2. PATHOGENS
Basic Information
Accession number
GCA_000168115.1
Release date
2006-01-27
Organism
Campylobacter jejuni subsp. jejuni CF93-6
Species name
Campylobacter jejuni
Assembly level
Contig
Assembly name
ASM16811v1
Assembly submitter
TIGR
Assembly Type
haploid
Genome size
1.7 Mb
GC percent
30.5
Contig count
14
Collection date
-
Sample location
-
Host
-
Isolation source
-
Isolate type
-
Strain
CF93-6
Isolate
-
ARG List
ORF_ID Pass_Bitscore Best_Hit_Bitscore Best_Hit_ARO Best_Identities ARO Model_type SNPs_in_Best_Hit_ARO Other_SNPs Drug class Resistance mechanism AMR gene family Description
AANJ01000001.1_13 # 9773 # 10546 500.0 515.768 OXA-193 100.0 ARO:3001478 protein homolog model carbapenem; cephalosporin; penam antibiotic inactivation OXA beta-lactamase OXA-193 is a beta-lactamase. Name originally from the historical Lahey list of beta-lactamases, some of which did not include sequence data.
AANJ01000001.1_77 # 67577 # 69055 960.0 988.023 cmeC 99.19 ARO:3000785 protein homolog model macrolide antibiotic; fluoroquinolone antibiotic; cephalosporin; fusidane antibiotic antibiotic efflux resistance-nodulation-cell division (RND) antibiotic efflux pump CmeC is the outer membrane channel protein of the CmeABC multidrug efflux complex.
AANJ01000001.1_79 # 72171 # 73274 710.0 717.998 cmeA 96.19 ARO:3000783 protein homolog model macrolide antibiotic; fluoroquinolone antibiotic; cephalosporin; fusidane antibiotic antibiotic efflux resistance-nodulation-cell division (RND) antibiotic efflux pump CmeA is the membrane fusion protein of the CmeABC multidrug efflux complex.
AANJ01000001.1_80 # 73369 # 74001 400.0 429.483 cmeR 100.0 ARO:3000526 protein homolog model macrolide antibiotic; fluoroquinolone antibiotic; cephalosporin; fusidane antibiotic antibiotic efflux resistance-nodulation-cell division (RND) antibiotic efflux pump CmeR is a repressor for the CmeABC multidrug efflux pump, binding to the cmeABC promoter region.
AANJ01000008.1_35 # 31924 # 34515 1200.0 1743.78 Campylobacter jejuni gyrA conferring resistance to fluoroquinolones 99.88 ARO:3003789 protein variant model T86I fluoroquinolone antibiotic antibiotic target alteration fluoroquinolone resistant gyrA Campylobacter jejuni is a major bacterial infectious agent associated with gastroenteritis. Quinolone resistance is reportedly conferred by a single C-257-T nucleotide substitution in the gyrA gene.
VF List
Query_id %Identity E-value Related genes VF ID Virulence factor VFcategory VFcategoryID Characteristics Description Strain
AANJ01000014.1_1 62.762 3.54E-102 groEL VF0594 GroEL Adherence VFC0001 GroEL of numerous bacteria, such as L. pneumophila, H. pylori, H. ducreyi, M. avium, S. typhimurium, A. actinomycetemcomitans and B. burgdorferi, has been shown to be involved in adhesion or invasion of various target cells or tissues. (groEL) chaperonin GroEL [GroEL (VF0594) - Adherence (VFC0001)] [Clostridium difficile 630] Clostridium difficile
AANJ01000013.1_1 100.0 1.9E-72 Cj1440c VF0323 Capsule Immune modulation VFC0258 Major antigenic component of the classic Penner serotyping system; Variation in the capsule structure may cause by multiple mechanisms, such as exchange of capsular genes and entire clusters by horizontal transfer, gene duplication, deletion, fusion and the presence of homopolymeric G tracts in several cps genes (Cj1440c) sugar transferase [Capsule (VF0323) - Immune modulation (VFC0258)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000013.1_2 100.0 0.0 glf VF0323 Capsule Immune modulation VFC0258 Major antigenic component of the classic Penner serotyping system; Variation in the capsule structure may cause by multiple mechanisms, such as exchange of capsular genes and entire clusters by horizontal transfer, gene duplication, deletion, fusion and the presence of homopolymeric G tracts in several cps genes (glf) UDP-galactopyranose mutase [Capsule (VF0323) - Immune modulation (VFC0258)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000012.1_10 98.925 0.0 jlpA VF0329 JlpA Adherence VFC0001 (jlpA) lipoprotein [JlpA (VF0329) - Adherence (VFC0001)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000011.1_31 100.0 0.0 pebA VF0327 PEB1 Adherence VFC0001 An aspartate/glutamate-binding protein of an ABC transporter, essential for microaerobic growth on dicarboxylic amino acids (pebA) bifunctional adhesin/ABC transporter aspartate/glutamate-binding protein [PEB1 (VF0327) - Adherence (VFC0001)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000011.1_38 99.808 0.0 ciaB VF0324 CiaB Invasion VFC0083 73-kDa protein secreted by the flagellin export apparatus; CiaB lacks an identifiable signal sequence, and an environmental stimulus is required to induce Cia protein secretion, but there is no evidence of a type III secretion system (ciaB) invasion antigen CiaB [CiaB (VF0324) - Invasion (VFC0083)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000010.1_1 63.83 2.82E-121 htpB VF0159 Hsp60 Adherence VFC0001 (htpB) Hsp60, 60K heat shock protein HtpB [Hsp60 (VF0159) - Adherence (VFC0001)] [Legionella pneumophila subsp. pneumophila str. Philadelphia 1] Legionella pneumophila
AANJ01000010.1_22 100.0 6.46E-73 ciaC VF0415 CiaC Invasion VFC0083 Exported via the flagellar T3SS (ciaC) Campylobacter invasion antigen C [CiaC (VF0415) - Invasion (VFC0083)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000010.1_39 96.471 0.0 porA VF0328 MOMP Adherence VFC0001 (porA) major outer membrane protein [MOMP (VF0328) - Adherence (VFC0001)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000009.1_19 78.449 0.0 flgE2 VF0114 Flagella Motility VFC0204 Two different (approximately 59-kDa) flagellin subunits, FlaA and FlaB are subject to both antigenic variation and phase variation; The expression of FlaA and FlaB is controlled by different transcription factors, namely the alternative sigma28 (FlaA) and sigma54 (FlaB) transcription factors; post-translationally modified through O-linked glycosylation. The major modification are pseudaminic acid (Pse5Ac7Ac), a nine carbon sugar that is similar to sialic acid, and an acetamidino-substituted pseudaminic acid (PseAm). There are also minor amounts of a dihydroxyproprionyl form (Pse5Pr7Pr) and an O-acetylated form (Pse5Ac7Ac8OAc); the exact role of glycosylation is unknown. The modification appears to be important for flagellar assembly and may be required for recognition by the flagellar secretion/assembly apparatus (flgE2) flagellar hook protein [Flagella (VF0114) - Motility (VFC0204)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000008.1_32 100.0 0.0 flgR VF0114 Flagella Motility VFC0204 Two different (approximately 59-kDa) flagellin subunits, FlaA and FlaB are subject to both antigenic variation and phase variation; The expression of FlaA and FlaB is controlled by different transcription factors, namely the alternative sigma28 (FlaA) and sigma54 (FlaB) transcription factors; post-translationally modified through O-linked glycosylation. The major modification are pseudaminic acid (Pse5Ac7Ac), a nine carbon sugar that is similar to sialic acid, and an acetamidino-substituted pseudaminic acid (PseAm). There are also minor amounts of a dihydroxyproprionyl form (Pse5Pr7Pr) and an O-acetylated form (Pse5Ac7Ac8OAc); the exact role of glycosylation is unknown. The modification appears to be important for flagellar assembly and may be required for recognition by the flagellar secretion/assembly apparatus (flgR) sigma-54 associated transcriptional activator [Flagella (VF0114) - Motility (VFC0204)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000008.1_33 100.0 4.2E-76 flgQ VF0114 Flagella Motility VFC0204 Two different (approximately 59-kDa) flagellin subunits, FlaA and FlaB are subject to both antigenic variation and phase variation; The expression of FlaA and FlaB is controlled by different transcription factors, namely the alternative sigma28 (FlaA) and sigma54 (FlaB) transcription factors; post-translationally modified through O-linked glycosylation. The major modification are pseudaminic acid (Pse5Ac7Ac), a nine carbon sugar that is similar to sialic acid, and an acetamidino-substituted pseudaminic acid (PseAm). There are also minor amounts of a dihydroxyproprionyl form (Pse5Pr7Pr) and an O-acetylated form (Pse5Ac7Ac8OAc); the exact role of glycosylation is unknown. The modification appears to be important for flagellar assembly and may be required for recognition by the flagellar secretion/assembly apparatus (flgQ) required for flagellar motility [Flagella (VF0114) - Motility (VFC0204)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000008.1_34 100.0 1.51E-125 flgP VF0114 Flagella Motility VFC0204 Two different (approximately 59-kDa) flagellin subunits, FlaA and FlaB are subject to both antigenic variation and phase variation; The expression of FlaA and FlaB is controlled by different transcription factors, namely the alternative sigma28 (FlaA) and sigma54 (FlaB) transcription factors; post-translationally modified through O-linked glycosylation. The major modification are pseudaminic acid (Pse5Ac7Ac), a nine carbon sugar that is similar to sialic acid, and an acetamidino-substituted pseudaminic acid (PseAm). There are also minor amounts of a dihydroxyproprionyl form (Pse5Pr7Pr) and an O-acetylated form (Pse5Ac7Ac8OAc); the exact role of glycosylation is unknown. The modification appears to be important for flagellar assembly and may be required for recognition by the flagellar secretion/assembly apparatus (flgP) required for flagellar motility [Flagella (VF0114) - Motility (VFC0204)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000008.1_91 100.0 4.29E-92 fliW VF0114 Flagella Motility VFC0204 Two different (approximately 59-kDa) flagellin subunits, FlaA and FlaB are subject to both antigenic variation and phase variation; The expression of FlaA and FlaB is controlled by different transcription factors, namely the alternative sigma28 (FlaA) and sigma54 (FlaB) transcription factors; post-translationally modified through O-linked glycosylation. The major modification are pseudaminic acid (Pse5Ac7Ac), a nine carbon sugar that is similar to sialic acid, and an acetamidino-substituted pseudaminic acid (PseAm). There are also minor amounts of a dihydroxyproprionyl form (Pse5Pr7Pr) and an O-acetylated form (Pse5Ac7Ac8OAc); the exact role of glycosylation is unknown. The modification appears to be important for flagellar assembly and may be required for recognition by the flagellar secretion/assembly apparatus (fliW) flagellar assembly protein FliW [Flagella (VF0114) - Motility (VFC0204)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000007.1_21 72.05 4.15E-89 luxS VF0406 AI-2 Biofilm VFC0271 AI-2 is produced and detected by a wide variety of bacteria and is presumed to facilitate interspecies communications. (luxS) S-ribosylhomocysteinase [AI-2 (VF0406) - Biofilm (VFC0271)] [Vibrio cholerae O1 biovar El Tor str. N16961] Vibrio cholerae
AANJ01000007.1_40 100.0 3.26E-179 fliR VF0114 Flagella Motility VFC0204 Two different (approximately 59-kDa) flagellin subunits, FlaA and FlaB are subject to both antigenic variation and phase variation; The expression of FlaA and FlaB is controlled by different transcription factors, namely the alternative sigma28 (FlaA) and sigma54 (FlaB) transcription factors; post-translationally modified through O-linked glycosylation. The major modification are pseudaminic acid (Pse5Ac7Ac), a nine carbon sugar that is similar to sialic acid, and an acetamidino-substituted pseudaminic acid (PseAm). There are also minor amounts of a dihydroxyproprionyl form (Pse5Pr7Pr) and an O-acetylated form (Pse5Ac7Ac8OAc); the exact role of glycosylation is unknown. The modification appears to be important for flagellar assembly and may be required for recognition by the flagellar secretion/assembly apparatus (fliR) flagellar biosynthetic protein FliR [Flagella (VF0114) - Motility (VFC0204)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000007.1_66 99.462 3.64E-133 gmhB VF0326 LOS Immune modulation VFC0258 (gmhB) D-glycero-alpha-D-manno-heptose-1,7-bisphosphate 7-phosphatase [LOS (VF0326) - Immune modulation (VFC0258)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000007.1_67 98.107 0.0 hldD VF0326 LOS Immune modulation VFC0258 (hldD) ADP-glyceromanno-heptose 6-epimerase [LOS (VF0326) - Immune modulation (VFC0258)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000007.1_68 96.746 0.0 hldE VF0326 LOS Immune modulation VFC0258 (hldE) bifunctional D-beta-D-heptose 7-phosphate kinase/D-beta-D-heptose 1-phosphate adenylyltransferase [LOS (VF0326) - Immune modulation (VFC0258)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000007.1_69 97.312 6.02E-133 gmhA VF0326 LOS Immune modulation VFC0258 (gmhA) phosphoheptose isomerase [LOS (VF0326) - Immune modulation (VFC0258)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000007.1_70 94.984 0.0 waaF VF0326 LOS Immune modulation VFC0258 (waaF) heptosyltransferase II [LOS (VF0326) - Immune modulation (VFC0258)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000007.1_71 88.848 1.59E-176 waaV VF0326 LOS Immune modulation VFC0258 (waaV) glucosyltransferase [LOS (VF0326) - Immune modulation (VFC0258)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000007.1_74 69.725 8.24E-107 neuA1 VF0326 LOS Immune modulation VFC0258 (neuA1) bifunctional beta-1,4-N-acetylgalactosaminyltransferase/CMP-Neu5Ac synthase [LOS (VF0326) - Immune modulation (VFC0258)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000007.1_75 69.355 0.0 neuC1 VF0326 LOS Immune modulation VFC0258 (neuC1) UDP-N-acetylglucosamine 2-epimerase [LOS (VF0326) - Immune modulation (VFC0258)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000007.1_76 77.259 0.0 neuB1 VF0326 LOS Immune modulation VFC0258 (neuB1) sialic acid synthase [LOS (VF0326) - Immune modulation (VFC0258)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000007.1_80 76.923 0.0 Cj1136 VF0326 LOS Immune modulation VFC0258 (Cj1136) glycosyltransferase [LOS (VF0326) - Immune modulation (VFC0258)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000007.1_81 76.25 9.46E-41 Cj1135 VF0326 LOS Immune modulation VFC0258 (Cj1135) glucosyltransferase [LOS (VF0326) - Immune modulation (VFC0258)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000007.1_82 88.702 0.0 Cj1135 VF0326 LOS Immune modulation VFC0258 (Cj1135) glucosyltransferase [LOS (VF0326) - Immune modulation (VFC0258)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000007.1_83 95.932 0.0 htrB VF0326 LOS Immune modulation VFC0258 (htrB) lipid A biosynthesis lauroyl acyltransferase [LOS (VF0326) - Immune modulation (VFC0258)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000007.1_84 98.246 0.0 waaC VF0326 LOS Immune modulation VFC0258 (waaC) heptosyltransferase I [LOS (VF0326) - Immune modulation (VFC0258)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000007.1_99 100.0 2.61E-92 cheY VF0114 Flagella Motility VFC0204 Two different (approximately 59-kDa) flagellin subunits, FlaA and FlaB are subject to both antigenic variation and phase variation; The expression of FlaA and FlaB is controlled by different transcription factors, namely the alternative sigma28 (FlaA) and sigma54 (FlaB) transcription factors; post-translationally modified through O-linked glycosylation. The major modification are pseudaminic acid (Pse5Ac7Ac), a nine carbon sugar that is similar to sialic acid, and an acetamidino-substituted pseudaminic acid (PseAm). There are also minor amounts of a dihydroxyproprionyl form (Pse5Pr7Pr) and an O-acetylated form (Pse5Ac7Ac8OAc); the exact role of glycosylation is unknown. The modification appears to be important for flagellar assembly and may be required for recognition by the flagellar secretion/assembly apparatus (cheY) chemotaxis regulatory protein [Flagella (VF0114) - Motility (VFC0204)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000006.1_25 100.0 0.0 flgL VF0114 Flagella Motility VFC0204 Two different (approximately 59-kDa) flagellin subunits, FlaA and FlaB are subject to both antigenic variation and phase variation; The expression of FlaA and FlaB is controlled by different transcription factors, namely the alternative sigma28 (FlaA) and sigma54 (FlaB) transcription factors; post-translationally modified through O-linked glycosylation. The major modification are pseudaminic acid (Pse5Ac7Ac), a nine carbon sugar that is similar to sialic acid, and an acetamidino-substituted pseudaminic acid (PseAm). There are also minor amounts of a dihydroxyproprionyl form (Pse5Pr7Pr) and an O-acetylated form (Pse5Ac7Ac8OAc); the exact role of glycosylation is unknown. The modification appears to be important for flagellar assembly and may be required for recognition by the flagellar secretion/assembly apparatus (flgL) flagellar hook-associated protein FlgL [Flagella (VF0114) - Motility (VFC0204)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000006.1_28 100.0 5.44E-97 Cj0883c VF0114 Flagella Motility VFC0204 Two different (approximately 59-kDa) flagellin subunits, FlaA and FlaB are subject to both antigenic variation and phase variation; The expression of FlaA and FlaB is controlled by different transcription factors, namely the alternative sigma28 (FlaA) and sigma54 (FlaB) transcription factors; post-translationally modified through O-linked glycosylation. The major modification are pseudaminic acid (Pse5Ac7Ac), a nine carbon sugar that is similar to sialic acid, and an acetamidino-substituted pseudaminic acid (PseAm). There are also minor amounts of a dihydroxyproprionyl form (Pse5Pr7Pr) and an O-acetylated form (Pse5Ac7Ac8OAc); the exact role of glycosylation is unknown. The modification appears to be important for flagellar assembly and may be required for recognition by the flagellar secretion/assembly apparatus (Cj0883c) transcriptional regulator [Flagella (VF0114) - Motility (VFC0204)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000006.1_29 100.0 0.0 flhA VF0114 Flagella Motility VFC0204 Two different (approximately 59-kDa) flagellin subunits, FlaA and FlaB are subject to both antigenic variation and phase variation; The expression of FlaA and FlaB is controlled by different transcription factors, namely the alternative sigma28 (FlaA) and sigma54 (FlaB) transcription factors; post-translationally modified through O-linked glycosylation. The major modification are pseudaminic acid (Pse5Ac7Ac), a nine carbon sugar that is similar to sialic acid, and an acetamidino-substituted pseudaminic acid (PseAm). There are also minor amounts of a dihydroxyproprionyl form (Pse5Pr7Pr) and an O-acetylated form (Pse5Ac7Ac8OAc); the exact role of glycosylation is unknown. The modification appears to be important for flagellar assembly and may be required for recognition by the flagellar secretion/assembly apparatus (flhA) flagellar biosynthesis protein FlhA [Flagella (VF0114) - Motility (VFC0204)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000006.1_86 100.0 4.54E-174 fliP VF0114 Flagella Motility VFC0204 Two different (approximately 59-kDa) flagellin subunits, FlaA and FlaB are subject to both antigenic variation and phase variation; The expression of FlaA and FlaB is controlled by different transcription factors, namely the alternative sigma28 (FlaA) and sigma54 (FlaB) transcription factors; post-translationally modified through O-linked glycosylation. The major modification are pseudaminic acid (Pse5Ac7Ac), a nine carbon sugar that is similar to sialic acid, and an acetamidino-substituted pseudaminic acid (PseAm). There are also minor amounts of a dihydroxyproprionyl form (Pse5Pr7Pr) and an O-acetylated form (Pse5Ac7Ac8OAc); the exact role of glycosylation is unknown. The modification appears to be important for flagellar assembly and may be required for recognition by the flagellar secretion/assembly apparatus (fliP) flagellar biosynthesis protein FliP [Flagella (VF0114) - Motility (VFC0204)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000006.1_111 100.0 0.0 flgS VF0114 Flagella Motility VFC0204 Two different (approximately 59-kDa) flagellin subunits, FlaA and FlaB are subject to both antigenic variation and phase variation; The expression of FlaA and FlaB is controlled by different transcription factors, namely the alternative sigma28 (FlaA) and sigma54 (FlaB) transcription factors; post-translationally modified through O-linked glycosylation. The major modification are pseudaminic acid (Pse5Ac7Ac), a nine carbon sugar that is similar to sialic acid, and an acetamidino-substituted pseudaminic acid (PseAm). There are also minor amounts of a dihydroxyproprionyl form (Pse5Pr7Pr) and an O-acetylated form (Pse5Ac7Ac8OAc); the exact role of glycosylation is unknown. The modification appears to be important for flagellar assembly and may be required for recognition by the flagellar secretion/assembly apparatus (flgS) signal transduction histidine kinase [Flagella (VF0114) - Motility (VFC0204)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000006.1_135 100.0 2.21E-158 flgA VF0114 Flagella Motility VFC0204 Two different (approximately 59-kDa) flagellin subunits, FlaA and FlaB are subject to both antigenic variation and phase variation; The expression of FlaA and FlaB is controlled by different transcription factors, namely the alternative sigma28 (FlaA) and sigma54 (FlaB) transcription factors; post-translationally modified through O-linked glycosylation. The major modification are pseudaminic acid (Pse5Ac7Ac), a nine carbon sugar that is similar to sialic acid, and an acetamidino-substituted pseudaminic acid (PseAm). There are also minor amounts of a dihydroxyproprionyl form (Pse5Pr7Pr) and an O-acetylated form (Pse5Ac7Ac8OAc); the exact role of glycosylation is unknown. The modification appears to be important for flagellar assembly and may be required for recognition by the flagellar secretion/assembly apparatus (flgA) flagellar basal body P-ring biosynthesis protein FlgA [Flagella (VF0114) - Motility (VFC0204)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000005.1_1 100.0 0.0 Cj1438c VF0323 Capsule Immune modulation VFC0258 Major antigenic component of the classic Penner serotyping system; Variation in the capsule structure may cause by multiple mechanisms, such as exchange of capsular genes and entire clusters by horizontal transfer, gene duplication, deletion, fusion and the presence of homopolymeric G tracts in several cps genes (Cj1438c) sugar transferase [Capsule (VF0323) - Immune modulation (VFC0258)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000005.1_2 100.0 0.0 Cj1437c VF0323 Capsule Immune modulation VFC0258 Major antigenic component of the classic Penner serotyping system; Variation in the capsule structure may cause by multiple mechanisms, such as exchange of capsular genes and entire clusters by horizontal transfer, gene duplication, deletion, fusion and the presence of homopolymeric G tracts in several cps genes (Cj1437c) aminotransferase [Capsule (VF0323) - Immune modulation (VFC0258)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000005.1_3 100.0 0.0 Cj1436c VF0323 Capsule Immune modulation VFC0258 Major antigenic component of the classic Penner serotyping system; Variation in the capsule structure may cause by multiple mechanisms, such as exchange of capsular genes and entire clusters by horizontal transfer, gene duplication, deletion, fusion and the presence of homopolymeric G tracts in several cps genes (Cj1436c) aminotransferase [Capsule (VF0323) - Immune modulation (VFC0258)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000005.1_4 100.0 1.59E-122 Cj1435c VF0323 Capsule Immune modulation VFC0258 Major antigenic component of the classic Penner serotyping system; Variation in the capsule structure may cause by multiple mechanisms, such as exchange of capsular genes and entire clusters by horizontal transfer, gene duplication, deletion, fusion and the presence of homopolymeric G tracts in several cps genes (Cj1435c) phosphatase [Capsule (VF0323) - Immune modulation (VFC0258)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000005.1_5 99.775 0.0 Cj1434c VF0323 Capsule Immune modulation VFC0258 Major antigenic component of the classic Penner serotyping system; Variation in the capsule structure may cause by multiple mechanisms, such as exchange of capsular genes and entire clusters by horizontal transfer, gene duplication, deletion, fusion and the presence of homopolymeric G tracts in several cps genes (Cj1434c) sugar transferase [Capsule (VF0323) - Immune modulation (VFC0258)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000005.1_6 98.098 0.0 Cj1433c VF0323 Capsule Immune modulation VFC0258 Major antigenic component of the classic Penner serotyping system; Variation in the capsule structure may cause by multiple mechanisms, such as exchange of capsular genes and entire clusters by horizontal transfer, gene duplication, deletion, fusion and the presence of homopolymeric G tracts in several cps genes (Cj1433c) hypothetical protein [Capsule (VF0323) - Immune modulation (VFC0258)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000005.1_7 100.0 0.0 Cj1432c VF0323 Capsule Immune modulation VFC0258 Major antigenic component of the classic Penner serotyping system; Variation in the capsule structure may cause by multiple mechanisms, such as exchange of capsular genes and entire clusters by horizontal transfer, gene duplication, deletion, fusion and the presence of homopolymeric G tracts in several cps genes (Cj1432c) sugar transferase [Capsule (VF0323) - Immune modulation (VFC0258)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000005.1_8 100.0 0.0 hddC VF0323 Capsule Immune modulation VFC0258 Major antigenic component of the classic Penner serotyping system; Variation in the capsule structure may cause by multiple mechanisms, such as exchange of capsular genes and entire clusters by horizontal transfer, gene duplication, deletion, fusion and the presence of homopolymeric G tracts in several cps genes (hddC) capsular polysaccharide heptosyltransferase [Capsule (VF0323) - Immune modulation (VFC0258)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000005.1_9 100.0 4.31E-137 rfbC VF0323 Capsule Immune modulation VFC0258 Major antigenic component of the classic Penner serotyping system; Variation in the capsule structure may cause by multiple mechanisms, such as exchange of capsular genes and entire clusters by horizontal transfer, gene duplication, deletion, fusion and the presence of homopolymeric G tracts in several cps genes (rfbC) dTDP-4-dehydrorhamnose 3,5-epimerase [Capsule (VF0323) - Immune modulation (VFC0258)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000005.1_10 99.675 0.0 Cj1429c VF0323 Capsule Immune modulation VFC0258 Major antigenic component of the classic Penner serotyping system; Variation in the capsule structure may cause by multiple mechanisms, such as exchange of capsular genes and entire clusters by horizontal transfer, gene duplication, deletion, fusion and the presence of homopolymeric G tracts in several cps genes (Cj1429c) hypothetical protein [Capsule (VF0323) - Immune modulation (VFC0258)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000005.1_11 100.0 0.0 fcl VF0323 Capsule Immune modulation VFC0258 Major antigenic component of the classic Penner serotyping system; Variation in the capsule structure may cause by multiple mechanisms, such as exchange of capsular genes and entire clusters by horizontal transfer, gene duplication, deletion, fusion and the presence of homopolymeric G tracts in several cps genes (fcl) GDP-L-fucose synthetase [Capsule (VF0323) - Immune modulation (VFC0258)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000005.1_12 100.0 0.0 Cj1427c VF0323 Capsule Immune modulation VFC0258 Major antigenic component of the classic Penner serotyping system; Variation in the capsule structure may cause by multiple mechanisms, such as exchange of capsular genes and entire clusters by horizontal transfer, gene duplication, deletion, fusion and the presence of homopolymeric G tracts in several cps genes (Cj1427c) sugar-nucleotide epimerase/dehydratease [Capsule (VF0323) - Immune modulation (VFC0258)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000005.1_13 100.0 0.0 Cj1426c VF0323 Capsule Immune modulation VFC0258 Major antigenic component of the classic Penner serotyping system; Variation in the capsule structure may cause by multiple mechanisms, such as exchange of capsular genes and entire clusters by horizontal transfer, gene duplication, deletion, fusion and the presence of homopolymeric G tracts in several cps genes (Cj1426c) methyltransferase family protein [Capsule (VF0323) - Immune modulation (VFC0258)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000005.1_14 100.0 0.0 hddA VF0323 Capsule Immune modulation VFC0258 Major antigenic component of the classic Penner serotyping system; Variation in the capsule structure may cause by multiple mechanisms, such as exchange of capsular genes and entire clusters by horizontal transfer, gene duplication, deletion, fusion and the presence of homopolymeric G tracts in several cps genes (hddA) D-glycero-D-manno-heptose 7-phosphate kinase [Capsule (VF0323) - Immune modulation (VFC0258)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000005.1_15 100.0 2.54E-148 gmhA2 VF0323 Capsule Immune modulation VFC0258 Major antigenic component of the classic Penner serotyping system; Variation in the capsule structure may cause by multiple mechanisms, such as exchange of capsular genes and entire clusters by horizontal transfer, gene duplication, deletion, fusion and the presence of homopolymeric G tracts in several cps genes (gmhA2) phosphoheptose isomerase [Capsule (VF0323) - Immune modulation (VFC0258)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000005.1_16 100.0 3.82E-159 hddC VF0323 Capsule Immune modulation VFC0258 Major antigenic component of the classic Penner serotyping system; Variation in the capsule structure may cause by multiple mechanisms, such as exchange of capsular genes and entire clusters by horizontal transfer, gene duplication, deletion, fusion and the presence of homopolymeric G tracts in several cps genes (hddC) D-glycero-D-manno-heptose 1-phosphate guanosyltransferase [Capsule (VF0323) - Immune modulation (VFC0258)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000005.1_17 100.0 0.0 Cj1421c VF0323 Capsule Immune modulation VFC0258 Major antigenic component of the classic Penner serotyping system; Variation in the capsule structure may cause by multiple mechanisms, such as exchange of capsular genes and entire clusters by horizontal transfer, gene duplication, deletion, fusion and the presence of homopolymeric G tracts in several cps genes (Cj1421c) sugar transferase [Capsule (VF0323) - Immune modulation (VFC0258)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000005.1_18 100.0 0.0 Cj1420c VF0323 Capsule Immune modulation VFC0258 Major antigenic component of the classic Penner serotyping system; Variation in the capsule structure may cause by multiple mechanisms, such as exchange of capsular genes and entire clusters by horizontal transfer, gene duplication, deletion, fusion and the presence of homopolymeric G tracts in several cps genes (Cj1420c) methyltransferase [Capsule (VF0323) - Immune modulation (VFC0258)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000005.1_19 100.0 0.0 Cj1419c VF0323 Capsule Immune modulation VFC0258 Major antigenic component of the classic Penner serotyping system; Variation in the capsule structure may cause by multiple mechanisms, such as exchange of capsular genes and entire clusters by horizontal transfer, gene duplication, deletion, fusion and the presence of homopolymeric G tracts in several cps genes (Cj1419c) methyltransferase [Capsule (VF0323) - Immune modulation (VFC0258)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000005.1_20 99.872 0.0 Cj1418c VF0323 Capsule Immune modulation VFC0258 Major antigenic component of the classic Penner serotyping system; Variation in the capsule structure may cause by multiple mechanisms, such as exchange of capsular genes and entire clusters by horizontal transfer, gene duplication, deletion, fusion and the presence of homopolymeric G tracts in several cps genes (Cj1418c) hypothetical protein [Capsule (VF0323) - Immune modulation (VFC0258)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000005.1_21 100.0 8.75E-149 Cj1417c VF0323 Capsule Immune modulation VFC0258 Major antigenic component of the classic Penner serotyping system; Variation in the capsule structure may cause by multiple mechanisms, such as exchange of capsular genes and entire clusters by horizontal transfer, gene duplication, deletion, fusion and the presence of homopolymeric G tracts in several cps genes (Cj1417c) amidotransferase [Capsule (VF0323) - Immune modulation (VFC0258)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000005.1_22 100.0 0.0 Cj1416c VF0323 Capsule Immune modulation VFC0258 Major antigenic component of the classic Penner serotyping system; Variation in the capsule structure may cause by multiple mechanisms, such as exchange of capsular genes and entire clusters by horizontal transfer, gene duplication, deletion, fusion and the presence of homopolymeric G tracts in several cps genes (Cj1416c) sugar nucleotidyltransferase [Capsule (VF0323) - Immune modulation (VFC0258)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000005.1_23 100.0 1.71E-124 cysC VF0323 Capsule Immune modulation VFC0258 Major antigenic component of the classic Penner serotyping system; Variation in the capsule structure may cause by multiple mechanisms, such as exchange of capsular genes and entire clusters by horizontal transfer, gene duplication, deletion, fusion and the presence of homopolymeric G tracts in several cps genes (cysC) adenylyl-sulfate kinase [Capsule (VF0323) - Immune modulation (VFC0258)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000005.1_24 100.0 0.0 kpsC VF0323 Capsule Immune modulation VFC0258 Major antigenic component of the classic Penner serotyping system; Variation in the capsule structure may cause by multiple mechanisms, such as exchange of capsular genes and entire clusters by horizontal transfer, gene duplication, deletion, fusion and the presence of homopolymeric G tracts in several cps genes (kpsC) capsule polysaccharide modification protein [Capsule (VF0323) - Immune modulation (VFC0258)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000005.1_25 100.0 0.0 kpsS VF0323 Capsule Immune modulation VFC0258 Major antigenic component of the classic Penner serotyping system; Variation in the capsule structure may cause by multiple mechanisms, such as exchange of capsular genes and entire clusters by horizontal transfer, gene duplication, deletion, fusion and the presence of homopolymeric G tracts in several cps genes (kpsS) capsule polysaccharide modification protein [Capsule (VF0323) - Immune modulation (VFC0258)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000005.1_30 99.438 7.21E-127 fliL VF0114 Flagella Motility VFC0204 Two different (approximately 59-kDa) flagellin subunits, FlaA and FlaB are subject to both antigenic variation and phase variation; The expression of FlaA and FlaB is controlled by different transcription factors, namely the alternative sigma28 (FlaA) and sigma54 (FlaB) transcription factors; post-translationally modified through O-linked glycosylation. The major modification are pseudaminic acid (Pse5Ac7Ac), a nine carbon sugar that is similar to sialic acid, and an acetamidino-substituted pseudaminic acid (PseAm). There are also minor amounts of a dihydroxyproprionyl form (Pse5Pr7Pr) and an O-acetylated form (Pse5Ac7Ac8OAc); the exact role of glycosylation is unknown. The modification appears to be important for flagellar assembly and may be required for recognition by the flagellar secretion/assembly apparatus (fliL) flagellar basal body protein FliL [Flagella (VF0114) - Motility (VFC0204)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000005.1_103 99.825 0.0 flaA VF0114 Flagella Motility VFC0204 Two different (approximately 59-kDa) flagellin subunits, FlaA and FlaB are subject to both antigenic variation and phase variation; The expression of FlaA and FlaB is controlled by different transcription factors, namely the alternative sigma28 (FlaA) and sigma54 (FlaB) transcription factors; post-translationally modified through O-linked glycosylation. The major modification are pseudaminic acid (Pse5Ac7Ac), a nine carbon sugar that is similar to sialic acid, and an acetamidino-substituted pseudaminic acid (PseAm). There are also minor amounts of a dihydroxyproprionyl form (Pse5Pr7Pr) and an O-acetylated form (Pse5Ac7Ac8OAc); the exact role of glycosylation is unknown. The modification appears to be important for flagellar assembly and may be required for recognition by the flagellar secretion/assembly apparatus (flaA) flagellin [Flagella (VF0114) - Motility (VFC0204)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000005.1_104 100.0 0.0 flaB VF0114 Flagella Motility VFC0204 Two different (approximately 59-kDa) flagellin subunits, FlaA and FlaB are subject to both antigenic variation and phase variation; The expression of FlaA and FlaB is controlled by different transcription factors, namely the alternative sigma28 (FlaA) and sigma54 (FlaB) transcription factors; post-translationally modified through O-linked glycosylation. The major modification are pseudaminic acid (Pse5Ac7Ac), a nine carbon sugar that is similar to sialic acid, and an acetamidino-substituted pseudaminic acid (PseAm). There are also minor amounts of a dihydroxyproprionyl form (Pse5Pr7Pr) and an O-acetylated form (Pse5Ac7Ac8OAc); the exact role of glycosylation is unknown. The modification appears to be important for flagellar assembly and may be required for recognition by the flagellar secretion/assembly apparatus (flaB) flagellin [Flagella (VF0114) - Motility (VFC0204)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000005.1_105 99.841 0.0 pseE/maf5 VF0114 Flagella Motility VFC0204 Two different (approximately 59-kDa) flagellin subunits, FlaA and FlaB are subject to both antigenic variation and phase variation; The expression of FlaA and FlaB is controlled by different transcription factors, namely the alternative sigma28 (FlaA) and sigma54 (FlaB) transcription factors; post-translationally modified through O-linked glycosylation. The major modification are pseudaminic acid (Pse5Ac7Ac), a nine carbon sugar that is similar to sialic acid, and an acetamidino-substituted pseudaminic acid (PseAm). There are also minor amounts of a dihydroxyproprionyl form (Pse5Pr7Pr) and an O-acetylated form (Pse5Ac7Ac8OAc); the exact role of glycosylation is unknown. The modification appears to be important for flagellar assembly and may be required for recognition by the flagellar secretion/assembly apparatus (pseE/maf5) motility accessory factor PseE [Flagella (VF0114) - Motility (VFC0204)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000005.1_106 96.284 0.0 maf4 VF0114 Flagella Motility VFC0204 Two different (approximately 59-kDa) flagellin subunits, FlaA and FlaB are subject to both antigenic variation and phase variation; The expression of FlaA and FlaB is controlled by different transcription factors, namely the alternative sigma28 (FlaA) and sigma54 (FlaB) transcription factors; post-translationally modified through O-linked glycosylation. The major modification are pseudaminic acid (Pse5Ac7Ac), a nine carbon sugar that is similar to sialic acid, and an acetamidino-substituted pseudaminic acid (PseAm). There are also minor amounts of a dihydroxyproprionyl form (Pse5Pr7Pr) and an O-acetylated form (Pse5Ac7Ac8OAc); the exact role of glycosylation is unknown. The modification appears to be important for flagellar assembly and may be required for recognition by the flagellar secretion/assembly apparatus (maf4) motility accessory factor [Flagella (VF0114) - Motility (VFC0204)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000005.1_107 100.0 3.12E-33 maf4 VF0114 Flagella Motility VFC0204 Two different (approximately 59-kDa) flagellin subunits, FlaA and FlaB are subject to both antigenic variation and phase variation; The expression of FlaA and FlaB is controlled by different transcription factors, namely the alternative sigma28 (FlaA) and sigma54 (FlaB) transcription factors; post-translationally modified through O-linked glycosylation. The major modification are pseudaminic acid (Pse5Ac7Ac), a nine carbon sugar that is similar to sialic acid, and an acetamidino-substituted pseudaminic acid (PseAm). There are also minor amounts of a dihydroxyproprionyl form (Pse5Pr7Pr) and an O-acetylated form (Pse5Ac7Ac8OAc); the exact role of glycosylation is unknown. The modification appears to be important for flagellar assembly and may be required for recognition by the flagellar secretion/assembly apparatus (maf4) motility accessory factor [Flagella (VF0114) - Motility (VFC0204)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000005.1_109 99.385 0.0 pseD/maf2 VF0114 Flagella Motility VFC0204 Two different (approximately 59-kDa) flagellin subunits, FlaA and FlaB are subject to both antigenic variation and phase variation; The expression of FlaA and FlaB is controlled by different transcription factors, namely the alternative sigma28 (FlaA) and sigma54 (FlaB) transcription factors; post-translationally modified through O-linked glycosylation. The major modification are pseudaminic acid (Pse5Ac7Ac), a nine carbon sugar that is similar to sialic acid, and an acetamidino-substituted pseudaminic acid (PseAm). There are also minor amounts of a dihydroxyproprionyl form (Pse5Pr7Pr) and an O-acetylated form (Pse5Ac7Ac8OAc); the exact role of glycosylation is unknown. The modification appears to be important for flagellar assembly and may be required for recognition by the flagellar secretion/assembly apparatus (pseD/maf2) motility accessory factor PseD [Flagella (VF0114) - Motility (VFC0204)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000005.1_110 100.0 0.0 ptmA VF0114 Flagella Motility VFC0204 Two different (approximately 59-kDa) flagellin subunits, FlaA and FlaB are subject to both antigenic variation and phase variation; The expression of FlaA and FlaB is controlled by different transcription factors, namely the alternative sigma28 (FlaA) and sigma54 (FlaB) transcription factors; post-translationally modified through O-linked glycosylation. The major modification are pseudaminic acid (Pse5Ac7Ac), a nine carbon sugar that is similar to sialic acid, and an acetamidino-substituted pseudaminic acid (PseAm). There are also minor amounts of a dihydroxyproprionyl form (Pse5Pr7Pr) and an O-acetylated form (Pse5Ac7Ac8OAc); the exact role of glycosylation is unknown. The modification appears to be important for flagellar assembly and may be required for recognition by the flagellar secretion/assembly apparatus (ptmA) flagellin modification protein A [Flagella (VF0114) - Motility (VFC0204)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000005.1_111 100.0 1.68E-176 ptmB VF0114 Flagella Motility VFC0204 Two different (approximately 59-kDa) flagellin subunits, FlaA and FlaB are subject to both antigenic variation and phase variation; The expression of FlaA and FlaB is controlled by different transcription factors, namely the alternative sigma28 (FlaA) and sigma54 (FlaB) transcription factors; post-translationally modified through O-linked glycosylation. The major modification are pseudaminic acid (Pse5Ac7Ac), a nine carbon sugar that is similar to sialic acid, and an acetamidino-substituted pseudaminic acid (PseAm). There are also minor amounts of a dihydroxyproprionyl form (Pse5Pr7Pr) and an O-acetylated form (Pse5Ac7Ac8OAc); the exact role of glycosylation is unknown. The modification appears to be important for flagellar assembly and may be required for recognition by the flagellar secretion/assembly apparatus (ptmB) acylneuraminate cytidylyltransferase [Flagella (VF0114) - Motility (VFC0204)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000005.1_125 87.585 0.0 maf4 VF0114 Flagella Motility VFC0204 Two different (approximately 59-kDa) flagellin subunits, FlaA and FlaB are subject to both antigenic variation and phase variation; The expression of FlaA and FlaB is controlled by different transcription factors, namely the alternative sigma28 (FlaA) and sigma54 (FlaB) transcription factors; post-translationally modified through O-linked glycosylation. The major modification are pseudaminic acid (Pse5Ac7Ac), a nine carbon sugar that is similar to sialic acid, and an acetamidino-substituted pseudaminic acid (PseAm). There are also minor amounts of a dihydroxyproprionyl form (Pse5Pr7Pr) and an O-acetylated form (Pse5Ac7Ac8OAc); the exact role of glycosylation is unknown. The modification appears to be important for flagellar assembly and may be required for recognition by the flagellar secretion/assembly apparatus (maf4) motility accessory factor [Flagella (VF0114) - Motility (VFC0204)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000005.1_126 100.0 3.12E-33 maf4 VF0114 Flagella Motility VFC0204 Two different (approximately 59-kDa) flagellin subunits, FlaA and FlaB are subject to both antigenic variation and phase variation; The expression of FlaA and FlaB is controlled by different transcription factors, namely the alternative sigma28 (FlaA) and sigma54 (FlaB) transcription factors; post-translationally modified through O-linked glycosylation. The major modification are pseudaminic acid (Pse5Ac7Ac), a nine carbon sugar that is similar to sialic acid, and an acetamidino-substituted pseudaminic acid (PseAm). There are also minor amounts of a dihydroxyproprionyl form (Pse5Pr7Pr) and an O-acetylated form (Pse5Ac7Ac8OAc); the exact role of glycosylation is unknown. The modification appears to be important for flagellar assembly and may be required for recognition by the flagellar secretion/assembly apparatus (maf4) motility accessory factor [Flagella (VF0114) - Motility (VFC0204)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000005.1_127 97.085 0.0 pseI VF0114 Flagella Motility VFC0204 Two different (approximately 59-kDa) flagellin subunits, FlaA and FlaB are subject to both antigenic variation and phase variation; The expression of FlaA and FlaB is controlled by different transcription factors, namely the alternative sigma28 (FlaA) and sigma54 (FlaB) transcription factors; post-translationally modified through O-linked glycosylation. The major modification are pseudaminic acid (Pse5Ac7Ac), a nine carbon sugar that is similar to sialic acid, and an acetamidino-substituted pseudaminic acid (PseAm). There are also minor amounts of a dihydroxyproprionyl form (Pse5Pr7Pr) and an O-acetylated form (Pse5Ac7Ac8OAc); the exact role of glycosylation is unknown. The modification appears to be important for flagellar assembly and may be required for recognition by the flagellar secretion/assembly apparatus (pseI) N-acetylneuraminic acid synthetase [Flagella (VF0114) - Motility (VFC0204)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000005.1_128 99.471 0.0 pseA VF0114 Flagella Motility VFC0204 Two different (approximately 59-kDa) flagellin subunits, FlaA and FlaB are subject to both antigenic variation and phase variation; The expression of FlaA and FlaB is controlled by different transcription factors, namely the alternative sigma28 (FlaA) and sigma54 (FlaB) transcription factors; post-translationally modified through O-linked glycosylation. The major modification are pseudaminic acid (Pse5Ac7Ac), a nine carbon sugar that is similar to sialic acid, and an acetamidino-substituted pseudaminic acid (PseAm). There are also minor amounts of a dihydroxyproprionyl form (Pse5Pr7Pr) and an O-acetylated form (Pse5Ac7Ac8OAc); the exact role of glycosylation is unknown. The modification appears to be important for flagellar assembly and may be required for recognition by the flagellar secretion/assembly apparatus (pseA) pseudaminic acid biosynthesis PseA protein [Flagella (VF0114) - Motility (VFC0204)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000005.1_131 74.522 5.18E-84 pseH VF0114 Flagella Motility VFC0204 Two different (approximately 59-kDa) flagellin subunits, FlaA and FlaB are subject to both antigenic variation and phase variation; The expression of FlaA and FlaB is controlled by different transcription factors, namely the alternative sigma28 (FlaA) and sigma54 (FlaB) transcription factors; post-translationally modified through O-linked glycosylation. The major modification are pseudaminic acid (Pse5Ac7Ac), a nine carbon sugar that is similar to sialic acid, and an acetamidino-substituted pseudaminic acid (PseAm). There are also minor amounts of a dihydroxyproprionyl form (Pse5Pr7Pr) and an O-acetylated form (Pse5Ac7Ac8OAc); the exact role of glycosylation is unknown. The modification appears to be important for flagellar assembly and may be required for recognition by the flagellar secretion/assembly apparatus (pseH) N-acetyltransferase [Flagella (VF0114) - Motility (VFC0204)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000005.1_132 86.813 1.96E-174 pseG VF0114 Flagella Motility VFC0204 Two different (approximately 59-kDa) flagellin subunits, FlaA and FlaB are subject to both antigenic variation and phase variation; The expression of FlaA and FlaB is controlled by different transcription factors, namely the alternative sigma28 (FlaA) and sigma54 (FlaB) transcription factors; post-translationally modified through O-linked glycosylation. The major modification are pseudaminic acid (Pse5Ac7Ac), a nine carbon sugar that is similar to sialic acid, and an acetamidino-substituted pseudaminic acid (PseAm). There are also minor amounts of a dihydroxyproprionyl form (Pse5Pr7Pr) and an O-acetylated form (Pse5Ac7Ac8OAc); the exact role of glycosylation is unknown. The modification appears to be important for flagellar assembly and may be required for recognition by the flagellar secretion/assembly apparatus (pseG) UDP-2,4-diacetamido-2,4,6-trideoxy-beta-L-altropyranose hydrolase [Flagella (VF0114) - Motility (VFC0204)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000005.1_133 98.276 4.14E-173 pseF VF0114 Flagella Motility VFC0204 Two different (approximately 59-kDa) flagellin subunits, FlaA and FlaB are subject to both antigenic variation and phase variation; The expression of FlaA and FlaB is controlled by different transcription factors, namely the alternative sigma28 (FlaA) and sigma54 (FlaB) transcription factors; post-translationally modified through O-linked glycosylation. The major modification are pseudaminic acid (Pse5Ac7Ac), a nine carbon sugar that is similar to sialic acid, and an acetamidino-substituted pseudaminic acid (PseAm). There are also minor amounts of a dihydroxyproprionyl form (Pse5Pr7Pr) and an O-acetylated form (Pse5Ac7Ac8OAc); the exact role of glycosylation is unknown. The modification appears to be important for flagellar assembly and may be required for recognition by the flagellar secretion/assembly apparatus (pseF) acylneuraminate cytidylyltransferase [Flagella (VF0114) - Motility (VFC0204)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000005.1_151 94.947 0.0 pseC VF0114 Flagella Motility VFC0204 Two different (approximately 59-kDa) flagellin subunits, FlaA and FlaB are subject to both antigenic variation and phase variation; The expression of FlaA and FlaB is controlled by different transcription factors, namely the alternative sigma28 (FlaA) and sigma54 (FlaB) transcription factors; post-translationally modified through O-linked glycosylation. The major modification are pseudaminic acid (Pse5Ac7Ac), a nine carbon sugar that is similar to sialic acid, and an acetamidino-substituted pseudaminic acid (PseAm). There are also minor amounts of a dihydroxyproprionyl form (Pse5Pr7Pr) and an O-acetylated form (Pse5Ac7Ac8OAc); the exact role of glycosylation is unknown. The modification appears to be important for flagellar assembly and may be required for recognition by the flagellar secretion/assembly apparatus (pseC) C4 aminotransferase [Flagella (VF0114) - Motility (VFC0204)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000005.1_152 98.802 0.0 pseB VF0114 Flagella Motility VFC0204 Two different (approximately 59-kDa) flagellin subunits, FlaA and FlaB are subject to both antigenic variation and phase variation; The expression of FlaA and FlaB is controlled by different transcription factors, namely the alternative sigma28 (FlaA) and sigma54 (FlaB) transcription factors; post-translationally modified through O-linked glycosylation. The major modification are pseudaminic acid (Pse5Ac7Ac), a nine carbon sugar that is similar to sialic acid, and an acetamidino-substituted pseudaminic acid (PseAm). There are also minor amounts of a dihydroxyproprionyl form (Pse5Pr7Pr) and an O-acetylated form (Pse5Ac7Ac8OAc); the exact role of glycosylation is unknown. The modification appears to be important for flagellar assembly and may be required for recognition by the flagellar secretion/assembly apparatus (pseB) UDP-GlcNAc-specific C4,6 dehydratase/C5 epimerase [Flagella (VF0114) - Motility (VFC0204)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000005.1_165 100.0 0.0 Cj1279c VF0637 FlpA Adherence VFC0001 (Cj1279c) fibronectin domain-containing lipoprotein [FlpA (VF0637) - Adherence (VFC0001)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000004.1_22 98.79 1.43E-174 flaC VF0114 Flagella Motility VFC0204 Two different (approximately 59-kDa) flagellin subunits, FlaA and FlaB are subject to both antigenic variation and phase variation; The expression of FlaA and FlaB is controlled by different transcription factors, namely the alternative sigma28 (FlaA) and sigma54 (FlaB) transcription factors; post-translationally modified through O-linked glycosylation. The major modification are pseudaminic acid (Pse5Ac7Ac), a nine carbon sugar that is similar to sialic acid, and an acetamidino-substituted pseudaminic acid (PseAm). There are also minor amounts of a dihydroxyproprionyl form (Pse5Pr7Pr) and an O-acetylated form (Pse5Ac7Ac8OAc); the exact role of glycosylation is unknown. The modification appears to be important for flagellar assembly and may be required for recognition by the flagellar secretion/assembly apparatus (flaC) a secreted effector flagellin [Flagella (VF0114) - Motility (VFC0204)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000004.1_44 100.0 0.0 flgG VF0114 Flagella Motility VFC0204 Two different (approximately 59-kDa) flagellin subunits, FlaA and FlaB are subject to both antigenic variation and phase variation; The expression of FlaA and FlaB is controlled by different transcription factors, namely the alternative sigma28 (FlaA) and sigma54 (FlaB) transcription factors; post-translationally modified through O-linked glycosylation. The major modification are pseudaminic acid (Pse5Ac7Ac), a nine carbon sugar that is similar to sialic acid, and an acetamidino-substituted pseudaminic acid (PseAm). There are also minor amounts of a dihydroxyproprionyl form (Pse5Pr7Pr) and an O-acetylated form (Pse5Ac7Ac8OAc); the exact role of glycosylation is unknown. The modification appears to be important for flagellar assembly and may be required for recognition by the flagellar secretion/assembly apparatus (flgG) flagellar basal-body rod protein FlgG [Flagella (VF0114) - Motility (VFC0204)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000004.1_45 99.63 0.0 flgG2 VF0114 Flagella Motility VFC0204 Two different (approximately 59-kDa) flagellin subunits, FlaA and FlaB are subject to both antigenic variation and phase variation; The expression of FlaA and FlaB is controlled by different transcription factors, namely the alternative sigma28 (FlaA) and sigma54 (FlaB) transcription factors; post-translationally modified through O-linked glycosylation. The major modification are pseudaminic acid (Pse5Ac7Ac), a nine carbon sugar that is similar to sialic acid, and an acetamidino-substituted pseudaminic acid (PseAm). There are also minor amounts of a dihydroxyproprionyl form (Pse5Pr7Pr) and an O-acetylated form (Pse5Ac7Ac8OAc); the exact role of glycosylation is unknown. The modification appears to be important for flagellar assembly and may be required for recognition by the flagellar secretion/assembly apparatus (flgG2) flagellar basal-body rod protein [Flagella (VF0114) - Motility (VFC0204)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000004.1_56 99.138 5.96E-172 flgH VF0114 Flagella Motility VFC0204 Two different (approximately 59-kDa) flagellin subunits, FlaA and FlaB are subject to both antigenic variation and phase variation; The expression of FlaA and FlaB is controlled by different transcription factors, namely the alternative sigma28 (FlaA) and sigma54 (FlaB) transcription factors; post-translationally modified through O-linked glycosylation. The major modification are pseudaminic acid (Pse5Ac7Ac), a nine carbon sugar that is similar to sialic acid, and an acetamidino-substituted pseudaminic acid (PseAm). There are also minor amounts of a dihydroxyproprionyl form (Pse5Pr7Pr) and an O-acetylated form (Pse5Ac7Ac8OAc); the exact role of glycosylation is unknown. The modification appears to be important for flagellar assembly and may be required for recognition by the flagellar secretion/assembly apparatus (flgH) flagellar L-ring protein precursor FlgH [Flagella (VF0114) - Motility (VFC0204)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000004.1_73 100.0 0.0 rpoN VF0114 Flagella Motility VFC0204 Two different (approximately 59-kDa) flagellin subunits, FlaA and FlaB are subject to both antigenic variation and phase variation; The expression of FlaA and FlaB is controlled by different transcription factors, namely the alternative sigma28 (FlaA) and sigma54 (FlaB) transcription factors; post-translationally modified through O-linked glycosylation. The major modification are pseudaminic acid (Pse5Ac7Ac), a nine carbon sugar that is similar to sialic acid, and an acetamidino-substituted pseudaminic acid (PseAm). There are also minor amounts of a dihydroxyproprionyl form (Pse5Pr7Pr) and an O-acetylated form (Pse5Ac7Ac8OAc); the exact role of glycosylation is unknown. The modification appears to be important for flagellar assembly and may be required for recognition by the flagellar secretion/assembly apparatus (rpoN) RNA polymerase factor sigma-54 [Flagella (VF0114) - Motility (VFC0204)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000003.1_13 99.665 0.0 fliK VF0114 Flagella Motility VFC0204 Two different (approximately 59-kDa) flagellin subunits, FlaA and FlaB are subject to both antigenic variation and phase variation; The expression of FlaA and FlaB is controlled by different transcription factors, namely the alternative sigma28 (FlaA) and sigma54 (FlaB) transcription factors; post-translationally modified through O-linked glycosylation. The major modification are pseudaminic acid (Pse5Ac7Ac), a nine carbon sugar that is similar to sialic acid, and an acetamidino-substituted pseudaminic acid (PseAm). There are also minor amounts of a dihydroxyproprionyl form (Pse5Pr7Pr) and an O-acetylated form (Pse5Ac7Ac8OAc); the exact role of glycosylation is unknown. The modification appears to be important for flagellar assembly and may be required for recognition by the flagellar secretion/assembly apparatus (fliK) flagellar hook-length control protein FliK [Flagella (VF0114) - Motility (VFC0204)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000003.1_14 100.0 0.0 flgD VF0114 Flagella Motility VFC0204 Two different (approximately 59-kDa) flagellin subunits, FlaA and FlaB are subject to both antigenic variation and phase variation; The expression of FlaA and FlaB is controlled by different transcription factors, namely the alternative sigma28 (FlaA) and sigma54 (FlaB) transcription factors; post-translationally modified through O-linked glycosylation. The major modification are pseudaminic acid (Pse5Ac7Ac), a nine carbon sugar that is similar to sialic acid, and an acetamidino-substituted pseudaminic acid (PseAm). There are also minor amounts of a dihydroxyproprionyl form (Pse5Pr7Pr) and an O-acetylated form (Pse5Ac7Ac8OAc); the exact role of glycosylation is unknown. The modification appears to be important for flagellar assembly and may be required for recognition by the flagellar secretion/assembly apparatus (flgD) flagellar basal-body rod modification protein FlgD [Flagella (VF0114) - Motility (VFC0204)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000003.1_15 99.817 0.0 flgE VF0114 Flagella Motility VFC0204 Two different (approximately 59-kDa) flagellin subunits, FlaA and FlaB are subject to both antigenic variation and phase variation; The expression of FlaA and FlaB is controlled by different transcription factors, namely the alternative sigma28 (FlaA) and sigma54 (FlaB) transcription factors; post-translationally modified through O-linked glycosylation. The major modification are pseudaminic acid (Pse5Ac7Ac), a nine carbon sugar that is similar to sialic acid, and an acetamidino-substituted pseudaminic acid (PseAm). There are also minor amounts of a dihydroxyproprionyl form (Pse5Pr7Pr) and an O-acetylated form (Pse5Ac7Ac8OAc); the exact role of glycosylation is unknown. The modification appears to be important for flagellar assembly and may be required for recognition by the flagellar secretion/assembly apparatus (flgE) flagellar hook protein FlgE [Flagella (VF0114) - Motility (VFC0204)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000003.1_28 100.0 0.0 fliY VF0114 Flagella Motility VFC0204 Two different (approximately 59-kDa) flagellin subunits, FlaA and FlaB are subject to both antigenic variation and phase variation; The expression of FlaA and FlaB is controlled by different transcription factors, namely the alternative sigma28 (FlaA) and sigma54 (FlaB) transcription factors; post-translationally modified through O-linked glycosylation. The major modification are pseudaminic acid (Pse5Ac7Ac), a nine carbon sugar that is similar to sialic acid, and an acetamidino-substituted pseudaminic acid (PseAm). There are also minor amounts of a dihydroxyproprionyl form (Pse5Pr7Pr) and an O-acetylated form (Pse5Ac7Ac8OAc); the exact role of glycosylation is unknown. The modification appears to be important for flagellar assembly and may be required for recognition by the flagellar secretion/assembly apparatus (fliY) flagellar motor switch protein FliY [Flagella (VF0114) - Motility (VFC0204)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000003.1_29 100.0 0.0 fliM VF0114 Flagella Motility VFC0204 Two different (approximately 59-kDa) flagellin subunits, FlaA and FlaB are subject to both antigenic variation and phase variation; The expression of FlaA and FlaB is controlled by different transcription factors, namely the alternative sigma28 (FlaA) and sigma54 (FlaB) transcription factors; post-translationally modified through O-linked glycosylation. The major modification are pseudaminic acid (Pse5Ac7Ac), a nine carbon sugar that is similar to sialic acid, and an acetamidino-substituted pseudaminic acid (PseAm). There are also minor amounts of a dihydroxyproprionyl form (Pse5Pr7Pr) and an O-acetylated form (Pse5Ac7Ac8OAc); the exact role of glycosylation is unknown. The modification appears to be important for flagellar assembly and may be required for recognition by the flagellar secretion/assembly apparatus (fliM) flagellar motor switch protein FliM [Flagella (VF0114) - Motility (VFC0204)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000003.1_30 100.0 1.35E-171 fliA VF0114 Flagella Motility VFC0204 Two different (approximately 59-kDa) flagellin subunits, FlaA and FlaB are subject to both antigenic variation and phase variation; The expression of FlaA and FlaB is controlled by different transcription factors, namely the alternative sigma28 (FlaA) and sigma54 (FlaB) transcription factors; post-translationally modified through O-linked glycosylation. The major modification are pseudaminic acid (Pse5Ac7Ac), a nine carbon sugar that is similar to sialic acid, and an acetamidino-substituted pseudaminic acid (PseAm). There are also minor amounts of a dihydroxyproprionyl form (Pse5Pr7Pr) and an O-acetylated form (Pse5Ac7Ac8OAc); the exact role of glycosylation is unknown. The modification appears to be important for flagellar assembly and may be required for recognition by the flagellar secretion/assembly apparatus (fliA) flagellar biosynthesis sigma factor [Flagella (VF0114) - Motility (VFC0204)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000003.1_32 100.0 0.0 flhG VF0114 Flagella Motility VFC0204 Two different (approximately 59-kDa) flagellin subunits, FlaA and FlaB are subject to both antigenic variation and phase variation; The expression of FlaA and FlaB is controlled by different transcription factors, namely the alternative sigma28 (FlaA) and sigma54 (FlaB) transcription factors; post-translationally modified through O-linked glycosylation. The major modification are pseudaminic acid (Pse5Ac7Ac), a nine carbon sugar that is similar to sialic acid, and an acetamidino-substituted pseudaminic acid (PseAm). There are also minor amounts of a dihydroxyproprionyl form (Pse5Pr7Pr) and an O-acetylated form (Pse5Ac7Ac8OAc); the exact role of glycosylation is unknown. The modification appears to be important for flagellar assembly and may be required for recognition by the flagellar secretion/assembly apparatus (flhG) ATP-binding protein [Flagella (VF0114) - Motility (VFC0204)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000003.1_33 100.0 0.0 flhF VF0114 Flagella Motility VFC0204 Two different (approximately 59-kDa) flagellin subunits, FlaA and FlaB are subject to both antigenic variation and phase variation; The expression of FlaA and FlaB is controlled by different transcription factors, namely the alternative sigma28 (FlaA) and sigma54 (FlaB) transcription factors; post-translationally modified through O-linked glycosylation. The major modification are pseudaminic acid (Pse5Ac7Ac), a nine carbon sugar that is similar to sialic acid, and an acetamidino-substituted pseudaminic acid (PseAm). There are also minor amounts of a dihydroxyproprionyl form (Pse5Pr7Pr) and an O-acetylated form (Pse5Ac7Ac8OAc); the exact role of glycosylation is unknown. The modification appears to be important for flagellar assembly and may be required for recognition by the flagellar secretion/assembly apparatus (flhF) flagellar biosynthesis regulator FlhF [Flagella (VF0114) - Motility (VFC0204)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000003.1_45 100.0 1.04E-137 cdtC VF0115 CDT Exotoxin VFC0235 (cdtC) cytolethal distending toxin C [CDT (VF0115) - Exotoxin (VFC0235)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000003.1_46 100.0 0.0 cdtB VF0115 CDT Exotoxin VFC0235 (cdtB) cytolethal distending toxin B [CDT (VF0115) - Exotoxin (VFC0235)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000003.1_47 100.0 0.0 cdtA VF0115 CDT Exotoxin VFC0235 (cdtA) cytolethal distending toxin A [CDT (VF0115) - Exotoxin (VFC0235)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000003.1_159 67.021 1.46E-93 clpP VF0074 ClpP Stress survival VFC0282 21.6 kDa protein belongs to a family of proteases highly conserved in prokaryotes and eukaryotes (clpP) ATP-dependent Clp protease proteolytic subunit [ClpP (VF0074) - Stress survival (VFC0282)] [Listeria monocytogenes EGD-e] Listeria monocytogenes
AANJ01000003.1_162 100.0 0.0 fliI VF0114 Flagella Motility VFC0204 Two different (approximately 59-kDa) flagellin subunits, FlaA and FlaB are subject to both antigenic variation and phase variation; The expression of FlaA and FlaB is controlled by different transcription factors, namely the alternative sigma28 (FlaA) and sigma54 (FlaB) transcription factors; post-translationally modified through O-linked glycosylation. The major modification are pseudaminic acid (Pse5Ac7Ac), a nine carbon sugar that is similar to sialic acid, and an acetamidino-substituted pseudaminic acid (PseAm). There are also minor amounts of a dihydroxyproprionyl form (Pse5Pr7Pr) and an O-acetylated form (Pse5Ac7Ac8OAc); the exact role of glycosylation is unknown. The modification appears to be important for flagellar assembly and may be required for recognition by the flagellar secretion/assembly apparatus (fliI) flagellum-specific ATP synthase FliI [Flagella (VF0114) - Motility (VFC0204)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000003.1_215 100.0 0.0 eptC VF0114 Flagella Motility VFC0204 Two different (approximately 59-kDa) flagellin subunits, FlaA and FlaB are subject to both antigenic variation and phase variation; The expression of FlaA and FlaB is controlled by different transcription factors, namely the alternative sigma28 (FlaA) and sigma54 (FlaB) transcription factors; post-translationally modified through O-linked glycosylation. The major modification are pseudaminic acid (Pse5Ac7Ac), a nine carbon sugar that is similar to sialic acid, and an acetamidino-substituted pseudaminic acid (PseAm). There are also minor amounts of a dihydroxyproprionyl form (Pse5Pr7Pr) and an O-acetylated form (Pse5Ac7Ac8OAc); the exact role of glycosylation is unknown. The modification appears to be important for flagellar assembly and may be required for recognition by the flagellar secretion/assembly apparatus (eptC) phosphoethanolamine transferase [Flagella (VF0114) - Motility (VFC0204)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000003.1_242 100.0 4.99E-126 cheW VF0114 Flagella Motility VFC0204 Two different (approximately 59-kDa) flagellin subunits, FlaA and FlaB are subject to both antigenic variation and phase variation; The expression of FlaA and FlaB is controlled by different transcription factors, namely the alternative sigma28 (FlaA) and sigma54 (FlaB) transcription factors; post-translationally modified through O-linked glycosylation. The major modification are pseudaminic acid (Pse5Ac7Ac), a nine carbon sugar that is similar to sialic acid, and an acetamidino-substituted pseudaminic acid (PseAm). There are also minor amounts of a dihydroxyproprionyl form (Pse5Pr7Pr) and an O-acetylated form (Pse5Ac7Ac8OAc); the exact role of glycosylation is unknown. The modification appears to be important for flagellar assembly and may be required for recognition by the flagellar secretion/assembly apparatus (cheW) chemotaxis protein [Flagella (VF0114) - Motility (VFC0204)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000003.1_243 99.87 0.0 cheA VF0114 Flagella Motility VFC0204 Two different (approximately 59-kDa) flagellin subunits, FlaA and FlaB are subject to both antigenic variation and phase variation; The expression of FlaA and FlaB is controlled by different transcription factors, namely the alternative sigma28 (FlaA) and sigma54 (FlaB) transcription factors; post-translationally modified through O-linked glycosylation. The major modification are pseudaminic acid (Pse5Ac7Ac), a nine carbon sugar that is similar to sialic acid, and an acetamidino-substituted pseudaminic acid (PseAm). There are also minor amounts of a dihydroxyproprionyl form (Pse5Pr7Pr) and an O-acetylated form (Pse5Ac7Ac8OAc); the exact role of glycosylation is unknown. The modification appears to be important for flagellar assembly and may be required for recognition by the flagellar secretion/assembly apparatus (cheA) chemotaxis histidine kinase [Flagella (VF0114) - Motility (VFC0204)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000003.1_244 100.0 0.0 cheV VF0114 Flagella Motility VFC0204 Two different (approximately 59-kDa) flagellin subunits, FlaA and FlaB are subject to both antigenic variation and phase variation; The expression of FlaA and FlaB is controlled by different transcription factors, namely the alternative sigma28 (FlaA) and sigma54 (FlaB) transcription factors; post-translationally modified through O-linked glycosylation. The major modification are pseudaminic acid (Pse5Ac7Ac), a nine carbon sugar that is similar to sialic acid, and an acetamidino-substituted pseudaminic acid (PseAm). There are also minor amounts of a dihydroxyproprionyl form (Pse5Pr7Pr) and an O-acetylated form (Pse5Ac7Ac8OAc); the exact role of glycosylation is unknown. The modification appears to be important for flagellar assembly and may be required for recognition by the flagellar secretion/assembly apparatus (cheV) chemotaxis protein [Flagella (VF0114) - Motility (VFC0204)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000002.1_32 100.0 1.18E-57 fliQ VF0114 Flagella Motility VFC0204 Two different (approximately 59-kDa) flagellin subunits, FlaA and FlaB are subject to both antigenic variation and phase variation; The expression of FlaA and FlaB is controlled by different transcription factors, namely the alternative sigma28 (FlaA) and sigma54 (FlaB) transcription factors; post-translationally modified through O-linked glycosylation. The major modification are pseudaminic acid (Pse5Ac7Ac), a nine carbon sugar that is similar to sialic acid, and an acetamidino-substituted pseudaminic acid (PseAm). There are also minor amounts of a dihydroxyproprionyl form (Pse5Pr7Pr) and an O-acetylated form (Pse5Ac7Ac8OAc); the exact role of glycosylation is unknown. The modification appears to be important for flagellar assembly and may be required for recognition by the flagellar secretion/assembly apparatus (fliQ) flagellar biosynthesis protein FliQ [Flagella (VF0114) - Motility (VFC0204)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000002.1_140 100.0 0.0 pflA VF0114 Flagella Motility VFC0204 Two different (approximately 59-kDa) flagellin subunits, FlaA and FlaB are subject to both antigenic variation and phase variation; The expression of FlaA and FlaB is controlled by different transcription factors, namely the alternative sigma28 (FlaA) and sigma54 (FlaB) transcription factors; post-translationally modified through O-linked glycosylation. The major modification are pseudaminic acid (Pse5Ac7Ac), a nine carbon sugar that is similar to sialic acid, and an acetamidino-substituted pseudaminic acid (PseAm). There are also minor amounts of a dihydroxyproprionyl form (Pse5Pr7Pr) and an O-acetylated form (Pse5Ac7Ac8OAc); the exact role of glycosylation is unknown. The modification appears to be important for flagellar assembly and may be required for recognition by the flagellar secretion/assembly apparatus (pflA) paralysed flagellum protein [Flagella (VF0114) - Motility (VFC0204)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000002.1_218 100.0 0.0 cadF VF0322 CadF Adherence VFC0001 (cadF) outer membrane fibronectin-binding protein [CadF (VF0322) - Adherence (VFC0001)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000002.1_229 100.0 0.0 flgK VF0114 Flagella Motility VFC0204 Two different (approximately 59-kDa) flagellin subunits, FlaA and FlaB are subject to both antigenic variation and phase variation; The expression of FlaA and FlaB is controlled by different transcription factors, namely the alternative sigma28 (FlaA) and sigma54 (FlaB) transcription factors; post-translationally modified through O-linked glycosylation. The major modification are pseudaminic acid (Pse5Ac7Ac), a nine carbon sugar that is similar to sialic acid, and an acetamidino-substituted pseudaminic acid (PseAm). There are also minor amounts of a dihydroxyproprionyl form (Pse5Pr7Pr) and an O-acetylated form (Pse5Ac7Ac8OAc); the exact role of glycosylation is unknown. The modification appears to be important for flagellar assembly and may be required for recognition by the flagellar secretion/assembly apparatus (flgK) flagellar hook-associated protein 1 FlgK [Flagella (VF0114) - Motility (VFC0204)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000002.1_231 100.0 2.1E-41 flgM VF0114 Flagella Motility VFC0204 Two different (approximately 59-kDa) flagellin subunits, FlaA and FlaB are subject to both antigenic variation and phase variation; The expression of FlaA and FlaB is controlled by different transcription factors, namely the alternative sigma28 (FlaA) and sigma54 (FlaB) transcription factors; post-translationally modified through O-linked glycosylation. The major modification are pseudaminic acid (Pse5Ac7Ac), a nine carbon sugar that is similar to sialic acid, and an acetamidino-substituted pseudaminic acid (PseAm). There are also minor amounts of a dihydroxyproprionyl form (Pse5Pr7Pr) and an O-acetylated form (Pse5Ac7Ac8OAc); the exact role of glycosylation is unknown. The modification appears to be important for flagellar assembly and may be required for recognition by the flagellar secretion/assembly apparatus (flgM) negative regulator of flagellin synthesis [Flagella (VF0114) - Motility (VFC0204)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000002.1_232 100.0 3.26E-78 flgJ VF0114 Flagella Motility VFC0204 Two different (approximately 59-kDa) flagellin subunits, FlaA and FlaB are subject to both antigenic variation and phase variation; The expression of FlaA and FlaB is controlled by different transcription factors, namely the alternative sigma28 (FlaA) and sigma54 (FlaB) transcription factors; post-translationally modified through O-linked glycosylation. The major modification are pseudaminic acid (Pse5Ac7Ac), a nine carbon sugar that is similar to sialic acid, and an acetamidino-substituted pseudaminic acid (PseAm). There are also minor amounts of a dihydroxyproprionyl form (Pse5Pr7Pr) and an O-acetylated form (Pse5Ac7Ac8OAc); the exact role of glycosylation is unknown. The modification appears to be important for flagellar assembly and may be required for recognition by the flagellar secretion/assembly apparatus (flgJ) flagellar rod assembly protein/muramidase FlgJ [Flagella (VF0114) - Motility (VFC0204)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000002.1_233 99.713 0.0 flgI VF0114 Flagella Motility VFC0204 Two different (approximately 59-kDa) flagellin subunits, FlaA and FlaB are subject to both antigenic variation and phase variation; The expression of FlaA and FlaB is controlled by different transcription factors, namely the alternative sigma28 (FlaA) and sigma54 (FlaB) transcription factors; post-translationally modified through O-linked glycosylation. The major modification are pseudaminic acid (Pse5Ac7Ac), a nine carbon sugar that is similar to sialic acid, and an acetamidino-substituted pseudaminic acid (PseAm). There are also minor amounts of a dihydroxyproprionyl form (Pse5Pr7Pr) and an O-acetylated form (Pse5Ac7Ac8OAc); the exact role of glycosylation is unknown. The modification appears to be important for flagellar assembly and may be required for recognition by the flagellar secretion/assembly apparatus (flgI) flagellar P-ring protein precursor FlgI [Flagella (VF0114) - Motility (VFC0204)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000002.1_247 100.0 0.0 kpsM VF0323 Capsule Immune modulation VFC0258 Major antigenic component of the classic Penner serotyping system; Variation in the capsule structure may cause by multiple mechanisms, such as exchange of capsular genes and entire clusters by horizontal transfer, gene duplication, deletion, fusion and the presence of homopolymeric G tracts in several cps genes (kpsM) capsule polysaccharide ABC transporter permease [Capsule (VF0323) - Immune modulation (VFC0258)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000002.1_248 100.0 1.86E-165 kpsT VF0323 Capsule Immune modulation VFC0258 Major antigenic component of the classic Penner serotyping system; Variation in the capsule structure may cause by multiple mechanisms, such as exchange of capsular genes and entire clusters by horizontal transfer, gene duplication, deletion, fusion and the presence of homopolymeric G tracts in several cps genes (kpsT) capsule polysaccharide ABC transporter ATP-binding protein [Capsule (VF0323) - Immune modulation (VFC0258)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000002.1_249 100.0 0.0 kpsE VF0323 Capsule Immune modulation VFC0258 Major antigenic component of the classic Penner serotyping system; Variation in the capsule structure may cause by multiple mechanisms, such as exchange of capsular genes and entire clusters by horizontal transfer, gene duplication, deletion, fusion and the presence of homopolymeric G tracts in several cps genes (kpsE) capsule polysaccharide ABC transporter permease [Capsule (VF0323) - Immune modulation (VFC0258)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000002.1_250 100.0 0.0 kpsD VF0323 Capsule Immune modulation VFC0258 Major antigenic component of the classic Penner serotyping system; Variation in the capsule structure may cause by multiple mechanisms, such as exchange of capsular genes and entire clusters by horizontal transfer, gene duplication, deletion, fusion and the presence of homopolymeric G tracts in several cps genes (kpsD) capsule polysaccharide ABC transporter substrate-binding protein [Capsule (VF0323) - Immune modulation (VFC0258)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000002.1_251 100.0 0.0 kpsF VF0323 Capsule Immune modulation VFC0258 Major antigenic component of the classic Penner serotyping system; Variation in the capsule structure may cause by multiple mechanisms, such as exchange of capsular genes and entire clusters by horizontal transfer, gene duplication, deletion, fusion and the presence of homopolymeric G tracts in several cps genes (kpsF) D-arabinose 5-phosphate isomerase [Capsule (VF0323) - Immune modulation (VFC0258)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000002.1_252 99.816 0.0 Cj1442c VF0323 Capsule Immune modulation VFC0258 Major antigenic component of the classic Penner serotyping system; Variation in the capsule structure may cause by multiple mechanisms, such as exchange of capsular genes and entire clusters by horizontal transfer, gene duplication, deletion, fusion and the presence of homopolymeric G tracts in several cps genes (Cj1442c) sugar transferase [Capsule (VF0323) - Immune modulation (VFC0258)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000002.1_253 100.0 0.0 kfiD VF0323 Capsule Immune modulation VFC0258 Major antigenic component of the classic Penner serotyping system; Variation in the capsule structure may cause by multiple mechanisms, such as exchange of capsular genes and entire clusters by horizontal transfer, gene duplication, deletion, fusion and the presence of homopolymeric G tracts in several cps genes (kfiD) UDP-glucose 6-dehydrogenase [Capsule (VF0323) - Immune modulation (VFC0258)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000002.1_254 98.577 0.0 Cj1440c VF0323 Capsule Immune modulation VFC0258 Major antigenic component of the classic Penner serotyping system; Variation in the capsule structure may cause by multiple mechanisms, such as exchange of capsular genes and entire clusters by horizontal transfer, gene duplication, deletion, fusion and the presence of homopolymeric G tracts in several cps genes (Cj1440c) sugar transferase [Capsule (VF0323) - Immune modulation (VFC0258)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000001.1_32 100.0 0.0 fliF VF0114 Flagella Motility VFC0204 Two different (approximately 59-kDa) flagellin subunits, FlaA and FlaB are subject to both antigenic variation and phase variation; The expression of FlaA and FlaB is controlled by different transcription factors, namely the alternative sigma28 (FlaA) and sigma54 (FlaB) transcription factors; post-translationally modified through O-linked glycosylation. The major modification are pseudaminic acid (Pse5Ac7Ac), a nine carbon sugar that is similar to sialic acid, and an acetamidino-substituted pseudaminic acid (PseAm). There are also minor amounts of a dihydroxyproprionyl form (Pse5Pr7Pr) and an O-acetylated form (Pse5Ac7Ac8OAc); the exact role of glycosylation is unknown. The modification appears to be important for flagellar assembly and may be required for recognition by the flagellar secretion/assembly apparatus (fliF) flagellar M-ring protein FliF [Flagella (VF0114) - Motility (VFC0204)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000001.1_33 100.0 0.0 fliG VF0114 Flagella Motility VFC0204 Two different (approximately 59-kDa) flagellin subunits, FlaA and FlaB are subject to both antigenic variation and phase variation; The expression of FlaA and FlaB is controlled by different transcription factors, namely the alternative sigma28 (FlaA) and sigma54 (FlaB) transcription factors; post-translationally modified through O-linked glycosylation. The major modification are pseudaminic acid (Pse5Ac7Ac), a nine carbon sugar that is similar to sialic acid, and an acetamidino-substituted pseudaminic acid (PseAm). There are also minor amounts of a dihydroxyproprionyl form (Pse5Pr7Pr) and an O-acetylated form (Pse5Ac7Ac8OAc); the exact role of glycosylation is unknown. The modification appears to be important for flagellar assembly and may be required for recognition by the flagellar secretion/assembly apparatus (fliG) flagellar motor switch protein G [Flagella (VF0114) - Motility (VFC0204)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000001.1_34 100.0 0.0 fliH VF0114 Flagella Motility VFC0204 Two different (approximately 59-kDa) flagellin subunits, FlaA and FlaB are subject to both antigenic variation and phase variation; The expression of FlaA and FlaB is controlled by different transcription factors, namely the alternative sigma28 (FlaA) and sigma54 (FlaB) transcription factors; post-translationally modified through O-linked glycosylation. The major modification are pseudaminic acid (Pse5Ac7Ac), a nine carbon sugar that is similar to sialic acid, and an acetamidino-substituted pseudaminic acid (PseAm). There are also minor amounts of a dihydroxyproprionyl form (Pse5Pr7Pr) and an O-acetylated form (Pse5Ac7Ac8OAc); the exact role of glycosylation is unknown. The modification appears to be important for flagellar assembly and may be required for recognition by the flagellar secretion/assembly apparatus (fliH) flagellar assembly protein H [Flagella (VF0114) - Motility (VFC0204)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000001.1_49 100.0 0.0 flhB VF0114 Flagella Motility VFC0204 Two different (approximately 59-kDa) flagellin subunits, FlaA and FlaB are subject to both antigenic variation and phase variation; The expression of FlaA and FlaB is controlled by different transcription factors, namely the alternative sigma28 (FlaA) and sigma54 (FlaB) transcription factors; post-translationally modified through O-linked glycosylation. The major modification are pseudaminic acid (Pse5Ac7Ac), a nine carbon sugar that is similar to sialic acid, and an acetamidino-substituted pseudaminic acid (PseAm). There are also minor amounts of a dihydroxyproprionyl form (Pse5Pr7Pr) and an O-acetylated form (Pse5Ac7Ac8OAc); the exact role of glycosylation is unknown. The modification appears to be important for flagellar assembly and may be required for recognition by the flagellar secretion/assembly apparatus (flhB) flagellar biosynthetic protein [Flagella (VF0114) - Motility (VFC0204)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000001.1_50 100.0 0.0 motB VF0114 Flagella Motility VFC0204 Two different (approximately 59-kDa) flagellin subunits, FlaA and FlaB are subject to both antigenic variation and phase variation; The expression of FlaA and FlaB is controlled by different transcription factors, namely the alternative sigma28 (FlaA) and sigma54 (FlaB) transcription factors; post-translationally modified through O-linked glycosylation. The major modification are pseudaminic acid (Pse5Ac7Ac), a nine carbon sugar that is similar to sialic acid, and an acetamidino-substituted pseudaminic acid (PseAm). There are also minor amounts of a dihydroxyproprionyl form (Pse5Pr7Pr) and an O-acetylated form (Pse5Ac7Ac8OAc); the exact role of glycosylation is unknown. The modification appears to be important for flagellar assembly and may be required for recognition by the flagellar secretion/assembly apparatus (motB) flagellar motor protein MotB [Flagella (VF0114) - Motility (VFC0204)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000001.1_51 100.0 0.0 motA VF0114 Flagella Motility VFC0204 Two different (approximately 59-kDa) flagellin subunits, FlaA and FlaB are subject to both antigenic variation and phase variation; The expression of FlaA and FlaB is controlled by different transcription factors, namely the alternative sigma28 (FlaA) and sigma54 (FlaB) transcription factors; post-translationally modified through O-linked glycosylation. The major modification are pseudaminic acid (Pse5Ac7Ac), a nine carbon sugar that is similar to sialic acid, and an acetamidino-substituted pseudaminic acid (PseAm). There are also minor amounts of a dihydroxyproprionyl form (Pse5Pr7Pr) and an O-acetylated form (Pse5Ac7Ac8OAc); the exact role of glycosylation is unknown. The modification appears to be important for flagellar assembly and may be required for recognition by the flagellar secretion/assembly apparatus (motA) flagellar motor protein MotA [Flagella (VF0114) - Motility (VFC0204)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000001.1_64 100.0 1.62E-70 fliN VF0114 Flagella Motility VFC0204 Two different (approximately 59-kDa) flagellin subunits, FlaA and FlaB are subject to both antigenic variation and phase variation; The expression of FlaA and FlaB is controlled by different transcription factors, namely the alternative sigma28 (FlaA) and sigma54 (FlaB) transcription factors; post-translationally modified through O-linked glycosylation. The major modification are pseudaminic acid (Pse5Ac7Ac), a nine carbon sugar that is similar to sialic acid, and an acetamidino-substituted pseudaminic acid (PseAm). There are also minor amounts of a dihydroxyproprionyl form (Pse5Pr7Pr) and an O-acetylated form (Pse5Ac7Ac8OAc); the exact role of glycosylation is unknown. The modification appears to be important for flagellar assembly and may be required for recognition by the flagellar secretion/assembly apparatus (fliN) flagellar motor switch protein FliN [Flagella (VF0114) - Motility (VFC0204)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000001.1_83 100.0 5.1E-144 Cj0371 VF0114 Flagella Motility VFC0204 Two different (approximately 59-kDa) flagellin subunits, FlaA and FlaB are subject to both antigenic variation and phase variation; The expression of FlaA and FlaB is controlled by different transcription factors, namely the alternative sigma28 (FlaA) and sigma54 (FlaB) transcription factors; post-translationally modified through O-linked glycosylation. The major modification are pseudaminic acid (Pse5Ac7Ac), a nine carbon sugar that is similar to sialic acid, and an acetamidino-substituted pseudaminic acid (PseAm). There are also minor amounts of a dihydroxyproprionyl form (Pse5Pr7Pr) and an O-acetylated form (Pse5Ac7Ac8OAc); the exact role of glycosylation is unknown. The modification appears to be important for flagellar assembly and may be required for recognition by the flagellar secretion/assembly apparatus (Cj0371) hypothetical protein [Flagella (VF0114) - Motility (VFC0204)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000001.1_183 72.682 0.0 tufA VF0460 EF-Tu Adherence VFC0001 (tufA) elongation factor Tu [EF-Tu (VF0460) - Adherence (VFC0001)] [Francisella tularensis subsp. tularensis SCHU S4] Francisella tularensis
AANJ01000001.1_237 100.0 8.51E-68 fliE VF0114 Flagella Motility VFC0204 Two different (approximately 59-kDa) flagellin subunits, FlaA and FlaB are subject to both antigenic variation and phase variation; The expression of FlaA and FlaB is controlled by different transcription factors, namely the alternative sigma28 (FlaA) and sigma54 (FlaB) transcription factors; post-translationally modified through O-linked glycosylation. The major modification are pseudaminic acid (Pse5Ac7Ac), a nine carbon sugar that is similar to sialic acid, and an acetamidino-substituted pseudaminic acid (PseAm). There are also minor amounts of a dihydroxyproprionyl form (Pse5Pr7Pr) and an O-acetylated form (Pse5Ac7Ac8OAc); the exact role of glycosylation is unknown. The modification appears to be important for flagellar assembly and may be required for recognition by the flagellar secretion/assembly apparatus (fliE) flagellar hook-basal body complex protein FliE [Flagella (VF0114) - Motility (VFC0204)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000001.1_238 100.0 5.48E-121 flgC VF0114 Flagella Motility VFC0204 Two different (approximately 59-kDa) flagellin subunits, FlaA and FlaB are subject to both antigenic variation and phase variation; The expression of FlaA and FlaB is controlled by different transcription factors, namely the alternative sigma28 (FlaA) and sigma54 (FlaB) transcription factors; post-translationally modified through O-linked glycosylation. The major modification are pseudaminic acid (Pse5Ac7Ac), a nine carbon sugar that is similar to sialic acid, and an acetamidino-substituted pseudaminic acid (PseAm). There are also minor amounts of a dihydroxyproprionyl form (Pse5Pr7Pr) and an O-acetylated form (Pse5Ac7Ac8OAc); the exact role of glycosylation is unknown. The modification appears to be important for flagellar assembly and may be required for recognition by the flagellar secretion/assembly apparatus (flgC) flagellar basal body rod protein FlgC [Flagella (VF0114) - Motility (VFC0204)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000001.1_239 100.0 5.76E-105 flgB VF0114 Flagella Motility VFC0204 Two different (approximately 59-kDa) flagellin subunits, FlaA and FlaB are subject to both antigenic variation and phase variation; The expression of FlaA and FlaB is controlled by different transcription factors, namely the alternative sigma28 (FlaA) and sigma54 (FlaB) transcription factors; post-translationally modified through O-linked glycosylation. The major modification are pseudaminic acid (Pse5Ac7Ac), a nine carbon sugar that is similar to sialic acid, and an acetamidino-substituted pseudaminic acid (PseAm). There are also minor amounts of a dihydroxyproprionyl form (Pse5Pr7Pr) and an O-acetylated form (Pse5Ac7Ac8OAc); the exact role of glycosylation is unknown. The modification appears to be important for flagellar assembly and may be required for recognition by the flagellar secretion/assembly apparatus (flgB) flagellar basal body rod protein FlgB [Flagella (VF0114) - Motility (VFC0204)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000001.1_258 100.0 1.6E-86 flaG VF0114 Flagella Motility VFC0204 Two different (approximately 59-kDa) flagellin subunits, FlaA and FlaB are subject to both antigenic variation and phase variation; The expression of FlaA and FlaB is controlled by different transcription factors, namely the alternative sigma28 (FlaA) and sigma54 (FlaB) transcription factors; post-translationally modified through O-linked glycosylation. The major modification are pseudaminic acid (Pse5Ac7Ac), a nine carbon sugar that is similar to sialic acid, and an acetamidino-substituted pseudaminic acid (PseAm). There are also minor amounts of a dihydroxyproprionyl form (Pse5Pr7Pr) and an O-acetylated form (Pse5Ac7Ac8OAc); the exact role of glycosylation is unknown. The modification appears to be important for flagellar assembly and may be required for recognition by the flagellar secretion/assembly apparatus (flaG) a negative regulator of flagellar assembly [Flagella (VF0114) - Motility (VFC0204)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000001.1_259 100.0 0.0 fliD VF0114 Flagella Motility VFC0204 Two different (approximately 59-kDa) flagellin subunits, FlaA and FlaB are subject to both antigenic variation and phase variation; The expression of FlaA and FlaB is controlled by different transcription factors, namely the alternative sigma28 (FlaA) and sigma54 (FlaB) transcription factors; post-translationally modified through O-linked glycosylation. The major modification are pseudaminic acid (Pse5Ac7Ac), a nine carbon sugar that is similar to sialic acid, and an acetamidino-substituted pseudaminic acid (PseAm). There are also minor amounts of a dihydroxyproprionyl form (Pse5Pr7Pr) and an O-acetylated form (Pse5Ac7Ac8OAc); the exact role of glycosylation is unknown. The modification appears to be important for flagellar assembly and may be required for recognition by the flagellar secretion/assembly apparatus (fliD) flagellar capping protein FliD [Flagella (VF0114) - Motility (VFC0204)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni
AANJ01000001.1_260 100.0 1.07E-91 fliS VF0114 Flagella Motility VFC0204 Two different (approximately 59-kDa) flagellin subunits, FlaA and FlaB are subject to both antigenic variation and phase variation; The expression of FlaA and FlaB is controlled by different transcription factors, namely the alternative sigma28 (FlaA) and sigma54 (FlaB) transcription factors; post-translationally modified through O-linked glycosylation. The major modification are pseudaminic acid (Pse5Ac7Ac), a nine carbon sugar that is similar to sialic acid, and an acetamidino-substituted pseudaminic acid (PseAm). There are also minor amounts of a dihydroxyproprionyl form (Pse5Pr7Pr) and an O-acetylated form (Pse5Ac7Ac8OAc); the exact role of glycosylation is unknown. The modification appears to be important for flagellar assembly and may be required for recognition by the flagellar secretion/assembly apparatus (fliS) flagellar protein FliS [Flagella (VF0114) - Motility (VFC0204)] [Campylobacter jejuni subsp. jejuni NCTC 11168] Campylobacter jejuni