Below the familiar oxygenated biosphere lay ecosystems teeming with “anaerobic” prokaryotes thriving...
Microbial syntrophy is a vital metabolic interaction necessary for the complete oxidation of organic...
Microbial syntrophy is a vital metabolic interaction necessary for the complete oxidation of organic...
Syntrophic metabolism is diverse in two respects: phylogenetically with microorganisms capable of sy...
Syntrophic metabolism is diverse in two respects: phylogenetically with microorganisms capable of sy...
Syntrophic metabolism is diverse in two respects: phylogenetically with microorganisms capable of sy...
Syntrophic metabolism is diverse in two respects: phylogenetically with microorganisms capable of sy...
Carbon is recycled in the anaerobic environment by fatty acid and aromatic compound-degrading syntro...
In sulfate-reducing and methanogenic environments complex biopolymers are degraded by fermentative ...
Hydrocarbon compounds can be biodegraded by anaerobic microorganisms to form methane through an ener...
Hydrocarbon compounds can be biodegraded by anaerobic microorganisms to form methane through an ener...
In sulfate-reducing and methanogenic environments complex biopolymers are hydrolyzed and degraded by...
AbstractIn sulfate-reducing and methanogenic environments complex biopolymers are hydrolyzed and deg...
In sulfate-reducing and methanogenic environments complex biopolymers are hydrolyzed and degraded by...
Syntrophy is a tightly coupled mutualistic interaction among microorganisms that is essential for th...
Below the familiar oxygenated biosphere lay ecosystems teeming with “anaerobic” prokaryotes thriving...
Microbial syntrophy is a vital metabolic interaction necessary for the complete oxidation of organic...
Microbial syntrophy is a vital metabolic interaction necessary for the complete oxidation of organic...