| Vfortho ids | ' VFNP003806' ' VFNP003813' ' VFNP003815' ' VFNP003820' ' VFNP003827' ' VFNP003829' ' VFNP003833' ' VFNP004020' ' VFNP004277' ' VFNP004433' ' VFNP009037' ' VFNP013097' ' VFNP013146' ' VFNP015879' ' VFNP015927' ' VFNP015943' ' VFNP017148' ' VFNP017175' ' VFNP017246' ' VFNP017272' ' VFNP017509' ' VFNP017551' ' VFNP017607' ' VFNP017638' ' VFNP017640' ' VFNP017701' ' VFNP017812' ' VFNP019732' ' VFNP019750' ' VFNP019751' ' VFNP019754' ' VFNP020995' ' VFNP021000' ' VFNP021015' ' VFNP021025' ' VFNP021201' ' VFNP021205' ' VFNP021210' ' VFNP021307' ' VFNP021398' ' VFNP021669' ' VFNP021671' ' VFNP026713' ' VFNP026716' ' VFNP026720' ' VFNP026743' ' VFNP026745' ' VFNP026762' ' VFNP026771' ' VFNP026783' ' VFNP026916' ' VFNP026930' ' VFNP026938' ' VFNP026939' ' VFNP026978' ' VFNP026979' ' VFNP027003' ' VFNP027005' ' VFNP027299' ' VFNP027413' ' VFNP027497' ' VFNP027541' ' VFNP027553' ' VFNP027631' ' VFNP027657' ' VFNP027730' ' VFNP027758' ' VFNP028327' ' VFNP028370' ' VFNP028428' ' VFNP028452' ' VFNP035197' ' VFNP037143' ' VFNP037184' ' VFNP037201' ' VFNP037215' ' VFNP037651' ' VFNP037665' ' VFNP037681' ' VFNP037688' |
| VFDB ID | ' VFG000269(gb|NP_206873)' ' VFG000270(gb|NP_206872)' ' VFG000274(gb|NP_206868)' ' VFG001303(gb|NP_644945)' ' VFG001915(gb|NP_281981)' ' VFG002220(gb|NP_540803)' ' VFG002364(gb|YP_001007256)' ' VFG002376(gb|YP_001007268)' ' VFG002377(gb|YP_001007269)' ' VFG002546(gb|YP_109382)' ' VFG011389(gb|NP_539503)' ' VFG011404(gb|NP_539750)' ' VFG011414(gb|NP_539767)' ' VFG011424(gb|NP_540821)' ' VFG016767(gb|YP_989394)' ' VFG016770(gb|YP_989398)' ' VFG016776(gb|YP_989404)' ' VFG016784(gb|YP_989419)' ' VFG037028(gb|NP_273273)' ' VFG037046(gb|NP_273632)' ' VFG037064(gb|NP_273631)' ' VFG037720(gb|YP_001847164)' ' VFG045574(gb|YP_096442)' ' VFG047600(gb|YP_170144.1)' ' VFG047726(gb|YP_170570.1)' |
| Families | ' ABC Transporter' ' Aminotransferase 2' ' CarA' ' Catalase' ' Cupin 2' ' Cytidylyltransferase' ' FHIPEP (flagella/HR/invasion proteins export pore)' ' FlgI' ' FliI' ' FliP' ' FliP/MopC/SpaP' ' GGT' ' KdsA' ' LpxA' ' LpxC' ' MntA' ' NAD(P)-dependent epimerase/dehydratase' ' NTP transferase' ' Phosphohexose mutase' ' Resistance-nodulation-cell division (RND)' ' UDP-N-acetylglucosamine 2-epimerase' ' UreA' ' UreB' ' UreG' |
| Proteins | ' 2-dehydro-3-deoxyphosphooctonate aldolase' ' 3-deoxy-manno-octulosonate cytidylyltransferase ' ' ABC transporter ATP-binding protein MntA ' ' acyl-CoA transferase' ' capsular polysaccharide synthesis enzyme Cap8G' ' carbamoyl phosphate synthase small subunit' ' catalase ' ' cation/multidrug efflux pump' ' CDP-glucose 4,6-dehydratase ' ' Dot/Icm type IV secretion system effector' ' flagellar biosynthesis protein FlhA' ' flagellar biosynthesis protein FliP' ' flagellar biosynthetic protein FliP' ' flagellar P-ring protein FlgI' ' flagellar specific ATP synthase' ' gamma-glutamyltranspeptidase' ' GDP-fucose synthetase ' ' glucose-1-phosphate cytidylyltransferase ' ' Manganese transport system membrane protein MntB' ' phosphoglucomutase' ' UDP-3-O-[3-hydroxymyristoyl] N-acetylglucosamine deacetylase' ' UDP-N-acetylglucosamine acyltransferase' ' urease accessory protein (ureG)' ' urease alpha subunit UreA' ' urease beta subunit UreB, urea amidohydrolase' |
| Gene | ' adeG' ' cap8G' ' carA' ' ddhA' ' ddhB' ' fcl' ' flgI' ' flhA' ' fliI' ' fliP' ' ggt' ' katA' ' kdsA' ' kdsB' ' lpg2434' ' lpxA' ' lpxC' ' mntA' ' mntB' ' pgm' ' ureA' ' ureB' ' ureG' ' wcbT' |
| Pathogen | ' Acinetobacter baumannii ACICU' ' Bartonella bacilliformis KC583' ' Brucella melitensis bv. 1 str. 16M' ' Burkholderia pseudomallei K96243' ' Campylobacter jejuni subsp. jejuni NCTC 11168' ' Francisella tularensis subsp. tularensis SCHU S4' ' Helicobacter pylori 26695' ' Legionella pneumophila subsp. pneumophila str. Philadelphia 1' ' Neisseria meningitidis MC58' ' Staphylococcus aureus subsp. aureus MW2' ' Yersinia enterocolitica subsp. enterocolitica 8081' |
| Functional Categories | ' Urease' ' Capsule' ' Flagella' ' LPS' ' Stress Protein' ' Manganese Uptake' ' Biofilm' ' Type IV Secretion System' ' Metabolic adaptation' ' Pyrimidine biosynthesis' |
| Orthologs | ' WP_003597278.1' ' WP_003600223.1' ' WP_003600226.1' ' WP_003600229.1' ' WP_003600755.1' ' WP_003600893.1' ' WP_003602002.1' ' WP_003602028.1' ' WP_003603893.1' ' WP_003603990.1' ' WP_003603991.1' ' WP_003604337.1' ' WP_003604415.1' ' WP_003604557.1' ' WP_003606663.1' ' WP_004447585.1' ' WP_012252100.1' ' WP_012252213.1' ' WP_012252377.1' ' WP_012252380.1' ' WP_012252383.1' ' WP_012252434.1' ' WP_012252569.1' ' WP_012252852.1' ' WP_012253490.1' ' WP_012254140.1' ' WP_012254227.1' ' WP_012254280.1' ' WP_012254340.1' ' WP_012254359.1' ' WP_012254926.1' ' WP_012255458.1' ' WP_012255679.1' ' WP_012605472.1' ' WP_012605510.1' ' WP_012605692.1' ' WP_012605695.1' ' WP_012605738.1' ' WP_012605743.1' ' WP_012605825.1' ' WP_012752121.1' ' WP_012752214.1' ' WP_012752634.1' ' WP_012753185.1' ' WP_012778991.1' ' WP_012779268.1' ' WP_015821053.1' ' WP_015821058.1' ' WP_015821094.1' ' WP_015821100.1' ' WP_015821317.1' ' WP_015821318.1' ' WP_015821631.1' ' WP_015821828.1' ' WP_015822322.1' ' WP_015822530.1' ' WP_015823101.1' ' WP_015823227.1' ' WP_015823274.1' ' WP_015824471.1' ' WP_015824672.1' ' WP_015824716.1' ' WP_015950133.1' ' WP_015950655.1' ' WP_015950741.1' ' WP_015951323.1' ' WP_015951364.1' ' WP_015951413.1' ' WP_015951426.1' ' WP_015952763.1' ' WP_042508724.1' ' WP_042508792.1' ' WP_042509137.1' ' WP_042509274.1' ' WP_080518391.1' ' WP_101475207.1' ' WP_101475446.1' ' WP_101476280.1' ' WP_101476324.1' ' WP_101476325.1' |