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Fuch.si.el'la. N. L. fem. dim. n. Fuchsiella named in the honor of Professor Georg Fuchs (Freiburg), who made a major contribution to our understanding of multiple pathways of CO 2 assimilation by microorganisms. Firmicutes / Clostridia / Halanaerobiales / Halobacteroidaceae / Fuchsiella The genus Fuchsiella is represented by flexible, spore‐forming rods, which are motile by means of peritrichous flagella. Cell wall has Gram‐stain‐negative structure. Reproduce by cell division, often unequal. Members of the species are strictly anaerobic and mesophilic, extremely alkaliphilic and natronophilic, developing in soda brines at pH 8.5–10.5. Members of the genus Fuchsiella require high‐salt medium and obligately depend on sodium carbonates. Possess a respiratory type of homoacetogenic metabolism. Able to grow chemolithoautotrophically with H 2 as an electron donor or chemoorganotrophically with some alcohols and organic acids. Fuchsiella spp. can reduce nitrate, selenate, anthraquinone‐2,6‐disulfonate, ferric iron, elemental sulfur, and to less extent thiosulfate as electron acceptors. Acetate is the main metabolic product. The major fatty acids are anteiso‐C 15 , C 14:0 , and C 16:0 and the aldehydes C 16 , C 14 , and anteiso‐C 15 . Members of the phylum Firmicutes , class Clostridia , order Halanaerobiales , family Halobacteroidaceae . Known habitats are highly hypersaline soda lakes. DNA G + C content (mol%) : 32.0–34.6 ( T m ). Type species : Fuchsiella alkaliacetigena Zhilina, Zavarzina, Panteleeva, Osipov, Kostrikina, Tourova and Zavarzin 2012, 1671 VP .
Fuch.si.el'la. N. L. fem. dim. n. Fuchsiella named in the honor of Professor Georg Fuchs (Freiburg), who made a major contribution to our understanding of multiple pathways of CO 2 assimilation by microorganisms. Firmicutes / Clostridia / Halanaerobiales / Halobacteroidaceae / Fuchsiella The genus Fuchsiella is represented by flexible, spore‐forming rods, which are motile by means of peritrichous flagella. Cell wall has Gram‐stain‐negative structure. Reproduce by cell division, often unequal. Members of the species are strictly anaerobic and mesophilic, extremely alkaliphilic and natronophilic, developing in soda brines at pH 8.5–10.5. Members of the genus Fuchsiella require high‐salt medium and obligately depend on sodium carbonates. Possess a respiratory type of homoacetogenic metabolism. Able to grow chemolithoautotrophically with H 2 as an electron donor or chemoorganotrophically with some alcohols and organic acids. Fuchsiella spp. can reduce nitrate, selenate, anthraquinone‐2,6‐disulfonate, ferric iron, elemental sulfur, and to less extent thiosulfate as electron acceptors. Acetate is the main metabolic product. The major fatty acids are anteiso‐C 15 , C 14:0 , and C 16:0 and the aldehydes C 16 , C 14 , and anteiso‐C 15 . Members of the phylum Firmicutes , class Clostridia , order Halanaerobiales , family Halobacteroidaceae . Known habitats are highly hypersaline soda lakes. DNA G + C content (mol%) : 32.0–34.6 ( T m ). Type species : Fuchsiella alkaliacetigena Zhilina, Zavarzina, Panteleeva, Osipov, Kostrikina, Tourova and Zavarzin 2012, 1671 VP .
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