| Vfortho ids | ' VFP003527' ' VFP003873' ' VFP008941' ' VFP009304' ' VFP010241' ' VFP010875' ' VFP010966' ' VFP011027' ' VFP011124' ' VFP026527' ' VFP026633' ' VFP026932' ' VFP027047' ' VFP027259' ' VFP027427' ' VFP027742' ' VFP027922' ' VFP029048' ' VFP029233' ' VFP029652' ' VFP029993' ' VFP038679' ' VFP041389' ' VFP042396' ' VFP042835' ' VFP043083' ' VFP043225' ' VFP043552' ' VFP049607' ' VFP053359' ' VFP053614' ' VFP056092' ' VFP056443' ' VFP059782' ' VFP059880' ' VFP060164' ' VFP060353' ' VFP063090' ' VFP063196' ' VFP063205' ' VFP065744' ' VFP066845' ' VFP067147' ' VFP067280' |
| VFDB ID | ' VFG000139(gb|NP_253697)' ' VFG000141(gb|NP_253675)' ' VFG000433(gb|NP_490508)' ' VFG000462(gb|NP_460110)' ' VFG000884(gb|NP_755465)' ' VFG000919(gb|NP_756176)' ' VFG000920(gb|NP_756177)' ' VFG000921(gb|NP_756178)' ' VFG000922(gb|NP_756179)' ' VFG002318(gb|YP_001006725)' ' VFG002319(gb|YP_001006726)' ' VFG002322(gb|YP_001006729)' ' VFG002324(gb|YP_001006731)' ' VFG002326(gb|YP_001006733)' ' VFG002328(gb|YP_001006741)' ' VFG002332(gb|YP_001006745)' ' VFG002335(gb|YP_001006748)' ' VFG002345(gb|YP_001006758)' ' VFG002347(gb|YP_001006760)' ' VFG002351(gb|YP_001006764)' ' VFG002356(gb|YP_001006770)' ' VFG010878(gb|YP_094895)' ' VFG013286(gb|NP_438515)' ' VFG013346(gb|NP_438972)' ' VFG013374(gb|NP_439075)' ' VFG013390(gb|NP_439219)' ' VFG013400(gb|NP_439262)' ' VFG013418(gb|NP_439337)' ' VFG036956(gb|NP_273368)' ' VFG038365(gb|YP_855659)' ' VFG038380(gb|YP_856367)' ' VFG038840(gb|YP_008043465)' ' VFG038845(gb|YP_008044084)' ' VFG043207(gb|YP_001006775)' ' VFG043208(gb|YP_001006776)' ' VFG043211(gb|YP_001006780)' ' VFG043213(gb|YP_001006782)' ' VFG045607(gb|YP_096929)' ' VFG046465(gb|YP_169203.1)' ' VFG048650(gb|YP_005226599.1)' ' VFG048751(gb|YP_005226614.1)' ' VFG048776(gb|YP_005226618.1)' ' VFG048784(gb|YP_005226619.1)' |
| Families | ' Acetyltransferase_3_(AT3)' ' CcmE/CycJ' ' CheB' ' CheR' ' CheW' ' ChuX_HutX' ' CsgG' ' Cytidylyltransferase' ' EmrB' ' FecCD' ' FHIPEP_(flagella/HR/invasion_proteins_export_pore)' ' fimbrial_export_usher' ' Flagellin' ' FlgB' ' FlgF' ' FlgH' ' FliD' ' FliF' ' FliJ' ' FliM' ' FliT' ' Glycosyltransferase_1_(GT1)' ' Glycosyltransferase_4_(GT4)' ' Glycosyltransferase_9_(GT9)' ' GTPase' ' HCP' ' IcmF' ' Integrase' ' LpxA' ' LpxD' ' MotA' ' NAD_binding_10' ' NAD(P)-dependent_epimerase/dehydratase' ' Periplasmic_pilus_chaperone' ' Radical_SAM' ' RNA_methyltransferase_RsmE' ' SciN' ' Sigma-70_factor' ' SIS' ' TssG' ' UDPGP_type_2' ' VasE' ' VipB' |
| Proteins | ' putative heme-binding protein ChuX' ' ADP-heptose-LPS heptosyltransferase II ' ' alternative sigma factor regulatory protein ' ' B-band O-antigen polymerase' ' chemotaxis methyltransferase CheR' ' chemotaxis protein CheA' ' chemotaxis-specific methylesterase CheB' ' ChuY' ' curli production assembly/transport protein CsgG' ' cytochrome c-type biogenesis protein CcmE' ' Dot/Icm type IV secretion system effector' ' elongation factor Tu' ' fatty acid efflux system protein FarB' ' flagellar basal-body rod protein FlgB' ' flagellar basal-body rod protein FlgF' ' flagellar biosynthesis protein FlhA ' ' flagellar biosynthesis sigma factor' ' flagellar capping protein FliD' ' flagellar L-ring protein precursor FlgH' ' flagellar M-ring protein FliF' ' flagellar motor protein MotA' ' flagellar motor switch protein FliM ' ' flagellar protein FliJ ' ' flagellin' ' glucosephosphate uridylyltransferase' ' HcpA-like protein' ' heme permease protein ChuU' ' lagellar protein FliT ' ' lipopolysaccharide core biosynthesis protein' ' NeuA protein ' ' phosphoheptose isomerase' ' plasmid-encoded fimbriae chaperone protein PefD' ' Putative oxygen independent coproporphyrinogen III oxidase' ' short chain dehydrogenase/reductase family oxidoreductase' ' type VI secretion protein TssM ' ' type VI secretion system baseplate subunit' ' Type VI secretion system contractile sheath' ' type VI secretion system lipoprotein TssJ' ' UDP-3-O-(3-hydroxymyristoyl) glucosamine N-acyltransferase ' ' UDP-glucose 4-epimerase' ' UDP-N-acetylglucosamine acyltransferase' ' usher protein PapC' |
| Gene | ' AHA_1833' ' ccmE' ' cheA' ' cheB' ' cheR' ' chuU' ' chuW' ' chuX' ' chuY' ' csgG' ' farB' ' flgB' ' flgF' ' flgH' ' flhA' ' fliA' ' fliC' ' fliD' ' fliF' ' fliJ' ' fliM' ' fliT' ' fliZ' ' flmH' ' galE' ' galU' ' gmhA/lpcA' ' hcp1' ' icmF/tssM' ' lpg2936' ' lpxA' ' lpxD' ' motA' ' nueA' ' papC' ' pefD' ' rfaF' ' sciN/tssJ' ' tssG' ' tufA' ' vasE/tssK' ' waaA' ' waaG' |
| Pathogen | ' Aeromonas hydrophila ML09-119' ' Aeromonas hydrophila subsp. hydrophila ATCC 7966' ' Escherichia coli CFT073' ' Francisella tularensis subsp. tularensis SCHU S4' ' Haemophilus influenzae Rd KW20' ' Klebsiella pneumoniae subsp. pneumoniae HS11286' ' Legionella pneumophila subsp. pneumophila str. Philadelphia 1' ' Neisseria meningitidis MC58' ' Pseudomonas aeruginosa PAO1' ' Salmonella enterica subsp. enterica serovar Typhimurium str. LT2' ' Yersinia enterocolitica subsp. enterocolitica 8081' |
| Functional Categories | ' LPS' ' Plasmid-encoded fimbriae' ' Thin aggregative fimbriae' ' Type I Fimbriae' ' Aerobactin' ' Flagella' ' Iron Uptake' ' LOS' ' Efflux pump' ' Type VI Secretion System' ' Polar Flagella' ' Type IV Secretion System' ' Adherence' |
| Orthologs | ' WP_008812524.1' ' WP_008813015.1' ' WP_008813165.1' ' WP_008813726.1' ' WP_008813798.1' ' WP_008813813.1' ' WP_008813823.1' ' WP_008813827.1' ' WP_008813845.1' ' WP_008813853.1' ' WP_008814085.1' ' WP_008814286.1' ' WP_008814480.1' ' WP_008814506.1' ' WP_008814507.1' ' WP_008814823.1' ' WP_008815465.1' ' WP_008815767.1' ' WP_008815769.1' ' WP_008815776.1' ' WP_008815921.1' ' WP_020303695.1' ' WP_039186302.1' ' WP_061059191.1' ' WP_061059900.1' ' WP_061059916.1' ' WP_061059933.1' ' WP_061059936.1' ' WP_061059937.1' ' WP_061059938.1' ' WP_061060066.1' ' WP_061060067.1' ' WP_061060068.1' ' WP_061060069.1' ' WP_061060153.1' ' WP_061060154.1' ' WP_061060170.1' ' WP_061060171.1' ' WP_061060185.1' ' WP_061060387.1' ' WP_061060443.1' ' WP_096081242.1' ' WP_105375290.1' ' WP_105375294.1' |