Name: Murinocardiopsis flavida CCUG 57469
Creator: BacDive
License: https://creativecommons.org/licenses/by/4.0/

Strain identifier

BacDive ID: 155365

Type strain:

Species: Murinocardiopsis flavida

Culture col. no.: CCUG 57469

NCBI tax ID(s): 645275 (species)

SI-ID 408718

CCUG 57469

Special Collections

CCUG

Other strains from Murinocardiopsis flavida

Murinocardiopsis flavida CCUG 57469 is a bacterium that was isolated from Indoor walls colonized with molds.

Bacteria

Information on the name and the taxonomic classification. Name and taxonomic classification

	Last LPSN update	14-12-2023 (DD-MM-YYYY)
	Domain	"Bacteria"
	Phylum	*Actinomycetota*
	Class	*Actinomycetes*
	Order	*Streptosporangiales*
	Family	*Nocardiopsidaceae*
	Genus	*Murinocardiopsis*
	Species	**Murinocardiopsis flavida**
	Full Scientific Name (LPSN)	Murinocardiopsis flavida Kämpfer et al. 2010

Information on physiology and metabolism Physiology and metabolism

	Pathway	Enzyme coverage	Annotated reactions
	Pathway annotation	Computationally determined by
[Ref.: #66794]	cellulose degradation	100	5 of 5
[Ref.: #66794]	L-lactaldehyde degradation	100	3 of 3
[Ref.: #66794]	palmitate biosynthesis	100	22 of 22
[Ref.: #66794]	propanol degradation	100	7 of 7
[Ref.: #66794]	glycogen metabolism	100	5 of 5
[Ref.: #66794]	myo-inositol biosynthesis	100	10 of 10
[Ref.: #66794]	acetate fermentation	100	4 of 4
[Ref.: #66794]	molybdenum cofactor biosynthesis	100	9 of 9
[Ref.: #66794]	daunorubicin biosynthesis	100	9 of 9
[Ref.: #66794]	enterobactin biosynthesis	100	3 of 3
[Ref.: #66794]	aspartate and asparagine metabolism	100	9 of 9
[Ref.: #66794]	cis-vaccenate biosynthesis	100	2 of 2
[Ref.: #66794]	4-hydroxymandelate degradation	100	9 of 9
[Ref.: #66794]	cardiolipin biosynthesis	100	7 of 7
[Ref.: #66794]	adipate degradation	100	2 of 2
[Ref.: #66794]	cyanate degradation	100	3 of 3
[Ref.: #66794]	ppGpp biosynthesis	100	4 of 4
[Ref.: #66794]	methylglyoxal degradation	100	5 of 5
[Ref.: #66794]	anapleurotic synthesis of oxalacetate	100	1 of 1
[Ref.: #66794]	aerobactin biosynthesis	100	1 of 1
[Ref.: #66794]	taurine degradation	100	1 of 1
[Ref.: #66794]	folate polyglutamylation	100	1 of 1
[Ref.: #66794]	suberin monomers biosynthesis	100	2 of 2
[Ref.: #66794]	UDP-GlcNAc biosynthesis	100	3 of 3
[Ref.: #66794]	CDP-diacylglycerol biosynthesis	100	2 of 2
[Ref.: #66794]	coenzyme A metabolism	100	4 of 4
[Ref.: #66794]	formaldehyde oxidation	100	3 of 3
[Ref.: #66794]	glycine betaine biosynthesis	100	5 of 5
[Ref.: #66794]	vitamin K metabolism	100	5 of 5
[Ref.: #66794]	valine metabolism	100	9 of 9
[Ref.: #66794]	starch degradation	100	10 of 10
[Ref.: #66794]	glycolate and glyoxylate degradation	100	6 of 6
[Ref.: #66794]	ethanol fermentation	100	2 of 2
[Ref.: #66794]	phenylalanine metabolism	92.31	12 of 13
[Ref.: #66794]	pentose phosphate pathway	90.91	10 of 11
[Ref.: #66794]	Entner Doudoroff pathway	90	9 of 10
[Ref.: #66794]	threonine metabolism	90	9 of 10
[Ref.: #66794]	glutamate and glutamine metabolism	89.29	25 of 28
[Ref.: #66794]	serine metabolism	88.89	8 of 9
[Ref.: #66794]	allantoin degradation	88.89	8 of 9
[Ref.: #66794]	C4 and CAM-carbon fixation	87.5	7 of 8
[Ref.: #66794]	flavin biosynthesis	86.67	13 of 15
[Ref.: #66794]	reductive acetyl coenzyme A pathway	85.71	6 of 7
[Ref.: #66794]	photosynthesis	85.71	12 of 14
[Ref.: #66794]	aclacinomycin biosynthesis	85.71	6 of 7
[Ref.: #66794]	heme metabolism	85.71	12 of 14
[Ref.: #66794]	citric acid cycle	85.71	12 of 14
[Ref.: #66794]	purine metabolism	85.11	80 of 94
[Ref.: #66794]	leucine metabolism	84.62	11 of 13
[Ref.: #66794]	degradation of sugar acids	84	21 of 25
[Ref.: #66794]	phenylacetate degradation (aerobic)	80	4 of 5
[Ref.: #66794]	factor 420 biosynthesis	80	4 of 5
[Ref.: #66794]	metabolism of amino sugars and derivatives	80	4 of 5
[Ref.: #66794]	ethylmalonyl-CoA pathway	80	4 of 5
[Ref.: #66794]	3-chlorocatechol degradation	80	4 of 5
[Ref.: #66794]	peptidoglycan biosynthesis	80	12 of 15
[Ref.: #66794]	alanine metabolism	79.31	23 of 29
[Ref.: #66794]	degradation of pentoses	78.57	22 of 28
[Ref.: #66794]	chorismate metabolism	77.78	7 of 9
[Ref.: #66794]	CO2 fixation in Crenarchaeota	77.78	7 of 9
[Ref.: #66794]	vitamin B1 metabolism	76.92	10 of 13
[Ref.: #66794]	urea cycle	76.92	10 of 13
[Ref.: #66794]	arginine metabolism	75	18 of 24
[Ref.: #66794]	glycogen biosynthesis	75	3 of 4
[Ref.: #66794]	gluconeogenesis	75	6 of 8
[Ref.: #66794]	butanoate fermentation	75	3 of 4
[Ref.: #66794]	dTDPLrhamnose biosynthesis	75	6 of 8
[Ref.: #66794]	degradation of sugar alcohols	75	12 of 16
[Ref.: #66794]	isoleucine metabolism	75	6 of 8
[Ref.: #66794]	sulfopterin metabolism	75	3 of 4
[Ref.: #66794]	proline metabolism	72.73	8 of 11
[Ref.: #66794]	histidine metabolism	72.41	21 of 29
[Ref.: #66794]	NAD metabolism	72.22	13 of 18
[Ref.: #66794]	degradation of hexoses	72.22	13 of 18
[Ref.: #66794]	tetrahydrofolate metabolism	71.43	10 of 14
[Ref.: #66794]	ubiquinone biosynthesis	71.43	5 of 7
[Ref.: #66794]	pyrimidine metabolism	71.11	32 of 45
[Ref.: #66794]	tryptophan metabolism	71.05	27 of 38
[Ref.: #66794]	lipid metabolism	70.97	22 of 31
[Ref.: #66794]	glycolysis	70.59	12 of 17
[Ref.: #66794]	propionate fermentation	70	7 of 10
[Ref.: #66794]	ascorbate metabolism	68.18	15 of 22
[Ref.: #66794]	octane oxidation	66.67	2 of 3
[Ref.: #66794]	cysteine metabolism	66.67	12 of 18
[Ref.: #66794]	acetyl CoA biosynthesis	66.67	2 of 3
[Ref.: #66794]	acetoin degradation	66.67	2 of 3
[Ref.: #66794]	d-mannose degradation	66.67	6 of 9
[Ref.: #66794]	IAA biosynthesis	66.67	2 of 3
[Ref.: #66794]	oxidative phosphorylation	65.93	60 of 91
[Ref.: #66794]	non-pathway related	65.79	25 of 38
[Ref.: #66794]	isoprenoid biosynthesis	65.38	17 of 26
[Ref.: #66794]	tyrosine metabolism	64.29	9 of 14
[Ref.: #66794]	d-xylose degradation	63.64	7 of 11
[Ref.: #66794]	vitamin B6 metabolism	63.64	7 of 11
[Ref.: #66794]	6-hydroxymethyl-dihydropterin diphosphate biosynthesis	62.5	5 of 8
[Ref.: #66794]	ketogluconate metabolism	62.5	5 of 8
[Ref.: #66794]	lysine metabolism	61.9	26 of 42
[Ref.: #66794]	methionine metabolism	61.54	16 of 26
[Ref.: #66794]	sulfate reduction	61.54	8 of 13
[Ref.: #66794]	gallate degradation	60	3 of 5
[Ref.: #66794]	lipoate biosynthesis	60	3 of 5
[Ref.: #66794]	bile acid biosynthesis, neutral pathway	58.82	10 of 17
[Ref.: #66794]	glutathione metabolism	57.14	8 of 14
[Ref.: #66794]	phenol degradation	55	11 of 20
[Ref.: #66794]	metabolism of disaccharids	54.55	6 of 11
[Ref.: #66794]	phosphatidylethanolamine bioynthesis	53.85	7 of 13
[Ref.: #66794]	phenylpropanoid biosynthesis	53.85	7 of 13
[Ref.: #66794]	3-phenylpropionate degradation	53.33	8 of 15
[Ref.: #66794]	lactate fermentation	50	2 of 4
[Ref.: #66794]	quinate degradation	50	1 of 2
[Ref.: #66794]	cyclohexanol degradation	50	2 of 4
[Ref.: #66794]	carnitine metabolism	50	4 of 8
[Ref.: #66794]	degradation of aromatic, nitrogen containing compounds	50	6 of 12
[Ref.: #66794]	phenylmercury acetate degradation	50	1 of 2
[Ref.: #66794]	resorcinol degradation	50	1 of 2
[Ref.: #66794]	toluene degradation	50	2 of 4
[Ref.: #66794]	ribulose monophosphate pathway	50	1 of 2
[Ref.: #66794]	vitamin E metabolism	50	2 of 4
[Ref.: #66794]	carotenoid biosynthesis	50	11 of 22
[Ref.: #66794]	4-hydroxyphenylacetate degradation	50	5 of 10
[Ref.: #66794]	coenzyme M biosynthesis	50	5 of 10
[Ref.: #66794]	glycine metabolism	50	5 of 10
[Ref.: #66794]	CMP-KDO biosynthesis	50	2 of 4
[Ref.: #66794]	mannosylglycerate biosynthesis	50	1 of 2
[Ref.: #66794]	kanosamine biosynthesis II	50	1 of 2
[Ref.: #66794]	nitrate assimilation	44.44	4 of 9
[Ref.: #66794]	androgen and estrogen metabolism	43.75	7 of 16
[Ref.: #66794]	polyamine pathway	43.48	10 of 23
[Ref.: #66794]	benzoyl-CoA degradation	42.86	3 of 7
[Ref.: #66794]	arachidonate biosynthesis	40	2 of 5
[Ref.: #66794]	creatinine degradation	40	2 of 5
[Ref.: #66794]	bacilysin biosynthesis	40	2 of 5
[Ref.: #66794]	cholesterol biosynthesis	36.36	4 of 11
[Ref.: #66794]	sphingosine metabolism	33.33	2 of 6
[Ref.: #66794]	(5R)-carbapenem carboxylate biosynthesis	33.33	1 of 3
[Ref.: #66794]	selenocysteine biosynthesis	33.33	2 of 6
[Ref.: #66794]	sulfoquinovose degradation	33.33	1 of 3
[Ref.: #66794]	lipid A biosynthesis	33.33	3 of 9
[Ref.: #66794]	chlorophyll metabolism	33.33	6 of 18
[Ref.: #66794]	vitamin B12 metabolism	32.35	11 of 34
[Ref.: #66794]	arachidonic acid metabolism	27.78	5 of 18
[Ref.: #66794]	methanogenesis from CO2	25	3 of 12
[Ref.: #66794]	biotin biosynthesis	25	1 of 4
		Only first 10 entries are displayed. Click here to see all.

Information on isolation source, the sampling and environmental conditions Isolation, sampling and environmental information

[Ref.: #61339]	Sample type/isolated from	Indoor walls colonized with molds
[Ref.: #61339]	Geographic location (country and/or sea, region)	Giessen
[Ref.: #61339]	Country	Germany
[Ref.: #61339]	Country ISO 3 Code	DEU
[Ref.: #61339]	Continent	Europe
* marker position based on {}

Isolation sources categories

#Engineered	#Built environment	#Indoor
#Host	#Fungi	-

What are isolation sources categories?

Availability in culture collections External links

[Ref.: #61339]

Culture collection no.

CCUG 57469

[Ref.: #108808]

SI-ID 408718

References

#20215

Parte, A.C., Sardà Carbasse, J., Meier-Kolthoff, J.P., Reimer, L.C. and Göker, M.: List of Prokaryotic names with Standing in Nomenclature (LPSN) moves to the DSMZ. IJSEM ( DOI 10.1099/ijsem.0.004332 )

#61339 Culture Collection University of Gothenburg (CCUG) ; Curators of the CCUG; CCUG 57469

#66794

Antje Chang, Lisa Jeske, Sandra Ulbrich, Julia Hofmann, Julia Koblitz, Ida Schomburg, Meina Neumann-Schaal, Dieter Jahn, Dietmar Schomburg: BRENDA, the ELIXIR core data resource in 2021: new developments and updates. Nucleic Acids Res. 49: D498 - D508 2020 ( DOI 10.1093/nar/gkaa1025 , PubMed 33211880 )

#108808

Reimer, L.C., Lissin, A.,Schober, I., Witte,J.F., Podstawka, A., Lüken, H., Bunk, B.,Overmann, J.: StrainInfo: A central database for resolving microbial strain identifiers . ( DOI 10.60712/SI-ID408718.1 )

* These data were automatically processed and therefore are not curated

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