Name: Campylobacter jejuni 5636/77 Lucitt
Creator: BacDive
License: http://creativecommons.org/licenses/by-nc/4.0/

Strain identifier

BacDive ID: 23822

Type strain:

Species: Campylobacter jejuni

Strain Designation: 5636/77 Lucitt

Culture col. no.: DSM 27585, NCTC 11168, WDCM 00073, CIP 107370, ATCC 700819, CCUG 6824, LMG 8842, CECT 8170

Strain history: CIP <- 2002, B. Wren, London School of Hygiene & Tropical Medicine, London, UK <- NCTC <- 1977, MB. Skirrow, PHLS, Worcester, UK

NCBI tax ID(s): 197 (species)

Other strains from Campylobacter jejuni

Section

Campylobacter jejuni 5636/77 Lucitt is a microaerophile, mesophilic, Gram-negative bacterium that was isolated from human faeces.

Gram-negative
mesophilic
microaerophile
Bacteria
genome sequence

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

	Last LPSN update	14-12-2023 (DD-MM-YYYY)
	Domain	"Bacteria"
	Phylum	*Pseudomonadota*
	Class	*Epsilonproteobacteria*
	Order	*Campylobacterales*
	Family	*Campylobacteraceae*
	Genus	*Campylobacter*
	Species	**Campylobacter jejuni**
	Full Scientific Name (LPSN)	Campylobacter jejuni (Jones et al. 1931) Véron and Chatelain 1973 (Approved Lists 1980)

Synonym

"Vibrio jejuni"

Information on morphological and physiological properties Morphology

[Ref.: #120328]	Gram stain	negative
[Ref.: #69480]	Gram stain	negative Confidence in %99.997

[Ref.: #120328]	Cell shape	rod-shaped

[Ref.: #120328]	Motility	yes

[Ref.: #20492]

Incubation period

1-2 days

Information on culture and growth conditions Culture and growth conditions

[Ref.: #20492]

Culture medium

COLUMBIA BLOOD MEDIUM (DSMZ Medium 693)

[Ref.: #20492]

Culture medium growth

[Ref.: #20492]

Culture medium link

Medium recipe at MediaDive

[Ref.: #20492]

Culture medium composition

expand / minimize

[Ref.: #41812]

Culture medium

MEDIUM 6 - Columbia agar with 10 % horse blood

[Ref.: #41812]

Culture medium growth

[Ref.: #41812]

Culture medium composition

expand / minimize

[Ref.: #120328]

Culture medium

Brucella broth

[Ref.: #120328]

Culture medium growth

[Ref.: #120328]

Culture medium

CIP Medium 45

[Ref.: #120328]

Culture medium growth

[Ref.: #120328]

Culture medium link

Medium recipe provided by DSMZ

[Ref.: #120328]

Culture medium

CIP Medium 6

[Ref.: #120328]

Culture medium growth

[Ref.: #120328]

Culture medium link

Medium recipe provided by DSMZ

	Kind of temperature		Temperature
[Ref.: #20492]		growth	37 °C
[Ref.: #41812]		growth	37 °C
[Ref.: #120328]		growth	37-41 °C
[Ref.: #120328]	no	growth	5 °C
[Ref.: #120328]	no	growth	10 °C
[Ref.: #120328]	no	growth	25 °C
[Ref.: #120328]	no	growth	30 °C
[Ref.: #120328]	no	growth	45 °C

[Ref.: #20492]	Temperature range	mesophilic
[Ref.: #41812]	Temperature range	mesophilic
[Ref.: #120328]	Temperature range	psychrophilic
[Ref.: #120328]	Temperature range	mesophilic
[Ref.: #120328]	Temperature range	thermophilic

Information on physiology and metabolism Physiology and metabolism

[Ref.: #20492]	Oxygen tolerance	microaerophile
[Ref.: #120328]	Oxygen tolerance	obligate aerobe

[Ref.: #69481]	Ability of spore formation	no Confidence in %100
[Ref.: #69480]	Ability of spore formation	no Confidence in %99.988

	Halophily	Salt	Tested relation		Salt conc.
[Ref.: #120328]		NaCl		growth	3.5	%

	Metabolite	Utilization activity	Kind of utilization tested
[Ref.: #68373]	acetate ChEBI	-	assimilation	* from API CAM
[Ref.: #68373]	D-glucose ChEBI	-	assimilation	* from API CAM
[Ref.: #120328]	hippurate ChEBI	+	hydrolysis
[Ref.: #68373]	hippurate ChEBI	+	hydrolysis	* from API CAM
[Ref.: #120328]	nitrate ChEBI	+	reduction
[Ref.: #68373]	nitrate ChEBI	+	reduction	* from API CAM
[Ref.: #120328]	nitrite ChEBI	-	reduction
[Ref.: #68373]	propionate ChEBI	-	assimilation	* from API CAM
[Ref.: #68373]	triphenyltetrazolium chloride ChEBI	+	reduction	* from API CAM
[Ref.: #68373]	urea ChEBI	-	hydrolysis	* from API CAM

	Metabolite	Antibiotic sensitivity	Concentration		Antibiotic resistance
[Ref.: #120328]	0129 (2,4-Diamino-6,7-di-iso-propylpteridine phosphate)	no			yes
[Ref.: #68373]	erythromycin ChEBI	yes	14	µg		* from API CAM
[Ref.: #68373]	nalidixic acid ChEBI	yes	84	µg		* from API CAM

	Metabolite production	Metabolite	Production
[Ref.: #120328]		indole ChEBI	no
[Ref.: #68373]		hydrogen sulfide ChEBI	no	* from API CAM

	Enzyme	Enzyme activity	EC number
[Ref.: #68382]	acid phosphatase	+	3.1.3.2	* from API zym
[Ref.: #68382]	alkaline phosphatase	+	3.1.3.1	* from API zym
[Ref.: #68382]	alpha-chymotrypsin	-	3.4.21.1	* from API zym
[Ref.: #68382]	alpha-fucosidase	-	3.2.1.51	* from API zym
[Ref.: #68382]	alpha-galactosidase	-	3.2.1.22	* from API zym
[Ref.: #68382]	alpha-glucosidase	+	3.2.1.20	* from API zym
[Ref.: #68382]	alpha-mannosidase	-	3.2.1.24	* from API zym
[Ref.: #68382]	beta-galactosidase	-	3.2.1.23	* from API zym
[Ref.: #68382]	beta-glucosidase	-	3.2.1.21	* from API zym
[Ref.: #68382]	beta-glucuronidase	-	3.2.1.31	* from API zym
[Ref.: #20492]	catalase	+	1.11.1.6
[Ref.: #120328]	catalase	+	1.11.1.6
[Ref.: #68373]	catalase	+	1.11.1.6	* from API CAM
[Ref.: #68382]	cystine arylamidase	-	3.4.11.3	* from API zym
[Ref.: #20492]	cytochrome-c oxidase	+	1.9.3.1
[Ref.: #68373]	esterase	+		* from API CAM
[Ref.: #68382]	esterase (C 4)	+		* from API zym
[Ref.: #68382]	esterase lipase (C 8)	+		* from API zym
[Ref.: #120328]	gamma-glutamyltransferase	-	2.3.2.2
[Ref.: #68373]	gamma-glutamyltransferase	-	2.3.2.2	* from API CAM
[Ref.: #120328]	gelatinase	-
[Ref.: #68373]	L-arginine arylamidase	-		* from API CAM
[Ref.: #68373]	L-aspartate arylamidase	-	3.4.11.21	* from API CAM
[Ref.: #68382]	leucine arylamidase	+	3.4.11.1	* from API zym
[Ref.: #68382]	lipase (C 14)	-		* from API zym
[Ref.: #68382]	N-acetyl-beta-glucosaminidase	-	3.2.1.52	* from API zym
[Ref.: #68382]	naphthol-AS-BI-phosphohydrolase	+		* from API zym
[Ref.: #120328]	oxidase	+
[Ref.: #68382]	trypsin	-	3.4.21.4	* from API zym
[Ref.: #120328]	urease	+	3.5.1.5
[Ref.: #68373]	urease	-	3.5.1.5	* from API CAM
[Ref.: #68382]	valine arylamidase	-		* from API zym
	Only first 10 entries are displayed. Click here to see all.

API® Biotype100:

Note that the displayed test results represent raw data and therefore may deviate!

	API ID	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
[Ref.: #120328]	2182	not determinedn.d.	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-	-

API® CAM:

Note that the displayed test results represent raw data and therefore may deviate!

	API ID	Urease/urea hydrolysisURE	Reduction of nitrateNIT	EsteraseEST	Hippuric acidHIP	gamma-Glutamyl transferaseGGT	Reduction of Triphenyl tetrazolium chlorideTTC	Pyrrolidonyl arylamidasePYRA	L-arginine arylamidaseArgA	L-aspartic acid arylamidaseAspA	Alkaline phosphatasePAL	H2S productionH2S	Assimilation of D-glucoseGLU	Assimilation of succinateSUT	Growth inhibitionNAL	Growth inhibitionCFZ	Assimilation of acetateACE	Assimilation of propionic acidPROP	Assimilation of malic acidMLT	Assimilation of citric acidCIT	Erythromycin resistance (+) sensitivity (-)ERO	CatalaseCAT
[Ref.: #20492]	3927	-	+	+	+	-	+	+	-	-	+	-	-	+/-	-	-	-	-	-	-	-	+
[Ref.: #20492]	3885	-	+	+	+	-	+	+/-	-	-	+	-	-	-	-	-	-	-	-	-	-	+
[Ref.: #20492]	3853	-	+	+	+	-	+	+	-	-	+	-	-	+	-	-	-	-	+	+	-	+
[Ref.: #20492]	3822	-	+	+	+	-	+	+	-	-	+	-	-	+	-	+/-	-	-	+	+	-	+
[Ref.: #20492]	3960	-	+	+	+	-	+	-	-	-	+/-	-	-	+	-	+	-	-	+	+	-	+

API® zym:

Note that the displayed test results represent raw data and therefore may deviate!

	API ID	Control	2-naphthyl phosphateAlkaline phosphatase	2-naphthyl butyrateEsterase (C 4)	2-naphtyl caprylateEsterase Lipase (C 8)	2-naphthyl myristateLipase (C 14)	L-leucyl-2-naphthylamideLeucine arylamidase	L-valyl-2-naphthylamideValine arylamidase	L-cystyl-2-naphthylamideCystine arylamidase	N-benzoyl-DL-arginine-2-naphthylamideTrypsin	N-glutaryl-phenylalanine-2-naphthylamidealpha- Chymotrypsin	2-naphthyl phosphateAcid phosphatase	Naphthol-AS-BI-phosphateNaphthol-AS-BI-phosphohydrolase	6-Br-2-naphthyl-alphaD-galactpyranosidealpha- Galactosidase	2-naphthyl-betaD-galactpyranosidebeta- Galactosidase	Naphthol-AS-BI-betaD-glucuronidebeta- Glucuronidase	2-naphthyl-alphaD-glucopyranosidealpha- Glucosidase	6-Br-2-naphthyl-betaD-glucopyranosidebeta- Glucosidase	1-naphthyl-N-acetyl-betaD-glucosaminideN-acetyl-beta- glucosaminidase	6-Br-2-naphthyl-alphaD-mannopyranosidealpha- Mannosidase	2-naphthyl-alphaL-fucopyranosidealpha- Fucosidase
[Ref.: #120328]	10304	-	+	+	+	-	+	-	-	-	-	+	+	-	-	-	+	-	-	-	-

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

[Ref.: #20492]	Sample type/isolated from	human faeces
[Ref.: #20492]	Country	United Kingdom
[Ref.: #20492]	Country ISO 3 Code	GBR
[Ref.: #20492]	Continent	Europe

[Ref.: #120328]	Sample type/isolated from	Human, Feces sample
[Ref.: #120328]	Country	United Kingdom
[Ref.: #120328]	Country ISO 3 Code	GBR
[Ref.: #120328]	Continent	Europe
[Ref.: #120328]	Isolation date	1982
* marker position based on {}

Isolation sources categories

#Host	#Human	-
#Host Body Product	#Gastrointestinal tract	#Feces (Stool)

What are isolation sources categories?

Information on possible application of the strain and its possible interaction with e.g. potential hosts Safety information

[Ref.: #20492]	Biosafety level	2	Risk group (German classification) According to TRBA 466
[Ref.: #120328]	Biosafety level	2	Risk group (French classification)

Information on genomic background e.g. entries in nucleic sequence databass Sequence information

Genome sequence information:

Only first 5 entries are displayed. Click here to see all.

	Sequence accession description	Seq. accession number	Assembly level	Sequence database	Associated NCBI tax ID
[Ref.: #66792]	Campylobacter jejuni subsp. jejuni NCTC 11168-mcK12E5	GCA_000830825	complete	GenBank	1385721 tax ID	*
[Ref.: #66792]	Campylobacter jejuni subsp. jejuni NCTC11168	GCA_900475265	complete	GenBank	32022 tax ID	*
[Ref.: #66792]	Campylobacter jejuni subsp. jejuni NCTC 11168-GSv NCTC 11168-rNRC	GCA_000830865	complete	GenBank	1385724 tax ID	*
[Ref.: #66792]	Campylobacter jejuni subsp. jejuni NCTC 11168-BN148	GCA_000304375	complete	GenBank	1211776 tax ID	*
[Ref.: #66792]	Campylobacter jejuni subsp. jejuni NCTC 11168-Kf1	GCA_000830805	complete	GenBank	1385723 tax ID	*
[Ref.: #66792]	Campylobacter jejuni subsp. jejuni NCTC 11168-mfK12E5	GCA_000830845	complete	GenBank	1385722 tax ID	*

Data predicted using genome information as a basis Genome-based predictions

	Trait	Prediction	Confidence in %	In training data
	Predictions from GenomeNet Sporulation v. 1 based on: Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819 NCTC 11168 NCBI: GCA_000009085.1
[Ref.: #69481]	spore-forming	no	100	no

	Trait	Prediction	Confidence in %	In training data
	Predictions from Diaspora project based on: Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819 NCTC 11168 NCBI: GCA_000009085.1
[Ref.: #69480]	motile	yes	86.783	no
[Ref.: #69480]	flagellated	yes	62.149	no
[Ref.: #69480]	gram-positive	no	98.769	no
[Ref.: #69480]	anaerobic	no	91.623	no
[Ref.: #69480]	halophile	no	88.341	no
[Ref.: #69480]	spore-forming	no	95.893	no
[Ref.: #69480]	thermophile	no	90.449	no
[Ref.: #69480]	glucose-util	no	89.039	yes
[Ref.: #69480]	aerobic	no	93.924	yes
[Ref.: #69480]	glucose-ferment	no	86.24	no

Availability in culture collections External links

[Ref.: #20492]

Culture collection no.

DSM 27585, NCTC 11168, WDCM 00073, CIP 107370, ATCC 700819, CCUG 6824, LMG 8842, CECT 8170

Literature:

Only first 10 entries are displayed. Click here to see all.

	Title	Authors	Journal	DOI	Year
Phylogeny	Telithromycin resistance in Campylobacter mediated by 23S rRNA A2075G mutation and erm(B).	Liu P, Qin X, Cao T, Yang Y, Shi X, Liu D, Wang Y, Shen Z, Wang S	J Antimicrob Chemother	10.1093/jac/dkac086	2022	*
Metabolism	Discovery and Functional Characterization of a Clandestine ATP-Dependent Amidoligase in the Biosynthesis of the Capsular Polysaccharide from Campylobacter jejuni.	Riegert AS, Narindoshvili T, Raushel FM	Biochemistry	10.1021/acs.biochem.1c00707	2021	*
Enzymology	Phenolic Profile, Antioxidant Capacity and Antimicrobial Activity of Nettle Leaves Extracts Obtained by Advanced Extraction Techniques.	Elez Garofulic I, Malin V, Repajic M, Zoric Z, Pedisic S, Sternisa M, Smole Mozina S, Dragovic-Uzelac V	Molecules	10.3390/molecules26206153	2021	*
Metabolism	Functional Characterization of Two PLP-Dependent Enzymes Involved in Capsular Polysaccharide Biosynthesis from Campylobacter jejuni.	Riegert AS, Narindoshvili T, Coricello A, Richards NGJ, Raushel FM	Biochemistry	10.1021/acs.biochem.1c00439	2021	*
Genetics	Stabilizing Genetically Unstable Simple Sequence Repeats in the Campylobacter jejuni Genome by Multiplex Genome Editing: a Reliable Approach for Delineating Multiple Phase-Variable Genes.	Yamamoto S, Iyoda S, Ohnishi M	mBio	10.1128/mBio.01401-21	2021	*
Genetics	Complete Genome Sequence of Campylobacter jejuni Strain G1, Isolated from a Patient with Guillain-Barre Syndrome.	Karlyshev AV	Microbiol Resour Announc	10.1128/MRA.00505-21	2021	*
Metabolism	Sirtuin-Dependent Reversible Lysine Acetylation Controls the Activity of Acetyl Coenzyme A Synthetase in Campylobacter jejuni.	Jeter VL, Escalante-Semerena JC	J Bacteriol	10.1128/JB.00333-21	2021	*
Metabolism	Biosynthesis of d-glycero-l-gluco-Heptose in the Capsular Polysaccharides of Campylobacter jejuni.	Huddleston JP, Anderson TK, Girardi NM, Thoden JB, Taylor Z, Holden HM, Raushel FM	Biochemistry	10.1021/acs.biochem.1c00183	2021	*
Enzymology	Crystal structure of a GDP-6-OMe-4-keto-L-xylo-heptose reductase from Campylobacter jejuni.	Kim JH, Hofmann A, Kim JS	Proteins	10.1002/prot.26080	2021	*
Enzymology	Functional and Structural Characterization of the UDP-Glucose Dehydrogenase Involved in Capsular Polysaccharide Biosynthesis from Campylobacter jejuni.	Riegert AS, Raushel FM	Biochemistry	10.1021/acs.biochem.0c00953	2021	*
Cultivation	Synthesis of nitrogen-doped carbon nanodots to destroy bacteria competing with Campylobacter jejuni in enrichment medium, and development of a monoclonal antibody to detect C. jejuni after enrichment.	Ha J, Seo Y, Kim Y, Lee J, Lee H, Kim S, Choi Y, Oh H, Lee Y, Park E, Kang J, Yoon Y	Int J Food Microbiol	10.1016/j.ijfoodmicro.2020.109014	2020	*
Metabolism	Role of metAB in Methionine Metabolism and Optimal Chicken Colonization in Campylobacter jejuni.	Ruddell B, Hassall A, Sahin O, Zhang Q, Plummer PJ, Kreuder AJ	Infect Immun	10.1128/IAI.00542-20	2020	*
Pathogenicity	An in vitro investigation of the survival and/or growth of Campylobacter jejuni in broiler digestate from different feed types.	Greene G, Koolman L, Whyte P, Lynch H, Coffey A, Lucey B, Egan J, O'Connor L, Bolton D	Lett Appl Microbiol	10.1111/lam.13390	2020	*
Metabolism	Bacteroides fragilis fucosidases facilitate growth and invasion of Campylobacter jejuni in the presence of mucins.	Luijkx YMCA, Bleumink NMC, Jiang J, Overkleeft HS, Wosten MMSM, Strijbis K, Wennekes T	Cell Microbiol	10.1111/cmi.13252	2020	*
Pathogenicity	Designing an efficient multi-epitope vaccine against Campylobacter jejuni using immunoinformatics and reverse vaccinology approach.	Gupta N, Kumar A	Microb Pathog	10.1016/j.micpath.2020.104398	2020	*
Enzymology	Detection of Campylobacter jejuni liver dissemination in experimentally colonized turkey poults.	Sylte MJ, Shippy DC, Bearson BL, Bearson SMD	Poult Sci	10.1016/j.psj.2020.03.042	2020	*
Genetics	Molecular characterization of megaplasmids encoding the type VI secretion system in Campylobacter jejuni isolated from chicken livers and gizzards.	Marasini D, Karki AB, Bryant JM, Sheaff RJ, Fakhr MK	Sci Rep	10.1038/s41598-020-69155-z	2020	*
Pathogenicity	Identification of Novel Bioactive Compound Derived from Rheum officinalis against Campylobacter jejuni NCTC11168.	Yosri M, Amin BH, Abed NN, Elithy AS, Kareem SM, Sidkey NM	ScientificWorldJournal	10.1155/2020/3591276	2020	*
Pathogenicity	(-)-alpha-Pinene reduces quorum sensing and Campylobacter jejuni colonization in broiler chickens.	Simunovic K, Sahin O, Kovac J, Shen Z, Klancnik A, Zhang Q, Smole Mozina S	PLoS One	10.1371/journal.pone.0230423	2020	*
Metabolism	Functional Characterization of Cj1427, a Unique Ping-Pong Dehydrogenase Responsible for the Oxidation of GDP-d-glycero-alpha-d-manno-heptose in Campylobacter jejuni.	Huddleston JP, Raushel FM	Biochemistry	10.1021/acs.biochem.0c00097	2020	*
Pathogenicity	Campylobacter jejuni genes Cj1492c and Cj1507c are involved in host cell adhesion and invasion.	Xi, Alter T, Einspanier R, Sharbati S, Golz G	Gut Pathog	10.1186/s13099-020-00347-8	2020	*
Metabolism	HtrA-dependent adherence and invasion of Campylobacter jejuni in human vs avian cells.	Simson D, Boehm M, Backert S	Lett Appl Microbiol	10.1111/lam.13277	2020	*
Metabolism	The gastrointestinal pathogen Campylobacter jejuni metabolizes sugars with potential help from commensal Bacteroides vulgatus.	Garber JM, Nothaft H, Pluvinage B, Stahl M, Bian X, Porfirio S, Enriquez A, Butcher J, Huang H, Glushka J, Line E, Gerlt JA, Azadi P, Stintzi A, Boraston AB, Szymanski CM	Commun Biol	10.1038/s42003-019-0727-5	2020	*
Genetics	Draft Genome Sequence of Ciprofloxacin and Ceftriaxone Resistant Campylobacter jejuni MM26-781 Assigned to Novel ST Isolated From Common Pigeon in Lithuania.	Aksomaitiene J, Ramonaite S, Novoslavskij A, Malakauskas M, Kudirkiene E	Evol Bioinform Online	10.1177/1176934319868469	2019	*
Genetics	Domestication of Campylobacter jejuni NCTC 11168.	Pascoe B, Williams LK, Calland JK, Meric G, Hitchings MD, Dyer M, Ryder J, Shaw S, Lopes BS, Chintoan-Uta C, Allan E, Vidal A, Fearnley C, Everest P, Pachebat JA, Cogan TA, Stevens MP, Humphrey TJ, Wilkinson TS, Cody AJ, Colles FM, Jolley KA, Maiden MCJ, Strachan N, Pearson BM, Linton D, Wren BW, Parkhill J, Kelly DJ, van Vliet AHM, Forbes KJ, Sheppard SK	Microb Genom	10.1099/mgen.0.000279	2019	*
Genetics	Characterization of multiresistance gene cfr(C) variants in Campylobacter from China.	Liu D, Li X, Liu W, Yao H, Liu Z, Fessler AT, He J, Zhou Y, Shen Z, Wu Z, Schwarz S, Zhang Q, Wang Y	J Antimicrob Chemother	10.1093/jac/dkz197	2019	*
Metabolism	Protease Activity of Campylobacter jejuni HtrA Modulates Distinct Intestinal and Systemic Immune Responses in Infected Secondary Abiotic IL-10 Deficient Mice.	Schmidt AM, Escher U, Mousavi S, Boehm M, Backert S, Bereswill S, Heimesaat MM	Front Cell Infect Microbiol	10.3389/fcimb.2019.00079	2019	*
Pathogenicity	Avian Intestinal Mucus Modulates Campylobacter jejuni Gene Expression in a Host-Specific Manner.	Looft T, Cai G, Choudhury B, Lai LX, Lippolis JD, Reinhardt TA, Sylte MJ, Casey TA	Front Microbiol	10.3389/fmicb.2018.03215	2019	*
Metabolism	Proteomics Reveals Multiple Phenotypes Associated with N-linked Glycosylation in Campylobacter jejuni.	Cain JA, Dale AL, Niewold P, Klare WP, Man L, White MY, Scott NE, Cordwell SJ	Mol Cell Proteomics	10.1074/mcp.RA118.001199	2019	*
Metabolism	The CRISPR-cas system promotes antimicrobial resistance in Campylobacter jejuni.	Shabbir MA, Wu Q, Shabbir MZ, Sajid A, Ahmed S, Sattar A, Tang Y, Li J, Maan MK, Hao H, Yuan Z	Future Microbiol	10.2217/fmb-2018-0234	2018	*
Metabolism	Transcriptomic analysis of Campylobacter jejuni grown in a medium containing serine as the main energy source.	Watanabe-Yanai A, Iwata T, Kusumoto M, Tamamura Y, Akiba M	Arch Microbiol	10.1007/s00203-018-1596-x	2018	*
Metabolism	A Cotransformation Method To Identify a Restriction-Modification Enzyme That Reduces Conjugation Efficiency in Campylobacter jejuni.	Zeng X, Wu Z, Zhang Q, Lin J	Appl Environ Microbiol	10.1128/AEM.02004-18	2018	*
Metabolism	The Involvement of the Cas9 Gene in Virulence of Campylobacter jejuni.	Shabbir MAB, Tang Y, Xu Z, Lin M, Cheng G, Dai M, Wang X, Liu Z, Yuan Z, Hao H	Front Cell Infect Microbiol	10.3389/fcimb.2018.00285	2018	*
Stress	Enhanced Biofilm Formation by Ferrous and Ferric Iron Through Oxidative Stress in Campylobacter jejuni.	Oh E, Andrews KJ, Jeon B	Front Microbiol	10.3389/fmicb.2018.01204	2018	*
Transcriptome	Transcriptomic Analysis of the Campylobacter jejuni Response to T4-Like Phage NCTC 12673 Infection.	Sacher JC, Flint A, Butcher J, Blasdel B, Reynolds HM, Lavigne R, Stintzi A, Szymanski CM	Viruses	10.3390/v10060332	2018	*
Pathogenicity	Therapeutic administration of enrofloxacin in mice does not select for fluoroquinolone resistance in Campylobacter jejuni.	Inglis GD, Zaytsoff SJM, Selinger LB, Taboada EN, Uwiera RRE	Can J Microbiol	10.1139/cjm-2017-0741	2018	*
Metabolism	Design, solid-phase synthesis and evaluation of enterobactin analogs for iron delivery into the human pathogen Campylobacter jejuni.	Zamora CY, Madec AGE, Neumann W, Nolan EM, Imperiali B	Bioorg Med Chem	10.1016/j.bmc.2018.04.030	2018	*
Cultivation	Evaluation of different Campylobacter jejuni isolates to colonize the intestinal tract of commercial turkey poults and selective media for enumeration.	Sylte MJ, Inbody MH, Johnson TA, Looft T, Line JE	Poult Sci	10.3382/ps/pex384	2018	*
Metabolism	Metabolomic profiling of Campylobacter jejuni with resistance gene ermB by ultra-high performance liquid chromatography-quadrupole time-of-flight mass spectrometry and tandem quadrupole mass spectrometry.	Fu Q, Liu D, Wang Y, Li X, Wang L, Yu F, Shen J, Xia X	J Chromatogr B Analyt Technol Biomed Life Sci	10.1016/j.jchromb.2018.02.009	2018	*
Genetics	Genome-Wide Prediction of Potential Vaccine Candidates for Campylobacter jejuni Using Reverse Vaccinology.	Jain R, Singh S, Verma SK, Jain A	Interdiscip Sci	10.1007/s12539-017-0260-5	2017	*
Metabolism	Lighting up my life: a LOV-based fluorescent reporter for Campylobacter jejuni.	Elgamoudi BA, Ketley JM	Res Microbiol	10.1016/j.resmic.2017.10.003	2017	*
Metabolism	Inverse Correlation between Extracellular DNase Activity and Biofilm Formation among Chicken-Derived Campylobacter Strains.	Jung GH, Lim ES, Woo MA, Lee JY, Kim JS, Paik HD	J Microbiol Biotechnol	10.4014/jmb.1703.03052	2017	*
Genetics	Essential genome of Campylobacter jejuni.	Mandal RK, Jiang T, Kwon YM	BMC Genomics	10.1186/s12864-017-4032-8	2017	*
Metabolism	Role of eptC in Biofilm Formation by Campylobacter jejuni NCTC11168 on Polystyrene and Glass Surfaces.	Lim ES, Kim JS	J Microbiol Biotechnol	10.4014/jmb.1610.10046	2017	*
Metabolism	Phage exposure causes dynamic shifts in the expression states of specific phase-variable genes of Campylobacter jejuni.	Aidley J, Sorensen MCH, Bayliss CD, Brondsted L	Microbiology (Reading)	10.1099/mic.0.000470	2017	*
Phylogeny	Core Genome Multilocus Sequence Typing Scheme for Stable, Comparative Analyses of Campylobacter jejuni and C. coli Human Disease Isolates.	Cody AJ, Bray JE, Jolley KA, McCarthy ND, Maiden MCJ	J Clin Microbiol	10.1128/JCM.00080-17	2017	*
Metabolism	Key Role of Capsular Polysaccharide in the Induction of Systemic Infection and Abortion by Hypervirulent Campylobacter jejuni.	Sahin O, Terhorst SA, Burrough ER, Shen Z, Wu Z, Dai L, Tang Y, Plummer PJ, Ji J, Yaeger MJ, Zhang Q	Infect Immun	10.1128/IAI.00001-17	2017	*
Enzymology	High Prevalence and Predominance of the aph(2'')-If Gene Conferring Aminoglycoside Resistance in Campylobacter.	Yao H, Liu D, Wang Y, Zhang Q, Shen Z	Antimicrob Agents Chemother	10.1128/AAC.00112-17	2017	*
Pathogenicity	Emergence of a plasmid-borne multidrug resistance gene cfr(C) in foodborne pathogen Campylobacter.	Tang Y, Dai L, Sahin O, Wu Z, Liu M, Zhang Q	J Antimicrob Chemother	10.1093/jac/dkx023	2017	*
Genetics	Draft Genome Sequence of Campylobacter jejuni 11168H.	Macdonald SE, Gundogdu O, Dorrell N, Wren BW, Blake D, Stabler R	Genome Announc	10.1128/genomeA.01556-16	2017	*
Metabolism	Antimicrobial and Virulence-Modulating Effects of Clove Essential Oil on the Foodborne Pathogen Campylobacter jejuni.	Kovacs JK, Felso P, Makszin L, Papai Z, Horvath G, Abraham H, Palkovics T, Boszormenyi A, Emody L, Schneider G	Appl Environ Microbiol	10.1128/AEM.01221-16	2016	*
Pathogenicity	Attenuation of Adhesion, Biofilm Formation and Quorum Sensing of Campylobacter jejuni by Euodia ruticarpa.	Bezek K, Kurincic M, Knauder E, Klancnik A, Raspor P, Bucar F, Smole Mozina S	Phytother Res	10.1002/ptr.5658	2016	*
Metabolism	L-fucose influences chemotaxis and biofilm formation in Campylobacter jejuni.	Dwivedi R, Nothaft H, Garber J, Xin Kin L, Stahl M, Flint A, van Vliet AH, Stintzi A, Szymanski CM	Mol Microbiol	10.1111/mmi.13409	2016	*
Metabolism	Phase variation of a Type IIG restriction-modification enzyme alters site-specific methylation patterns and gene expression in Campylobacter jejuni strain NCTC11168.	Anjum A, Brathwaite KJ, Aidley J, Connerton PL, Cummings NJ, Parkhill J, Connerton I, Bayliss CD	Nucleic Acids Res	10.1093/nar/gkw019	2016	*
Pathogenicity	Virulence gene expression, adhesion and invasion of Campylobacter jejuni exposed to oxidative stress (H2O2).	Koolman L, Whyte P, Burgess C, Bolton D	Int J Food Microbiol	10.1016/j.ijfoodmicro.2016.01.002	2016	*
Pathogenicity	Comprehensive analysis of flagellin glycosylation in Campylobacter jejuni NCTC 11168 reveals incorporation of legionaminic acid and its importance for host colonization.	Zebian N, Merkx-Jacques A, Pittock PP, Houle S, Dozois CM, Lajoie GA, Creuzenet C	Glycobiology	10.1093/glycob/cwv104	2015	*
Metabolism	Major contribution of the type II beta carbonic anhydrase CanB (Cj0237) to the capnophilic growth phenotype of Campylobacter jejuni.	Al-Haideri H, White MA, Kelly DJ	Environ Microbiol	10.1111/1462-2920.13092	2015	*
Stress	The Campylobacter jejuni MarR-like transcriptional regulators RrpA and RrpB both influence bacterial responses to oxidative and aerobic stresses.	Gundogdu O, da Silva DT, Mohammad B, Elmi A, Mills DC, Wren BW, Dorrell N	Front Microbiol	10.3389/fmicb.2015.00724	2015	*
Metabolism	Role of flgA for Flagellar Biosynthesis and Biofilm Formation of Campylobacter jejuni NCTC11168.	Kim JS, Park C, Kim YJ	J Microbiol Biotechnol	10.4014/jmb.1504.04080	2015	*
Genetics	Refined analysis of the Campylobacter jejuni iron-dependent/independent Fur- and PerR-transcriptomes.	Butcher J, Handley RA, van Vliet AH, Stintzi A	BMC Genomics	10.1186/s12864-015-1661-7	2015	*
Metabolism	PerR controls oxidative stress defence and aerotolerance but not motility-associated phenotypes of Campylobacter jejuni.	Handley RA, Mulholland F, Reuter M, Ramachandran VK, Musk H, Clissold L, Le Brun NE, van Vliet AH	Microbiology (Reading)	10.1099/mic.0.000109	2015	*
Stress	Heat Shock-Enhanced Conjugation Efficiency in Standard Campylobacter jejuni Strains.	Zeng X, Ardeshna D, Lin J	Appl Environ Microbiol	10.1128/AEM.00346-15	2015	*
Pathogenicity	Virulence characterization of Campylobacter jejuni isolated from resident wild birds in Tokachi area, Japan.	Shyaka A, Kusumoto A, Chaisowwong W, Okouchi Y, Fukumoto S, Yoshimura A, Kawamoto K	J Vet Med Sci	10.1292/jvms.15-0090	2015	*
Biotechnology	Prevention of biofilm formation and removal of existing biofilms by extracellular DNases of Campylobacter jejuni.	Brown HL, Reuter M, Hanman K, Betts RP, van Vliet AH	PLoS One	10.1371/journal.pone.0121680	2015	*
Metabolism	Role of capsular modified heptose in the virulence of Campylobacter jejuni.	Wong A, Lange D, Houle S, Arbatsky NP, Valvano MA, Knirel YA, Dozois CM, Creuzenet C	Mol Microbiol	10.1111/mmi.12995	2015	*
Genetics	Specific genetic features of Campylobacter jejuni strain G1 revealed by genome sequencing.	Lehri B, Kukreja K, Vieira A, Zaremba M, Bonney K, Karlyshev AV	FEMS Microbiol Lett	10.1093/femsle/fnu064	2014	*
Transcriptome	Microarray transposon tracking for the mapping of conditionally essential genes in Campylobacter jejuni.	Stahl M, Stintzi A	Methods Mol Biol	10.1007/978-1-4939-2398-4_1	2015	*
Metabolism	Campylobacter jejuni motility is required for infection of the flagellotropic bacteriophage F341.	Baldvinsson SB, Sorensen MC, Vegge CS, Clokie MR, Brondsted L	Appl Environ Microbiol	10.1128/AEM.02057-14	2014	*
Metabolism	Comparative proteomics and glycoproteomics reveal increased N-linked glycosylation and relaxed sequon specificity in Campylobacter jejuni NCTC11168 O.	Scott NE, Marzook NB, Cain JA, Solis N, Thaysen-Andersen M, Djordjevic SP, Packer NH, Larsen MR, Cordwell SJ	J Proteome Res	10.1021/pr5005554	2014	*
Metabolism	It takes two to tango: two TatA paralogues and two redox enzyme-specific chaperones are involved in the localization of twin-arginine translocase substrates in Campylobacter jejuni.	Liu YW, Hitchcock A, Salmon RC, Kelly DJ	Microbiology (Reading)	10.1099/mic.0.080713-0	2014	*
Enzymology	The role of serine protease HtrA in acute ulcerative enterocolitis and extra-intestinal immune responses during Campylobacter jejuni infection of gnotobiotic IL-10 deficient mice.	Heimesaat MM, Alutis M, Grundmann U, Fischer A, Tegtmeyer N, Bohm M, Kuhl AA, Gobel UB, Backert S, Bereswill S	Front Cell Infect Microbiol	10.3389/fcimb.2014.00077	2014	*
Metabolism	A network-based approach to identify substrate classes of bacterial glycosyltransferases.	Sanchez-Rodriguez A, Tytgat HL, Winderickx J, Vanderleyden J, Lebeer S, Marchal K	BMC Genomics	10.1186/1471-2164-15-349	2014	*
Genetics	Genomic variation between Campylobacter jejuni isolates associated with milk-borne-disease outbreaks.	Revez J, Zhang J, Schott T, Kivisto R, Rossi M, Hanninen ML	J Clin Microbiol	10.1128/JCM.00931-14	2014	*
Metabolism	Identification of a protein glycosylation operon from Campylobacter jejuni JCM 2013 and its heterologous expression in Escherichia coli.	Srichaisupakit A, Ohashi T, Fujiyama K	J Biosci Bioeng	10.1016/j.jbiosc.2014.02.011	2014	*
Pathogenicity	Impact of Campylobacter jejuni cj0268c knockout mutation on intestinal colonization, translocation, and induction of immunopathology in gnotobiotic IL-10 deficient mice.	Heimesaat MM, Lugert R, Fischer A, Alutis M, Kuhl AA, Zautner AE, Tareen AM, Gobel UB, Bereswill S	PLoS One	10.1371/journal.pone.0090148	2014	*
Pathogenicity	Comparative proteomic label-free analysis of Campylobacter jejuni NCTC 11168 cultured with porcine mucin.	Hong S, Cha I, Kim NO, Seo JB, Kim SY, Kim JH, Chung GT, Jeon B, Kang YH	Foodborne Pathog Dis	10.1089/fpd.2013.1596	2014	*
Pathogenicity	Comparative variation within the genome of Campylobacter jejuni NCTC 11168 in human and murine hosts.	Thomas DK, Lone AG, Selinger LB, Taboada EN, Uwiera RR, Abbott DW, Inglis GD	PLoS One	10.1371/journal.pone.0088229	2014	*
Metabolism	A novel O-linked glycan modulates Campylobacter jejuni major outer membrane protein-mediated adhesion to human histo-blood group antigens and chicken colonization.	Mahdavi J, Pirinccioglu N, Oldfield NJ, Carlsohn E, Stoof J, Aslam A, Self T, Cawthraw SA, Petrovska L, Colborne N, Sihlbom C, Boren T, Wooldridge KG, Ala'Aldeen DA	Open Biol	10.1098/rsob.130202	2014	*
Metabolism	Identification of a novel membrane transporter mediating resistance to organic arsenic in Campylobacter jejuni.	Shen Z, Luangtongkum T, Qiang Z, Jeon B, Wang L, Zhang Q	Antimicrob Agents Chemother	10.1128/AAC.02137-13	2014	*
Genetics	A single nucleotide in the promoter region modulates the expression of the beta-lactamase OXA-61 in Campylobacter jejuni.	Zeng X, Brown S, Gillespie B, Lin J	J Antimicrob Chemother	10.1093/jac/dkt515	2014	*
Metabolism	Methyl-accepting chemotaxis proteins 3 and 4 are responsible for Campylobacter jejuni chemotaxis and jejuna colonization in mice in response to sodium deoxycholate.	Li Z, Lou H, Ojcius DM, Sun A, Sun D, Zhao J, Lin X, Yan J	J Med Microbiol	10.1099/jmm.0.068023-0	2014	*
Metabolism	Comprehensive proteomic profiling of outer membrane vesicles from Campylobacter jejuni.	Jang KS, Sweredoski MJ, Graham RL, Hess S, Clemons WM Jr	J Proteomics	10.1016/j.jprot.2013.12.014	2013	*
Pathogenicity	Use of in vivo-induced antigen technology to identify in vivo-expressed genes of Campylobacter jejuni during human infection.	Hu Y, Huang J, Li Q, Shang Y, Ren F, Jiao Y, Liu Z, Pan Z, Jiao XA	J Microbiol Biotechnol	10.4014/jmb.1311.11019	2014	*
Enzymology	Report of ribosomal RNA methylase gene erm(B) in multidrug-resistant Campylobacter coli.	Qin S, Wang Y, Zhang Q, Zhang M, Deng F, Shen Z, Wu C, Wang S, Zhang J, Shen J	J Antimicrob Chemother	10.1093/jac/dkt492	2013	*
Pathogenicity	The Campylobacter jejuni Cj0268c protein is required for adhesion and invasion in vitro.	Tareen AM, Luder CG, Zautner AE, Grobeta U, Heimesaat MM, Bereswill S, Lugert R	PLoS One	10.1371/journal.pone.0081069	2013	*
Proteome	Filling out the structural map of the NTF2-like superfamily.	Eberhardt RY, Chang Y, Bateman A, Murzin AG, Axelrod HL, Hwang WC, Aravind L	BMC Bioinformatics	10.1186/1471-2105-14-327	2013	*
Pathogenicity	Screening of genes expressed in vivo during interaction between chicken and Campylobacter jejuni.	Hu Y, Huang J, Jiao XA	J Microbiol Biotechnol	10.4014/jmb.1308.08092	2014	*
Metabolism	The transcriptional landscape of Campylobacter jejuni under iron replete and iron limited growth conditions.	Butcher J, Stintzi A	PLoS One	10.1371/journal.pone.0079475	2013	*
Genetics	Multi-omics approaches to deciphering a hypervirulent strain of Campylobacter jejuni.	Wu Z, Sahin O, Shen Z, Liu P, Miller WG, Zhang Q	Genome Biol Evol	10.1093/gbe/evt172	2013	*
Transcriptome	Parallel evolution of genome structure and transcriptional landscape in the Epsilonproteobacteria.	Porcelli I, Reuter M, Pearson BM, Wilhelm T, van Vliet AH	BMC Genomics	10.1186/1471-2164-14-616	2013	*
Pathogenicity	Influence of mutation in cj0183 and cj0588 genes for colonization abilities of Campylobacter jejuni in Caco-2 cells using confocal laser scanning microscope.	Salamaszynska-Guz A, Godlewski MM, Klimuszko D	Pol J Vet Sci	10.2478/pjvs-2013-0053	2013	*
Metabolism	[Screening and identification of glycoproteins from Campylobacter jejuni NCTC 11168 based on specific affinity between lectins and glycoproteins].	Bai G, Yu G, Liu X, Feng E, Zeng M, Wang H, Zhu L	Wei Sheng Wu Xue Bao		2013	*
Genetics	Mutational analysis of cj0183 Campylobacter jejuni promoter.	Salamasznska-Guz A, Grodzik M, Klimuszko D	Curr Microbiol	10.1007/s00284-013-0420-8	2013	*
Metabolism	A chemoenzymatic route to synthesize unnatural sugar nucleotides using a novel N-acetylglucosamine-1-phosphate pyrophosphorylase from Camphylobacter jejuni NCTC 11168.	Fang J, Xue M, Gu G, Liu XW, Wang PG	Bioorg Med Chem Lett	10.1016/j.bmcl.2013.06.003	2013	*
Pathogenicity	Adaptive mechanisms of Campylobacter jejuni to erythromycin treatment.	Xia Q, Muraoka WT, Shen Z, Sahin O, Wang H, Wu Z, Liu P, Zhang Q	BMC Microbiol	10.1186/1471-2180-13-133	2013	*
Genetics	Campylobacter jejuni ferric-enterobactin receptor CfrA is TonB3 dependent and mediates iron acquisition from structurally different catechol siderophores.	Naikare H, Butcher J, Flint A, Xu J, Raymond KN, Stintzi A	Metallomics	10.1039/c3mt20254b	2013	*
Enzymology	Comparison of predicted epimerases and reductases of the Campylobacter jejuni D-altro- and L-gluco-heptose synthesis pathways.	McCallum M, Shaw GS, Creuzenet C	J Biol Chem	10.1074/jbc.M113.468066	2013	*
Metabolism	Role of motAB in adherence and internalization in polarized Caco-2 cells and in cecal colonization of Campylobacter jejuni.	Mertins S, Allan BJ, Townsend HG, Koster W, Potter AA	Avian Dis	10.1637/10235-050412-ResNote.1	2013	*
Enzymology	Genetic heterogeneity of Campylobacter jejuni NCTC 11168 upon human infection.	Revez J, Schott T, Llarena AK, Rossi M, Hanninen ML	Infect Genet Evol	10.1016/j.meegid.2013.03.009	2013	*
Metabolism	Computationally identifying virulence factors based on KEGG pathways.	Cui W, Chen L, Huang T, Gao Q, Jiang M, Zhang N, Zheng L, Feng K, Cai Y, Wang H	Mol Biosyst	10.1039/c3mb70024k	2013	*
Enzymology	Distribution of colonization and antimicrobial resistance genes in Campylobacter jejuni isolated from chicken.	Thibodeau A, Fravalo P, Garneau P, Masson L, Laurent-Lewandowski S, Quessy S, Harel J, Letellier A	Foodborne Pathog Dis	10.1089/fpd.2012.1271	2013	*
Metabolism	Effects of lipooligosaccharide inner core truncation on bile resistance and chick colonization by Campylobacter jejuni.	Iwata T, Chiku K, Amano K, Kusumoto M, Ohnishi-Kameyama M, Ono H, Akiba M	PLoS One	10.1371/journal.pone.0056900	2013	*
Phenotype	Signal balancing by the CetABC and CetZ chemoreceptors controls energy taxis in Campylobacter jejuni.	Reuter M, van Vliet AH	PLoS One	10.1371/journal.pone.0054390	2013	*
Genetics	Evaluation of whole-genome sequencing as a genotyping tool for Campylobacter jejuni in comparison with pulsed-field gel electrophoresis and flaA typing.	Pendleton S, Hanning I, Biswas D, Ricke SC	Poult Sci	10.3382/ps.2012-02695	2013	*
Enzymology	In vitro protein expression profile of Campylobacter jejuni strain NCTC11168 by two-dimensional gel electrophoresis and mass spectrometry.	Zhang MJ, Gu YX, Di X, Zhao F, You YH, Meng FL, Zhang JZ	Biomed Environ Sci	10.3967/0895-3988.2013.01.006	2013	*
Metabolism	Molecular evidence for the thriving of Campylobacter jejuni ST-4526 in Japan.	Asakura H, Bruggemann H, Sheppard SK, Ekawa T, Meyer TF, Yamamoto S, Igimi S	PLoS One	10.1371/journal.pone.0048394	2012	*
Genetics	Complete genome sequence of a variant of Campylobacter jejuni NCTC 11168.	Revez J, Schott T, Rossi M, Hanninen ML	J Bacteriol	10.1128/JB.01385-12	2012	*
Genetics	The methylomes of six bacteria.	Murray IA, Clark TA, Morgan RD, Boitano M, Anton BP, Luong K, Fomenkov A, Turner SW, Korlach J, Roberts RJ	Nucleic Acids Res	10.1093/nar/gks891	2012	*
Enzymology	Identification of Cj1051c as a major determinant for the restriction barrier of Campylobacter jejuni strain NCTC11168.	Holt JP, Grant AJ, Coward C, Maskell DJ, Quinlan JJ	Appl Environ Microbiol	10.1128/AEM.01799-12	2012	*
Pathogenicity	Antimicrobial activities of isothiocyanates against Campylobacter jejuni isolates.	Dufour V, Alazzam B, Ermel G, Thepaut M, Rossero A, Tresse O, Baysse C	Front Cell Infect Microbiol	10.3389/fcimb.2012.00053	2012	*
Metabolism	Phase variable expression of capsular polysaccharide modifications allows Campylobacter jejuni to avoid bacteriophage infection in chickens.	Holst Sorensen MC, van Alphen LB, Fodor C, Crowley SM, Christensen BB, Szymanski CM, Brondsted L	Front Cell Infect Microbiol	10.3389/fcimb.2012.00011	2012	*
Enzymology	Acid stress response and protein induction in Campylobacter jejuni isolates with different acid tolerance.	Birk T, Wik MT, Lametsch R, Knochel S	BMC Microbiol	10.1186/1471-2180-12-174	2012	*
Pathogenicity	Variation of chemosensory receptor content of Campylobacter jejuni strains and modulation of receptor gene expression under different in vivo and in vitro growth conditions.	Day CJ, Hartley-Tassell LE, Shewell LK, King RM, Tram G, Day SK, Semchenko EA, Korolik V	BMC Microbiol	10.1186/1471-2180-12-128	2012	*
Metabolism	Cj1136 is required for lipooligosaccharide biosynthesis, hyperinvasion, and chick colonization by Campylobacter jejuni.	Javed MA, Cawthraw SA, Baig A, Li J, McNally A, Oldfield NJ, Newell DG, Manning G	Infect Immun	10.1128/IAI.00151-12	2012	*
Enzymology	Microarray-based method for screening of immunogenic proteins from bacteria.	Hoppe S, Bier FF, von Nickisch-Rosenegk M	J Nanobiotechnology	10.1186/1477-3155-10-12	2012	*
Metabolism	Hydrogenase activity in the foodborne pathogen Campylobacter jejuni depends upon a novel ABC-type nickel transporter (NikZYXWV) and is SlyD-independent.	Howlett RM, Hughes BM, Hitchcock A, Kelly DJ	Microbiology (Reading)	10.1099/mic.0.054130-0	2012	*
Pathogenicity	Acid-shock of Campylobacter jejuni induces flagellar gene expression and host cell invasion.	Le MT, Porcelli I, Weight CM, Gaskin DJ, Carding SR, van Vliet AH	Eur J Microbiol Immunol (Bp)	10.1556/EuJMI.2.2012.1.3	2012	*
Pathogenicity	Differentiation of the virulence potential of Campylobacter jejuni strains by use of gene transcription analysis and a Caco-2 assay.	Poli VF, Thorsen L, Olesen I, Wik MT, Jespersen L	Int J Food Microbiol	10.1016/j.ijfoodmicro.2012.01.019	2012	*
Metabolism	Cellular response of Campylobacter jejuni to trisodium phosphate.	Riedel CT, Cohn MT, Stabler RA, Wren B, Brondsted L	Appl Environ Microbiol	10.1128/AEM.06556-11	2011	*
Metabolism	Identification of immunogenic and virulence-associated Campylobacter jejuni proteins.	Nielsen LN, Luijkx TA, Vegge CS, Johnsen CK, Nuijten P, Wren BW, Ingmer H, Krogfelt KA	Clin Vaccine Immunol	10.1128/CVI.05161-11	2011	*
Metabolism	Spatial distribution of putative growth factors in the guinea pig placenta and the effects of these factors, plasma, and bile on the growth and chemotaxis of Campylobacter jejuni.	Burrough ER, Wu Z, Sahin O, Zhang Q, Yaeger MJ	Vet Pathol	10.1177/0300985811424755	2011	*
Metabolism	In vivo and in silico determination of essential genes of Campylobacter jejuni.	Metris A, Reuter M, Gaskin DJ, Baranyi J, van Vliet AH	BMC Genomics	10.1186/1471-2164-12-535	2011	*
Pathogenicity	Development and stability of bacteriocin resistance in Campylobacter spp.	Hoang KV, Stern NJ, Lin J	J Appl Microbiol	10.1111/j.1365-2672.2011.05163.x	2011	*
Metabolism	Bacteriophage F336 recognizes the capsular phosphoramidate modification of Campylobacter jejuni NCTC11168.	Sorensen MC, van Alphen LB, Harboe A, Li J, Christensen BB, Szymanski CM, Brondsted L	J Bacteriol	10.1128/JB.05276-11	2011	*
Metabolism	CmeR-dependent gene Cj0561c is induced more effectively by bile salts than the CmeABC efflux pump in both human and poultry Campylobacter jejuni strains.	Dzieciol M, Wagner M, Hein I	Res Microbiol	10.1016/j.resmic.2011.08.001	2011	*
Biotechnology	The Campylobacter jejuni NCTC11168 capsule prevents excessive cytokine production by dendritic cells.	Rose A, Kay E, Wren BW, Dallman MJ	Med Microbiol Immunol	10.1007/s00430-011-0214-1	2011	*
Metabolism	Quantitative RNA-seq analysis of the Campylobacter jejuni transcriptome.	Chaudhuri RR, Yu L, Kanji A, Perkins TT, Gardner PP, Choudhary J, Maskell DJ, Grant AJ	Microbiology (Reading)	10.1099/mic.0.050278-0	2011	*
Metabolism	The Campylobacter jejuni transcriptional regulator Cj1556 plays a role in the oxidative and aerobic stress response and is important for bacterial survival in vivo.	Gundogdu O, Mills DC, Elmi A, Martin MJ, Wren BW, Dorrell N	J Bacteriol	10.1128/JB.05189-11	2011	*
Pathogenicity	[Construction of cheA insertion mutant of Campylobacter jejuni and the effect of its adhesion on mice jejunum].	Xie L, Zhang S, Yao W	Wei Sheng Wu Xue Bao		2011	*
Genetics	Standing genetic variation in contingency loci drives the rapid adaptation of Campylobacter jejuni to a novel host.	Jerome JP, Bell JA, Plovanich-Jones AE, Barrick JE, Brown CT, Mansfield LS	PLoS One	10.1371/journal.pone.0016399	2011	*
Metabolism	MCLMAN, a new minimal medium for Campylobacter jejuni NCTC 11168.	Alazzam B, Bonnassie-Rouxin S, Dufour V, Ermel G	Res Microbiol	10.1016/j.resmic.2010.09.024	2010	*
Genetics	Genomic characterization of the Guillain-Barre syndrome-associated Campylobacter jejuni ICDCCJ07001 Isolate.	Zhang M, He L, Li Q, Sun H, Gu Y, You Y, Meng F, Zhang J	PLoS One	10.1371/journal.pone.0015060	2010	*
Metabolism	Temperature-dependent phenotypic variation of Campylobacter jejuni lipooligosaccharides.	Semchenko EA, Day CJ, Wilson JC, Grice ID, Moran AP, Korolik V	BMC Microbiol	10.1186/1471-2180-10-305	2010	*
Pathogenicity	Contribution of CmeG to antibiotic and oxidative stress resistance in Campylobacter jejuni.	Jeon B, Wang Y, Hao H, Barton YW, Zhang Q	J Antimicrob Chemother	10.1093/jac/dkq418	2010	*
Metabolism	Campylobacter jejuni induces an anti-inflammatory response in human intestinal epithelial cells through activation of phosphatidylinositol 3-kinase/Akt pathway.	Li YP, Vegge CS, Brondsted L, Madsen M, Ingmer H, Bang DD	Vet Microbiol	10.1016/j.vetmic.2010.08.009	2010	*
Metabolism	Roles of the twin-arginine translocase and associated chaperones in the biogenesis of the electron transport chains of the human pathogen Campylobacter jejuni.	Hitchcock A, Hall SJ, Myers JD, Mulholland F, Jones MA, Kelly DJ	Microbiology (Reading)	10.1099/mic.0.042788-0	2010	*
Pathogenicity	Campylobacter jejuni proteins Cj0952c and Cj0951c affect chemotactic behaviour towards formic acid and are important for invasion of host cells.	Tareen AM, Dasti JI, Zautner AE, Gross U, Lugert R	Microbiology (Reading)	10.1099/mic.0.039438-0	2010	*
Metabolism	Two respiratory enzyme systems in Campylobacter jejuni NCTC 11168 contribute to growth on L-lactate.	Thomas MT, Shepherd M, Poole RK, van Vliet AHM, Kelly DJ, Pearson BM	Environ Microbiol	10.1111/j.1462-2920.2010.02307.x	2011	*
Pathogenicity	15th International Workshop on Campylobacter, Helicobacter and Related Organisms.	Moore JE, Matsuda M	Emerg Infect Dis	10.3201/eid1607.100157	2010	*
Metabolism	Identification and characterization of a new ferric enterobactin receptor, CfrB, in Campylobacter.	Xu F, Zeng X, Haigh RD, Ketley JM, Lin J	J Bacteriol	10.1128/JB.00478-10	2010	*
Metabolism	Modification of the Campylobacter jejuni flagellin glycan by the product of the Cj1295 homopolymeric-tract-containing gene.	Hitchen P, Brzostek J, Panico M, Butler JA, Morris HR, Dell A, Linton D	Microbiology (Reading)	10.1099/mic.0.038091-0	2010	*
Phylogeny	[Comparison of Cj1136, Cj1138 and Cj1139 genes among Campylobacter jejuni strains].	Li X, Li ZZ, Bai XL, Liu H, Zhao ZC, Liu WW, Gao AM, Xing CC, Li CY	Zhonghua Liu Xing Bing Xue Za Zhi		2009	*
Metabolism	Biofilm formation by Campylobacter jejuni is increased under aerobic conditions.	Reuter M, Mallett A, Pearson BM, van Vliet AH	Appl Environ Microbiol	10.1128/AEM.01878-09	2010	*
Metabolism	Transposon mutagenesis in a hyper-invasive clinical isolate of Campylobacter jejuni reveals a number of genes with potential roles in invasion.	Javed MA, Grant AJ, Bagnall MC, Maskell DJ, Newell DG, Manning G	Microbiology (Reading)	10.1099/mic.0.033399-0	2009	*
Metabolism	Identification and characterization of the aspartate chemosensory receptor of Campylobacter jejuni.	Hartley-Tassell LE, Shewell LK, Day CJ, Wilson JC, Sandhu R, Ketley JM, Korolik V	Mol Microbiol	10.1111/j.1365-2958.2009.07010.x	2009	*
Metabolism	Mass spectrometric characterization of the Campylobacter jejuni adherence factor CadF reveals post-translational processing that removes immunogenicity while retaining fibronectin binding.	Scott NE, Marzook NB, Deutscher A, Falconer L, Crossett B, Djordjevic SP, Cordwell SJ	Proteomics	10.1002/pmic.200900440	2010	*
Metabolism	AI-2 does not function as a quorum sensing molecule in Campylobacter jejuni during exponential growth in vitro.	Holmes K, Tavender TJ, Winzer K, Wells JM, Hardie KR	BMC Microbiol	10.1186/1471-2180-9-214	2009	*
Phylogeny	Pathogenicity of an emergent, ovine abortifacient Campylobacter jejuni clone orally inoculated into pregnant guinea pigs.	Burrough ER, Sahin O, Plummer PJ, Zhang Q, Yaeger MJ	Am J Vet Res	10.2460/ajvr.70.10.1269	2009	*
Metabolism	Mass spectrometric characterization of the surface-associated 42 kDa lipoprotein JlpA as a glycosylated antigen in strains of Campylobacter jejuni.	Scott NE, Bogema DR, Connolly AM, Falconer L, Djordjevic SP, Cordwell SJ	J Proteome Res	10.1021/pr900544x	2009	*
Pathogenicity	Chemical decontamination of Campylobacter jejuni on chicken skin and meat.	Riedel CT, Brondsted L, Rosenquist H, Haxgart SN, Christensen BB	J Food Prot	10.4315/0362-028x-72.6.1173	2009	*
Genetics	Beta-lactamase-mediated beta-lactam resistance in Campylobacter species: prevalence of Cj0299 (bla OXA-61) and evidence for a novel beta-Lactamase in C. jejuni.	Griggs DJ, Peake L, Johnson MM, Ghori S, Mott A, Piddock LJ	Antimicrob Agents Chemother	10.1128/AAC.01655-08	2009	*
Metabolism	Functional characterization of excision repair and RecA-dependent recombinational DNA repair in Campylobacter jejuni.	Gaasbeek EJ, van der Wal FJ, van Putten JP, de Boer P, van der Graaf-van Bloois L, de Boer AG, Vermaning BJ, Wagenaar JA	J Bacteriol	10.1128/JB.01817-08	2009	*
Metabolism	Differential carbohydrate recognition by Campylobacter jejuni strain 11168: influences of temperature and growth conditions.	Day CJ, Tiralongo J, Hartnell RD, Logue CA, Wilson JC, von Itzstein M, Korolik V	PLoS One	10.1371/journal.pone.0004927	2009	*
Pathogenicity	Sensitization of Campylobacter jejuni to fluoroquinolone and macrolide antibiotics by antisense inhibition of the CmeABC multidrug efflux transporter.	Jeon B, Zhang Q	J Antimicrob Chemother	10.1093/jac/dkp067	2009	*
Pathogenicity	Induction of a chemoattractant transcriptional response by a Campylobacter jejuni boiled cell extract in colonocytes.	Mellits KH, Connerton IF, Loughlin MF, Clarke P, Smith J, Dillon E, Connerton PL, Mulholland F, Hawkey CJ	BMC Microbiol	10.1186/1471-2180-9-28	2009	*
Metabolism	Creation of a large deletion mutant of Campylobacter jejuni reveals that the lipooligosaccharide gene cluster is not required for viability.	Marsden GL, Li J, Everest PH, Lawson AJ, Ketley JM	J Bacteriol	10.1128/JB.01397-08	2009	*
Metabolism	Functional identification of HugZ, a heme oxygenase from Helicobacter pylori.	Guo Y, Guo G, Mao X, Zhang W, Xiao J, Tong W, Liu T, Xiao B, Liu X, Feng Y, Zou Q	BMC Microbiol	10.1186/1471-2180-8-226	2008	*
Metabolism	Role of the Cj1371 periplasmic protein and the Cj0355c two-component regulator in the Campylobacter jejuni NCTC 11168 response to oxidative stress caused by paraquat.	Garenaux A, Guillou S, Ermel G, Wren B, Federighi M, Ritz M	Res Microbiol	10.1016/j.resmic.2008.08.001	2008	*
Metabolism	Enhanced microscopic definition of Campylobacter jejuni 81-176 adherence to, invasion of, translocation across, and exocytosis from polarized human intestinal Caco-2 cells.	Hu L, Tall BD, Curtis SK, Kopecko DJ	Infect Immun	10.1128/IAI.01408-07	2008	*
Genetics	Genomic evidence for interspecies acquisition of chromosomal DNA from Campylobacter jejuni by Campylobacter coli strains of a turkey-associated clonal group (cluster II).	Chan K, Elhanafi D, Kathariou S	Foodborne Pathog Dis	10.1089/fpd.2008.0113	2008	*
Enzymology	Contribution of the stereospecific methionine sulphoxide reductases MsrA and MsrB to oxidative and nitrosative stress resistance in the food-borne pathogen Campylobacter jejuni.	Atack JM, Kelly DJ	Microbiology (Reading)	10.1099/mic.0.2008/019711-0	2008	*
Metabolism	The Campylobacter jejuni/coli cjaA (cj0982c) gene encodes an N-glycosylated lipoprotein localized in the inner membrane.	Wyszynska A, Zycka J, Godlewska R, Jagusztyn-Krynicka EK	Curr Microbiol	10.1007/s00284-008-9171-3	2008	*
Metabolism	Amino acid-dependent growth of Campylobacter jejuni: key roles for aspartase (AspA) under microaerobic and oxygen-limited conditions and identification of AspB (Cj0762), essential for growth on glutamate.	Guccione E, Leon-Kempis Mdel R, Pearson BM, Hitchin E, Mulholland F, van Diemen PM, Stevens MP, Kelly DJ	Mol Microbiol	10.1111/j.1365-2958.2008.06263.x	2008	*
Metabolism	Functional analysis of the Campylobacter jejuni cj0183 and cj0588 genes.	Salamaszynska-Guz A, Klimuszko D	Curr Microbiol	10.1007/s00284-008-9130-z	2008	*
Metabolism	The chemical structure and genetic locus of Campylobacter jejuni CG8486 (serotype HS:4) capsular polysaccharide: the identification of 6-deoxy-D-ido-heptopyranose.	Chen YH, Poly F, Pakulski Z, Guerry P, Monteiro MA	Carbohydr Res	10.1016/j.carres.2008.02.024	2008	*
Metabolism	Utilization of lactoferrin-bound and transferrin-bound iron by Campylobacter jejuni.	Miller CE, Rock JD, Ridley KA, Williams PH, Ketley JM	J Bacteriol	10.1128/JB.01761-07	2008	*
Transcriptome	Identification of Campylobacter jejuni genes involved in the response to acidic pH and stomach transit.	Reid AN, Pandey R, Palyada K, Naikare H, Stintzi A	Appl Environ Microbiol	10.1128/AEM.01507-07	2008	*
Phenotype	Identification of Campylobacter jejuni genes contributing to acid adaptation by transcriptional profiling and genome-wide mutagenesis.	Reid AN, Pandey R, Palyada K, Whitworth L, Doukhanine E, Stintzi A	Appl Environ Microbiol	10.1128/AEM.01508-07	2008	*
Enzymology	Proteomic analyses of a robust versus a poor chicken gastrointestinal colonizing isolate of Campylobacter jejuni.	Seal BS, Hiett KL, Kuntz RL, Woolsey R, Schegg KM, Ard M, Stintzi A	J Proteome Res	10.1021/pr070356a	2007	*
Metabolism	Riboflavin biosynthesis is associated with assimilatory ferric reduction and iron acquisition by Campylobacter jejuni.	Crossley RA, Gaskin DJ, Holmes K, Mulholland F, Wells JM, Kelly DJ, van Vliet AH, Walton NJ	Appl Environ Microbiol	10.1128/AEM.01919-07	2007	*
Phylogeny	Epidemiology, relative invasive ability, molecular characterization, and competitive performance of Campylobacter jejuni strains in the chicken gut.	Pope C, Wilson J, Taboada EN, Mackinnon J, Felipe Alves CA, Nash JH, Rahn K, Tannock GW	Appl Environ Microbiol	10.1128/AEM.01657-07	2007	*
Pathogenicity	Influence of Campylobacter jejuni fliA, rpoN and flgK genes on colonization of the chicken gut.	Fernando U, Biswas D, Allan B, Willson P, Potter AA	Int J Food Microbiol	10.1016/j.ijfoodmicro.2007.07.038	2007	*
Metabolism	A proteome-wide protein interaction map for Campylobacter jejuni.	Parrish JR, Yu J, Liu G, Hines JA, Chan JE, Mangiola BA, Zhang H, Pacifico S, Fotouhi F, DiRita VJ, Ideker T, Andrews P, Finley RL Jr	Genome Biol	10.1186/gb-2007-8-7-r130	2007	*
Genetics	Re-annotation and re-analysis of the Campylobacter jejuni NCTC11168 genome sequence.	Gundogdu O, Bentley SD, Holden MT, Parkhill J, Dorrell N, Wren BW	BMC Genomics	10.1186/1471-2164-8-162	2007	*
Phylogeny	Common genomic features of Campylobacter jejuni subsp. doylei strains distinguish them from C. jejuni subsp. jejuni.	Parker CT, Miller WG, Horn ST, Lastovica AJ	BMC Microbiol	10.1186/1471-2180-7-50	2007	*
Pathogenicity	Identification of a Campylobacter jejuni protein that cross-reacts with cholera toxin.	Albert MJ, Haridas S, Steer D, Dhaunsi GS, Smith AI, Adler B	Infect Immun	10.1128/IAI.00139-07	2007	*
Genetics	Genome sequence of a clinical isolate of Campylobacter jejuni from Thailand.	Poly F, Read T, Tribble DR, Baqar S, Lorenzo M, Guerry P	Infect Immun	10.1128/IAI.00050-07	2007	*
Pathogenicity	Effect of cytolethal distending toxin of Campylobacter jejuni on adhesion and internalization in cultured cells and in colonization of the chicken gut.	Biswas D, Fernando U, Reiman C, Willson P, Potter A, Allan B	Avian Dis	10.1637/7514-020706R1.1	2006	*
Enzymology	CapA, an autotransporter protein of Campylobacter jejuni, mediates association with human epithelial cells and colonization of the chicken gut.	Ashgar SS, Oldfield NJ, Wooldridge KG, Jones MA, Irving GJ, Turner DP, Ala'Aldeen DA	J Bacteriol	10.1128/JB.01427-06	2006	*
Biotechnology	A comparative study of two food model systems to test the survival of Campylobacter jejuni at -18 degrees C.	Birk T, Rosenquist H, Brondsted L, Ingmer H, Bysted A, Christensen BB	J Food Prot	10.4315/0362-028x-69.11.2635	2006	*
Enzymology	In vitro biosynthesis of UDP-N,N'-diacetylbacillosamine by enzymes of the Campylobacter jejuni general protein glycosylation system.	Olivier NB, Chen MM, Behr JR, Imperiali B	Biochemistry	10.1021/bi061456h	2006	*
Metabolism	Role of the CmeABC efflux pump in the emergence of fluoroquinolone-resistant Campylobacter under selection pressure.	Yan M, Sahin O, Lin J, Zhang Q	J Antimicrob Chemother	10.1093/jac/dkl412	2006	*
Metabolism	Sub-speciating Campylobacter jejuni by proteomic analysis of its protein biomarkers and their post-translational modifications.	Fagerquist CK, Bates AH, Heath S, King BC, Garbus BR, Harden LA, Miller WG	J Proteome Res	10.1021/pr050485w	2006	*
Enzymology	Recovery methods for detection and quantification of Campylobacter depend on meat matrices and bacteriological or PCR tools.	Fosse J, Laroche M, Rossero A, Federighi M, Seegers H, Magras C	J Food Prot	10.4315/0362-028x-69.9.2100	2006	*
Metabolism	Major role for FeoB in Campylobacter jejuni ferrous iron acquisition, gut colonization, and intracellular survival.	Naikare H, Palyada K, Panciera R, Marlow D, Stintzi A	Infect Immun	10.1128/IAI.00052-06	2006	*
Metabolism	Heme utilization in Campylobacter jejuni.	Ridley KA, Rock JD, Li Y, Ketley JM	J Bacteriol	10.1128/JB.00994-06	2006	*
Phylogeny	Comparative genomic analysis of Campylobacter jejuni strains reveals diversity due to genomic elements similar to those present in C. jejuni strain RM1221.	Parker CT, Quinones B, Miller WG, Horn ST, Mandrell RE	J Clin Microbiol	10.1128/JCM.01231-06	2006	*
Metabolism	Phase-variable surface structures are required for infection of Campylobacter jejuni by bacteriophages.	Coward C, Grant AJ, Swift C, Philp J, Towler R, Heydarian M, Frost JA, Maskell DJ	Appl Environ Microbiol	10.1128/AEM.00184-06	2006	*
Pathogenicity	Numerical analysis of DNA microarray data of Campylobacter jejuni strains correlated with survival, cytolethal distending toxin and haemolysin analyses.	On SL, Dorrell N, Petersen L, Bang DD, Morris S, Forsythe SJ, Wren BW	Int J Med Microbiol	10.1016/j.ijmm.2006.03.002	2006	*
Pathogenicity	Identification of DNA sequence variation in Campylobacter jejuni strains associated with the Guillain-Barre syndrome by high-throughput AFLP analysis.	Godschalk PC, Bergman MP, Gorkink RF, Simons G, van den Braak N, Lastovica AJ, Endtz HP, Verbrugh HA, van Belkum A	BMC Microbiol	10.1186/1471-2180-6-32	2006	*
Genetics	Changes in flagellin glycosylation affect Campylobacter autoagglutination and virulence.	Guerry P, Ewing CP, Schirm M, Lorenzo M, Kelly J, Pattarini D, Majam G, Thibault P, Logan S	Mol Microbiol	10.1111/j.1365-2958.2006.05100.x	2006	*
Enzymology	Signature-tagged transposon mutagenesis studies demonstrate the dynamic nature of cecal colonization of 2-week-old chickens by Campylobacter jejuni.	Grant AJ, Coward C, Jones MA, Woodall CA, Barrow PA, Maskell DJ	Appl Environ Microbiol	10.1128/AEM.71.12.8031-8041.2005	2005	*
Transcriptome	Genomic diversity in Campylobacter jejuni: identification of C. jejuni 81-176-specific genes.	Poly F, Threadgill D, Stintzi A	J Clin Microbiol	10.1128/JCM.43.5.2330-2338.2005	2005	*
Pathogenicity	Evidence for multiple-antibiotic resistance in Campylobacter jejuni not mediated by CmeB or CmeF.	Pumbwe L, Randall LP, Woodward MJ, Piddock LJ	Antimicrob Agents Chemother	10.1128/AAC.49.4.1289-1293.2005	2005	*
Pathogenicity	Long-term clonal lineages within Campylobacter jejuni O:2 strains from different geographical regions and hosts.	Laturnus C, Jores J, Moser I, Schwerk P, Wieler LH	Int J Med Microbiol	10.1016/j.ijmm.2004.11.005	2005	*
Enzymology	Diversity within the Campylobacter jejuni type I restriction-modification loci.	Miller WG, Pearson BM, Wells JM, Parker CT, Kapitonov VV, Mandrell RE	Microbiology (Reading)	10.1099/mic.0.27327-0	2005	*
Metabolism	A sulphite respiration system in the chemoheterotrophic human pathogen Campylobacter jejuni.	Myers JD, Kelly DJ	Microbiology (Reading)	10.1099/mic.0.27573-0	2005	*
Metabolism	Analysis of Campylobacter jejuni capsular loci reveals multiple mechanisms for the generation of structural diversity and the ability to form complex heptoses.	Karlyshev AV, Champion OL, Churcher C, Brisson JR, Jarrell HC, Gilbert M, Brochu D, St Michael F, Li J, Wakarchuk WW, Goodhead I, Sanders M, Stevens K, White B, Parkhill J, Wren BW, Szymanski CM	Mol Microbiol	10.1111/j.1365-2958.2004.04374.x	2005	*
Enzymology	A single bifunctional UDP-GlcNAc/Glc 4-epimerase supports the synthesis of three cell surface glycoconjugates in Campylobacter jejuni.	Bernatchez S, Szymanski CM, Ishiyama N, Li J, Jarrell HC, Lau PC, Berghuis AM, Young NM, Wakarchuk WW	J Biol Chem	10.1074/jbc.M407767200	2004	*
Genetics	Identification of Campylobacter jejuni ATCC 43431-specific genes by whole microbial genome comparisons.	Poly F, Threadgill D, Stintzi A	J Bacteriol	10.1128/JB.186.14.4781-4795.2004	2004	*
Metabolism	FlaC, a protein of Campylobacter jejuni TGH9011 (ATCC43431) secreted through the flagellar apparatus, binds epithelial cells and influences cell invasion.	Song YC, Jin S, Louie H, Ng D, Lau R, Zhang Y, Weerasekera R, Al Rashid S, Ward LA, Der SD, Chan VL	Mol Microbiol	10.1111/j.1365-2958.2004.04175.x	2004	*
Pathogenicity	Adaptation of Campylobacter jejuni NCTC11168 to high-level colonization of the avian gastrointestinal tract.	Jones MA, Marston KL, Woodall CA, Maskell DJ, Linton D, Karlyshev AV, Dorrell N, Wren BW, Barrow PA	Infect Immun	10.1128/IAI.72.7.3769-3776.2004	2004	*
Metabolism	Identification of an oxidative stress-sensitive protein from Campylobacter jejuni, homologous to rubredoxin oxidoreductase/rubrerythrin.	Yamasaki M, Igimi S, Katayama Y, Yamamoto S, Amano F	FEMS Microbiol Lett	10.1016/j.femsle.2004.04.012	2004	*
Metabolism	Genome-wide expression analyses of Campylobacter jejuni NCTC11168 reveals coordinate regulation of motility and virulence by flhA.	Carrillo CD, Taboada E, Nash JH, Lanthier P, Kelly J, Lau PC, Verhulp R, Mykytczuk O, Sy J, Findlay WA, Amoako K, Gomis S, Willson P, Austin JW, Potter A, Babiuk L, Allan B, Szymanski CM	J Biol Chem	10.1074/jbc.M401134200	2004	*
Pathogenicity	Evidence for acquisition of the lipooligosaccharide biosynthesis locus in Campylobacter jejuni GB11, a strain isolated from a patient with Guillain-Barre syndrome, by horizontal exchange.	Gilbert M, Godschalk PC, Karwaski MF, Ang CW, van Belkum A, Li J, Wakarchuk WW, Endtz HP	Infect Immun	10.1128/IAI.72.2.1162-1165.2004	2004	*
Genetics	The genome-sequenced variant of Campylobacter jejuni NCTC 11168 and the original clonal clinical isolate differ markedly in colonization, gene expression, and virulence-associated phenotypes.	Gaynor EC, Cawthraw S, Manning G, MacKichan JK, Falkow S, Newell DG	J Bacteriol	10.1128/JB.186.2.503-517.2004	2004	*
Metabolism	L-serine catabolism via an oxygen-labile L-serine dehydratase is essential for colonization of the avian gut by Campylobacter jejuni.	Velayudhan J, Jones MA, Barrow PA, Kelly DJ	Infect Immun	10.1128/IAI.72.1.260-268.2004	2004	*
Biotechnology	Chicken juice, a food-based model system suitable to study survival of Campylobacter jejuni.	Birk T, Ingmer H, Andersen MT, Jorgensen K, Brondsted L	Lett Appl Microbiol	10.1046/j.1472-765x.2003.01446.x	2004	*
Genetics	Comparative genome analysis of Campylobacter jejuni using whole genome DNA microarrays.	Pearson BM, Pin C, Wright J, I'Anson K, Humphrey T, Wells JM	FEBS Lett	10.1016/s0014-5793(03)01164-5	2003	*
Pathogenicity	Immunological characterization of the Campylobacter jejuni 72Dz/92 cjaD gene product and its fusion with B subunit of E. coli LT toxin.	Wyszyznska A, Pawelec DP, Jagusztyn-Krynicka EK	Acta Microbiol Pol		2002	*
Genetics	The structures of the lipooligosaccharide and capsule polysaccharide of Campylobacter jejuni genome sequenced strain NCTC 11168.	St Michael F, Szymanski CM, Li J, Chan KH, Khieu NH, Larocque S, Wakarchuk WW, Brisson JR, Monteiro MA	Eur J Biochem	10.1046/j.1432-1033.2002.03201.x	2002	*
Pathogenicity	DNA sequence and mutational analyses of the pVir plasmid of Campylobacter jejuni 81-176.	Bacon DJ, Alm RA, Hu L, Hickey TE, Ewing CP, Batchelor RA, Trust TJ, Guerry P	Infect Immun	10.1128/IAI.70.11.6242-6250.2002	2002	*
Pathogenicity	The relationship of Campylobacter jejuni infection and the development of Guillain-Barre syndrome.	Tsang RS	Curr Opin Infect Dis	10.1097/00001432-200206000-00002	2002	*
Pathogenicity	Quorum sensing in Campylobacter jejuni: detection of a luxS encoded signalling molecule.	Elvers KT, Park SF	Microbiology (Reading)	10.1099/00221287-148-5-1475	2002	*
Metabolism	Identification of N-acetylgalactosamine-containing glycoproteins PEB3 and CgpA in Campylobacter jejuni.	Linton D, Allan E, Karlyshev AV, Cronshaw AD, Wren BW	Mol Microbiol	10.1046/j.1365-2958.2002.02762.x	2002	*
Phylogeny	Identification of genetic differences between two Campylobacter jejuni strains with different colonization potentials.	Ahmed IH, Manning G, Wassenaar TM, Cawthraw S, Newell DG	Microbiology (Reading)	10.1099/00221287-148-4-1203	2002	*
Enzymology	Characterization of the Campylobacter jejuni heptosyltransferase II gene, waaF, provides genetic evidence that extracellular polysaccharide is lipid A core independent.	Oldfield NJ, Moran AP, Millar LA, Prendergast MM, Ketley JM	J Bacteriol	10.1128/JB.184.8.2100-2107.2002	2002	*
Genetics	Exploiting genome sequence: predictions for mechanisms of Campylobacter chemotaxis.	Marchant J, Wren B, Ketley J	Trends Microbiol	10.1016/s0966-842x(02)02323-5	2002	*
Metabolism	Analysis of gluconeogenic and anaplerotic enzymes in Campylobacter jejuni: an essential role for phosphoenolpyruvate carboxykinase.	Velayudhan J, Kelly DJ	Microbiology (Reading)	10.1099/00221287-148-3-685	2002	*
Metabolism	Identification and molecular characterisation of CmeB, a Campylobacter jejuni multidrug efflux pump.	Pumbwe L, Piddock LJ	FEMS Microbiol Lett	10.1111/j.1574-6968.2002.tb11007.x	2002	*
Genetics	DNA diversity of the wla gene cluster among serotype HS:19 and non-HS:19 Campylobacter jejuni strains.	Misawa N, Kawashima K, Kondo F, Allos BM, Blaser MJ	J Endotoxin Res		2001	*
Genetics	Genome sequence-based fluorescent amplified fragment length polymorphism of Campylobacter jejuni, its relationship to serotyping, and its implications for epidemiological analysis.	Desai M, Logan JM, Frost JA, Stanley J	J Clin Microbiol	10.1128/JCM.39.11.3823-3829.2001	2001	*
Phylogeny	Whole genome comparison of Campylobacter jejuni human isolates using a low-cost microarray reveals extensive genetic diversity.	Dorrell N, Mangan JA, Laing KG, Hinds J, Linton D, Al-Ghusein H, Barrell BG, Parkhill J, Stoker NG, Karlyshev AV, Butcher PD, Wren BW	Genome Res	10.1101/gr.185801	2001	*
Enzymology	Roles of rpoN, fliA, and flgR in expression of flagella in Campylobacter jejuni.	Jagannathan A, Constantinidou C, Penn CW	J Bacteriol	10.1128/JB.183.9.2937-2942.2001	2001	*
Phylogeny	Allelic diversity and recombination in Campylobacter jejuni.	Suerbaum S, Lohrengel M, Sonnevend A, Ruberg F, Kist M	J Bacteriol	10.1128/JB.183.8.2553-2559.2001	2001	*
Enzymology	Purification, characterization and sequence analysis of Omp50,a new porin isolated from Campylobacter jejuni.	Bolla JM, De E, Dorez A, Pages JM	Biochem J		2000	*
Pathogenicity	Campylobacters: the most common bacterial enteropathogens in the Nordic countries.	Rautelin H, Hanninen ML	Ann Med	10.3109/07853890009002018	2000	*
Metabolism	Application of the 5'-nuclease PCR assay in evaluation and development of methods for quantitative detection of Campylobacter jejuni.	Nogva HK, Bergh A, Holck A, Rudi K	Appl Environ Microbiol	10.1128/AEM.66.9.4029-4036.2000	2000	*
Metabolism	Phase variation of a beta-1,3 galactosyltransferase involved in generation of the ganglioside GM1-like lipo-oligosaccharide of Campylobacter jejuni.	Linton D, Gilbert M, Hitchen PG, Dell A, Morris HR, Wakarchuk WW, Gregson NA, Wren BW	Mol Microbiol	10.1046/j.1365-2958.2000.02020.x	2000	*
Pathogenicity	Characterisation of cytolethal distending toxin (CDT) mutants of Campylobacter jejuni.	Purdy D, Buswell CM, Hodgson AE, McALPINE K, Henderson I, Leach SA	J Med Microbiol	10.1099/0022-1317-49-5-473	2000	*
Phylogeny	Genetic diversity of the Campylobacter genes coding immunodominant proteins.	Pawelec DP, Korsak D, Wyszynska AK, Rozynek E, Popowski J, Jagusztyn-Krynicka EK	FEMS Microbiol Lett	10.1111/j.1574-6968.2000.tb09038.x	2000	*
Metabolism	Multiple N-acetyl neuraminic acid synthetase (neuB) genes in Campylobacter jejuni: identification and characterization of the gene involved in sialylation of lipo-oligosaccharide.	Linton D, Karlyshev AV, Hitchen PG, Morris HR, Dell A, Gregson NA, Wren BW	Mol Microbiol	10.1046/j.1365-2958.2000.01780.x	2000	*
Genetics	The genome sequence of the food-borne pathogen Campylobacter jejuni reveals hypervariable sequences.	Parkhill J, Wren BW, Mungall K, Ketley JM, Churcher C, Basham D, Chillingworth T, Davies RM, Feltwell T, Holroyd S, Jagels K, Karlyshev AV, Moule S, Pallen MJ, Penn CW, Quail MA, Rajandream MA, Rutherford KM, van Vliet AH, Whitehead S, Barrell BG	Nature	10.1038/35001088	2000	*
Enzymology	Biosynthesis of ganglioside mimics in Campylobacter jejuni OH4384. Identification of the glycosyltransferase genes, enzymatic synthesis of model compounds, and characterization of nanomole amounts by 600-mhz (1)h and (13)c NMR analysis.	Gilbert M, Brisson JR, Karwaski MF, Michniewicz J, Cunningham AM, Wu Y, Young NM, Wakarchuk WW	J Biol Chem	10.1074/jbc.275.6.3896	2000	*
Genetics	Identification of a gene encoding an immuno-reactive membrane protein from Campylobacter jejuni.	Connerton PL, Connerton IF	Lett Appl Microbiol	10.1046/j.1365-2672.1999.00491.x	1999	*
Genetics	Iron-responsive gene regulation in a campylobacter jejuni fur mutant.	van Vliet AH, Wooldridge KG, Ketley JM	J Bacteriol	10.1128/JB.180.20.5291-5298.1998	1998	*
Pathogenicity	Experimental campylobacter infection and diarrhoea in immunodeficient mice.	Hodgson AE, McBride BW, Hudson MJ, Hall G, Leach SA	J Med Microbiol	10.1099/00222615-47-9-799	1998	*
Enzymology	An improved physical and genetic map of Campylobacter jejuni NCTC 11168 (UA580).	Karlyshev AV, Henderson J, Ketley JM, Wren BW	Microbiology (Reading)	10.1099/00221287-144-2-503	1998	*
Pathogenicity	A rapid, colourimetric assay for cytotoxin activity in Campylobacter jejuni.	Coote JG, Arain T	FEMS Immunol Med Microbiol	10.1111/j.1574-695X.1996.tb00217.x	1996	*
Enzymology	The gene for Campylobacter trigger factor: evidence for multiple transcription start sites and protein products.	Griffiths PL, Park RWA, Connerton IF	Microbiology (Reading)	10.1099/13500872-141-6-1359	1995	*
Enzymology	Immunoblot and enzyme-linked immunosorbent assays of Campylobacter major outer-membrane protein and application to the differentiation of Campylobacter species.	Taylor DE, Chang N	Mol Cell Probes	10.1016/0890-8508(87)90038-7	1987	*
Phylogeny	Chemical composition and biological activity of lipopolysaccharides prepared from type strains of Campylobacter jejuni and Campolybacter coli.	Naess V, Hofstad T	Acta Pathol Microbiol Immunol Scand B	10.1111/j.1699-0463.1984.tb02824.x	1984	*
Metabolism	A study of the oxygen and carbon dioxide requirements of thermophilic campylobacters.	Bolton FJ, Coates D	J Clin Pathol	10.1136/jcp.36.7.829	1983	*
Metabolism	Probiotic Characteristics of Lactobacillus curvatus DN317, a Strain Isolated from Chicken Ceca.	Zommiti M, Connil N, Hamida JB, Ferchichi M	Probiotics Antimicrob Proteins	10.1007/s12602-017-9301-y	2017	*
Metabolism	Inter-Relationship Between a Transcriptional Regulator of Flagella Genes cj0440c and Thiamine Metabolic Pathway in Campylobacter jejuni.	Shabbir MAB, Ul-Rahman A, Khalid AR, Ijaz N, Aleem MT, Ahmed S, Alouffi A, Ahmed W, Aslam F, Maan MK, Tahir AH, Aziz MW, Almutairi MM, Hao H	Biomed Res Int	10.1155/2022/4539367	2022	*
	Comparative Analysis of L-Fucose Utilization and Its Impact on Growth and Survival of Campylobacter Isolates.	Middendorf PS, Jacobs-Reitsma WF, Zomer AL, den Besten HMW, Abee T	Front Microbiol	10.3389/fmicb.2022.872207	2022	*
	Bacillus subtilis PS-216 Antagonistic Activities against Campylobacter jejuni NCTC 11168 Are Modulated by Temperature, Oxygen, and Growth Medium.	Simunovic K, Stefanic P, Klancnik A, Erega A, Mandic Mulec I, Smole Mozina S	Microorganisms	10.3390/microorganisms10020289	2022	*
	Development of a Trivalent Construct Omp18/AhpC/FlgH Multi Epitope Peptide Vaccine Against Campylobacter jejuni.	Lou H, Li X, Sheng X, Fang S, Wan S, Sun A, Chen H	Front Microbiol	10.3389/fmicb.2021.773697	2022	*
	Development and Evaluation of Fluorescence Immunochromatography for Rapid and Sensitive Detection of Thermophilic Campylobacter.	Asakura H, Sakata J, Sasaki Y, Kawatsu K	Food Saf (Tokyo)	10.14252/foodsafetyfscj.D-21-00006	2021	*
	The glycosyltransferase ST3GAL2 is regulated by miR-615-3p in the intestinal tract of Campylobacter jejuni infected mice.	Xi, Hofmann L, Alter T, Einspanier R, Bereswill S, Heimesaat MM, Golz G, Sharbati S	Gut Pathog	10.1186/s13099-021-00437-1	2021	*
	Antimicrobial Resistance Gene Transfer from Campylobacter jejuni in Mono- and Dual-Species Biofilms.	Ma L, Konkel ME, Lu X	Appl Environ Microbiol	10.1128/AEM.00659-21	2021	*
	Inactivation of the core cheVAWY chemotaxis genes disrupts chemotactic motility and organised biofilm formation in Campylobacter jejuni.	Reuter M, Ultee E, Toseafa Y, Tan A, van Vliet AHM	FEMS Microbiol Lett	10.1093/femsle/fnaa198	2020	*
	Pyruvate is required for catecholamine-stimulated growth of different strains of Campylobacter jejuni.	Liu M, Lyte M	PeerJ	10.7717/peerj.10011	2020	*
	Emergence of a Novel tet(L) Variant in Campylobacter spp. of Chicken Origin in China.	Yao H, Jiao D, Zhao W, Li A, Li R, Du XD	Antimicrob Agents Chemother	10.1128/AAC.01622-20	2020	*
	The Anti-Campylobacter Activity and Mechanisms of Pinocembrin Action.	Klancnik A, Simunovic K, Kovac J, Sahin O, Wu Z, Vuckovic D, Abram M, Zhang Q, Mozina SS	Microorganisms	10.3390/microorganisms7120675	2019	*
	Insights into the impact of flhF inactivation on Campylobacter jejuni colonization of chick and mice gut.	Ren F, Li X, Tang H, Jiang Q, Yun X, Fang L, Huang P, Tang Y, Li Q, Huang J, Jiao XA	BMC Microbiol	10.1186/s12866-018-1318-1	2018	*
	Cj0440c Affects Flagella Formation and In Vivo Colonization of Erythromycin-Susceptible and -Resistant Campylobacter jejuni.	Hao H, Fang X, Han J, Foley SL, Wang Y, Cheng G, Wang X, Huang L, Dai M, Liu Z, Yuan Z	Front Microbiol	10.3389/fmicb.2017.00729	2017	*
	Trans-Cinnamaldehyde, Carvacrol, and Eugenol Reduce Campylobacter jejuni Colonization Factors and Expression of Virulence Genes in Vitro.	Upadhyay A, Arsi K, Wagle BR, Upadhyaya I, Shrestha S, Donoghue AM, Donoghue DJ	Front Microbiol	10.3389/fmicb.2017.00713	2017	*
	Cj1199 Affect the Development of Erythromycin Resistance in Campylobacter jejuni through Regulation of Leucine Biosynthesis.	Hao H, Li F, Han J, Foley SL, Dai M, Wang X, Wang Y, Huang L, Sun Y, Liu Z, Yuan Z	Front Microbiol	10.3389/fmicb.2017.00016	2017	*
	High Throughput Method for Analysis of Repeat Number for 28 Phase Variable Loci of Campylobacter jejuni Strain NCTC11168.	Lango-Scholey L, Aidley J, Woodacre A, Jones MA, Bayliss CD	PLoS One	10.1371/journal.pone.0159634	2016	*
	De Novo Asymmetric Synthesis of a 6-O-Methyl-D-glycero-L-gluco-heptopyranose-Derived Thioglycoside for the Preparation of Campylobacter jejuni NCTC11168 Capsular Polysaccharide Fragments.	Ashmus RA, Jayasuriya AB, Lim YJ, O'Doherty GA, Lowary TL	J Org Chem	10.1021/acs.joc.6b00296	2016	*
	Description of Campylobacter jejuni Bf, an atypical aero-tolerant strain.	Rodrigues RC, Pocheron AL, Hernould M, Haddad N, Tresse O, Cappelier JM	Gut Pathog	10.1186/s13099-015-0077-x	2015	*
	Campylobacter jejuni PflB is required for motility and colonisation of the chicken gastrointestinal tract.	Kanji A, Jones MA, Maskell DJ, Grant AJ	Microb Pathog	10.1016/j.micpath.2015.09.010	2015	*
	Biofilm spatial organization by the emerging pathogen Campylobacter jejuni: comparison between NCTC 11168 and 81-176 strains under microaerobic and oxygen-enriched conditions.	Turonova H, Briandet R, Rodrigues R, Hernould M, Hayek N, Stintzi A, Pazlarova J, Tresse O	Front Microbiol	10.3389/fmicb.2015.00709	2015	*
	Transcriptomic analysis of Campylobacter jejuni NCTC 11168 in response to epinephrine and norepinephrine.	Xu F, Wu C, Guo F, Cui G, Zeng X, Yang B, Lin J	Front Microbiol	10.3389/fmicb.2015.00452	2015	*
	A comparative analysis of methylome profiles of Campylobacter jejuni sheep abortion isolate and gastroenteric strains using PacBio data.	Mou KT, Muppirala UK, Severin AJ, Clark TA, Boitano M, Plummer PJ	Front Microbiol	10.3389/fmicb.2014.00782	2015	*
	[Role of fliY gene in pathogenicity-associated chemotaxis and colonization of Campylobacter jejuni].	Lou H, Ge Y, Zhang J, Yan J, Zhao J	Zhejiang Da Xue Xue Bao Yi Xue Ban	10.3785/j.issn.1008-9292.2013.02.003	2013	*
	Re-sequencing of a virulent strain of Campylobacter jejuni NCTC11168 reveals potential virulence factors.	Cooper KK, Cooper MA, Zuccolo A, Joens LA	Res Microbiol	10.1016/j.resmic.2012.10.002	2012	*
	Passage of Campylobacter jejuni through the chicken reservoir or mice promotes phase variation in contingency genes Cj0045 and Cj0170 that strongly associates with colonization and disease in a mouse model.	Kim JS, Artymovich KA, Hall DF, Smith EJ, Fulton R, Bell J, Dybas L, Mansfield LS, Tempelman R, Wilson DL, Linz JE	Microbiology (Reading)	10.1099/mic.0.057158-0	2012	*
	Synthesis of the 6-O-methyl-D-glycero-alpha-L-gluco-heptopyranose moiety present in the capsular polysaccharide from Campylobacter jejuni NCTC 11168.	Peng W, Jayasuriya AB, Imamura A, Lowary TL	Org Lett	10.1021/ol202152r	2011	*
	Bacteriophage-Mediated Dispersal of Campylobacter jejuni Biofilms.	Siringan P, Connerton PL, Payne RJ, Connerton IF	Appl Environ Microbiol	10.1128/AEM.02704-10	2011	*
	Colonization of broilers by Campylobacter jejuni internalized within Acanthamoeba castellanii.	Snelling WJ, Stern NJ, Lowery CJ, Moore JE, Gibbons E, Baker C, Dooley JS	Arch Microbiol	10.1007/s00203-007-0303-0	2007	*
	Serological assessment of synthetic peptides of Campylobacter jejuni NCTC11168 FlaA protein using antibodies against multiple serotypes.	Fernando U, Biswas D, Allan B, Attah-Poku S, Willson P, Valdivieso-Garcia A, Potter AA	Med Microbiol Immunol	10.1007/s00430-007-0058-x	2007	*
	Molecular signatures (unique proteins and conserved indels) that are specific for the epsilon proteobacteria (Campylobacterales).	Gupta RS	BMC Genomics	10.1186/1471-2164-7-167	2006	*
	Interaction of CmeABC and CmeDEF in conferring antimicrobial resistance and maintaining cell viability in Campylobacter jejuni.	Akiba M, Lin J, Barton YW, Zhang Q	J Antimicrob Chemother	10.1093/jac/dki419	2005	*
	Detection of conserved N-linked glycans and phase-variable lipooligosaccharides and capsules from campylobacter cells by mass spectrometry and high resolution magic angle spinning NMR spectroscopy.	Szymanski CM, Michael FS, Jarrell HC, Li J, Gilbert M, Larocque S, Vinogradov E, Brisson JR	J Biol Chem	10.1074/jbc.M301273200	2003	*
	Physiological changes in Campylobacter jejuni on entry into stationary phase.	Martinez-Rodriguez A, Mackey BM	Int J Food Microbiol	10.1016/j.ijfoodmicro.2004.10.037	2004	*
	Chemical studies of partially hydrolysed lipopolysaccharides from four strains of Campylobacter jejuni and two strains of Campylobacter coli.	Naess V, Hofstad T	J Gen Microbiol	10.1099/00221287-130-11-2783	1984	*
	Extracellular c-di-GMP Plays a Role in Biofilm Formation and Dispersion of Campylobacter jejuni.	Elgamoudi BA, Starr KS, Korolik V	Microorganisms	10.3390/microorganisms10102030	2022	*
	Functional Characterization of a HAD Phosphatase Involved in Capsular Polysaccharide Biosynthesis in Campylobacter jejuni.	Riegert AS, Narindoshvili T, Platzer NE, Raushel FM	Biochemistry	10.1021/acs.biochem.2c00484	2022	*
	Ferric quinate (QPLEX) interacts with the major outer membrane protein (MOMP) of Campylobacter jejuni and enters through the porin channel into the periplasmic space.	Okoye JC, Bellamy-Carter J, Oldham NJ, Oldfield NJ, Mahdavi J, Soultanas P	Comput Struct Biotechnol J	10.1016/j.csbj.2022.09.032	2022	*
	Differences in the Propensity of Different Antimicrobial Resistance Determinants to Be Disseminated via Transformation in Campylobacter jejuni and Campylobacter coli.	Hanafy Z, Osborne JA, Miller WG, Parker CT, Olson JW, Jackson JH 3rd, Kathariou S	Microorganisms	10.3390/microorganisms10061194	2022	*

References

#20215

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

#20492

Leibniz Institut DSMZ-Deutsche Sammlung von Mikroorganismen und Zellkulturen GmbH ; Curators of the DSMZ; DSM 27585

#41812 ; Curators of the CIP;

#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) .

#68373

Automatically annotated from API CAM .

#68382

Automatically annotated from API zym .

#69480

Julia Koblitz, Joaquim Sardà, Lorenz Christian Reimer, Boyke Bunk, Jörg Overmann: Predictions based on genome sequence made in the Diaspora project (Digital Approaches for the Synthesis of Poorly Accessible Biodiversity Information) .

#69481

Xiao-Yin To, René Mreches, Martin Binder, Alice C. McHardy, Philipp C. Münch: Predictions based on the model GenomeNet Sporulation v. 1 . ( DOI 10.21203/rs.3.rs-2527258/v1 )

#120328 Collection of Institut Pasteur ; Curators of the CIP; CIP 107370
* These data were automatically processed and therefore are not curated

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Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819 NCTC 11168

Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819 NCTC 11168

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