Trabulsiella guamensis (DSM 16940, ATCC 49490, CIP 103637)

Name: Trabulsiella guamensis (DSM 16940, ATCC 49490, CIP 103637)
Creator: BacDive
License: http://creativecommons.org/licenses/by/4.0/

BacDive ID 5181

Type strain

Strain Designation 370-85

Culture col. no. DSM 16940 ATCC 49490 CIP 103637 NBRC 103172 IAM 14444 3 more

NCBI tax ID(s) 1005994 158852

Special Collections DSMZ JCM CIP

History <- CIP <- ATCC <- CDC <- Guam Publ. Health Lab, USA IAM 14444 <-- ATCC 49490 <-- A. M. Murlin; CDC 0370-85 <-- Guam Public Health Lab.. CIP <- 1993, ATCC <- CDC: strain 370-85 <- Guam Pub. Hlth. Lab., USA

Links

Trabulsiella guamensis 370-85 is a facultative anaerobe, Gram-negative, motile bacterium that was isolated from vacuum cleaner contents.

Gram-negative motile rod-shaped facultative anaerobe genome sequence 16S sequence Bacteria

Name and taxonomic classification

SI-ID 7844

LMG 12587,ATCC 49490,CIP 103637,DSM 16940,IAM 14444,JCM 21227,NBRC 103172

@ref 20215

Last LPSN update 2026-02-09 11:18:54

Domain Bacteria

Phylum Pseudomonadota

Class Gammaproteobacteria

Order Enterobacterales

Family Enterobacteriaceae

Genus Trabulsiella

Species Trabulsiella guamensis

Full scientific name Trabulsiella guamensis McWhorter et al. 1992

BacDive ID	Other strains from **Trabulsiella guamensis** (3)	Type strain
5182	T. guamensis H105-36/86, DSM 19941, ATCC 49493, CDC 2421-87
135322	T. guamensis 88-88, CIP 103638, ATCC 49491
135323	T. guamensis 1789-73, CIP 103639, ATCC 49492

Morphology

Cell morphology

@ref	Gram stain	Cell shape	Confidence
119749	negative	rod-shaped
125438	negative		100
125439	negative		98

Culture and growth conditions

Culture medium

@ref	Name	Medium link	Composition
40748	MEDIUM 3 - Columbia agar		Columbia agar (39.000 g);distilled water (1000.000 ml)
119749	CIP Medium 3	Medium recipe at CIP
6657	TRYPTICASE SOY BROTH AGAR (DSMZ Medium 535)	Medium recipe at MediaDive	Name: TRYPTICASE SOY BROTH AGAR (DSMZ Medium 535) Composition: Trypticase soy broth 30.0 g/l Agar 15.0 g/l Distilled water

Culture temp

@ref	Growth	Type	Temperature (°C)
6657	positive	growth	37
40748	positive	growth	37
67770	positive	growth	30
119749	positive	growth	41
119749	negative	growth	5
119749	negative	growth	10

Physiology and metabolism

Oxygen tolerance

@ref	Oxygen tolerance	Confidence
119749	facultative anaerobe
125439	aerobe	91

Spore formation

@ref	Spore formation	Confidence
125439		95

Metabolite utilization

@ref	Chebi-ID	Metabolite	Utilization activity	Kind of utilization tested
68371	27613 ChEBI	amygdalin	-	builds acid from	from API 50CH acid
68368	27613 ChEBI	amygdalin	+	fermentation	from API 20E
68371	18305 ChEBI	arbutin	-	builds acid from	from API 50CH acid
68368	29016 ChEBI	arginine	+	hydrolysis	from API 20E
68371	17057 ChEBI	cellobiose	+	builds acid from	from API 50CH acid
119749	16947 ChEBI	citrate	+	carbon source
68368	16947 ChEBI	citrate	+	assimilation	from API 20E
68371	17108 ChEBI	D-arabinose	-	builds acid from	from API 50CH acid
68371	18333 ChEBI	D-arabitol	-	builds acid from	from API 50CH acid
68371	15824 ChEBI	D-fructose	+	builds acid from	from API 50CH acid
68371	28847 ChEBI	D-fucose	-	builds acid from	from API 50CH acid
68371	12936 ChEBI	D-galactose	+	builds acid from	from API 50CH acid
68371	17634 ChEBI	D-glucose	+	builds acid from	from API 50CH acid
68368	17634 ChEBI	D-glucose	+	fermentation	from API 20E
68371	62318 ChEBI	D-lyxose	-	builds acid from	from API 50CH acid
68371	16899 ChEBI	D-mannitol	+	builds acid from	from API 50CH acid
68368	16899 ChEBI	D-mannitol	+	fermentation	from API 20E
68371	16024 ChEBI	D-mannose	+	builds acid from	from API 50CH acid
68371	16988 ChEBI	D-ribose	+	builds acid from	from API 50CH acid
68371	17924 ChEBI	D-sorbitol	+	builds acid from	from API 50CH acid
68371	16443 ChEBI	D-tagatose	+	builds acid from	from API 50CH acid
68371	65327 ChEBI	D-xylose	+	builds acid from	from API 50CH acid
68371	17113 ChEBI	erythritol	-	builds acid from	from API 50CH acid
68371	4853 ChEBI	esculin	-	builds acid from	from API 50CH acid
68371	16813 ChEBI	galactitol	-	builds acid from	from API 50CH acid
68368	5291 ChEBI	gelatin	+	hydrolysis	from API 20E
68371	28066 ChEBI	gentiobiose	+	builds acid from	from API 50CH acid
68371	24265 ChEBI	gluconate	+	builds acid from	from API 50CH acid
68371	17754 ChEBI	glycerol	+	builds acid from	from API 50CH acid
68371	28087 ChEBI	glycogen	-	builds acid from	from API 50CH acid
68371	15443 ChEBI	inulin	-	builds acid from	from API 50CH acid
68371	30849 ChEBI	L-arabinose	+	builds acid from	from API 50CH acid
68368	30849 ChEBI	L-arabinose	+	fermentation	from API 20E
68371	18403 ChEBI	L-arabitol	-	builds acid from	from API 50CH acid
68371	18287 ChEBI	L-fucose	-	builds acid from	from API 50CH acid
68371	62345 ChEBI	L-rhamnose	+	builds acid from	from API 50CH acid
68368	62345 ChEBI	L-rhamnose	+	fermentation	from API 20E
68371	17266 ChEBI	L-sorbose	-	builds acid from	from API 50CH acid
68371	65328 ChEBI	L-xylose	-	builds acid from	from API 50CH acid
68371	17716 ChEBI	lactose	-	builds acid from	from API 50CH acid
68368	25094 ChEBI	lysine	+	degradation	from API 20E
119749	15792 ChEBI	malonate	-	assimilation
68371	17306 ChEBI	maltose	+	builds acid from	from API 50CH acid
68371	6731 ChEBI	melezitose	-	builds acid from	from API 50CH acid
68371	28053 ChEBI	melibiose	-	builds acid from	from API 50CH acid
68368	28053 ChEBI	melibiose	-	fermentation	from API 20E
68371	320061 ChEBI	methyl alpha-D-glucopyranoside	-	builds acid from	from API 50CH acid
68371	43943 ChEBI	methyl alpha-D-mannoside	-	builds acid from	from API 50CH acid
68371	74863 ChEBI	methyl beta-D-xylopyranoside	-	builds acid from	from API 50CH acid
68371	17268 ChEBI	myo-inositol	-	builds acid from	from API 50CH acid
68368	17268 ChEBI	myo-inositol	-	fermentation	from API 20E
68371	59640 ChEBI	N-acetylglucosamine	+	builds acid from	from API 50CH acid
119749	17632 ChEBI	nitrate	+	reduction
68368	17632 ChEBI	nitrate	+	reduction	from API 20E
119749	16301 ChEBI	nitrite	-	reduction
68368	18257 ChEBI	ornithine	+	degradation	from API 20E
68371		Potassium 2-ketogluconate	+	builds acid from	from API 50CH acid
68371		Potassium 5-ketogluconate	+	builds acid from	from API 50CH acid
68371	16634 ChEBI	raffinose	-	builds acid from	from API 50CH acid
68371	15963 ChEBI	ribitol	-	builds acid from	from API 50CH acid
68371	17814 ChEBI	salicin	-	builds acid from	from API 50CH acid
119749	132112 ChEBI	sodium thiosulfate	+	builds gas from
68368	30911 ChEBI	sorbitol	+	fermentation	from API 20E
68371	28017 ChEBI	starch	-	builds acid from	from API 50CH acid
68371	17992 ChEBI	sucrose	-	builds acid from	from API 50CH acid
68368	17992 ChEBI	sucrose	-	fermentation	from API 20E
68371	27082 ChEBI	trehalose	+	builds acid from	from API 50CH acid
68368	27897 ChEBI	tryptophan	-	energy source	from API 20E
68371	32528 ChEBI	turanose	-	builds acid from	from API 50CH acid
68368	16199 ChEBI	urea	-	hydrolysis	from API 20E
68371	17151 ChEBI	xylitol	-	builds acid from	from API 50CH acid

Antibiotic resistance

@ref	Metabolite	Is sensitive	Is resistant
119749	0129 (2,4-Diamino-6,7-di-iso-propylpteridine phosphate)

Metabolite production

@ref	Chebi-ID	Metabolite
68368	15688 ChEBI	acetoin	from API 20E
68368	17997 ChEBI	dinitrogen	from API 20E
68368	16136 ChEBI	hydrogen sulfide	from API 20E
119749	35581 ChEBI	indole
68368	35581 ChEBI	indole	from API 20E
68368	16301 ChEBI	nitrite	from API 20E

Metabolite tests

@ref	Chebi-ID	Metabolite	Voges-proskauer-test	Methylred-test	Indole test
119749	15688 ChEBI	acetoin	-
68368	15688 ChEBI	acetoin	+			from API 20E
119749	17234 ChEBI	glucose		+
68368	35581 ChEBI	indole			-	from API 20E

Enzymes

@ref	Value	Activity	Ec
119749	alcohol dehydrogenase	-	1.1.1.1
68368	arginine dihydrolase	+	3.5.3.6	from API 20E
119749	beta-galactosidase	+	3.2.1.23
68368	beta-galactosidase	+	3.2.1.23	from API 20E
119749	catalase	+	1.11.1.6
68368	cytochrome oxidase	-	1.9.3.1	from API 20E
119749	gelatinase	-
68368	gelatinase	+		from API 20E
119749	lysine decarboxylase	+	4.1.1.18
68368	lysine decarboxylase	+	4.1.1.18	from API 20E
119749	ornithine decarboxylase	+	4.1.1.17
68368	ornithine decarboxylase	+	4.1.1.17	from API 20E
119749	oxidase	-
119749	tryptophan deaminase	-
68368	tryptophan deaminase	-	4.1.99.1	from API 20E
119749	urease	-	3.5.1.5
68368	urease	-	3.5.1.5	from API 20E

Pathway annotation

Computationally determined by

@ref	pathway	enzyme coverage	annotated reactions
66794	anapleurotic synthesis of oxalacetate	100	1 of 1
66794	enterobactin biosynthesis	100	3 of 3
66794	acetate fermentation	100	4 of 4
66794	palmitate biosynthesis	100	22 of 22
66794	ppGpp biosynthesis	100	4 of 4
66794	methylglyoxal degradation	100	5 of 5
66794	cyanate degradation	100	3 of 3
66794	lipoate biosynthesis	100	5 of 5
66794	metabolism of amino sugars and derivatives	100	5 of 5
66794	starch degradation	100	10 of 10
66794	biotin biosynthesis	100	4 of 4
66794	L-lactaldehyde degradation	100	3 of 3
66794	aspartate and asparagine metabolism	100	9 of 9
66794	ethanol fermentation	100	2 of 2
66794	cis-vaccenate biosynthesis	100	2 of 2
66794	aerobactin biosynthesis	100	1 of 1
66794	taurine degradation	100	1 of 1
66794	suberin monomers biosynthesis	100	2 of 2
66794	UDP-GlcNAc biosynthesis	100	3 of 3
66794	CDP-diacylglycerol biosynthesis	100	2 of 2
66794	sulfopterin metabolism	100	4 of 4
66794	coenzyme A metabolism	100	4 of 4
66794	formaldehyde oxidation	100	3 of 3
66794	vitamin K metabolism	100	5 of 5
66794	phenylacetate degradation (aerobic)	100	5 of 5
66794	Entner Doudoroff pathway	100	10 of 10
66794	molybdenum cofactor biosynthesis	100	9 of 9
66794	4-hydroxyphenylacetate degradation	100	10 of 10
66794	folate polyglutamylation	100	1 of 1
66794	gluconeogenesis	100	8 of 8
66794	ubiquinone biosynthesis	100	7 of 7
66794	tetrahydrofolate metabolism	100	14 of 14
66794	cellulose degradation	100	5 of 5
66794	adipate degradation	100	2 of 2
66794	NAD metabolism	94.44	17 of 18
66794	photosynthesis	92.86	13 of 14
66794	metabolism of disaccharids	90.91	10 of 11
66794	vitamin B6 metabolism	90.91	10 of 11
66794	threonine metabolism	90	9 of 10
66794	d-mannose degradation	88.89	8 of 9
66794	valine metabolism	88.89	8 of 9
66794	lipid A biosynthesis	88.89	8 of 9
66794	serine metabolism	88.89	8 of 9
66794	chorismate metabolism	88.89	8 of 9
66794	C4 and CAM-carbon fixation	87.5	7 of 8
66794	isoleucine metabolism	87.5	7 of 8
66794	ketogluconate metabolism	87.5	7 of 8
66794	purine metabolism	87.23	82 of 94
66794	pyrimidine metabolism	86.67	39 of 45
66794	glutathione metabolism	85.71	12 of 14
66794	reductive acetyl coenzyme A pathway	85.71	6 of 7
66794	heme metabolism	85.71	12 of 14
66794	vitamin B1 metabolism	84.62	11 of 13
66794	leucine metabolism	84.62	11 of 13
66794	phenylalanine metabolism	84.62	11 of 13
66794	alanine metabolism	82.76	24 of 29
66794	glutamate and glutamine metabolism	82.14	23 of 28
66794	pentose phosphate pathway	81.82	9 of 11
66794	degradation of sugar alcohols	81.25	13 of 16
66794	glycogen metabolism	80	4 of 5
66794	peptidoglycan biosynthesis	80	12 of 15
66794	glycine betaine biosynthesis	80	4 of 5
66794	degradation of pentoses	78.57	22 of 28
66794	urea cycle	76.92	10 of 13
66794	CMP-KDO biosynthesis	75	3 of 4
66794	butanoate fermentation	75	3 of 4
66794	glycogen biosynthesis	75	3 of 4
66794	6-hydroxymethyl-dihydropterin diphosphate biosynthesis	75	6 of 8
66794	flavin biosynthesis	73.33	11 of 15
66794	cysteine metabolism	72.22	13 of 18
66794	degradation of hexoses	72.22	13 of 18
66794	degradation of sugar acids	72	18 of 25
66794	cardiolipin biosynthesis	71.43	5 of 7
66794	lipid metabolism	70.97	22 of 31
66794	glycolysis	70.59	12 of 17
66794	oxidative phosphorylation	70.33	64 of 91
66794	phenol degradation	70	14 of 20
66794	methionine metabolism	69.23	18 of 26
66794	histidine metabolism	68.97	20 of 29
66794	glycolate and glyoxylate degradation	66.67	4 of 6
66794	methane metabolism	66.67	2 of 3
66794	CO2 fixation in Crenarchaeota	66.67	6 of 9
66794	octane oxidation	66.67	2 of 3
66794	acetoin degradation	66.67	2 of 3
66794	selenocysteine biosynthesis	66.67	4 of 6
66794	arginine metabolism	66.67	16 of 24
66794	non-pathway related	65.79	25 of 38
66794	isoprenoid biosynthesis	65.38	17 of 26
66794	citric acid cycle	64.29	9 of 14
66794	tyrosine metabolism	64.29	9 of 14
66794	d-xylose degradation	63.64	7 of 11
66794	proline metabolism	63.64	7 of 11
66794	tryptophan metabolism	63.16	24 of 38
66794	gallate degradation	60	3 of 5
66794	hydrogen production	60	3 of 5
66794	ascorbate metabolism	59.09	13 of 22
66794	degradation of aromatic, nitrogen containing compounds	58.33	7 of 12
66794	propanol degradation	57.14	4 of 7
66794	lysine metabolism	57.14	24 of 42
66794	3-phenylpropionate degradation	53.33	8 of 15
66794	kanosamine biosynthesis II	50	1 of 2
66794	myo-inositol biosynthesis	50	5 of 10
66794	pantothenate biosynthesis	50	3 of 6
66794	quinate degradation	50	1 of 2
66794	toluene degradation	50	2 of 4
66794	sulfate reduction	46.15	6 of 13
66794	daunorubicin biosynthesis	44.44	4 of 9
66794	polyamine pathway	43.48	10 of 23
66794	glycine metabolism	40	4 of 10
66794	bacilysin biosynthesis	40	2 of 5
66794	arachidonate biosynthesis	40	2 of 5
66794	propionate fermentation	40	4 of 10
66794	coenzyme M biosynthesis	40	4 of 10
66794	phenylpropanoid biosynthesis	38.46	5 of 13
66794	dTDPLrhamnose biosynthesis	37.5	3 of 8
66794	sphingosine metabolism	33.33	2 of 6
66794	(5R)-carbapenem carboxylate biosynthesis	33.33	1 of 3
66794	arachidonic acid metabolism	33.33	6 of 18
66794	IAA biosynthesis	33.33	1 of 3
66794	1,4-dihydroxy-6-naphthoate biosynthesis	33.33	2 of 6
66794	acetyl CoA biosynthesis	33.33	1 of 3
66794	androgen and estrogen metabolism	31.25	5 of 16
66794	phosphatidylethanolamine bioynthesis	30.77	4 of 13
66794	vitamin B12 metabolism	29.41	10 of 34
66794	benzoyl-CoA degradation	28.57	2 of 7
66794	dolichyl-diphosphooligosaccharide biosynthesis	27.27	3 of 11
66794	carnitine metabolism	25	2 of 8
66794	lactate fermentation	25	1 of 4
66794	methanogenesis from CO2	25	3 of 12
66794	cyclohexanol degradation	25	1 of 4
66794	bile acid biosynthesis, neutral pathway	23.53	4 of 17
66794	4-hydroxymandelate degradation	22.22	2 of 9
66794	nitrate assimilation	22.22	2 of 9

API 20E

@ref	ONPG	ADH (Arg)	LDC (Lys)	ODC	CIT	H2S productionH2S	URE	TDA (Trp)	IND	Acetoin production (Voges Proskauer test)VP	GEL	GLU	MAN	INO	Sor	RHA	SAC	MEL	AMY	ARA	OX	Nitrite productionNO2	Reduction to N2N2	MotilityMOB	Growth on MacConkey mediumMAC	OF-O	OF-F
6657	+	+	+	+	+	+	-	-	-	+	+	+	+	-	+	+	-	-	+	+	-	+	-	not determinedn.d.	not determinedn.d.	not determinedn.d.	not determinedn.d.

API 50CHac

@ref	ControlQ	GLY	ERY	DARA	LARA	RIB	DXYL	LXYL	ADO	MDX	GAL	GLU	FRU	MNE	SBE	RHA	DUL	INO	MAN	SOR	MDM	MDG	NAG	AMY	ARB	ESC	SAL	CEL	MAL	LAC	MEL	SAC	TRE	INU	MLZ	RAF	AMD	GLYG	XLT	GEN	TUR	LYX	TAG	DFUC	LFUC	DARL	LARL	GNT	2KG	5KG
119749	not determinedn.d.	+	-	-	+	+	+	-	-	-	+	+	+	+	-	+	-	-	+	+	-	-	+	-	-	-	-	+	+	-	-	-	+	-	-	-	-	-	-	+	-	-	+	-	-	-	-	+	+	+

Isolation, sampling and environmental information

Isolation source categories

Cat1	Cat2	Cat3
#Engineered	#Industrial	#Engineered product

Isolation

@ref	Sample type	Geographic location	Country	Country ISO 3 Code	Continent	Isolation date
6657	vacuum cleaner contents	Atlanta	USA	USA	North America
67770	Vacuum cleaner contents	Guam	USA	USA	North America
119749	Other, Vacuum cleaner contents	Atlanta, Georgia	United States of America	USA	North America	1985

Taxonmaps

69479

Global distribution of 16S sequence AB273737 (>99% sequence identity) for Trabulsiella from Microbeatlas

Aquatic Samples	3
Soil Samples	1
Animal Samples	9
Plant Samples	6
Total Samples	19

Interaction and safety

Risk assessment

@ref	Biosafety level	Biosafety level comment
6657	1	Risk group (German classification) According to TRBA 466
119749	1	Risk group (French classification) According to TRBA 466

Sequence information

Genome sequences

@ref	Description	Assembly level	INSDC accession	BV-BRC accession	IMG accession	NCBI tax ID	Score
67770	ASM73496v1 assembly for Trabulsiella guamensis ATCC 49490	contig	GCA_000734965	1005994.3	2588253800	1005994	23.58

16S sequences

@ref	Description	Accession	Length	NCBI tax ID
6657	Trabulsiella guamensis strain ATCC 49490 16S ribosomal RNA gene, partial sequence	AY373830	1441	1005994
67770	Trabulsiella guamensis gene for 16S rRNA, partial sequence, strain: GTC 1379	AB273737	1490	158852
67770	Trabulsiella guamensis gene for 16S rRNA, partial sequence, strain: NBRC 103172	AB681979	1467	158852

Genome-based predictions

Predictions

Predictions from Deep Learning for Genome Sequence Data. R package version 0.3.1 based on: Trabulsiella guamensis ATCC 49490
NCBI: GCA_000734965

@ref	Trait	Model	Prediction	Confidence in %	In training data
125439	spore_formation	BacteriaNetⓘ	no	95.00	no
125439	motility	BacteriaNetⓘ	yes	56.50	no
125439	gram_stain	BacteriaNetⓘ	negative	98.00	no
125439	oxygen_tolerance	BacteriaNetⓘ	aerobe	91.00	no

Predictions from bacterial phenotypic traits through improved machine learning using high-quality, curated datasets based on: Trabulsiella guamensis ATCC 49490
PATRIC: 1005994.3

@ref	Trait	Model	Prediction	Confidence in %	In training data
125438	gram-positive	gram-positiveⓘ	no	100.00	no
125438	anaerobic	anaerobicⓘ	no	96.22	no
125438	spore-forming	spore-formingⓘ	no	89.18	no
125438	aerobic	aerobicⓘ	no	67.19	yes
125438	thermophilic	thermophileⓘ	no	99.50	yes
125438	flagellated	motile2+ⓘ	yes	80.01	no

Literature

Topic	Title	Authors	Journal	DOI	Year
	The Enterobacterium Trabulsiella odontotermitis Presents Novel Adaptations Related to Its Association with Fungus-Growing Termites.	Sapountzis P, Gruntjes T, Otani S, Estevez J, da Costa RR, Plunkett G, Perna NT, Poulsen M.	Appl Environ Microbiol	10.1128/aem.01844-15	2015
	A Candidemia Case Caused by a Novel Drug-Resistant Candida auris with the Y132F Mutation in Erg11 in Mainland China.	Xu Z, Zhang L, Han R, Ding C, Shou H, Duan X, Zhang S.	Infect Drug Resist	10.2147/idr.s409708	2023
Metabolism	Assembly and substrate recognition of curli biogenesis system.	Yan Z, Yin M, Chen J, Li X.	Nat Commun	10.1038/s41467-019-14145-7	2020
	Extensive epigenetic modification with large-scale chromosomal and plasmid recombination characterise the Legionella longbeachae serogroup 1 genome.	Slow S, Anderson T, Murdoch DR, Bloomfield S, Winter D, Biggs PJ.	Sci Rep	10.1038/s41598-022-09721-9	2022
Pathogenicity	The first isolate of Candida auris in China: clinical and biological aspects.	Wang X, Bing J, Zheng Q, Zhang F, Liu J, Yue H, Tao L, Du H, Wang Y, Wang H, Huang G.	Emerg Microbes Infect	10.1038/s41426-018-0095-0	2018
	Moonlighting O-acetylserine sulfhydrylase: New functions for an old protein.	Campanini B, Benoni R, Bettati S, Beck CM, Hayes CS, Mozzarelli A.	Biochim Biophys Acta	10.1016/j.bbapap.2015.02.013	2015
	Unraveling the essential role of CysK in CDI toxin activation.	Johnson PM, Beck CM, Morse RP, Garza-Sanchez F, Low DA, Hayes CS, Goulding CW.	Proc Natl Acad Sci U S A	10.1073/pnas.1607112113	2016
Enzymology	Molecular method for detection of total coliforms in drinking water samples.	Maheux AF, Boudreau DK, Bisson MA, Dion-Dupont V, Bouchard S, Nkuranga M, Bergeron MG, Rodriguez MJ.	Appl Environ Microbiol	10.1128/aem.00546-14	2014
Phylogeny	Trabulsiella guamensis, a new genus and species of the family Enterobacteriaceae that resembles Salmonella subgroups 4 and 5.	McWhorter AC, Haddock RL, Nocon FA, Steigerwalt AG, Brenner DJ, Aleksic S, Bockemuhl J, Farmer JJ 3rd	J Clin Microbiol	10.1128/jcm.29.7.1480-1485.1991	1991
Phylogeny	Isolation, characterization, and U(VI)-reducing potential of a facultatively anaerobic, acid-resistant Bacterium from Low-pH, nitrate- and U(VI)-contaminated subsurface sediment and description of Salmonella subterranea sp. nov.	Shelobolina ES, Sullivan SA, O'Neill KR, Nevin KP, Lovley DR.	Appl Environ Microbiol	10.1128/aem.70.5.2959-2965.2004	2004
Phylogeny	Trabulsiella odontotermitis sp. nov., isolated from the gut of the termite Odontotermes formosanus Shiraki.	Chou JH, Chen WM, Arun AB, Young CC	Int J Syst Evol Microbiol	10.1099/ijs.0.64632-0	2007

References

#6657	Leibniz Institut DSMZ-Deutsche Sammlung von Mikroorganismen und Zellkulturen GmbH ; Curators of the DSMZ; DSM 16940
#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 )
#40748	; Curators of the CIP;
#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 )
#67770	Japan Collection of Microorganism (JCM) ; Curators of the JCM;
#68368	Automatically annotated from API 20E .
#68371	Automatically annotated from API 50CH acid .
#69479	João F Matias Rodrigues, Janko Tackmann,Gregor Rot, Thomas SB Schmidt, Lukas Malfertheiner, Mihai Danaila,Marija Dmitrijeva, Daniela Gaio, Nicolas Näpflin and Christian von Mering. University of Zurich.: MicrobeAtlas 1.0 beta .
#119749	Collection of Institut Pasteur ; Curators of the CIP; CIP 103637
#125438	Julia Koblitz, Lorenz Christian Reimer, Rüdiger Pukall, Jörg Overmann: Predicting bacterial phenotypic traits through improved machine learning using high-quality, curated datasets. 2024 ( DOI 10.1101/2024.08.12.607695 )
#125439	Philipp Münch, René Mreches, Martin Binder, Hüseyin Anil Gündüz, Xiao-Yin To, Alice McHardy: deepG: Deep Learning for Genome Sequence Data. R package version 0.3.1 .
#126262	A. Lissin, I. Schober, J. F. Witte, H. Lüken, A. Podstawka, J. Koblitz, B. Bunk, P. Dawyndt, P. Vandamme, P. de Vos, J. Overmann, L. C. Reimer: StrainInfo—the central database for linked microbial strain identifiers. ( DOI 10.1093/database/baaf059 )

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Trabulsiella guamensis (DSM 16940, ATCC 49490, CIP 103637)

Name and taxonomic classification

Morphology

Cell morphology

Culture and growth conditions

Culture medium

Culture temp

Physiology and metabolism

Oxygen tolerance

Spore formation

Metabolite utilization

Antibiotic resistance

Metabolite production

Metabolite tests

Enzymes

Pathway annotation

API 20E

API 50CHac

Isolation, sampling and environmental information

Isolation source categories

Isolation

Taxonmaps

Interaction and safety

Risk assessment

Sequence information

Genome sequences

Genome browser: GCA_000734965

16S sequences

Genome-based predictions

Predictions

Literature

Literature

References

BacDive

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