Stenotrophomonas maltophilia (DSM 50170, ATCC 13637, ICPB 2648-67)

Name: Stenotrophomonas maltophilia (DSM 50170, ATCC 13637, ICPB 2648-67)
Creator: BacDive
License: http://creativecommons.org/licenses/by/4.0/

BacDive ID 17532

Type strain

Strain Designation 67, 810-2

Culture col. no. DSM 50170 ATCC 13637 ICPB 2648-67 NCIB 9203 NCTC 10257 21 more

NCBI tax ID(s) 1220593 40324

Special Collections DSMZ CCUG JCM CIP Literature strains

History <- ICPB; ICPB 2648-67 <- R. Y. Stanier; 67 <- R. Hugh; 810-2 K. Suzuki KS 0001 <-- AJ 2082 <-- ATCC 13637 <-- R. Hugh 810-2. CIP <- 1960, R. Hugh: strain 810-2, Pseudomonas maltophilia

Links

Stenotrophomonas maltophilia 67 is an aerobe, mesophilic, Gram-negative human pathogen that has multiple antibiotic resistances and was isolated from oropharyngeal region of patient with cancer.

antibiotic resistance Gram-negative rod-shaped aerobe mesophilic human pathogen genome sequence 16S sequence

Name and taxonomic classification

SI-ID 4084

LMG 958,ATCC 13637,CCM 1640,CCUG 5866,DSM 50170,IAM 12423,IFO 14161,IMET 10402,JCM 1975,NCIB 9203,NCPPB 1974,NCTC 10257,VKM B-591,MTCC 434,NBIMCC 8895,ACM 497,CCRC 10737,NCIMB 9203,IMI 347517,NCAIM B.01119,IFO 12690,LMD 68.18,CECT 115,KCTC 1773,AS 1.1788,NBRC 14161,NRRL B-2756,NCCB 68018,NBRC 12690,BCRC 10737,CFBP 3035,CCT 1897,ICMP 17033,CNCTC 5821,VTT E-96657,CIP 60.77

@ref 20215

Last LPSN update 2026-02-09 11:22:15

Domain Bacteria

Phylum Pseudomonadota

Class Gammaproteobacteria

Order Lysobacterales

Family Lysobacteraceae

Genus Stenotrophomonas

Species Stenotrophomonas maltophilia

Full scientific name Stenotrophomonas maltophilia (Hugh 1981 ex Hugh and Ryschenkow 1961) Palleroni and Bradbury 1993

Synonyms (3)

Stenotrophomonas africana
Xanthomonas maltophilia
Pseudomonas maltophilia

BacDive ID	Other strains from **Stenotrophomonas maltophilia** (161)	Type strain
13142	S. maltophilia DSM 21257, ATCC 19861, CCUG 58727, CFBP 4337, ...
17531	S. maltophilia Ac, DSM 14322
17533	S. maltophilia 68, R-72, DSM 50173, ATCC 17444, ICPB 3107-68
17534	S. maltophilia DSM 21874, ATCC 19374, CCEB 338, CCUG 559 ...
17535	S. maltophilia ES1-413-1a, DSM 30583
17536	S. maltophilia FR2-W6Ba, DSM 30705
17537	S. maltophilia FR2-W6Cb, DSM 30707
17538	S. maltophilia FR2-W3Aa, DSM 30683
17539	S. maltophilia FR2-W3Ba, DSM 30686
17540	S. maltophilia FR2-W3Bb, DSM 30687
17541	S. maltophilia FR2-W3Cb, DSM 30689
17542	S. maltophilia FR2-W4Aa, DSM 30690
17543	S. maltophilia FR2-W4Ab, DSM 30691
17544	S. maltophilia FR2-W4Ac, DSM 30692
17545	S. maltophilia FR2-W4Ba, DSM 30693
17546	S. maltophilia FR2-W4Bb, DSM 30694
17547	S. maltophilia FR2-W4Cb, DSM 30695
17548	S. maltophilia FR2-W5Aa, DSM 30696
17549	S. maltophilia FR2-W5Ab, DSM 30697
17550	S. maltophilia FR2-W5Ba, DSM 30699
17551	S. maltophilia FR2-W5Ca, DSM 30700
17552	S. maltophilia FR2-W6Aa, DSM 30702
17553	S. maltophilia FR2-1, DSM 30740
17554	S. maltophilia 560, DSM 24970, ATCC 13636, CCM 1639, CCTM ...
100217	S. maltophilia ST027325(HKI), F157, Nü48,
131029	S. maltophilia 97976, IBRG 6, DSM 16103, LMG 33386
131985	S. maltophilia PT03, DSM 29579
134881	S. maltophilia 734.86, CIP 102715
135013	S. maltophilia J675Ia, CIP 107275
136097	S. maltophilia 481-86, CIP 102472
136794	S. maltophilia CIP 54.90
137489	S. maltophilia X53, CIP 59.59, ATCC 17445
137674	S. maltophilia MGB, CIP 104854, ATCC 700475, CCUG 41684, ...
137799	S. maltophilia CIP 101984
137872	S. maltophilia CIP 102012
137919	S. maltophilia 90-86, CIP 102187
137938	S. maltophilia 37240, 207-86, CIP 102235
138326	S. maltophilia E 17, CIP 106083
138327	S. maltophilia M33, CIP 106084
138465	S. maltophilia X56, CIP 59.60, LMG 960, ATCC 17666, CCUG ...
138690	S. maltophilia CIP 102097
141233	S. maltophilia CCUG 317
141381	S. maltophilia CCUG 1322
141382	S. maltophilia CCUG 1323
141469	S. maltophilia CCUG 2089
141964	S. maltophilia CCUG 9003
142396	S. maltophilia CCUG 12312
142672	S. maltophilia CCUG 13691
142834	S. maltophilia CCUG 15245 A
142850	S. maltophilia CCUG 15320
142876	S. maltophilia CCUG 15490
142946	S. maltophilia CCUG 15855
143117	S. maltophilia CCUG 17246
143224	S. maltophilia CCUG 17856
143660	S. maltophilia CCUG 20857
143825	S. maltophilia CCUG 21295
143829	S. maltophilia CCUG 21361
143832	S. maltophilia CCUG 21372
143838	S. maltophilia CCUG 21437
143871	S. maltophilia CCUG 21675
144299	S. maltophilia CCUG 24237
144307	S. maltophilia CCUG 24299
144441	S. maltophilia CCUG 24970
144442	S. maltophilia CCUG 24971
144447	S. maltophilia CCUG 24996
144462	S. maltophilia CCUG 25014
144464	S. maltophilia CCUG 25039
144708	S. maltophilia CCUG 26378
144876	S. maltophilia CCUG 26940
144923	S. maltophilia CCUG 27100
144966	S. maltophilia CCUG 27318
145321	S. maltophilia CCUG 28187
145343	S. maltophilia CCUG 28232
145446	S. maltophilia CCUG 28571
145477	S. maltophilia CCUG 28648
145596	S. maltophilia CCUG 28935
145701	S. maltophilia CCUG 29312
145808	S. maltophilia CCUG 29648
145821	S. maltophilia CCUG 29697
146020	S. maltophilia CCUG 30169
146114	S. maltophilia CCUG 30398
146138	S. maltophilia CCUG 30438
146156	S. maltophilia CCUG 30472
146358	S. maltophilia CCUG 31020
146970	S. maltophilia CCUG 32573
147044	S. maltophilia CCUG 32721
147493	S. maltophilia CCUG 33696
147576	S. maltophilia CCUG 33827
148230	S. maltophilia CCUG 35078
148799	S. maltophilia CCUG 35952
148982	S. maltophilia CCUG 36677
149758	S. maltophilia CCUG 38343 A
149869	S. maltophilia CCUG 38582
150275	S. maltophilia CCUG 39469
151193	S. maltophilia CCUG 43435
152350	S. maltophilia CCUG 46492
152409	S. maltophilia CCUG 46720
152469	S. maltophilia CCUG 46875
152550	S. maltophilia CCUG 47043
152702	S. maltophilia CCUG 47414
153283	S. maltophilia CCUG 48994
153543	S. maltophilia CCUG 50132
153546	S. maltophilia CCUG 50139
153547	S. maltophilia CCUG 50140
154271	S. maltophilia CCUG 52943
154345	S. maltophilia CCUG 53191
154465	S. maltophilia CCUG 53734
154566	S. maltophilia CCUG 54442
154598	S. maltophilia CCUG 54543
154714	S. maltophilia CCUG 54916
154776	S. maltophilia CCUG 55148
155065	S. maltophilia CCUG 56360
155066	S. maltophilia CCUG 56362
155227	S. maltophilia CCUG 56997
155348	S. maltophilia CCUG 57416
155349	S. maltophilia CCUG 57421
155648	S. maltophilia CCUG 58634
155998	S. maltophilia CCUG 59957, ATCC 17448, LMG 957
155999	S. maltophilia CCUG 59959, LMG 1108
156000	S. maltophilia CCUG 59960, LMG 10851
156140	S. maltophilia CCUG 60518, NCPPB 1683, ATCC 19867, LMG 980, ...
156588	S. maltophilia CCUG 63145
156668	S. maltophilia CCUG 64042
156724	S. maltophilia CCUG 64478, ATCC 17676, LMG 10877
157518	S. maltophilia IMI 347445
157519	S. maltophilia IMI 347517
157904	S. maltophilia TURIN130318_T1, DSM 107242
159165	S. maltophilia Arbex 2037, R5_A9_IIIA, DSM 110294
161417	S. maltophilia JCM 13905
162602	S. maltophilia JCM 1976, ATCC 17806, BCRC 12495, IAM 1554, ...
162608	S. maltophilia JCM 1977, IAM 12671
162612	S. maltophilia JCM 1979, IAM 12673
162613	S. maltophilia JCM 1980, IAM 12674
162620	S. maltophilia JCM 1981, IAM 12675
162621	S. maltophilia JCM 1982, IAM 12676
162623	S. maltophilia JCM 1983, IAM 12677
162625	S. maltophilia JCM 1984, IAM 12678
162631	S. maltophilia JCM 1985, IAM 12679
162637	S. maltophilia JCM 1986, IAM 12680
162644	S. maltophilia JCM 1987, IAM 12681
162648	S. maltophilia JCM 1988, IAM 12682
162965	S. maltophilia JCM 20572, IAM 12424
163919	S. maltophilia JCM 30959
163920	S. maltophilia JCM 30960
164814	S. maltophilia JCM 3800, IAM 1396
164815	S. maltophilia JCM 3801, IAM 1411
164816	S. maltophilia JCM 3802, IAM 1425
164817	S. maltophilia JCM 3803, IAM 1438
164818	S. maltophilia JCM 3804, IAM 1450
164819	S. maltophilia JCM 3805, ATCC 17807, IAM 1566
164820	S. maltophilia JCM 3806, ATCC 17808, IAM 1577
164821	S. maltophilia JCM 3807, ATCC 14535, IAM 1588
165995	S. maltophilia JCM 9122
173162	S. maltophilia CIMB 05-0906, CRBIP17.146
176670	S. maltophilia NiuAA1, DSM 114483
176671	S. maltophilia CT11-113, DSM 115937
176672	S. maltophilia B5565, DSM 116738
176673	S. maltophilia PC240, DSM 116739
176674	S. maltophilia SKK35, DSM 116741
176675	S. maltophilia SKK53, DSM 116742
176676	S. maltophilia Sm314, DSM 116743

Morphology

Cell morphology

@ref	Gram stain	Cell length	Cell width	Cell shape	Flagellum arrangement	Confidence
22951	negative	1.5 µm	0.5 µm	rod-shaped	polar
125439	negative					98.2
125438	negative					99.244
120771	negative			rod-shaped

Colony morphology

@ref	Type of hemolysis	Hemolysis ability
22947	beta	1

Pigmentation

@ref	Production	Name
120771		Pyocyanin

Culture and growth conditions

Culture medium

@ref	Name	Medium link	Composition
40685	MEDIUM 72- for trypto casein soja agar		Distilled water make up to (1000.000 ml);Trypto casein soy agar (40.000 g)
12669	TRYPTICASE SOY YEAST EXTRACT MEDIUM (DSMZ Medium 92)	Medium recipe at MediaDive	Name: TRYPTICASE SOY YEAST EXTRACT MEDIUM (DSMZ Medium 92) Composition: Trypticase soy broth 30.0 g/l Agar 15.0 g/l Yeast extract 3.0 g/l Distilled water
12669	COLUMBIA BLOOD MEDIUM (DSMZ Medium 693)	Medium recipe at MediaDive	Name: COLUMBIA BLOOD MEDIUM (DSMZ Medium 693) Composition: Defibrinated sheep blood 50.0 g/l Columbia agar base
120771	CIP Medium 72	Medium recipe at CIP

Culture temp

@ref	Growth	Type	Temperature (°C)	Range
12669	positive	growth	30	mesophilic
22947	positive	growth	42	thermophilic
22951	positive	growth	35	mesophilic
40685	positive	growth	30	mesophilic
44868	positive	growth	37	mesophilic
67770	positive	growth	30	mesophilic
120771	positive	growth	25-41
120771	negative	growth	5
120771	negative	growth	10

Physiology and metabolism

Oxygen tolerance

@ref	Oxygen tolerance	Confidence
44868	aerobe
120771	obligate aerobe
125439	obligate aerobe	98.7

Antibiotic susceptibility testing

	Test 1	Test 2	Test 3	Test 4	Test 5
@ref	12669	12669	12669	12669	12669
Medium	Mueller-Hinton Agar	Mueller-Hinton Agar	Mueller Hinton	Mueller-Hinton Agar	Müller-Hinton Agar
Manual annotation	1	1	1	1	1
	Inhibition zone diameter in mm	Inhibition zone diameter in mm	Inhibition zone diameter in mm	Inhibition zone diameter in mm	Inhibition zone diameter in mm
Amikacin 30µg (disc)	26	22-24	28	24-26	24-26
Ampicillin 10µg (disc)	0	0	0	0	0
Aztreonam 30µg (disc)	0	n.d.	0	0	0
Bacitracin 10Unit	12	14	12	12	n.d.
Cefalotin 30µg (disc)	0	0	0	0	n.d.
Cefazolin 30µg (disc)	0	0	0	0	n.d.
Cefiderocol 30µg (disc)	n.d.	n.d.	n.d.	n.d.	36-38
Cefotaxime 30µg (disc)	16	8	14	10	0
Ceftazidime 10µg (disc)	n.d.	n.d.	n.d.	n.d.	18
Ceftriaxone 30µg (disc)	12	n.d.	10	8-10	0
Chloramphenicol 30µg (disc)	34	26-28	32-34	32	30-32
Ciprofloxacin 5µg (disc)	n.d.	n.d.	n.d.	n.d.	40
Clindamycin 10µg (disc)	0	n.d.	6	0	6
Colistin 10µg (disc)	12	10	14	10	n.d.
Colistin sulphate 10µg (disc)	n.d.	n.d.	n.d.	n.d.	12
Doxycycline 30µg (disc)	30	18	30	30	n.d.
Erythromycin 15µg (disc)	14	14-16	14	14	14
Fosfomycin 50µg (disc)	18	n.d.	14	14	8
Gentamicin 30µg (disc)	n.d.	n.d.	n.d.	n.d.	28
Gentamycin 10µg (disc)					n.d.
Imipenem 10µg (disc)	10	6	8-10	10	0
Kanamycin 30µg (disc)	40-42	22-24	30	26-28	28
Levofloxacin 5µg (disc)	n.d.	n.d.	n.d.	n.d.	40
Lincomycin 15µg (disc)	0	6	0	0	n.d.
Linezolid 10µg (disc)	0	n.d.	6-8	10	8
Meropenem 10µg (disc)	n.d.	n.d.	n.d.	n.d.	0
Mezlocillin 30µg (disc)	20-22	18	20	20	n.d.
Moxifloxacin 5µg (disc)	40	n.d.	44	40	44
Neomycin 30µg (disc)	22	20	24	20-22	n.d.
Nitrofurantoin 100µg (disc)	0	0	0	0	0
Norfloxacin 10µg (disc)	26	18	28	24-26	n.d.
Nystatin 100Unit	0	n.d.	0	0	n.d.
Ofloxacin 5µg (disc)	32-34	20-22	34	32	38
Oxacillin 5µg (disc)	0	0	0	0	0
Penicillin G 6µg (disc)	0	0	0	0	0
Pipemidic acid 20µg (disc)	22	14	20-22	20	n.d.
Piperacillin/Tazobactam 40µg (disc)	22-24	n.d.	22	22	n.d.
Piperacillin/Tazobactam 110µg (disc)	n.d.	n.d.	n.d.	n.d.	24-26
Polymyxin B 300Unit	14	14	16	14	20
Quinupristin/Dalfopristin 15µg (disc)	10	n.d.	8	8	8
Rifampicin 5µg (disc)	n.d.	n.d.	n.d.	n.d.	12
Teicoplanin 30µg (disc)	8	n.d.	6-8	6	6
Tetracycline 30µg (disc)	28	16-18	26-28	30	30-32
Ticarcillin 75µg (disc)	22	0	20	18	8
Tigecycline 15µg (disc)	n.d.	n.d.	n.d.	n.d.	32
Trimethoprim-sulfamethoxazole (1:19) 10µg (disc)	n.d.	n.d.	n.d.	n.d.	28
Vancomycin 30µg (disc)	6	8	0	6	6

Spore formation

@ref	Spore formation	Confidence
125439		96.5

Halophily

@ref	Salt	Growth	Tested relation	Concentration
22947	NaCl	positive	growth	4.5 %(w/v)
120771	NaCl	positive	growth	0-2 %
120771	NaCl		growth	4 %
120771	NaCl		growth	6 %
120771	NaCl		growth	8 %
120771	NaCl		growth	10 %

Observation

67770

Observationquinones: Q-8

Metabolite utilization

@ref	Chebi-ID	Metabolite	Utilization activity	Kind of utilization tested
68369	17128 ChEBI	adipate	-	assimilation	from API 20NE
68371	27613 ChEBI	amygdalin	-	builds acid from	from API 50CH acid
68371	18305 ChEBI	arbutin	-	builds acid from	from API 50CH acid
68369	29016 ChEBI	arginine	-	hydrolysis	from API 20NE
22951	17057 ChEBI	cellobiose	+	growth
68371	17057 ChEBI	cellobiose	-	builds acid from	from API 50CH acid
22947	16947 ChEBI	citrate	+	growth
120771	16947 ChEBI	citrate	+	carbon source
68371	17108 ChEBI	D-arabinose	-	builds acid from	from API 50CH acid
68371	18333 ChEBI	D-arabitol	-	builds acid from	from API 50CH acid
22947	15824 ChEBI	D-fructose	+	growth
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
68369	17634 ChEBI	D-glucose	+	assimilation	from API 20NE
68369	17634 ChEBI	D-glucose	-	fermentation	from API 20NE
68371	62318 ChEBI	D-lyxose	-	builds acid from	from API 50CH acid
68371	16899 ChEBI	D-mannitol	-	builds acid from	from API 50CH acid
22947	16024 ChEBI	D-mannose	-	growth
68371	16024 ChEBI	D-mannose	-	builds acid from	from API 50CH acid
68369	16024 ChEBI	D-mannose	+	assimilation	from API 20NE
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
22947	65327 ChEBI	D-xylose	-	growth
68371	65327 ChEBI	D-xylose	-	builds acid from	from API 50CH acid
68369	27689 ChEBI	decanoate	-	assimilation	from API 20NE
68371	17113 ChEBI	erythritol	-	builds acid from	from API 50CH acid
120771	4853 ChEBI	esculin	+	hydrolysis
68371	4853 ChEBI	esculin	-	builds acid from	from API 50CH acid
68369	4853 ChEBI	esculin	+	hydrolysis	from API 20NE
68371	16813 ChEBI	galactitol	-	builds acid from	from API 50CH acid
22947	5291 ChEBI	gelatin	+	hydrolysis
68369	5291 ChEBI	gelatin	+	hydrolysis	from API 20NE
68371	28066 ChEBI	gentiobiose	-	builds acid from	from API 50CH acid
68371	24265 ChEBI	gluconate	-	builds acid from	from API 50CH acid
68369	24265 ChEBI	gluconate	-	assimilation	from API 20NE
22947	17234 ChEBI	glucose	-	growth
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
68369	30849 ChEBI	L-arabinose	-	assimilation	from API 20NE
68371	18403 ChEBI	L-arabitol	-	builds acid from	from API 50CH acid
68371	18287 ChEBI	L-fucose	-	builds acid from	from API 50CH acid
22947	15589 ChEBI	L-malate	+	growth
68371	62345 ChEBI	L-rhamnose	-	builds acid from	from API 50CH acid
68371	17266 ChEBI	L-sorbose	-	builds acid from	from API 50CH acid
68371	65328 ChEBI	L-xylose	-	builds acid from	from API 50CH acid
22947	24996 ChEBI	lactate	-	growth
22951	17716 ChEBI	lactose	+/-	growth
68371	17716 ChEBI	lactose	-	builds acid from	from API 50CH acid
68369	25115 ChEBI	malate	+	assimilation	from API 20NE
22947	17306 ChEBI	maltose	+	growth
22951	17306 ChEBI	maltose	+	growth
68371	17306 ChEBI	maltose	-	builds acid from	from API 50CH acid
68369	17306 ChEBI	maltose	+	assimilation	from API 20NE
68371	6731 ChEBI	melezitose	-	builds acid from	from API 50CH acid
68371	28053 ChEBI	melibiose	-	builds acid from	from API 50CH acid
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
68371	59640 ChEBI	N-acetylglucosamine	-	builds acid from	from API 50CH acid
68369	59640 ChEBI	N-acetylglucosamine	+	assimilation	from API 20NE
22947	17632 ChEBI	nitrate	+	reduction
120771	17632 ChEBI	nitrate	+	reduction
120771	17632 ChEBI	nitrate	-	respiration
68369	17632 ChEBI	nitrate	+	reduction	from API 20NE
120771	16301 ChEBI	nitrite	-	reduction
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
22951	17814 ChEBI	salicin	+	growth
68371	17814 ChEBI	salicin	-	builds acid from	from API 50CH acid
68371	28017 ChEBI	starch	-	builds acid from	from API 50CH acid
22947	17992 ChEBI	sucrose	+	growth
68371	17992 ChEBI	sucrose	-	builds acid from	from API 50CH acid
22951	27082 ChEBI	trehalose	+	growth
68371	27082 ChEBI	trehalose	-	builds acid from	from API 50CH acid
68369	27897 ChEBI	tryptophan	-	energy source	from API 20NE
68371	32528 ChEBI	turanose	-	builds acid from	from API 50CH acid
22947	53426 ChEBI	tween 80	+	hydrolysis
68369	16199 ChEBI	urea	-	hydrolysis	from API 20NE
68371	17151 ChEBI	xylitol	-	builds acid from	from API 50CH acid

Antibiotic resistance

@ref	ChEBI	Metabolite	Resistance conc.
120771		0129 (2,4-Diamino-6,7-di-iso-propylpteridine phosphate)
12669	28971	Ampicillin	10 µg (disc)	from Antibiotic test
12669	161680	Aztreonam	30 µg (disc)	from Antibiotic test
12669	124991	Cefalotin	30 µg (disc)	from Antibiotic test
12669	474053	Cefazolin	30 µg (disc)	from Antibiotic test
22951	48923	erythromycin
22951	6104	kanamycin
12669	43968	Meropenem	10 µg (disc)	from Antibiotic test
12669	71415	Nitrofurantoin	100 µg (disc)	from Antibiotic test
22951	28368	novobiocin
12669	7660	Nystatin	100 Unit	from Antibiotic test
12669	7809	Oxacillin	5 µg (disc)	from Antibiotic test
12669	18208	Penicillin G	6 µg (disc)	from Antibiotic test
22951	27902	tetracycline

Metabolite production

@ref	Chebi-ID	Metabolite	Production
68369	35581 ChEBI	indole		from API 20NE
120771	35581 ChEBI	indole

Metabolite tests

@ref	Chebi-ID	Metabolite	Indole test
68369	35581 ChEBI	indole	-	from API 20NE

Enzymes

@ref	Value	Activity	Ec
68382	acid phosphatase	+	3.1.3.2	from API zym
120771	alcohol dehydrogenase	-	1.1.1.1
68382	alkaline phosphatase	+	3.1.3.1	from API zym
22947	alpha-chymotrypsin	-	3.4.21.1
68382	alpha-chymotrypsin	-	3.4.21.1	from API zym
68382	alpha-fucosidase	-	3.2.1.51	from API zym
22947	alpha-galactosidase	-	3.2.1.22
68382	alpha-galactosidase	-	3.2.1.22	from API zym
22947	alpha-glucosidase	+	3.2.1.20
68382	alpha-glucosidase	-	3.2.1.20	from API zym
68382	alpha-mannosidase	-	3.2.1.24	from API zym
120771	amylase	-
68369	arginine dihydrolase	-	3.5.3.6	from API 20NE
68382	beta-galactosidase	-	3.2.1.23	from API zym
120771	beta-galactosidase	-	3.2.1.23
22947	beta-glucosidase	+	3.2.1.21
68382	beta-glucosidase	-	3.2.1.21	from API zym
68369	beta-glucosidase	+	3.2.1.21	from API 20NE
68382	beta-glucuronidase	-	3.2.1.31	from API zym
120771	caseinase	+	3.4.21.50
120771	catalase	+	1.11.1.6
68382	cystine arylamidase	-	3.4.11.3	from API zym
22947	cytochrome oxidase	-	1.9.3.1
22947	DNase	+
22947	esterase (C 4)	+
68382	esterase (C 4)	+		from API zym
68382	esterase lipase (C 8)	+		from API zym
22947	gelatinase	+
120771	gelatinase	+
68369	gelatinase	+		from API 20NE
120771	lecithinase	-
68382	leucine arylamidase	-	3.4.11.1	from API zym
120771	lipase	+
68382	lipase (C 14)	-		from API zym
22947	lysine decarboxylase	+	4.1.1.18
120771	lysine decarboxylase	+	4.1.1.18
68382	N-acetyl-beta-glucosaminidase	-	3.2.1.52	from API zym
68382	naphthol-AS-BI-phosphohydrolase	+		from API zym
120771	ornithine decarboxylase	-	4.1.1.17
120771	oxidase	+
68382	trypsin	+	3.4.21.4	from API zym
120771	urease	-	3.5.1.5
68369	urease	-	3.5.1.5	from API 20NE
22947	valine arylamidase	-
68382	valine arylamidase	-		from API zym

API zym

@ref	Control	Alkaline phosphatase	Esterase (C 4)	2-naphtyl caprylateEsterase Lipase (C 8)	Lipase (C 14)	L-leucyl-2-naphthylamideLeucine arylamidase	L-valyl-2-naphthylamideValine arylamidase	L-cystyl-2-naphthylamideCystine arylamidase	Trypsin	alpha- Chymotrypsin	Acid phosphatase	Naphthol-AS-BI-phosphateNaphthol-AS-BI-phosphohydrolase	alpha- Galactosidase	beta- Galactosidase	beta- Glucuronidase	alpha- Glucosidase	beta- Glucosidase	N-acetyl-beta- glucosaminidase	alpha- Mannosidase	alpha- Fucosidase
120771	-	+	+	+	-	-	-	-	+	-	+	+	-	-	-	-	-	-	-	-

API 20NE

@ref	Reduction of nitratesNO3	TRP	GLU_ Ferm	ADH (Arg)	URE	ESC	GEL	PNPG	GLU_ Assim	ARA	MNE	MAN	NAG	MAL	GNT	CAP	ADI	MLT	CIT	PAC	OX
12669	+	-	-	-	-	+	+	+/-	+	-	+	-	+	+	-	-	-	+	+	-	-
12669	+	-	-	-	-	+	+	+/-	+	-	+	+	+	+	-	-	-	+	+	-	+

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
120771	not determinedn.d.	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-

API biotype100

@ref	ControlQ	D-glucose as carbon sourceGLU	D-fructose as carbon sourceFRU	D-galactose as carbon sourceGAL	D-trehalose as carbon sourceTRE	D-mannose as carbon sourceMNE	L-sorbose as carbon sourceSBE	D-melibiose as carbon sourceMEL	sucrose as carbon sourceSAC	D-raffinose as carbon sourceRAF	maltotriose as carbon sourceMTE	maltose as carbon sourceMAL	lactose as carbon sourceLAC	lactulose as carbon sourceLTE	1-O-methyl-beta-galactopyranoside as carbon sourceMbGa	1-O-methyl-alpha-galactopyranoside as carbon sourceMaGa	D-cellobiose as carbon sourceCEL	gentiobiose as carbon sourceGEN	1-O-methyl-beta-D-glucopyranoside as carbon sourceMbGu	esculin as carbon sourceESC	D-ribose as carbon sourceRIB	L-arabinose as carbon sourceARA	D-xylose as carbon sourceXYL	palatinose as carbon sourcePLE	L-rhamnose as carbon sourceRHA	L-fucose as carbon sourceFUC	D-melezitose as carbon sourceMLZ	D-arabitol as carbon sourceDARL	L-arabitol as carbon sourceLARL	xylitol as carbon sourceXLT	dulcitol as carbon sourceDUL	D-tagatose as carbon sourceTAG	glycerol as carbon sourceGLY	myo-inositol as carbon sourceINO	D-mannitol as carbon sourceMAN	maltitol as carbon sourceMTL	D-turanose as carbon sourceTUR	D-sorbitol as carbon sourceSOR	adonitol as carbon sourceADO	hydroxyquinoline-beta-glucuronide as carbon sourceHBG	D-lyxose as carbon sourceLYX	i-erythritol as carbon sourceERY	1-O-methyl-alpha-D-glucoside as carbon sourceMDG	3-O-methyl-D-glucose as carbon source3MDG	D-saccharate as carbon sourceSAT	mucate as carbon sourceMUC	L-tartrate as carbon sourceLTAT	D-tartrate as carbon sourceDTAT	meso-tartrate as carbon sourceMTAT	D-malate as carbon sourceDMLT	L-malate as carbon sourceLMLT	cis-aconitate as carbon sourceCATE	trans-aconitate as carbon sourceTATE	tricarballylate as carbon sourceTTE	citrate as carbon sourceCIT	D-glucuronate as carbon sourceGRT	D-galacturonate as carbon sourceGAT	2-ketogluconate as carbon source2KG	5-ketogluconate as carbon source5KG	tryptophan as carbon sourceTRY	N-acetyl-D-glucosamine as carbon sourceNAG	D-gluconate as carbon sourceGNT	phenylacetate as carbon sourcePAC	protocatechuate as carbon sourcePAT	4-hydroxybenzoate as carbon sourcepOBE	quinate as carbon sourceQAT	gentisate as carbon sourceGTE	3-hydroxybenzoate as carbon sourcemOBE	benzoate as carbon sourceBAT	3-phenylpropionate as carbon sourcePPAT	m-coumarate as carbon sourceCMT	trigonelline as carbon sourceTGE	betaine as carbon sourceBET	putrescine as carbon sourcePCE	4-aminobutyrate as carbon sourceABT	histamine as carbon sourceHIN	DL-lactate as carbon sourceLAT	caprate as carbon sourceCAP	caprylate as carbon sourceCYT	L-histidine as carbon sourceHIS	succinate as carbon sourceSUC	fumarate as carbon sourceFUM	glutarate as carbon sourceGRE	DL-glycerate as carbon sourceGYT	5-aminovalerate as carbon sourceAVT	ethanolamine as carbon sourceETN	tryptamine as carbon sourceTTN	D-glucosamine as carbon sourceGLN	itaconate as carbon sourceITA	3-hydroxybutyrate as carbon source3OBU	L-aspartate as carbon sourceAPT	L-glutamate as carbon sourceGTT	L-proline as carbon sourcePRO	D-alanine as carbon sourceDALA	L-alanine as carbon sourceLALA	L-serine as carbon sourceSER	malonate as carbon sourceMNT	propionate as carbon sourcePROP	L-tyrosine as carbon sourceTYR	2-ketoglutarate as carbon source2KT
120771	not determinedn.d.	+	+	-	-	+	-	-	-	-	+	+	-	-	-	-	+	-	-	+	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	+	+	+	-	+	-	-	-	-	-	+	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	+	-	-	-	+	+	-	-	-	-	-	+	-	-	-	-	-	-	-	-	-	-	-	-

Isolation, sampling and environmental information

Isolation source categories

Cat1	Cat2
#Infection	#Patient
#Host Body-Site	#Oral cavity and airways

Isolation

@ref	Sample type	Geographic location	Country	Country ISO 3 Code	Continent	Isolation date	Sampling date
12669	oropharyngeal region of patient with cancer
44868	Oropharyngeal region of patient with mouth cancer		USA	USA	North America		1961
67770	Oropharyngeal region of patient with mouth cancer
120771	Human, Pharyngeal swab	Washington, D C	United States of America	USA	North America	1958-04-30

Taxonmaps

69479

Global distribution of 16S sequence LN681567 (>99% sequence identity) for Stenotrophomonas from Microbeatlas

Aquatic Samples	10099
Soil Samples	6245
Animal Samples	29572
Plant Samples	2260
Total Samples	48176

Interaction and safety

Risk assessment

@ref	Pathogenicity human	Pathogenicity animal	Biosafety level	Biosafety level comment
12669			2	Risk group (German classification) According to TRBA 466
120771			1	Risk group (French classification) According to TRBA 466

Phages

@ref	Name	Strain number
124042	Stenotrophomonas phage vB_SmaS-Ede	DSM 50170
124042	Stenotrophomonas phage vB_SmaS-UKE1	DSM 50170
124042	Stenotrophomonas phage vB_SmaS-UKE2	DSM 50170

Sequence information

Genome sequences

@ref	Description	Assembly level	INSDC accession	BV-BRC accession	IMG accession	NCBI tax ID	Score
66792	49243_F02 assembly for Stenotrophomonas maltophilia NCTC10257	complete	GCA_900186865	40324.252	2850698245	40324	98.91
124043	ASM3721399v1 assembly for Stenotrophomonas maltophilia CGMCC 1.1788	complete	GCA_037213995			40324	93.18
66792	ASM2561735v1 assembly for Stenotrophomonas maltophilia CGMCC 1.1788	scaffold	GCA_025617355	40324.2402	8113457544	40324	64.9
66792	ASM159120v1 assembly for Stenotrophomonas maltophilia NBRC 14161	contig	GCA_001591205	1220593.3	2731957641	1220593	52.99
66792	IMG-taxon 2623620580 annotated assembly for Stenotrophomonas maltophilia IAM 12423	scaffold	GCA_900113425	40324.1221	2623620580	40324	52
66792	ASM199718v1 assembly for Stenotrophomonas maltophilia ATCC 13637	scaffold	GCA_001997185	40324.191	8116680577	40324	40.27

16S sequences

@ref	Description	Accession	Length	NCBI tax ID
20218	Stenotrophomonas maltophilia gene for 16S rRNA, partial sequence, strain: ATCC 13637T	AB008509	1467	40324
20218	Stenotrophomonas maltophilia strain ATCC 13637 16S ribosomal RNA gene, partial sequence	FJ971878	797	40324
20218	Stenotrophomonas maltophilia strain ATCC 13637 16S ribosomal RNA gene, partial sequence	KC884850	501	40324
20218	Xanthomonas maltophilia 16S ribosomal RNA (16S rRNA) gene, transfer RNA-Ile (tRNA-Ile) gene, transfer RNA-Ala (tRNA-Ala) gene, 23S ribosomal RNA (23S rRNA) gene	L28166	725	40324
20218	Xanthomonas maltophilia 16S ribosomal RNA	M59158	1545	40324
20218	Stenotrophomonas maltophilia strain BCRC 10737 16S-23S ribosomal RNA intergenic spacer, complete sequence	EU014579	543	40324
20218	Stenotrophomonas maltophilia strain Cgmcc 1.1788 16S ribosomal RNA gene, partial sequence	DQ067559	1412	40324
20218	Stenotrophomonas maltophilia gene for 16S ribosomal RNA, partial sequence, strain: IAM 12423	AB294553	1538	40324
20218	S.maltophilia 16S rRNA gene, strain LMG 958-T	X95923	1500	40324
20218	Stenotrophomonas maltophilia gene for 16S rRNA, partial sequence, strain: NBRC 12690	AB680319	1470	40324
20218	Stenotrophomonas maltophilia gene for 16S rRNA, partial sequence, strain: NBRC 14161	AB680569	1470	40324
12669	Stenotrophomonas maltophilia partial 16S rRNA gene, type strain DSM 50170T	LN681567	1497	40324
124043	Stenotrophomonas maltophilia strain ATCC 13637 16S ribosomal RNA gene, partial sequence.	MW012640	1089	40324
124043	Stenotrophomonas maltophilia strain NBRC 14161 16S ribosomal RNA gene, partial sequence.	OQ608822	388	40324
124043	Stenotrophomonas maltophilia strain NBRC 14161 16S ribosomal RNA gene, partial sequence.	OQ875714	388	40324
124043	Stenotrophomonas maltophilia strain NBRC 14161 16S ribosomal RNA gene, partial sequence.	OQ875744	1470	40324
124043	Stenotrophomonas maltophilia strain ATCC 13637 16S-23S ribosomal RNA intergenic spacer and 23S ribosomal RNA gene, partial sequence.	KP033411	677	40324
124043	Stenotrophomonas maltophilia strain ATCC 13637 16S ribosomal RNA gene, partial sequence.	MF664150	1039	40324
124043	Stenotrophomonas maltophilia strain IAM 12423 16S ribosomal RNA gene, partial sequence.	MF574361	903	40324
124043	Stenotrophomonas maltophilia strain IAM 12423 16S ribosomal RNA gene, partial sequence.	MN240936	1538	40324

GC content

@ref	GC-content (mol%)	Method
67770	66.9	thermal denaturation, midpoint method (Tm)
67770	67

Genome-based predictions

Predictions

Predictions from Deep Learning for Genome Sequence Data. R package version 0.3.1 based on: Stenotrophomonas maltophilia strain NCTC10257
PATRIC: 40324.252

@ref	Trait	Model	Prediction	Confidence in %	In training data
125439	oxygen_tolerance	BacteriaNetⓘ	obligate aerobe	98.70	no
125439	gram_stain	BacteriaNetⓘ	negative	98.20	no
125439	motility	BacteriaNetⓘ	yes	80.70	no
125439	spore_formation	BacteriaNetⓘ	no	96.50	no

Predictions from bacterial phenotypic traits through improved machine learning using high-quality, curated datasets based on: Stenotrophomonas maltophilia NCTC10257
NCBI: GCA_900186865.1

@ref	Trait	Model	Prediction	Confidence in %	In training data
125438	gram-positive	gram-positiveⓘ	no	99.24	yes
125438	anaerobic	anaerobicⓘ	no	98.14	no
125438	aerobic	aerobicⓘ	yes	85.15	yes
125438	spore-forming	spore-formingⓘ	no	88.88	no
125438	thermophilic	thermophileⓘ	no	98.49	yes
125438	flagellated	motile2+ⓘ	yes	70.66	no

Literature

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Genetics	Antibacterial Siderophores of Pandoraea Pathogens and Their Impact on the Diseased Lung Microbiota.	Herzog E, Ishida K, Scherlach K, Chen X, Bartels B, Niehs SP, Cheaib B, Panagiotou G, Hertweck C.	Angew Chem Int Ed Engl	10.1002/anie.202505714	2025
	Myxinidin-Derived Peptide against Biofilms Caused by Cystic Fibrosis Emerging Pathogens.	Bellavita R, Maione A, Braccia S, Sinoca M, Galdiero S, Galdiero E, Falanga A.	Int J Mol Sci	10.3390/ijms24043092	2023
Pathogenicity	Stenotrophomonas maltophilia promotes lung adenocarcinoma progression by upregulating histone deacetylase 5.	Shen J, Ni Y, Guan Q, Li R, Cao H, Geng Y, You Q.	Front Microbiol	10.3389/fmicb.2023.1121863	2023
	Characterization of Rhizosphere Microbial Diversity and Selection of Plant-Growth-Promoting Bacteria at the Flowering and Fruiting Stages of Rapeseed.	Wang M, Sun H, Xu Z.	Plants (Basel)	10.3390/plants13020329	2024
	Pharmacological and behavioral investigation of putative self-medicative plants in Budongo chimpanzee diets.	Freymann E, Carvalho S, Garbe LA, Dwi Ghazhelia D, Hobaiter C, Huffman MA, Muhumuza G, Schulz L, Sempebwa D, Wald F, Yikii ER, Zuberbuhler K, Schultz F.	PLoS One	10.1371/journal.pone.0305219	2024
	Antibiogram of Stenotrophomonas maltophilia Isolated From Nkonkobe Municipality, Eastern Cape Province, South Africa.	Adegoke AA, Okoh AI.	Jundishapur J Microbiol	10.5812/jjm.13975	2015
Genetics	Analysis of Phylogenetic Variation of Stenotrophomonas maltophilia Reveals Human-Specific Branches.	Steinmann J, Mamat U, Abda EM, Kirchhoff L, Streit WR, Schaible UE, Niemann S, Kohl TA.	Front Microbiol	10.3389/fmicb.2018.00806	2018
	Phenotypic Heterogeneity Affects Stenotrophomonas maltophilia K279a Colony Morphotypes and beta-Lactamase Expression.	Abda EM, Krysciak D, Krohn-Molt I, Mamat U, Schmeisser C, Forstner KU, Schaible UE, Kohl TA, Nieman S, Streit WR.	Front Microbiol	10.3389/fmicb.2015.01373	2015
Pathogenicity	Bacterial competition and quorum-sensing signalling shape the eco-evolutionary outcomes of model in vitro phage therapy.	Mumford R, Friman VP.	Evol Appl	10.1111/eva.12435	2017
	Genotyping of environmental and clinical Stenotrophomonas maltophilia isolates and their pathogenic potential.	Adamek M, Overhage J, Bathe S, Winter J, Fischer R, Schwartz T.	PLoS One	10.1371/journal.pone.0027615	2011
Enzymology	Comprehensive Laboratory Evaluation of a Specific Lateral Flow Assay for the Presumptive Identification of Francisella tularensis in Suspicious White Powders and Aerosol Samples.	Pillai SP, DePalma L, Prentice KW, Ramage JG, Chapman C, Sarwar J, Parameswaran N, Petersen J, Yockey B, Young J, Singh A, Pillai CA, Manickam G, Thirunavkkarasu N, Avila JR, Sharma S, Morse SA, Venkateswaran K, Anderson K, Hodge DR.	Health Secur	10.1089/hs.2019.0151	2020
Enzymology	Comprehensive Laboratory Evaluation of a Lateral Flow Assay for the Detection of Yersinia pestis.	Prentice KW, DePalma L, Ramage JG, Sarwar J, Parameswaran N, Petersen J, Yockey B, Young J, Joshi M, Thirunavvukarasu N, Singh A, Chapman C, Avila JR, Pillai CA, Manickam G, Sharma SK, Morse SA, Venkateswaran KV, Anderson K, Hodge DR, Pillai SP.	Health Secur	10.1089/hs.2019.0094	2019
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Enzymology	Comprehensive Laboratory Evaluation of a Highly Specific Lateral Flow Assay for the Presumptive Identification of Bacillus anthracis Spores in Suspicious White Powders and Environmental Samples.	Ramage JG, Prentice KW, DePalma L, Venkateswaran KS, Chivukula S, Chapman C, Bell M, Datta S, Singh A, Hoffmaster A, Sarwar J, Parameswaran N, Joshi M, Thirunavkkarasu N, Krishnan V, Morse S, Avila JR, Sharma S, Estacio PL, Stanker L, Hodge DR, Pillai SP.	Health Secur	10.1089/hs.2016.0041	2016
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Enzymology	Specific and rapid detection by fluorescent in situ hybridization of bacteria in clinical samples obtained from cystic fibrosis patients.	Hogardt M, Trebesius K, Geiger AM, Hornef M, Rosenecker J, Heesemann J.	J Clin Microbiol	10.1128/jcm.38.2.818-825.2000	2000
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Enzymology	Fluorescent In situ hybridization allows rapid identification of microorganisms in blood cultures.	Kempf VA, Trebesius K, Autenrieth IB.	J Clin Microbiol	10.1128/jcm.38.2.830-838.2000	2000
	PCR-based preparation of 23S rRNA-targeted group-specific polynucleotide probes.	Ludwig W, Dorn S, Springer N, Kirchhof G, Schleifer KH.	Appl Environ Microbiol	10.1128/aem.60.9.3236-3244.1994	1994
	Stenotrophomonas maltophilia complex: A broadly distributed emerging pathogen.	Crisan CV, Goldberg JB.	PLoS Pathog	10.1371/journal.ppat.1013422	2025
	Cytotoxic Effect of Stenotrophomonas maltophilia Isolated from Prostate and Bladder Cancer Patients in Iraq.	Ammar E, Al-Mudallal N, Abbas SM.	Asian Pac J Cancer Prev	10.31557/apjcp.2024.25.10.3701	2024
	Development of a duplex droplet digital PCR assay for the detection of Burkholderia cepacia complex and Stenotrophomonas maltophilia in bloodstream infections.	Liu C, He Z, Kong M, Jin D.	Microbiol Spectr	10.1128/spectrum.03569-23	2024
	Susceptibility of clinical isolates of novel pathogen Stenotrophomonas sepilia to novel benzoquinolizine fluoroquinolone levonadifloxacin.	Chakraborty S, Shekhar N, Singhal L, Rawat RS, Duseja A, Verma RK, Bansal K, Kour I, Biswas S, Rajni E, Sahu S, Patil PB, Gautam V.	JAC Antimicrob Resist	10.1093/jacamr/dlae130	2024
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	Essential Oils from Wild Albanian Lamiaceae: GC-MS Profiling, Biological Activity, and Enhanced Delivery via Nanoencapsulation	Basha E, Mamoci E, Sharma A, Hodaj-Celiku E, Zejnelhoxha S, Medeleanu M, Socaci S, Bisha B.	Molecules		2025
	Antimicrobial Effect of Gentamicin/Heparin and Gentamicin/Citrate Lock Solutions on Staphylococcus aureus and Pseudomonas aeruginosa Clinical Strains.	Salas-Trevino D, Rodriguez-Rodriguez AN, Ramirez-Elizondo MT, Padilla-Orozco M, Montoya-Hinojosa EI, Bocanegra-Ibarias P, Flores-Trevino S, Camacho-Ortiz A.	Infect Dis Rep	10.3390/idr17040098	2025
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	New Meroterpenoid and Isocoumarins from the Fungus Talaromyces amestolkiae MST1-15 Collected from Coal Area.	Li KY, Zhu QF, Ao JL, Wang FR, Long XM, Liao SG, Xu GB.	Molecules	10.3390/molecules27238223	2022
Enzymology	Multilocus Sequence Typing for Molecular Epidemiology of Stenotrophomonas maltophilia Clinical and Environmental Isolates from a Tertiary Hospital in West of Iran	Emami S, Nowroozi J, Abiri R, Mohajeri P.	Iran Biomed J	10.52547/ibj.26.2.142	2022
	Effects of Fluticasone Propionate on Klebsiella pneumoniae and Gram-Negative Bacteria Associated with Chronic Airway Disease.	Begley LA, Opron K, Bian G, Kozik AJ, Liu C, Felton J, Wen B, Sun D, Huang YJ.	mSphere	10.1128/msphere.00377-22	2022
	Isolation, Characterization, and Inactivation of Stenotrophomonas maltophilia From Leafy Green Vegetables and Urban Agriculture Systems.	Li D, Wong CH, Seet MF, Kuan N.	Front Microbiol	10.3389/fmicb.2019.02718	2019
	Effect of N-Acetylcysteine in Combination with Antibiotics on the Biofilms of Three Cystic Fibrosis Pathogens of Emerging Importance.	Aiyer A, Visser SK, Bye P, Britton WJ, Whiteley GS, Glasbey T, Kriel FH, Farrell J, Das T, Manos J.	Antibiotics (Basel)	10.3390/antibiotics10101176	2021
	Fluoride anodic films on stainless-steel fomites to reduce transmission infections.	Conde A, Voces D, Medel-Plaza M, Perales C, de Avila AI, Aguilera-Correa JJ, de Damborenea JJ, Esteban J, Domingo E, Arenas MA.	Appl Environ Microbiol	10.1128/aem.01892-23	2024
Genetics	Targeted genome mining for microbial antitumor agents acting through DNA intercalation.	Zhao Z, Zhao G, Chai Y, Li W, Song K, Zhao W, Li H, Wu M, Zhou Z, Du YL.	Synth Syst Biotechnol	10.1016/j.synbio.2023.07.003	2023
	Evaluation of antibacterial activity of five biocides and the synergistic effect of biocide/EDTA combinations on biofilm-producing and non-producing Stenotrophomonas maltophilia strains isolated from clinical specimens in Iran.	Anari RK, Nikkhahi F, Javadi A, Bakht M, Rostamani M, Kelishomi FZ, Alizadeh SA.	BMC Microbiol	10.1186/s12866-022-02664-1	2022
	The Contribution of Efflux Systems to Levofloxacin Resistance in Stenotrophomonas maltophilia Clinical Strains Isolated in Warsaw, Poland.	Zajac OM, Tyski S, Laudy AE.	Biology (Basel)	10.3390/biology11071044	2022
	The Effects of Antibiotic Combination Treatments on Pseudomonas aeruginosa Tolerance Evolution and Coexistence with Stenotrophomonas maltophilia.	Law JP, Wood AJ, Friman VP.	Microbiol Spectr	10.1128/spectrum.01842-22	2022
Pathogenicity	Anti-biofilm and Anti-Virulence Efficacy of Celastrol Against Stenotrophomonas maltophilia.	Kim HR, Lee D, Eom YB.	Int J Med Sci	10.7150/ijms.23924	2018
	Rapid, Low-Complexity, Simultaneous Bacterial Group Identification and Antimicrobial Susceptibility Testing Performed Directly on Positive Blood Culture Bottles Using Chromogenic Agar.	Robberts FJL, Owusu-Ofori A, Oduro G, Gyampomah TK, Marles N, Fox AT, Chenoweth JG, Schully KL, Clark DV.	Am J Trop Med Hyg	10.4269/ajtmh.22-0278	2022
	Unveiling six novel bacterial strains for fipronil and thiobencarb biodegradation: efficacy, metabolic pathways, and bioaugmentation potential in paddy soil.	Faridy N, Torabi E, Pourbabaee AA, Osdaghi E, Talebi K.	Front Microbiol	10.3389/fmicb.2024.1462912	2024
Enzymology	Discrimination of biofilm-producing Stenotrophomonas maltophilia clinical strains by matrix-assisted laser desorption ionization-time of flight.	Montoya-Hinojosa E, Bocanegra-Ibarias P, Garza-Gonzalez E, Alonso-Ambriz OM, Salazar-Mata GA, Villarreal-Trevino L, Perez-Alba E, Camacho-Ortiz A, Morfin-Otero R, Rodriguez-Noriega E, Flores-Trevino S.	PLoS One	10.1371/journal.pone.0244751	2020
	Molecular Epidemiology, Antibiotic Resistance, and Virulence Traits of Stenotrophomonas maltophilia Strains Associated With an Outbreak in a Mexican Tertiary Care Hospital.	Cruz-Cordova A, Mancilla-Rojano J, Luna-Pineda VM, Escalona-Venegas G, Cazares-Dominguez V, Ormsby C, Franco-Hernandez I, Zavala-Vega S, Hernandez MA, Medina-Pelcastre M, Parra-Ortega I, la Rosa-Zamboni D, Ochoa SA, Xicohtencatl-Cortes J.	Front Cell Infect Microbiol	10.3389/fcimb.2020.00050	2020
Pathogenicity	Microbiological and Cellular Evaluation of a Fluorine-Phosphorus-Doped Titanium Alloy, a Novel Antibacterial and Osteostimulatory Biomaterial with Potential Applications in Orthopedic Surgery.	Aguilera-Correa JJ, Mediero A, Conesa-Buendia FM, Conde A, Arenas MA, de-Damborenea JJ, Esteban J.	Appl Environ Microbiol	10.1128/aem.02271-18	2019
Metabolism	Living apart together-bacterial volatiles influence methanotrophic growth and activity.	Veraart AJ, Garbeva P, van Beersum F, Ho A, Hordijk CA, Meima-Franke M, Zweers AJ, Bodelier PLE.	ISME J	10.1038/s41396-018-0055-7	2018
	An efficient direct screening system for microorganisms that activate plant immune responses based on plant-microbe interactions using cultured plant cells.	Kurokawa M, Nakano M, Kitahata N, Kuchitsu K, Furuya T.	Sci Rep	10.1038/s41598-021-86560-0	2021
	A 10-year single-center experience on Stenotrophomonas maltophilia resistotyping in Szeged, Hungary.	Gajdacs M, Urban E.	Eur J Microbiol Immunol (Bp)	10.1556/1886.2020.00006	2020
	Endophytic bacterial communities in ungerminated and germinated seeds of commercial vegetables.	Acuna JJ, Hu J, Inostroza NG, Valenzuela T, Perez P, Epstein S, Sessitsch A, Zhang Q, Jorquera MA.	Sci Rep	10.1038/s41598-023-47099-4	2023
	The phylogenetic landscape and nosocomial spread of the multidrug-resistant opportunist Stenotrophomonas maltophilia.	Groschel MI, Meehan CJ, Barilar I, Diricks M, Gonzaga A, Steglich M, Conchillo-Sole O, Scherer IC, Mamat U, Luz CF, De Bruyne K, Utpatel C, Yero D, Gibert I, Daura X, Kampmeier S, Rahman NA, Kresken M, van der Werf TS, Alio I, Streit WR, Zhou K, Schwartz T, Rossen JWA, Farhat MR, Schaible UE, Nubel U, Rupp J, Steinmann J, Niemann S, Kohl TA.	Nat Commun	10.1038/s41467-020-15123-0	2020
	Functionalized MoS₂ Nanoflowers with Excellent Near-Infrared Photothermal Activities for Scavenging of Antibiotic Resistant Bacteria.	Liu L, Wu W, Fang Y, Liu H, Chen F, Zhang M, Qin Y.	Nanomaterials (Basel)	10.3390/nano11112829	2021
	Surveillance of Dihydropteroate Synthase Genes in Stenotrophomonas maltophilia by LAMP: Implications for Infection Control and Initial Therapy.	Zhao J, Xing Y, Liu W, Ni W, Wei C, Wang R, Liu Y, Liu Y.	Front Microbiol	10.3389/fmicb.2016.01723	2016
	Characterization of Phenotypic and Genotypic Diversity of Stenotrophomonas maltophilia Strains Isolated From Selected Hospitals in Iran.	Bostanghadiri N, Ghalavand Z, Fallah F, Yadegar A, Ardebili A, Tarashi S, Pournajaf A, Mardaneh J, Shams S, Hashemi A.	Front Microbiol	10.3389/fmicb.2019.01191	2019
	Biotransformed soybean cream as a new nutraceutical for skin care: collagen stimulation in vitro and ex vivo.	Leite BA, Bezerra PHA, Stocco B, Abichabki N, Andrade LN, Fonseca MJV, Torqueti MR.	Braz J Med Biol Res	10.1590/1414-431x2023e12781	2023
	An Alternative Microbiological Validation for an Online Water Bioburden Analyzer.	Venhuizen OL, Martindale CE, Liew FJ, Cannon J, Samanta A, Scaramozzino MJ.	J AOAC Int	10.1093/jaoacint/qsae050	2024
Pathogenicity	Antimicrobial susceptibility pattern of Stenotrophomonas species isolated from Mexico.	Elufisan TO, Luna ICR, Oyedara OO, Varela AS, Garcia VB, Oluyide BO, Trevino SF, Lopez MAV, Guo X.	Afr Health Sci	10.4314/ahs.v20i1.22	2020
	Detection of Nitrate-Reducing/Denitrifying Bacteria from Contaminated and Uncontaminated Tallgrass Prairie Soil: Limitations of PCR Primers.	AbuBakr SM, Najar FZ, Duncan KE.	Microorganisms	10.3390/microorganisms12101981	2024
	Modulated Response of Aspergillus fumigatus and Stenotrophomonas maltophilia to Antimicrobial Agents in Polymicrobial Biofilm.	Roisin L, Melloul E, Woerther PL, Royer G, Decousser JW, Guillot J, Dannaoui E, Botterel F.	Front Cell Infect Microbiol	10.3389/fcimb.2020.574028	2020
Enzymology	Systematic Mutational Analysis of Histidine Kinase Genes in the Nosocomial Pathogen Stenotrophomonas maltophilia Identifies BfmAK System Control of Biofilm Development.	Zheng L, Wang FF, Ren BZ, Liu W, Liu Z, Qian W.	Appl Environ Microbiol	10.1128/aem.03951-15	2016
Biotechnology	Advances in the Microbiology of Stenotrophomonas maltophilia.	Brooke JS.	Clin Microbiol Rev	10.1128/cmr.00030-19	2021
Enzymology	A specific polymerase chain reaction method to identify Stenotrophomonas maltophilia.	Gallo SW, Ramos PL, Ferreira CA, Oliveira SD.	Mem Inst Oswaldo Cruz	10.1590/s0074-02762013000300020	2013
	A Gram-negative-selective antibiotic that spares the gut microbiome.	Munoz KA, Ulrich RJ, Vasan AK, Sinclair M, Wen PC, Holmes JR, Lee HY, Hung CC, Fields CJ, Tajkhorshid E, Lau GW, Hergenrother PJ.	Nature	10.1038/s41586-024-07502-0	2024
	Rapid identification of Stenotrophomonas maltophilia by peptide nucleic acid fluorescence in situ hybridization.	Hansen N, Rasmussen AK, Fiandaca MJ, Kragh KN, Bjarnsholt T, Hoiby N, Stender H, Guardabassi L.	New Microbes New Infect	10.1002/nmi2.38	2014
	Effects of Lipidation on a Proline-Rich Antibacterial Peptide.	Armas F, Di Stasi A, Mardirossian M, Romani AA, Benincasa M, Scocchi M.	Int J Mol Sci	10.3390/ijms22157959	2021
Pathogenicity	Mutasynthetic Production and Antimicrobial Characterization of Darobactin Analogs.	Bohringer N, Green R, Liu Y, Mettal U, Marner M, Modaresi SM, Jakob RP, Wuisan ZG, Maier T, Iinishi A, Hiller S, Lewis K, Schaberle TF.	Microbiol Spectr	10.1128/spectrum.01535-21	2021
	Effects of green tea compound epigallocatechin-3-gallate against Stenotrophomonas maltophilia infection and biofilm.	Vidigal PG, Musken M, Becker KA, Haussler S, Wingender J, Steinmann E, Kehrmann J, Gulbins E, Buer J, Rath PM, Steinmann J.	PLoS One	10.1371/journal.pone.0092876	2014
	Characterization of a New Mixture of Mono-Rhamnolipids Produced by Pseudomonas gessardii Isolated from Edmonson Point (Antarctica).	Buonocore C, Tedesco P, Vitale GA, Esposito FP, Giugliano R, Monti MC, D'Auria MV, de Pascale D.	Mar Drugs	10.3390/md18050269	2020
Pathogenicity	In vitro antibacterial and antibiofilm activities of chlorogenic acid against clinical isolates of Stenotrophomonas maltophilia including the trimethoprim/sulfamethoxazole resistant strain.	Karunanidhi A, Thomas R, van Belkum A, Neela V.	Biomed Res Int	10.1155/2013/392058	2013
	Anti-bacterial and anti-inflammatory properties of Vernonia arborea accelerate the healing of infected wounds in adult Zebrafish.	Vaidyanathan L, Lokeswari TS.	BMC Complement Med Ther	10.1186/s12906-024-04383-8	2024
	Prevalence and Antibiotic Resistance of ESKAPE Pathogens Isolated in the Emergency Department of a Tertiary Care Teaching Hospital in Hungary: A 5-Year Retrospective Survey.	Benko R, Gajdacs M, Matuz M, Bodo G, Lazar A, Hajdu E, Papfalvi E, Hannauer P, Erdelyi P, Peto Z.	Antibiotics (Basel)	10.3390/antibiotics9090624	2020
Genetics	Phylogenomics insights into order and families of Lysobacterales.	Kumar S, Bansal K, Patil PP, Patil PB.	Access Microbiol	10.1099/acmi.0.000015	2019
	Terpenes as bacterial efflux pump inhibitors: A systematic review.	Dias KJSO, Miranda GM, Bessa JR, Araujo ACJ, Freitas PR, Almeida RS, Paulo CLR, Neto JBA, Coutinho HDM, Ribeiro-Filho J.	Front Pharmacol	10.3389/fphar.2022.953982	2022
Metabolism	BsmR degrades c-di-GMP to modulate biofilm formation of nosocomial pathogen Stenotrophomonas maltophilia.	Liu W, Tian XQ, Wei JW, Ding LL, Qian W, Liu Z, Wang FF.	Sci Rep	10.1038/s41598-017-04763-w	2017
Pathogenicity	Acceleration of the formation of biofilms on contact lens surfaces in the presence of neutrophil-derived cellular debris is conserved across multiple genera.	Patel NB, Hinojosa JA, Zhu M, Robertson DM.	Mol Vis		2018
	Heterogeneous Colistin-Resistance Phenotypes Coexisting in Stenotrophomonas maltophilia Isolates Influence Colistin Susceptibility Testing.	Martinez-Servat S, Yero D, Huedo P, Marquez R, Molina G, Daura X, Gibert I.	Front Microbiol	10.3389/fmicb.2018.02871	2018
Enzymology	Time-to-detection of bacteria and yeast with the BACTEC FX versus BacT/Alert Virtuo blood culture systems.	Somily AM, Habib HA, Torchyan AA, Sayyed SB, Absar M, Al-Aqeel R, Binkhamis AK.	Ann Saudi Med	10.5144/0256-4947.2018.194	2018
	Antimicrobial Efficacy of Contact Lens Care Solutions Against Neutrophil-Enhanced Bacterial Biofilms.	Hinojosa JA, Patel NB, Zhu M, Robertson DM.	Transl Vis Sci Technol	10.1167/tvst.6.2.11	2017
Metabolism	Characterization of Cetacean Proline-Rich Antimicrobial Peptides Displaying Activity against ESKAPE Pathogens.	Sola R, Mardirossian M, Beckert B, Sanghez De Luna L, Prickett D, Tossi A, Wilson DN, Scocchi M.	Int J Mol Sci	10.3390/ijms21197367	2020
Enzymology	Bacterial Interference With Lactate Dehydrogenase Assay Leads to an Underestimation of Cytotoxicity.	Van den Bossche S, Vandeplassche E, Ostyn L, Coenye T, Crabbe A.	Front Cell Infect Microbiol	10.3389/fcimb.2020.00494	2020
	The Contribution of Membrane Vesicles to Bacterial Pathogenicity in Cystic Fibrosis Infections and Healthcare Associated Pneumonia.	Vitse J, Devreese B.	Front Microbiol	10.3389/fmicb.2020.00630	2020
Pathogenicity	Antibacterial and Antibiofilm Activities of Nonpolar Extracts of Allium stipitatum Regel. against Multidrug Resistant Bacteria.	Karunanidhi A, Ghaznavi-Rad E, Hamat RA, Pichika MR, Lung LTT, Mohd Fauzi F, Chigurupati S, van Belkum A, Neela V.	Biomed Res Int	10.1155/2018/9845075	2018
	Characterization of Novel Broad-Host-Range Bacteriophage DLP3 Specific to Stenotrophomonas maltophilia as a Potential Therapeutic Agent.	Peters DL, McCutcheon JG, Dennis JJ.	Front Microbiol	10.3389/fmicb.2020.01358	2020
	Identification of Electrode Respiring, Hydrocarbonoclastic Bacterial Strain Stenotrophomonas maltophilia MK2 Highlights the Untapped Potential for Environmental Bioremediation.	Venkidusamy K, Megharaj M.	Front Microbiol	10.3389/fmicb.2016.01965	2016
	SSNOMBACTER: A collection of scattering-type scanning near-field optical microscopy and atomic force microscopy images of bacterial cells.	Lucidi M, Tranca DE, Nichele L, Unay D, Stanciu GA, Visca P, Holban AM, Hristu R, Cincotti G, Stanciu SG.	Gigascience	10.1093/gigascience/giaa129	2020
	Peptidomic analysis of the venom of the solitary bee Xylocopa appendiculata circumvolans.	Kazuma K, Ando K, Nihei KI, Wang X, Rangel M, Franzolin MR, Mori-Yasumoto K, Sekita S, Kadowaki M, Satake M, Konno K.	J Venom Anim Toxins Incl Trop Dis	10.1186/s40409-017-0130-y	2017
Metabolism	Expression of Sme efflux pumps and multilocus sequence typing in clinical isolates of Stenotrophomonas maltophilia.	Cho HH, Sung JY, Kwon KC, Koo SH.	Ann Lab Med	10.3343/alm.2012.32.1.38	2012
Enzymology	Genomic sequence of temperate phage Smp131 of Stenotrophomonas maltophilia that has similar prophages in xanthomonads.	Lee CN, Tseng TT, Chang HC, Lin JW, Weng SF.	BMC Microbiol	10.1186/1471-2180-14-17	2014
	Combretastatins D series and analogues: from isolation, synthetic challenges and biological activities.	de Lima Neto J, Menezes PH.	Beilstein J Org Chem	10.3762/bjoc.19.31	2023
Metabolism	Two different rpf clusters distributed among a population of Stenotrophomonas maltophilia clinical strains display differential diffusible signal factor production and virulence regulation.	Huedo P, Yero D, Martinez-Servat S, Estibariz I, Planell R, Martinez P, Ruyra A, Roher N, Roca I, Vila J, Daura X, Gibert I.	J Bacteriol	10.1128/jb.01540-14	2014
	In Vitro and In Vivo Properties of CUO246, a Novel Bacterial DNA Gyrase/Topoisomerase IV Inhibitor.	Blais J, Dean CR, Lapointe G, Leeds JA, Ma S, Morris L, Moser HE, Osborne CS, Prosen KR, Richie D, Skepper C, Thompson K, Vo J, Yue Q, Rivkin A.	Antimicrob Agents Chemother	10.1128/aac.00921-22	2022
	Resistance Levels and Epidemiology of Non-Fermenting Gram-Negative Bacteria in Urinary Tract Infections of Inpatients and Outpatients (RENFUTI): A 10-Year Epidemiological Snapshot.	Gajdacs M, Burian K, Terhes G.	Antibiotics (Basel)	10.3390/antibiotics8030143	2019
Pathogenicity	Screening a mushroom extract library for activity against Acinetobacter baumannii and Burkholderia cepacia and the identification of a compound with anti-Burkholderia activity.	Schwan WR, Dunek C, Gebhardt M, Engelbrecht K, Klett T, Monte A, Toce J, Rott M, Volk TJ, LiPuma JJ, Liu XT, McKelvey R.	Ann Clin Microbiol Antimicrob	10.1186/1476-0711-9-4	2010
	Characterization of flagella produced by clinical strains of Stenotrophomonas maltophilia.	de Oliveira-Garcia D, Dall'Agnol M, Rosales M, Azzuz AC, Martinez MB, Giron JA.	Emerg Infect Dis	10.3201/eid0809.010535	2002
Phylogeny	Microbiota analysis optimization for human bronchoalveolar lavage fluid.	Schneeberger PHH, Prescod J, Levy L, Hwang D, Martinu T, Coburn B.	Microbiome	10.1186/s40168-019-0755-x	2019
Phylogeny	Clear distinction between Burkholderia mallei and Burkholderia pseudomallei using fluorescent motB primers.	Schmoock G, Elschner M, Sprague LD.	Acta Vet Scand	10.1186/s13028-015-0104-4	2015
	Isolation and characterization of a novel strain of Stenotrophomonas maltophilia possessing various dioxygenases for monocyclic hydrocarbon degradation.	Urszula G, Izabela G, Danuta W, Sylwia L.	Braz J Microbiol	10.1590/s1517-838220090002000014	2009
Pathogenicity	Antibiofilm Activity of the Brown Alga Halidrys siliquosa against Clinically Relevant Human Pathogens.	Busetti A, Thompson TP, Tegazzini D, Megaw J, Maggs CA, Gilmore BF.	Mar Drugs	10.3390/md13063581	2015
	Characterization of Resistance in Gram-Negative Urinary Isolates Using Existing and Novel Indicators of Clinical Relevance: A 10-Year Data Analysis.	Gajdacs M, Batori Z, Abrok M, Lazar A, Burian K.	Life (Basel)	10.3390/life10020016	2020
Enzymology	Stenotrophomonas, Mycobacterium, and Streptomyces in home dust and air: associations with moldiness and other home/family characteristics.	Kettleson E, Kumar S, Reponen T, Vesper S, Meheust D, Grinshpun SA, Adhikari A.	Indoor Air	10.1111/ina.12035	2013
Pathogenicity	Activities of ciprofloxacin and moxifloxacin against Stenotrophomonas maltophilia and emergence of resistant mutants in an in vitro pharmacokinetic-pharmacodynamic model.	Ba BB, Feghali H, Arpin C, Saux MC, Quentin C.	Antimicrob Agents Chemother	10.1128/aac.48.3.946-953.2004	2004
Pathogenicity	Multiple antibiotic resistance in Stenotrophomonas maltophilia: involvement of a multidrug efflux system.	Zhang L, Li XZ, Poole K.	Antimicrob Agents Chemother	10.1128/aac.44.2.287-293.2000	2000
Pathogenicity	The Impact of Efflux Pump Inhibitors on the Activity of Selected Non-Antibiotic Medicinal Products against Gram-Negative Bacteria.	Laudy AE, Kulinska E, Tyski S.	Molecules	10.3390/molecules22010114	2017
Enzymology	Identification and detection of Stenotrophomonas maltophilia by rRNA-directed PCR.	Whitby PW, Carter KB, Burns JL, Royall JA, LiPuma JJ, Stull TL.	J Clin Microbiol	10.1128/jcm.38.12.4305-4309.2000	2000
Phylogeny	Comparison of methods for the identification of microorganisms isolated from blood cultures.	Monteiro AC, Fortaleza CM, Ferreira AM, Cavalcante Rde S, Mondelli AL, Bagagli E, da Cunha Mde L.	Ann Clin Microbiol Antimicrob	10.1186/s12941-016-0158-9	2016
Phylogeny	Fluorescence in situ hybridization for rapid identification of Achromobacter xylosoxidans and Alcaligenes faecalis recovered from cystic fibrosis patients.	Wellinghausen N, Wirths B, Poppert S.	J Clin Microbiol	10.1128/jcm.00508-06	2006
Pathogenicity	The Influence of Efflux Pump Inhibitors on the Activity of Non-Antibiotic NSAIDS against Gram-Negative Rods.	Laudy AE, Mrowka A, Krajewska J, Tyski S.	PLoS One	10.1371/journal.pone.0147131	2016
Enzymology	Isolation and characterization of novel giant Stenotrophomonas maltophilia phage phiSMA5.	Chang HC, Chen CR, Lin JW, Shen GH, Chang KM, Tseng YH, Weng SF.	Appl Environ Microbiol	10.1128/aem.71.3.1387-1393.2005	2005
	Development of structurally extended benzosiloxaboroles - synthesis and in vitro biological evaluation.	Pacholak P, Krajewska J, Winska P, Dunikowska J, Gogowska U, Mierzejewska J, Durka K, Wozniak K, Laudy AE, Lulinski S.	RSC Adv	10.1039/d1ra04127d	2021
	Characterization of the chromosomal aac(6')-Iz gene of Stenotrophomonas maltophilia.	Lambert T, Ploy MC, Denis F, Courvalin P.	Antimicrob Agents Chemother	10.1128/aac.43.10.2366	1999
	Aromatic Diboronic Acids as Effective KPC/AmpC Inhibitors.	Krajewska J, Chyzy P, Durka K, Winska P, Krzysko KA, Lulinski S, Laudy AE.	Molecules	10.3390/molecules28217362	2023
	Exploiting thiol-functionalized benzosiloxaboroles for achieving diverse substitution patterns - synthesis, characterization and biological evaluation of promising antibacterial agents.	Nowicki K, Krajewska J, Stepniewski TM, Wielechowska M, Winska P, Kaczmarczyk A, Korpowska J, Selent J, Marek-Urban PH, Durka K, Wozniak K, Laudy AE, Lulinski S.	RSC Med Chem	10.1039/d4md00061g	2024
Pathogenicity	Molecular Network and Culture Media Variation Reveal a Complex Metabolic Profile in Pantoea cf. eucrina D2 Associated with an Acidified Marine Sponge.	Vitale GA, Sciarretta M, Cassiano C, Buonocore C, Festa C, Mazzella V, Nunez Pons L, D'Auria MV, de Pascale D.	Int J Mol Sci	10.3390/ijms21176307	2020
	Rapid identification of Acinetobacter spp. by fluorescence in situ hybridization (FISH) from colony and blood culture material.	Frickmann H, Essig A, Hagen RM, Riecker M, Jerke K, Ellison D, Poppert S.	Eur J Microbiol Immunol (Bp)	10.1556/eujmi.1.2011.4.4	2011
Enzymology	Rapid identification of bacteria from positive blood cultures by terminal restriction fragment length polymorphism profile analysis of the 16S rRNA gene.	Christensen JE, Stencil JA, Reed KD.	J Clin Microbiol	10.1128/jcm.41.8.3790-3800.2003	2003
Pathogenicity	In Vitro Antibacterial Properties of Cefiderocol, a Novel Siderophore Cephalosporin, against Gram-Negative Bacteria.	Ito A, Sato T, Ota M, Takemura M, Nishikawa T, Toba S, Kohira N, Miyagawa S, Ishibashi N, Matsumoto S, Nakamura R, Tsuji M, Yamano Y.	Antimicrob Agents Chemother	10.1128/aac.01454-17	2018
Pathogenicity	Synthesis, antibacterial action, and ribosome inhibition of deoxyspectinomycins.	Dharuman S, Wilt LA, Liu J, Reeve SM, Thompson CW, Elmore JM, Shcherbakov D, Lee RB, Bottger EC, Lee RE.	J Antibiot (Tokyo)	10.1038/s41429-021-00408-3	2021
Enzymology	Rapid detection of Brucella spp. in blood cultures by fluorescence in situ hybridization.	Wellinghausen N, Nockler K, Sigge A, Bartel M, Essig A, Poppert S.	J Clin Microbiol	10.1128/jcm.44.5.1828-1830.2006	2006
Pathogenicity	Antimicrobial susceptibilities of unique Stenotrophomonas maltophilia clinical strains.	Valdezate S, Vindel A, Loza E, Baquero F, Canton R.	Antimicrob Agents Chemother	10.1128/aac.45.5.1581-1584.2001	2001
	Polymorphic mutation frequencies of clinical and environmental Stenotrophomonas maltophilia populations.	Turrientes MC, Baquero MR, Sanchez MB, Valdezate S, Escudero E, Berg G, Canton R, Baquero F, Galan JC, Martinez JL.	Appl Environ Microbiol	10.1128/aem.02817-09	2010
Genetics	Validation and Implementation of Clinical Laboratory Improvements Act-Compliant Whole-Genome Sequencing in the Public Health Microbiology Laboratory.	Kozyreva VK, Truong CL, Greninger AL, Crandall J, Mukhopadhyay R, Chaturvedi V.	J Clin Microbiol	10.1128/jcm.00361-17	2017
Genetics	Three novel Pseudomonas phages isolated from composting provide insights into the evolution and diversity of tailed phages.	Amgarten D, Martins LF, Lombardi KC, Antunes LP, de Souza APS, Nicastro GG, Kitajima EW, Quaggio RB, Upton C, Setubal JC, da Silva AM.	BMC Genomics	10.1186/s12864-017-3729-z	2017
	Novel real-time PCR detection assay for Brucella suis.	Hansel C, Mertens K, Elschner MC, Melzer F.	Vet Rec Open	10.1136/vetreco-2014-000084	2015
Enzymology	Antineoplastic agents. 573. isolation and structure of papilistatin from the papilionid butterfly Byasa polyeuctes termessa.	Pettit GR, Ye Q, Herald DL, Hogan F, Pettit RK.	J Nat Prod	10.1021/np9004689	2010
Pathogenicity	In Vitro and In Vivo Characterization of NOSO-502, a Novel Inhibitor of Bacterial Translation.	Racine E, Nordmann P, Pantel L, Sarciaux M, Serri M, Houard J, Villain-Guillot P, Demords A, Vingsbo Lundberg C, Gualtieri M.	Antimicrob Agents Chemother	10.1128/aac.01016-18	2018
	Oxazoline scaffold in synthesis of benzosiloxaboroles and related ring-expanded heterocycles: diverse reactivity, structural peculiarities and antimicrobial activity.	Krajewska J, Nowicki K, Durka K, Marek-Urban PH, Winska P, Stepniewski T, Wozniak K, Laudy AE, Lulinski S.	RSC Adv	10.1039/d2ra03910a	2022
	High genetic diversity among Stenotrophomonas maltophilia strains despite their originating at a single hospital.	Valdezate S, Vindel A, Martin-Davila P, Del Saz BS, Baquero F, Canton R.	J Clin Microbiol	10.1128/jcm.42.2.693-699.2003	2004
Pathogenicity	In Vitro and In Vivo Activities of DS-2969b, a Novel GyrB Inhibitor, and Its Water-Soluble Prodrug, DS11960558, against Methicillin-Resistant Staphylococcus aureus.	Barman TK, Kumar M, Mathur T, Namba E, Singh D, Chaira T, Kurosaka Y, Yamada M, Upadhyay DJ, Masuda N.	Antimicrob Agents Chemother	10.1128/aac.02556-17	2018
	Bacterial defenses against a natural antibiotic promote collateral resilience to clinical antibiotics.	Meirelles LA, Perry EK, Bergkessel M, Newman DK.	PLoS Biol	10.1371/journal.pbio.3001093	2021
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Enzymology	Sensitive and Specific Recombinase Polymerase Amplification Assays for Fast Screening, Detection, and Identification of Bacillus anthracis in a Field Setting.	Bentahir M, Ambroise J, Delcorps C, Pilo P, Gala JL.	Appl Environ Microbiol	10.1128/aem.00506-18	2018
Phylogeny	Evaluation of a rapid direct assay for identification of bacteria and the mec A and van genes from positive-testing blood cultures.	Eigner U, Weizenegger M, Fahr AM, Witte W.	J Clin Microbiol	10.1128/jcm.43.10.5256-5262.2005	2005
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Phylogeny	Identification and antimicrobial susceptibility of Alcaligenes xylosoxidans isolated from patients with cystic fibrosis.	Saiman L, Chen Y, Tabibi S, San Gabriel P, Zhou J, Liu Z, Lai L, Whittier S.	J Clin Microbiol	10.1128/jcm.39.11.3942-3945.2001	2001
Metabolism	Structure-based gene targeting discovery of sphaerimicin, a bacterial translocase I inhibitor.	Funabashi M, Baba S, Takatsu T, Kizuka M, Ohata Y, Tanaka M, Nonaka K, Spork AP, Ducho C, Chen WC, Van Lanen SG.	Angew Chem Int Ed Engl	10.1002/anie.201305546	2013
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Cultivation	Cost-effective and rapid presumptive identification of gram-negative bacilli in routine urine, pus, and stool cultures: evaluation of the use of CHROMagar orientation medium in conjunction with simple biochemical tests.	Ohkusu K.	J Clin Microbiol	10.1128/jcm.38.12.4586-4592.2000	2000
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Pathogenicity	Aminomethyl spectinomycins as therapeutics for drug-resistant respiratory tract and sexually transmitted bacterial infections.	Bruhn DF, Waidyarachchi SL, Madhura DB, Shcherbakov D, Zheng Z, Liu J, Abdelrahman YM, Singh AP, Duscha S, Rathi C, Lee RB, Belland RJ, Meibohm B, Rosch JW, Bottger EC, Lee RE.	Sci Transl Med	10.1126/scitranslmed.3010572	2015
Phylogeny	Evaluation of the Wider system, a new computer-assisted image-processing device for bacterial identification and susceptibility testing.	Canton R, Perez-Vazquez M, Oliver A, Sanchez Del Saz B, Gutierrez MO, Martinez-Ferrer M, Baquero F.	J Clin Microbiol	10.1128/jcm.38.4.1339-1346.2000	2000
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Enzymology	Direct detection and identification of Pseudomonas aeruginosa in clinical samples such as skin biopsy specimens and expectorations by multiplex PCR based on two outer membrane lipoprotein genes, oprI and oprL.	De Vos D, Lim A, Pirnay JP, Struelens M, Vandenvelde C, Duinslaeger L, Vanderkelen A, Cornelis P.	J Clin Microbiol	10.1128/jcm.35.6.1295-1299.1997	1997
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Pathogenicity	New real-time PCR assay for rapid detection of methicillin-resistant Staphylococcus aureus directly from specimens containing a mixture of staphylococci.	Huletsky A, Giroux R, Rossbach V, Gagnon M, Vaillancourt M, Bernier M, Gagnon F, Truchon K, Bastien M, Picard FJ, van Belkum A, Ouellette M, Roy PH, Bergeron MG.	J Clin Microbiol	10.1128/jcm.42.5.1875-1884.2004	2004
Pathogenicity	Discovery of a novel class of boron-based antibacterials with activity against gram-negative bacteria.	Hernandez V, Crepin T, Palencia A, Cusack S, Akama T, Baker SJ, Bu W, Feng L, Freund YR, Liu L, Meewan M, Mohan M, Mao W, Rock FL, Sexton H, Sheoran A, Zhang Y, Zhang YK, Zhou Y, Nieman JA, Anugula MR, Keramane el M, Savariraj K, Reddy DS, Sharma R, Subedi R, Singh R, O'Leary A, Simon NL, De Marsh PL, Mushtaq S, Warner M, Livermore DM, Alley MR, Plattner JJ.	Antimicrob Agents Chemother	10.1128/aac.02058-12	2013
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Enzymology	Biochemical characterization of the L1-like metallo-beta-lactamase from Stenotrophomonas lactitubi.	Yamada K, Ishii Y, Tateda K.	Antimicrob Agents Chemother	10.1128/aac.00866-23	2024
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Transcriptome	Cystic Fibrosis-Associated Stenotrophomonas maltophilia Strain-Specific Adaptations and Responses to pH.	Gallagher T, Phan J, Oliver A, Chase AB, England WE, Wandro S, Hendrickson C, Riedel SF, Whiteson K.	J Bacteriol	10.1128/jb.00478-18	2019
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Genetics	Comparative Genomics of Stenotrophomonas maltophilia and Stenotrophomonas rhizophila Revealed Characteristic Features of Both Species.	Pinski A, Zur J, Hasterok R, Hupert-Kocurek K.	Int J Mol Sci	10.3390/ijms21144922	2020
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Genetics	GET_PHYLOMARKERS, a Software Package to Select Optimal Orthologous Clusters for Phylogenomics and Inferring Pan-Genome Phylogenies, Used for a Critical Geno-Taxonomic Revision of the Genus Stenotrophomonas.	Vinuesa P, Ochoa-Sanchez LE, Contreras-Moreira B.	Front Microbiol	10.3389/fmicb.2018.00771	2018
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Metabolism	Stenotrophomonas maltophilia outer membrane vesicles elicit a potent inflammatory response in vitro and in vivo.	Kim YJ, Jeon H, Na SH, Kwon HI, Selasi GN, Nicholas A, Park TI, Lee SH, Lee JC	Pathog Dis	10.1093/femspd/ftw104	2016
Enzymology	Proteomic analysis of outer membrane proteins and vesicles of a clinical isolate and a collection strain of Stenotrophomonas maltophilia.	Ferrer-Navarro M, Torrent G, Mongiardini E, Conchillo-Sole O, Gibert I, Daura X	J Proteomics	10.1016/j.jprot.2016.05.001	2016
Metabolism	Genome-wide identification of genes necessary for biofilm formation by nosocomial pathogen Stenotrophomonas maltophilia reveals that orphan response regulator FsnR is a critical modulator.	Kang XM, Wang FF, Zhang H, Zhang Q, Qiana W	Appl Environ Microbiol	10.1128/AEM.03408-14	2015
Genetics	Complete Genome Sequence of Stenotrophomonas maltophilia Type Strain 810-2 (ATCC 13637).	Davenport KW, Daligault HE, Minogue TD, Broomall SM, Bruce DC, Chain PS, Coyne SR, Gibbons HS, Jaissle J, Li PE, Rosenzweig CN, Scholz MB, Johnson SL	Genome Announc	10.1128/genomeA.00974-14	2014
Metabolism	Abundance of the Quorum-Sensing Factor Ax21 in Four Strains of Stenotrophomonas maltophilia Correlates with Mortality Rate in a New Zebrafish Model of Infection.	Ferrer-Navarro M, Planell R, Yero D, Mongiardini E, Torrent G, Huedo P, Martinez P, Roher N, Mackenzie S, Gibert I, Daura X	PLoS One	10.1371/journal.pone.0067207	2013
Metabolism	Different utilizable substrates have different effects on cometabolic fate of imidacloprid in Stenotrophomonas maltophilia.	Liu Z, Dai Y, Huan Y, Liu Z, Sun L, Zhou Q, Zhang W, Sang Q, Wei H, Yuan S	Appl Microbiol Biotechnol	10.1007/s00253-012-4444-y	2012
Phylogeny	Stenotrophomonas interspecies differentiation and identification by gyrB sequence analysis.	Svensson-Stadler LA, Mihaylova SA, Moore ER	FEMS Microbiol Lett	10.1111/j.1574-6968.2011.02452.x	2011
Enzymology	Cloning and overexpression of ketopantoic acid reductase gene from Stenotrophomonas maltophilia and its application to stereospecific production of D-pantoic acid.	Si D, Urano N, Shimizu S, Kataoka M	Appl Microbiol Biotechnol	10.1007/s00253-011-3664-x	2011
	Analysis of bacterial fatty acids by flow modulated comprehensive two-dimensional gas chromatography with parallel flame ionization detector/mass spectrometry.	Gu Q, David F, Lynen F, Rumpel K, Xu G, De Vos P, Sandra P	J Chromatogr A	10.1016/j.chroma.2010.04.057	2010
Metabolism	Biotransformation of thianicotinyl neonicotinoid insecticides: diverse molecular substituents response to metabolism by bacterium Stenotrophomonas maltophilia CGMCC 1.1788.	Dai Y, Zhao Y, Zhang W, Yu C, Ji W, Xu W, Ni J, Yuan S	Bioresour Technol	10.1016/j.biortech.2010.01.069	2010
Metabolism	Hydroxylation of thiacloprid by bacterium Stenotrophomonas maltophilia CGMCC1.1788.	Zhao YJ, Dai YJ, Yu CG, Luo J, Xu WP, Ni JP, Yuan S	Biodegradation	10.1007/s10532-009-9264-0	2009
Pathogenicity	Smqnr, a new chromosome-carried quinolone resistance gene in Stenotrophomonas maltophilia.	Shimizu K, Kikuchi K, Sasaki T, Takahashi N, Ohtsuka M, Ono Y, Hiramatsu K	Antimicrob Agents Chemother	10.1128/AAC.00026-08	2008
Metabolism	N-demethylation of neonicotinoid insecticide acetamiprid by bacterium Stenotrophomonas maltophilia CGMCC 1.1788.	Chen T, Dai YJ, Ding JF, Yuan S, Ni JP	Biodegradation	10.1007/s10532-007-9170-2	2007
Phylogeny	Occurrence and antagonistic potential of Stenotrophomonas strains isolated from deep-sea invertebrates.	Romanenko LA, Uchino M, Tanaka N, Frolova GM, Slinkina NN, Mikhailov VV	Arch Microbiol	10.1007/s00203-007-0324-8	2007
Metabolism	Enhanced hydroxylation of imidacloprid by Stenotrophomonas maltophilia upon addition of sucrose.	Dai YJ, Chen T, Ge F, Huan Y, Yuan S, Zhu FF	Appl Microbiol Biotechnol	10.1007/s00253-006-0762-2	2007
Metabolism	Microbial hydroxylation of imidacloprid for the synthesis of highly insecticidal olefin imidacloprid.	Dai YJ, Yuan S, Ge F, Chen T, Xu SC, Ni JP	Appl Microbiol Biotechnol	10.1007/s00253-005-0223-3	2005
Metabolism	Synthesis of the compatible solutes glucosylglycerol and trehalose by salt-stressed cells of Stenotrophomonas strains.	Roder A, Hoffmann E, Hagemann M, Berg G	FEMS Microbiol Lett	10.1016/j.femsle.2004.12.005	2005
Phylogeny	Stenotrophomonas africana Drancourt et al. 1997 is a later synonym of Stenotrophomonas maltophilia (Hugh 1981) Palleroni and Bradbury 1993.	Coenye T, Vanlaere E, Falsen E, Vandamme P	Int J Syst Evol Microbiol	10.1099/ijs.0.63093-0	2004
Genetics	Characterization of the 48.5 kDa chorionic gonadotropin-like protein from Xanthomonas maltophilia.	Grover S, Odell WD	Endocr Res	10.3109/07435809309033021	1993
Pathogenicity	Effect of media composition on the susceptibility of Xanthomonas maltophilia to beta-lactam antibiotics.	Bonfiglio G, Livermore DM	J Antimicrob Chemother	10.1093/jac/28.6.837	1991
Pathogenicity	DNA restriction fragment length polymorphism differentiates crossed from independent infections in nosocomial Xanthomonas maltophilia bacteremia.	Bingen EH, Denamur E, Lambert-Zechovsky NY, Bourdois A, Mariani-Kurkdjian P, Cezard JP, Navarro J, Elion J	J Clin Microbiol	10.1128/jcm.29.7.1348-1350.1991	1991
Enzymology	Formation of halogenated aryl-polyene (xanthomonadin) pigments by the type and other yellow-pigmented strains of Xanthomonas maltophilia.	Jenkins CL, Starr MP	Ann Inst Pasteur Microbiol (1985)	10.1016/s0769-2609(85)80071-5	1985
Metabolism	Micromethod for carbon substrate assimilation by Pseudomonas maltophilia.	Freney J, Laban P, Desmonceaux M, Fleurette J	Zentralbl Bakteriol Mikrobiol Hyg A		1983
Enzymology	Lipopolysaccharides from Pseudomonas maltophilia. Structural studies of the side-chain, core, and lipid-A regions of the lipopolysaccharide from strain NCTC 10257.	Neal DJ, Wilkinson SG	Eur J Biochem		1982
Enzymology	[Relationship of Pseudomonas maltophilia alkaline phosphatase to its membranes].	Treshchanina NA, Nesmeianova MA, Zhdan-Pushkina SM	Mikrobiologiia		1981
Phylogeny	Bordetella holmesii sp. nov., a new gram-negative species associated with septicemia.	Weyant RS, Hollis DG, Weaver RE, Amin MF, Steigerwalt AG, O'Connor SP, Whitney AM, Daneshvar MI, Moss CW, Brenner DJ.	J Clin Microbiol	10.1128/jcm.33.1.1-7.1995	1995
Phylogeny	Screening for endophytic nitrogen-fixing bacteria in Brazilian sugar cane varieties used in organic farming and description of Stenotrophomonas pavanii sp. nov.	Ramos PL, Van Trappen S, Thompson FL, Rocha RCS, Barbosa HR, De Vos P, Moreira-Filho CA	Int J Syst Evol Microbiol	10.1099/ijs.0.019372-0	2010
Phylogeny	Stenotrophomonas acidaminiphila sp. nov., a strictly aerobic bacterium isolated from an upflow anaerobic sludge blanket (UASB) reactor.	Assih EA, Ouattara AS, Thierry S, Cayol JL, Labat M, Macarie H	Int J Syst Evol Microbiol	10.1099/00207713-52-2-559	2002
Phylogeny	Stenotrophomonas cyclobalanopsidis sp. nov., isolated from the leaf spot disease of Cyclobalanopsis patelliformis.	Bian DR, Xue H, Piao CG, Li Y	Antonie Van Leeuwenhoek	10.1007/s10482-020-01453-y	2020
Phylogeny	Stenotrophomonas lactitubi sp. nov. and Stenotrophomonas indicatrix sp. nov., isolated from surfaces with food contact.	Weber M, Schunemann W, Fuss J, Kampfer P, Lipski A	Int J Syst Evol Microbiol	10.1099/ijsem.0.002732	2018
Phylogeny	Stenotrophomonas bentonitica sp. nov., isolated from bentonite formations.	Sanchez-Castro I, Ruiz-Fresneda MA, Bakkali M, Kampfer P, Glaeser SP, Busse HJ, Lopez-Fernandez M, Martinez-Rodriguez P, Merroun ML	Int J Syst Evol Microbiol	10.1099/ijsem.0.002016	2017
Phylogeny	Stenotrophomonas ginsengisoli sp. nov., isolated from a ginseng field.	Kim HB, Srinivasan S, Sathiyaraj G, Quan LH, Kim SH, Bui TPN, Liang ZQ, Kim YJ, Yang DC	Int J Syst Evol Microbiol	10.1099/ijs.0.014662-0	2009

References

#12669	Leibniz Institut DSMZ-Deutsche Sammlung von Mikroorganismen und Zellkulturen GmbH ; Curators of the DSMZ; DSM 50170
#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 )
#20218	Verslyppe, B., De Smet, W., De Baets, B., De Vos, P., Dawyndt P.: StrainInfo introduces electronic passports for microorganisms.. Syst Appl Microbiol. 37: 42 - 50 2014 ( DOI 10.1016/j.syapm.2013.11.002 , PubMed 24321274 )
#22947	Tom Coenye, Elke Vanlaere, Enevold Falsen, Peter Vandamme: Stenotrophomonas africana Drancourt et al. 1997 is a later synonym of Stenotrophomonas maltophilia (Hugh 1981) Palleroni and Bradbury 1993. IJSEM 54: 1235 - 1237 2004 ( DOI 10.1099/ijs.0.63093-0 , PubMed 15280297 )
#22951	Norberto J. Palleroni, John F. Bradbury: Stenotrophomonas, a New Bacterial Genus for Xanthomonas maltophilia (Hugh 1980) Swings et al. 1983. IJSEM 43: 606 - 609 1993 ( DOI 10.1099/00207713-43-3-606 , PubMed 8347518 )
#40685	; Curators of the CIP;
#44868	Culture Collection University of Gothenburg (CCUG) ; Curators of the CCUG; CCUG 5866
#66792	Julia Koblitz, Joaquim Sardà, Lorenz Christian Reimer, Boyke Bunk, Jörg Overmann: Automatically annotated for the DiASPora project (Digital Approaches for the Synthesis of Poorly Accessible Biodiversity Information) .
#67770	Japan Collection of Microorganism (JCM) ; Curators of the JCM;
#68369	Automatically annotated from API 20NE .
#68371	Automatically annotated from API 50CH acid .
#68382	Automatically annotated from API zym .
#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 .
#120771	Collection of Institut Pasteur ; Curators of the CIP; CIP 60.77
#124042	Johannes Wittmann, Clara Rolland, Lorenz Reimer, Joaquim Sardà: PhageDive .
#124043	Isabel Schober, Julia Koblitz: Data extracted from sequence databases, automatically matched based on designation and taxonomy .
#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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Stenotrophomonas maltophilia (DSM 50170, ATCC 13637, ICPB 2648-67)

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