Jonesiaceae | |
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Scientific classification | |
Domain: | Bacteria |
Phylum: | Actinomycetota |
Class: | Actinomycetia |
Order: | Micrococcales |
Family: | Jonesiaceae Stackebrandt et al. 1997 [1] |
Type genus | |
Jonesia Rocourt and Stackebrandt 1987 | |
Genera [2] | |
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Synonyms [2] | |
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Jonesiaceae is a family of Actinomycetota. [1] [2]
The Actinomycetia are a class of bacteria.
The Acidimicrobiaceae are a family of Actinomycetota.
The Bifidobacteriaceae are the only family of bacteria in the order Bifidobacteriales. According to the 16S rRNA-based LTP release 106 published by 'The All-Species Living Tree' Project, the order Bifidobacteriales is a clade nested within the suborder Micrococcineae, also the genus Bifidobacterium is paraphyletic to the other genera within the family, i.e. the other genera are nested within Bifidobacterium.
The Coriobacteriales are an order of Actinomycetota.
The Coriobacteriaceae
a family of Actinomycetota. The family Coriobacteriaceae has been shown to increase significantly in the ceca of mice in response to stress.
Rubrobacter is a genus of Actinomycetota. It is radiotolerant and may rival Deinococcus radiodurans in this regard.
Sphaerobacter is a genus of bacteria. When originally described it was placed in its own subclass (Spahaerobacteridae) within the class Actinomycetota. Subsequently, phylogenetic studies have now placed it in its own order Sphaerobacterales within the phylum Thermomicrobiota. Up to now there is only one species of this genus known. The closest related cultivated organism to S. Thermophilus is the Thermomicrobium Roseum and has an 87% sequence similarity which indicates that S. Thermophilus is one of the most isolated bacterial species.[4]
The Nocardiaceae are a family of aerobic, non-fastidious, high G+C, Gram-positive actinomycetes that are commonly found in soil and water. Members of this family have been isolated from Antarctic soils. Nocardiaceae present coccobacilli, filamentous or, rarely, fragmented and palisading forms, and filamentous species grow in a branching morphological pattern similar to fungal hyphae.
The suffix -bacter is in microbiology for many genera and is intended to mean "bacteria".
Acidothermus cellulolyticus is a species of gram-variable bacteria. It is the only member of the genus Acidothermus and the family Acidothermaceae.
The Glycomycetaceae are a family of bacteria.
Intrasporangiaceae is an actinomycete family. The family is named after the type genus Intrasporangium. The type species of Intrasporangium was originally thought to form endospores; however, the mycelium of this strain may bear intercalary vesicles that were originally identified as spores. No members of Intrasporangiaceae are known to form spores.
Promicromonosporaceae is an Actinomycete family.
Dermabacteraceae is an Actinomycetota family.
Thermomonosporaceae represents a Family of bacteria that share similar genotypic and phenotypic characteristics. The Family Thermomonosporaceae includes aerobic, Gram-positive, non-acid-fast, chemo-organotrophic Actinomycetota. They produce a branched substrate mycelium bearing aerial hyphae that undergo differentiation into single or short chains of arthrospores. All species of Thermomonosporaceae share the same cell wall type, a similar menaquinone profile in which MK-9(H6)is predominant, and fatty acid profile type 3a. The presence of the diagnostic sugar madurose is variable, but can be found in most species of this family. The polar lipid profiles are characterized as phospholipid type PI for most species of Thermomonospora, Actinomadura and Spirillospora. The members of Actinocorallia are characterized by phospholipid type PII.
The Acidimicrobiia are a class of Actinomycetota, in which three families, eight genera, and nine species have been described, Acidimicrobium ferrooxidans is the type species of the order.
Dietzia is a Gram-positive bacterial genus from the family Dietziaceae which occur in many different habitats including humans and animals. The species Dietzia maris is a human pathogen. The genus Dietzia is named after the American microbiologist Alma Dietz.
Tsukamurella is a Gram-positive, non-spore-forming, rod-shaped and obligate aerobic bacterial genus from the family of Tsukamurellaceae. Most of the strains of Tsukamurella degrade starch. Some Tsukamurella species can cause infections in humans.
Intrasporangium is a genus of Gram positive, nonmotile bacteria. The genus name refers to the mycelium of the type strain forming intercalary vesicles that were originally identified as spores. However, no spores have been observed in later studies. The family Intrasporangiaceae is named after the genus, and Intrasporangium is the type genus for the family.
The Sporichthyaceae are the only family of the order Sporichthyales, which is a part of the phylum Actinomycetota.