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ecce/proteins of the inner membrane/ transport
ABC-Transporters with unknown substrates
Alkylphosphonate Uptake
Amino Acid Transport
Ammonia Transport
Aquaporin
Carnitine Transport
Cobalt Transport
Colicin Uptake
Cholin Transport
Cyanat Transport
Cytosine Transport
Dicarboxylate Transport
Drug Efflux
Ethanolamine Transport
Fatty Acid Transport
Formate Transport
Galactonate Transport
Glycerol Uptake
Glycerol-3-Phosphate Transport
Sn-Glycerol-3-Phosphate Transport
Hemolysin Transport
Hexuronate Transport
Ion Tansport
Iron Transport
Lactate Transport
Magnesium & Cobalt and Manganese Transport
Molybdenum Transport
Nickel Transport
Nitrite Transport
NMN Transport
Nucleoside Transport
O-Antigen Transport
Peptide Transport
Permeases/ Unknown Substrate
Phosphate Transport
Potassium Transport
Protein Secretion
Putrescine Transport
Shikimate Transport
Sialic Acid Transport
Sodium Transport
Sugar Transport
Sugar Permeases
Sugar Symports
PTS-System Components
Sulfate Transport
Symport
Taurine Transport
Zinc Tansport



ABC-Transporters with unknown substrates

Transport ATP-binding protein CydC (cydC )
functionsomehow involved in the cytochrome d-branch of aerobic respiration, seems to be a component of a transport system
interaction 
regulation 
topologytransmembrane domains: 6 (potential)

TMHMM gives 20-42 47-69 133-155 160-182 246-268 278-300
SP gives 16-36 37-57 137-157 162-182 250-270 277-297

mrallpylal ykrhkwmlsL GIVLAIVTLL ASIGLLTLSG WFlsasAVAG
VAGLYSFNYM LPAAGVrgaa itrtagryfe rlvshdatfr vlqhlriytf
skllplspag laryrqgell nrvvadvdtl dhLYLRVISP LVGAFVVIMV
VTIGLsfldF TLAFTLGGIM LLTLFLMPPL FYragkstgq nlthlrgqyr 200
qqltawlqgq aeltifgasd ryrtqlente iqwleaqrrq seltaLSQAI
MLLIGALAVI LMLWMASGgv ggnaqpgALI ALFVFCALAA FEALAPVTGA
Fqhlgqvias avrisdltdq kpevtfpdtq trvadrvslt lrdvqftype
qsqqalkgis lqvnagehia ilgrtgcgks tllqqltraw dpqqgeilln 400
dspiaslnea alrqtisvvp qrvhlfsatl rdnlllaspg ssdealseil
rrvgleklle daglnswlge ggrqlsggel rrlaiarall hdaplvllde
ptegldatte sqilellaem mrektvlmvt hrlrglsrfq qiivmdngqi
ieqgthaell arqgryyqfk qgl

MW 62920 Da; 573 aa


Transport ATP-binding protein CydD (cydD )
functionsomehow involved in the cytochrome d-branch of aerobic respiration, seems to be a component of a transport system
interaction 
regulationrequired for growth at high temperatures
topologytransmembrane domains: 6 (potential), TMHMM has 5

TMHMM gives 24-46 61-80 137-159 163-185 246-268
SP gives 29-49 62-82 140-160 163-183 251-271 284-304

mnksrqkelt rwlkqqsvis qrwLNISRLL GFVSGILIIA QAWFMArilq
hmimenipre ALLLPFTLLV LTFVLRAWVV wlrervgyha gqhirfairr
qvldrlqqag pawiqgkpag swatlvleqi ddmhdyYARY LPQMALAVSV
PLLIVVAIFp snWAAALILL GTAPLIPLFM ALVGMgaada nrrnflalar 200
lsghfldrlr gmetlrifgr geaeiesirs asedfrqrtm evlrlAFLSS
GILEFFTSLS IALVAVYFgf sylgeldFGH YDTGVTLAAG FLALILApef
fqplrdlgtf yhakaqavga adslktfmet plahpqrgea elastdpvti
eaeelfitsp egktlagpln ftlpagqrav lvgrsgsgks sllnalsgfl 400
syqgslring ielrdlspes wrkhlswvgq npqlpaatlr dnvllarpda
seqelqaald nawvseflpl lpqgvdtpvg dqaarlsvgq aqrvavaral
lnpcslllld epaasldahs eqrvmealna aslrqttlmv thqledladw
dviwvmqdgr iieqgryael svaggpfatl lahrqeei

MW 65056 Da; 588 aa


Probable transport ATP-binding protein MsbA (msbA )
functionprobably involved in the secretion of lipid A
interaction 
regulation 
topology3d structurePDB

transmembrane domains: 6

SP gives 22-52 65-96 140-165 168-192 253-272 281-301

mhndkdlstw qtfrrlwpti apFKAGLIVA GVALILNAAS DTFMLSLLKP
LLddgfgktd rsvlvWMPLV VIGLMILRGI TSYVSSYCIS WVSGKVvmtm
rrrlfghmmg mpvsffdkqs tgtllsrity dseqvassss GALITVVREG
ASIIGLFIMM FYYSWqLSII LIVLAPIVSI AIRVVSKRFR NIsknmqntm 200
gqvttsaeqm lkghkevlif ggqevetkrf dkvsnrmrlq gmkmvsassi
sdPIIQLIAS LALAFVLYAA SFpsvmdslt aGTITVVFSS MIALMRPLKS
Ltnvnaqfqr gmaacqtlft ildseqekde gkrvieratg dvefrnvtft
ypgrdvpalr ninlkipagk tvalvgrsgs gkstiaslit rfydidegei 400
lmdghdlrey tlaslrnqva lvsqnvhlfn dtvanniaya rteqysreqi
eeaarmayam dfinkmdngl dtvigengvl lsggqrqria iarallrdsp
ilildeatsa ldteseraiq aaldelqknr tslviahrls tiekadeivv
vedgviverg thndllehrg vyaqlhkmqf gq

MW 64460 Da; 582 aa


Alkylphosphonate Uptake

Phosphonates transport system permease protein PhnE (phnE )
functionpart of a binding-protein-dependent transport system for phosphonates, probably responsible for the translocation of the substrate
interaction 
regulation 
topologytransmembrane domains: 6

TMHMM gives 28-50 87-109 138-160 196-213 220-242 246-268
SP gives 30-50 92-112 140-160 193-213 222-242 247-267

mpdavqapyp ayrpepnmqt itiappkrSW FSLLSWAVVL AVLVVSWQGA
emapltlikd ggnmatfaad ffppdfsqwq dyltemAVTL QIAVWGTALA
VVLSIPFGLM saenlvpwwv yqpvrrlmda crainemVFA MLFVVAVGLG
PFAGVLALFI httgvlskll seaveaiepg pvegiratga nkleeILYGV 200
LPQVMPLLIS YSLyrfesnv rSATVVGMVG AGGIGVTLWe airgFQFQQT
CALMVLIIVT VSLLdflsqr lrkhfi (potential)

MW 30281 Da; 276 aa


Amino Acid Transport/ click to view these entries


Ammonia Transport

Probable ammonium transporter (amtB )
functioninvolved in the uptake of ammonia
interaction 
regulation 
topologytransmembrane domains: 12 (potential)

TMHMM gives 9-26 36-58 63-85 120-142 149-171 186-205 218-237 247-269 281-303 307-324 337-359 374-396
SP gives 3-23 33-53 70-90 121-141 150-170 184-204 220-240 248-268 280-300 301-321 336-356 374-394

mkiatiktGL ASLAMLPGLV MAAPAVadka dnaFMMICTA LVLFMTIPGI
ALFYGGLIrg knVLSMLTQV TVTFALVCIL WVVYGyslaf gegnnffgni
nwlmlkniel tavmgsiyqY IHVAFQGSFA CITVGLIVGA LAerirfsAV
LIFVVVWLTL SYIPIAHMVW Gggllashga ldfagGTVVH INAAIAGLVG 200
AYLIGkrvgf gkeafkphnL PMVFTGTAIL YIGWFGFnag sagtaneIAA
LAFVNTVVAT AAAILGWIFg ewalrgkpsL LGACSGAIAG LVGVTPACGY
IGVggaLIIG VVAGLAGLWG VTMLkrllrv ddpcdvFGVH GVCGIVGCIM
TGIFAASSLg gvgfaegvtm ghqLLVQLES IAITIVWSGV VAFIGYklad 400
ltvglrvpee qeregldvns hgenayna

MW 44514 Da; 428 aa


Aquaporin

Aquaporin Z (aqpZ )
functionforms a water specific channel
interaction 
regulation 
topologytransmembrane domains: 6 (potential)

TMHMM gives 7-29 33-55 81-103 127-149 156-178 205-227
SP gives 9-29 34-54 82-102 131-151 156-176 202-222

mfrklaaeCF GTFWLVFGGC GSAVLAAGFp eLGIGFAGVA LAFGLTVLTM
AFAVGhisgg hfnpavtigl waggrfpake VVGYVIAQVV GGIVAAALLY
LIAsgktgfd aaasgfasng ygehspGGYS MLSALVVELV LSAGFLLVIh
gatdkFAPAG FAPIAIGLAL TLIHLISIpv tntsvnpars tavaifqggw 200
aleqLWFFWV VPIVGGIIGG LIYRTLLekr d

MW 23703 Da; 231 aa


Carnitine Transport

Probable carnitine transporter (caiT )
functionprobable PMF driven driven uptake of carnitine and analogous betaines, carnitine metabolism
interaction 
regulation 
topologytransmembrane domains: 12 (potential)

TMHMM gives 13-30 50-72 92-114 141-163 195-214 229-251 264-286 317-339 352-374 410-432 445-467 472-494
SP gives 10-30 51-71 92-112 143-163 195-215 231-251 263-283 316-336 347-367 398-418 446-466 475-495

mknekrktgi epkVFFPPLI IVGILCWLTV rdldaanvvi navfsyvtnV
WGWAFEWYMV VMLFGWFWLV FGpyakkrlg neppefstas WIFMMFASCT
SAAVLFWGSI EIYYyistpp fglepnstga kelglaysLF HWGPLPWATY
SFLSVAFAYF FFVrkmevir psstlvplvg ekhakglfgt ivdnFYLVAL 200
IFAMGTSLGL ATPLVtecmq wlfgiphtlq ldAIIITCWI ILNAICVACG
Lqkgvriasd vrsYLSFLML GWVFIVSGAS FIMNYFtdsv gmllmylprm
lfytdpiakg gfpqgWTVFY WAWWVIYAIQ MSIFLArisr grtvreLCFG
MVLGLTASTW ILWTVLGSNT LLLIdkniin ipnlieqygv araiietwaa 400
lplstatMWG FFILCFIATV TLVNACSYTL AMstcrevrd geepPLLVRI
GWSILVGIIG IVLLALGglk pIQTAIIAGG CPLFFVNIMV TLSFIkdakq
nwkd

MW 56587 Da; 504 aa


Cobalt Transport

Vitamin B12 transport system permease protein BtuC (btuC )
functionpart of the binding protein dependent transport system for vitamin B12, probably responsible for translocation of the substrate across the membrane
interaction 
regulation 
topologytransmembrane domains: 9 (potential)

TMHMM gives 13-35 55-77 90-107 111-133 146-168 188-205 242-264 274-296 303-322
SP gives 15-35 61-81 88-108 113-133 146-166 184-204 240-260 274-294 302-322

mltlarqqqr qnirWLLCLS VLMLLALLLS LCAGeqwisp gdwftprgel
fvwqirlprT LAVLLVGAAL AISGAVMqal fenplaepgL LGVSNGAGVG
LIAAVLLgqg qLPNWALGLC AIAGALIITL ILLrfarrhl stsrlLLAGV
ALGIICSALM TWAIYFSTsv dlrqlmywmm ggfggvdwrq SWLMLALIPV 200
LLWICcqsrp mnmlalgeis arqlglplwf wrnvlvaatg wMVGVSVALA
GAIGFIGLVI PHILrlcglt dhrVLLPGCA LAGASALLLA DIVArlalaa
aeLPIGVVTA TLGAPVFIWL LLkagr

MW 34949 Da; 326 aa


Colicin Uptake

Biopolymer transport protein ExbB (exbB )
functioninvolved in the TonB-dependent energy dependent transport of various receptor bound substrates, protects ExbD from proteolytic degradation and functionally stabilizes TonB
accessory proteins ExbB and ExbD seem to form a complex with TonB
interaction 
regulation 
topologytransmembrane domains: 3 (potential)

TMHMM gives 20-42 131-153 177-199
SP gives 25-42 132-150 178-195
mgnnlmqtdl svwgmyqhad IVVKCVMIGL ILASVVTWAI FFsksveffn
qkrrlkreqq llaearslnq andiaadfgs kslslhllne aqnelelseg
sddnegiker tsfrlerrva avgrqmgrgn GYLATIGAIS PFVGLFGTVW
GIMnsfigia qtqttnlavv apgiaeALLA TAIGLVAAIP AVVIYNVFar 200
qiggfkamlg dvaaqvlllq srdldleasa aahpvrvaqk lrag

MW 26287 Da; 244 aa


Biopolymer transport protein ExbD (exbD )
functioninvolved in the TonB-dependent energy dependent transport of various receptor bound substrates
accessory proteins ExbB and ExbD seem to form a complex with TonB
interaction 
regulation 
topologytransmembrane domains: 1 (potential)

TMHMM gives 20-42
SP gives 23-43

mamhlnenld dngemhdinV TPFIDVMLVL LIIFMVAAPL ATvdvkvnlp
aststpqprp ekpvylsvka dnsmfigndp vtdetmital naltegkkdt
tiffradktv dyetlmkvmd tlhqagylki glvgeetaka k

MW 15527 Da; 141 aa


TolA protein (tolA )
functioninvolved in the TonB-independent uptake of a group of colicins (A, E1, E2, E3, K) necessary for colicins to reach their respective targets after initial binding to the bacteria, also involved in the translocation of bacteriophage DNA
interactioninteracts via domain II with porins OmpC, OmpA, phoE and LamB
regulation 
topology3d structurePDB

transmembrane domains: 1 (potential)

TMHMM gives 13-32
SP gives 14-34 mskateqndk lkrAIIISAV LHVILFAALI WSsfdeniea sagggggssi
davmvdsgav veqykrmqsq essakrsdeq rkmkeqqaae elrekqaaeq
erlkqleker laaqeqkkqa eeaakqaelk qkqaeeaaak aaadakakae
adakaaeeaa kkaaadakkk aeaeaakaaa eaqkkaeaaa aalkkkaeaa 200
eaaaaearkk aateaaekak aeaekkaaae kaaadkkaaa ekaaadkkaa
ekaaaekaaa dkkaaaekaa adkkaaaaka aaekaaaaka aaeaddifge
lssgknapkt gggakgnnas pagsgntknn gasgadinny agqiksaies
kfydassyag ktctlrikla pdgmlldikp eggdpalcqa alaaaklaki 400
pkppsqavye vfknapldfk p

MW 43156 Da; 421 aa


TolQ protein (tolQ )
functioninvolved in the TonB-independent uptake of a group of colicins (A, E1, E2, E3, K)
interaction 
regulation 
topologytransmembrane domains: 3 (potential)

TMHMM gives 15-37 133-155 170-192
SP gives 9-36 127-159 162-191

mtdmnildlf lkasLLVKLI MLILIGFSIA SWAIIIqrtr ilnaaareae
afedkfwsgi elsrlyqesq gkrdnltgse qifysgfkef vrlhransha
peavvegasr amrismnrel enlethipfl gtVGSISPYI GLFGTVWGIM
HAFIAlgavk qatlqmvapG IAEALIATAI GLFAAIPAVM AYnrlnqrvn 200
klelnydnfm eeftailhrq aftvsesnkg

MW 25597 Da; 230 aa


TolR protein (tolR )
functioninvolved in the TonB-independent uptake of a group of colicins (A, E1, E2, E3, K)
interaction 
regulation 
topologytransmembrane domains: 1 (potential)

TMHMM gives 17-39
SP gives 21-40

marargrgrr dlkseiNIVP LLDVLLVLLL IFMATAPIIt qsvevdlpda
tesqavssnd nppvivevsg igqytvvvek drlerlppeq vvaevssrfk
anpktvflig gakdvpydei ikalnllhsa gvksvglmtq pi

MW 15383 Da; 142 aa


Cholin Transport

High-affinity choline transport protein (betT )
functionhigh-affinity choline transport of choline driven by a PMF
interaction 
regulation 
topologytransmembrane domains: 12 (potential)

TMHMM gives 13-35 55-77 90-112 143-165 194-216 231-253 265-287 319-338 350-369 400-422 452-474 478-497
SP gives 15-35 54-74 94-114 144-164 196-216 233-253 265-285 319-339 350-370 412-432 452-472 477-497

mtdlshsrek dkINPVVFYT SAGLILLFSL TTILFrdfsa lwigrtldwv
sktFGWYYLL AATLYIVFVV CIACSrfgsv klgpeqskpe FSLLSWAAML
FAAGIGIDLM FFsvaepvtq ymqppegagq tieaarqamv wtLFHYGLTG
WSMYALMGMA LGYFSyrynl pltirsalyp ifgkringpi ghsvdIAAVI 200
GTIFGIATTL GIGVVqlnyg lsvlfdipds MAAKAALIAL SVIIATISVT
SGVdkgirvl selnVALALG LILFVLFMGD TSFLLNALVL nvgdyvnrfm
gmtlnsfafd rpvewmnnWT LFFWAWWVAW SPFVGLFLar isrgrtirqF
VLGTLIIPFT FTLLWLSVFg nsalyeiihg gaafaeeamv hpergfysLL 400
AQYPAFTFSA SVATITGLLF YVtsadsgal vlgnftsqlk dinsdapgwl
rVFWSVAIGL LTLGMLMTNG ISALqntTVI MGLPFSFVIF FVMAGLYksl
kvedyrresa nrdtaprplg lqdrlswkkr lsrlmnypgt rytkqmmetv
cypameevaq elrlrgayve lkslppeegq qlghldllvh mgeeqnfvyq 600
iwpqqysvpg ftyrarsgks tyyrletfll egsqgndlmd yskeqvitdi
ldqyerhlnf ihlhreapgh svmfpda

MW 75842 Da; 677 aa


Cyanate Transport

Cyanate transport protein CynX (cynX )
functionpart of an active transport system that transports exogenous cyanate into cells
interaction 
regulation 
topologytransmembrane domains: 12 (potential)

TMHMM gives 2-24 34-56 68-85 90-112 124-146 156-173 201-223 228-250 263-282 287-309 321-340 355-374
SP gives 3-23 34-54 68-88 89-109 122-142 153-173 204-224 235-255 263-283 287-307 322-342 354-374

mLLVLVLIGL NMRPLLTSVG PLLPqlrqas gmsFSVAALL TALPVVTMGG
LALAGSWLhq hvserrsVAI SLLLIAVGAL MRELYpqsaL LLSSALLGGV
GIGIIQAVMP SVIkrrfqqr tpLVMGLWSA ALMGGGGLGA AITPWLVqhs
etwyqTLAWW ALPAVVALFA WWWqsareva sshkttttpv rvvftprawt 200
LGVYFGLING GYASLIAWLP AFYieigASA QYSGSLLALM TLGQAAGALL
Mpamarhqdr rkLLMLALVL QLVGFCGFIW LpmqlpVLWA MVCGLGLGGA
FPLCLLLALd hsvqpaiagk LVAFMQGIGF IIAGLAPWFS gvlrsisgny
lmdWAFHALC VVGLMIITLR FAPVrfpqlw vkea

MW 41360 Da; 384 aa


Cytosine Transport

Cytosine permease (codB )
functionrequired for cytosine transport into the cell
interaction 
regulation 
topologytransmembrane domains: 12 (potential)

TMHMM gives 21-43 53-75 96-118 128-150 152-174 194-216 223-245 255-277 289-311 321-340 360-379 383-402
SP gives 20-38 52-70 100-118 130-148 161-179 195-211 224-242 258-276 301-319 322-340 358-376 380-398
msqdnnfsqg pvpqsarkgV LALTFVMLGL TFFSASMWTG GTLgtglsyh
dFFLAVLIGN LLLGIYTSFL GYIGAktglt thllarfsfg vkgswLPSLL
LGGTQVGWFG VGVAMFAIpv gkatgldINL LIAVSGLLMT VTVFFGISAL
tVLSVIAVPA IACLGGYSVW LAVngmggld alkavvpaqp ldFNVALALV 200
VGSFISAGTL TADFVrfgrn akLAVLVAMV AFFLGNSLMF IFGAAgaaal
gmadISDVMI AQGLLLPAIV VLGLNIWttn dnalyasgLG FANITGMSSK
TLSVINGIIG Tvcalwlynn FVGWLTFLSA AIPPVGGVII adylmnrrry
ehfattrmmS VNWVAILAVA LGIAAGHWLp gIVPVNAVLG GALSYLILNP 400
ILnrkttaam thveansve

MW 43649 Da; 419 aa


Dicarboxylate Transport

C4-dicarboxylate transport protein (dctA )
functionresponsible for the transport of dicarboxylates such as succinate, fumarate and malate from the periplasm ascross the inner membrane
interaction 
regulation 
topologytransmembrane domains: 8 (potential), SP has 12

TMHMM gives 5-27 47-64 77-99 141-163 184-206 219-241 326-348 352-374
SP gives 21-39 59-77 90-108 140-158 162-180 200-218 232-250 272-290 311-329 341-359 369-388 396-414

mktslfkSLY FQVLTAIAIG ILLGHFYpei geqmkplgdg fvklikMIIA
PVIFCTVVTG IAGMesmkav grtgaVALLY FEIVSTIALI IGLIIVNVVq
pgagmnvdpa tldakavavy adqakdqgiv afimdvipas VIGAFASGNI
LQVLLFAVLF GFALhrlgsk gqlifnvies fsqVIFGIIN MIMRLAPIGA 200
FGAMAFtigk ygvgtlvqLG QLIICFYITC ILFVVLVLGS Iakatgfsif
kfiryireel livlgtssse salprmldkm eklgcrksvv glviptgysf
nldgtsiylt maavfiaqat nsqmdIVHQI TLLIVLLLSS KGAAGVTGsg
fIVLAATLSA VGHLPVAGLA LILGIdrfms earaltnlvg ngvativvak 400
wvkeldhkkl ddvlnnrapd gkthelss

MW 45436 Da; 428 aa


Anaerobic C4-dicarboxylate transporter DcuA (dcuA )
functionresponsible for the transport of dicarboxylates such as succinate, fumarate and malate from the periplasm ascross the inner membrane
interaction 
regulation 
topologytransmembrane domains: 11 (potential), SP has 10

TMHMM gives 15-37 50-72 87-109 130-152 162-184 226-243 258-277 284-306 326-345 358-380 410-432
SP gives 1-18 20-37 54-71 86-103 133-147 229-246 265-282 293-310 333-350 356-373

mlvveliivl laIFLGARLG GIGIGFAGGL GVLVLAAigv kpgnipfdvI
SIIMAVIAAI SAMQVAGGLD YLvhqtekll rrnpkyITIL APIVTYFLTI
FAGTGNISLa tlpviaevak eqgvkpcrpL STAVVSAQIA ITASPISAAV
VYmssvmegh gISYLHLLSV VIPSTLLAVL VMSFLVtmlf nsklsddpiy 200
rkrleeglve lrgekqieik sgaktSVWLF LLGVVGVVIY AIInspsmgl
vekplmnTTN AILIIMLSVA TLTTVICkvd tdnILNSSTF KAGMSACICI
LGVAWLgdtf vsnnidwikd tageVIQGHP WLLAVIFFFA SALLYsqaat
akalmpMALA LNVSPLTAVA SFAAVSGLFI Lptyptlvaa vqmddtgttr 400
igkfvfnhpF FIPGTLGVAL AVCFGFVLgs fml

MW 45750 Da; 433 aa


Anaerobic C4-dicarboxylate transporter DcuB (dcuB )
functionresponsible for the transport of dicarboxylates such as succinate, fumarate and malate from the periplasm ascross the inner membrane
interaction 
regulation 
topologytransmembrane domains: 11, SP has 10

TMHMM gives 21-43 53-75 88-110 142-164 171-193 236-253 266-288 303-325 346-368 378-400 421-443
SP gives 1-19 21-39 56-73 88-105 135-149 241-258 276-293 304-321 344-361 367-384

mlftiqliii liclfygark GGIALGLLGG IGLVILVFVF HLqpgkppvd
VMLVIIAVVA ASATLQASGG LDVMLqiaek llrrnpkYVS IVAPFVTCTL
TILCGTGHVV YTILpiiydv aiknnirper pmaassigaq mGIIASPVSV
AVVSLVAMLG NVTFdgrhle FLDLLAITIP STLIGILAIG IFSwfrgkdl 200
dkdeefqkfi svpenreyvy gdtatlldkk lpksnWLAMW IFLGAIAVVA
LLGadsdlrp sfggkPLSMV LVIQMFMLLT GALIIILTkt npasisknev
frSGMIAIVA VYGIAWMAET MFGAHmseiq gvlgemvkey pwayaIVLLL
VSKFVNSQAA ALAAIVPVal aigvdpaYIV ASAPACYGYY ILPTYPSDLA 400
aiqfdrsgtt higrfvinhs FILPGLIGVS VSCVFGWIFA AMYgfl (potential)

MW 47935 Da; 446 aa


C4-dicarboxylate anaerobic carrier (dcuC )
functionresponsible for the transport of dicarboxylates
interaction 
regulation 
topologytransmembrane domains: 12, SP has 13

TMHMM gives 4-22 29-46 81-103 124-146 161-183 196-218 238-260 267-289 309-331 343-365 407-429 436-458
SP gives 2-22 26-46 79-99 116-136 137-157 164-184 199-219 240-260 267-287 313-333 343-363 409-429 436-456

mltfieLLIG VVVIVGVARY IIkgysatGV LFVGGLLLLI ISAIMGhkvl
pssqastgys atdiveyvki llmsrggdlg MMIMMLCGFA AYMTHIGAND
MVVklaskpl qyinspyllm iaaYFVACLM SLAVSSATGL GVLLMAtlfp
vmvnvgisrg AAAAICASPA AIILAPTSGD VVLaaqasem slidfafkTT 200
LPISIAAIIG MAIAHFFWqr yldkkehish emldvseITT TAPAFYAILP
FTPIIGVLIF dgkwgpQLHI ITILVICMLI ASILEFLRSf ntqkvfsgle
vayrgmadAF ANVVMLLVAA GVFAQGLSTI Gfiqslisia tsFGSASIIL
MLVLVILTML AAVTTgsgna pfyafvemip klahssginp ayltipmlqa 400
snlgrtLSPV SGVVVAVAGM AKISPFEVVk rtsvpVLVGL VIVIVATELM
VPGTAAAVtg k (potential)

MW 48412 Da; 461 aa


Drug Efflux/ click to view these entries


Ethanolamine Transport

Ethanolamine utilization protein EutH (eutH )
functionpossibly involved in the transport of ethanolamine from the periplasm into the cytoplasm
interaction 
regulation 
topologytransmembrane domains: 11 (potential), TMHMM has 11

TMHMM gives 7-29 58-80 87-109 124-146 153-175 190-212 231-253 273-295 342-364 369-391
SP gives 1-21 61-81 89-109 126-146 155-175 192-212 230-250 274-294 313-333 342-362 369-389

mgineiIMYI MMFFMLIAAV DRILSQFGGs arflgkfgks iegsggqfee
gfmamgaLGL AMVGMTALAP VLAHVLGPVI ipvyemLGAN PSMFAGTLLA
CDMGGFFLAk elaggdvaaw lysGLILGSM MGPTIVFSIP VALGIIepsd
rrYLALGVLA GIVTIPIGCI AGGLVamysg vqingqpveF TFALILMNMI 200
PVIIVAILVA LGlkfipekm ingfqifakF LVALITLGLA AAVVKFLLGW
ELIpgldpif mapgdkpgev mrAIEVIGSI SCVLLGAYPM VLLLTrwfek
plmsvgkVLN MNNIAAAGMV ATLANNIPMF gmmkqmdtrg kVINCAFAVS
AAFALGDHLG FAAAnmnaMI FPMIVGKLIG GVTAIGVAMM Lvpkedatat 400
kteaeaqs

MW 42806 Da; 408 aa


Fatty Acid Transport

Short-chain fatty acids transporter (atoE )
functionresponsible for the intake of short-chain fatty acids
interaction 
regulation 
topologytransmembrane domains: 9, SP has 12

TMHMM gives 20-40 53-75 95-117 138-160 175-197 245-262 266-285 298-320 417-439
SP gives 20-40 54-74 103-123 138-158 159-179 181-201 245-265 266-286 314-334 352-372 395-415 420-440

migrisrfmt rfvsrwlpdP LIFAMLLTLL TFVIALWLTP qtpismvkmw
gdGFWNLLAF GMQMALIIVT GHALAssapv ksllrtaasa aktpVQGVML
VTFFGSVACV INWGFGLvvg amfarevarr vpgsdypLLI ACAYIGFLTW
GGGFSGSMPL laatpgnpve hiagLIPVGD TLFSGFNIFI TVALIVVmpf 200
itrmmmpkps dvvsidpkll meeadfqkql pkdappserl eesrILTLII
GALGIAYLAM YFsehGFNIT INTVNLMFMI AGLLLhktpm aymraisAAA
RSTAGILVQF PFYAGIQLMM ehsglgglit effinvankd tfpvmtffss
alinfavpsg gghwviqgpf vipaaqalga dlgksvmaia ygeqwmnmaq 400
pfwalpalai aglgvrDIMG YCITALLFSG VIFVIGLTLf (potential)

MW 47527 Da; 440 aa


Formate Transport

Probable formate transporter 1 (focA )
functioninvolved in the bidirectional transport of formate
interaction 
regulation 
topologytransmembrane domains: 6 (potential)

TMHMM gives 35-57 77-99 119-141 161-183 195-217 256-278
SP gives 37-53 69-85 117-133 165-183 192-207 260-279

mkadnpfdll lpaamakvae eagvykatkh plktFYLAIT AGVFISIAFV
FYITATTgtg tmpfgmaklv ggicfsLGLI LCVVCGADLF TSTVLIVVAk
asgritwgql aknwlnvyFG NLVGALLFVL LMWLSGEYMT Angqwglnvl
qtadhkvhht FIEAVCLGIL ANLMVCLAVW MSYsgrslmd kafiMVLPVA 200
MFVASGFEHS IANMFMIpmg ivirdfaspe fwtavgsape nfshltvmnf
itdnlIPVTI GNIIGGGLLV GLTYWVIYlr endhh

MW 30991 Da; 285 aa


Probable formate transporter 2 (focB )
functioninvolved in the bidirectional transport of formate
interaction 
regulation 
topologytransmembrane domains: 6 (potential)

TMHMM gives 31-53 68-90 111-133 165-187 200-222 249-271
SP gives 36-56 69-89 113-133 164-184 191-211 249-269

mrnklsfdlq lsarkaaiae riaahkiars kVSVFLMAMS AGVFMAIGFT
FYLsviadap ssqalthLVG GLCFTLGFIL LAVCGTSLFT ssvmtvmaks
rgviswrtWL INALLVACGN LAGIACFSLL IWFsglvmse namwgvavlh
caegkmhhtf tesvSLGIMC NLMVCLALWM SYCGrslcdk ivamilpitL 200
FVASGFEHCI ANLFVIPFAI AIrhfapppf wqlahssadn fpaltvshFI
TANLLPVMLG NIIGGAVLVS Mcyraiylrq ep

MW 30564 Da; 282 aa


Galactonate Transport

D-galactonate transporter (dgoT )

functionintake of galactonate into the cell
interaction 
regulation 
topologytransmembrane domains: 11 (potential)

TMHMM gives 15-32 53-75 85-107 141-163 167-188 242-263 278-300 307-329 339-361 374-396 401-423
SP gives 18-38 55-75 85-105 143-163 168-188 243-263 284-304 310-330 338-358 376-396 404-424
mdipvnaakp grrrYLTLVM IFITVVICYV dranlavasa hiqeefgitk
aeMGYVFSAF AWLYTLCQIP GGWFLdrvgs rvtyFIAIFG WSVATLFQGF
ATGLMSLigl raitgifeap afptnnrmvt swfpeheras AVGFYTSGQF
VGLAFLTPLL IWIqemLSWH WVFIVTGGIG IIWSLIWFkv yqpprltkgi 200
skaeldyird ggglvdgdap vkkearqplt akdwklvfhr kLIGVYLGQF
AVASTLWFFL TWFpnyltqe kgitalkAGF MTTVPFLAAF VGVLLSGWVA
dllvrkGFSL GFARKTPIIC GLLISTCIMg anytndpmMI MCLMALAFFG
NGFASITWSL Vsslapmrli gltGGVFNFA GGLGGITVPL VVGYLAqgyg 400
FAPALVYISA VALIGALSYI LLVgdvkrvg

MW 47076 Da; 430 aa


Glycerol Uptake

Glycerol uptake facilitator protein (glpF )
functionfacilitates the movement of glycerol across the cytoplasmic membrane
interaction 
regulation 
topology3d structurePDB

transmembrane domains: 6

TMHMM gives 31-53 68-90 111-133 165-187 200-222 249-271
SP gives 36-56 69-89 113-133 164-184 191-211 249-269

mrnklsfdlq lsarkaaiae riaahkiars kVSVFLMAMS AGVFMAIGFT
FYLsviadap ssqalthLVG GLCFTLGFIL LAVCGTSLFT ssvmtvmaks
rgviswrtWL INALLVACGN LAGIACFSLL IWFsglvmse namwgvavlh
caegkmhhtf tesvSLGIMC NLMVCLALWM SYCGrslcdk ivamilpitL 200
FVASGFEHCI ANLFVIPFAI AIrhfapppf wqlahssadn fpaltvshFI
TANLLPVMLG NIIGGAVLVS Mcyraiylrq ep

MW 29780 Da; 281 aa


Glycerol-3-Phosphate Uptake

Glycerol-3-phosphate transporter (glpT )
functionresponsible for glycerol-3-phosphate uptake
interaction 
regulation 
topologytransmembrane domains: 12

TMHMM gives 28-45 65-87 94-116 120-142 155-177 187-206 254-273 293-312 319-341 351-373 386-408 418-437
SP gives 28-44 65-87 96-113 120-136 170-184 191-209 256-270 293-310 324-348 356-378 385-410 419-438

mlsifkpaph karlpaaeid ptyrrlrWQI FLGIFFGYAA YYLVRknfal
ampylveqgf srgdLGFALS GISIAYGFSK FIMGSVSdrs nprVFLPAGL
ILAAAVMLFM GFVPWAtssI AVMFVLLFLC GWFQGMGWPP CGrtmvhwws
qkerGGIVSV WNCAHNVGGG IPPLLFLlgm awfndwHAAL YMPAFCAILV 200
ALFAFAmmrd tpqscglppi eeykndypdd ynekaeqelt akqifmqyvl
pnkLLWYIAI ANVFVYLLRY GILdwsptyl kevkhfaldk ssWAYFLYEY
AGIPGTLLCG WMsdkvfrGN RGATGVFFMT LVTIATIVYW Mnpagnptvd
MICMIVIGFL IYGPVMLIGL HALelapkka agtaaGFTGL FGYLGGSVAA 400
SAIVGYTVdf fgwdggfMVM IGGSILAVIL LIVVMIGekr rheqllqern
gg (potential)

MW 50310 Da; 452 aa


Glycerol-3-Phosphate Uptake

sn-Glycerol-3-phosphate transport system permease protein UgpA (ugpA )
functionpart of the binding protein dependent transport system for sn-glycerol-3-phosphate uptake, probably responsible for translocation of the substrate across the membrane
interaction 
regulation 
topologytransmembrane domains: 6 (potential)

TMHMM gives 12-34 79-101 108-130 155-177 206-228 266-288
SP gives 12-32 81-101 110-130 157-177 208-228 263-283

msssrpvfrs rWLPYLLVAP QLIITVIFFI WPAGealwys lqsvdpfgfs
sqfvgldnfv tlfhdsyyld sfwttikfst FVTVSGLLVS LFFAALVEYI
VrgsrfyqTL MLLPYAVAPA VAAVLWIFLF npgrglithf laefgydwnh
aqnsgqAMFL VVFASVWKQI SYNFLFFyaa lqsiprslie aaaidgagpi 200
rrffkIALPL IAPVSFFLLV VNLVYAFFdt fpvidaatsg gpvqatttli
ykiyregftg ldlasSAAQS VVLMFLVIVL TVVQFRYVes kvryq

MW 33264 Da; 295 aa


Glycerol-3-phosphate transport system permease protein UgpE (ugpE )
functionpart of the binding protein dependent transport system for sn-glycerol-3-phosphate uptake, probably responsible for translocation of the substrate across the membrane
interaction 
regulation 
topologytransmembrane domains: 6 (potential)

TMHMM gives 7-29 82-104 111-130 145-162 200-222 251-273
SP gives 16-36 85-105 113-133 142-162 202-222 247-267

mienrpWLTI FSHTMLILGI AVILFPLYVa fvaatldkqa vyaapmtlip
gthllenihn iwvngvgtns apfwrmllns FVMAFSITLG KITVSMLSAF
AIVWfrfplr nLFFWMIFIT LMLPVEVRIF ptvevianlq mldsYAGLTL
PLMASATATF LFrqffmtlp delveaarid gaspmrffcd ivfplsktnL 200
AALFVITFIY GWNQYLWPLL IItdvdlgtt vagikgmiat gegttewnsv
MVAMLLTLIP PVVIVLVMQR AFVrglvdse k

MW 31499 Da; 281 aa


Hemolysin Export

Hemolysin secretion ATP-binding protein (hlyB )
functioninvolved in the export of hemolysin A
interaction 
regulation 
topologyhomodimer
transmembrane domains: 8 (potential), TMHMM has 5

TMHMM gives 157-179 194-216 270-289 293-315 390-412
SP gives 38-51 58-78 158-179 191-211 269-289 295-315 388-408 412-432

mdschkidyg lyaleilaqy hnvsvnpeei khrfdtdGTG LGLTSWLLAA
KSLelkvkqV KKTIDRLNFI FLPALVwred grhfiltkis kevnrylifd
leqrnprvle qsefealyqg hiilitsrss vtgklakfdf twfipaiiky
rrifieTLVV SVFLQLFALI TPLFFQVVMd kvlvhrgfst LNVITVALSV 200
VVVFEIILSG LrtyiFahst sridvelgak lfrhllalpi syfesrrvgd
tvarvreldq irnfltgqaL TSVLDLLFSL IFFAVMWYYs pkLTLVILFS
LPCYAAWSVF ISPILrrrld dkfsrnadnq sflvesvtai ntikamavsp
qmtniwdkql agyvaagfkv tvlatigqqg iqliqkTVMI INLWLGAHLV 400
ISGDLSIGQL IAFnMLAGQI VAPVIRLAQI Wqdfqqvgis vtrlgdvlns
ptesyhgklt lpeingditf rnirfrykpd spvildninl sikqgevigi
vgrsgsgkst ltkliqrfyi pengqvlidg hdlaladpnw lrrqvgvvlq
dnvllnrsii dnislanpgm svekviyaak lagahdfise lregyntivg 600
eqgaglsggq rqriaiaral vnnpkilifd eatsaldyes ehvimrnmhk
ickgrtviii ahrlstvkna driivmekgk iveqgkhkel lsepeslysy
lyqlqsd

MW 79672 Da; 707 aa


Hemolysin secretion protein D (hlyD )
functioninvolved in the transport of hemolysin A
interaction 
regulation 
topologytransmembrane domains: 1 (potential)

TMHMM gives 59-81
SP gives 60-80

mktwlmgfse fllryklvws etwkirkqld tpvrekdene flpahlelie
tpvsrrprLV AYFIMGFLVI AFILSVLGQV eivatangkl thsgrskeik
piensivkei ivkegesvrk gdvllkltal gaeadtlktq ssllqarleq
tryqilsrsi elnklpelkl pdepyfqnvs eeevlrltsl ikeqfstwqn 200
qkyqkelnld kkraerltvl arinryenls rveksrlddf ssllhkqaia
khavleqenk yveavnelrv yksqleqies eilsakeeyq lvtqlfknei
ldklrqttdn iglltlelak neerqqasvi rapvsvkvqq lkvhteggvv
ttaetlmviv peddtlevta lvqnkdigfi nvgqnaiikv eafpytrygy 400
lvgkvkninl daiedqrlgl vfnviisiee nclstgnkni plssgmavta
eiktgmrsvi syllsplees vteslrer

MW 54541 Da; 478 aa


Hexuronate Transport

Hexuronate transporter (exuT )
functionaldohexuronate transport system
interaction 
regulation 
topologytransmembrane domains: 11 (potential), SP has 12

TMHMM gives 47-66 87-109 119-141 176-198 203-225 272-294 309-331 344-363 368-390 403-425 430-452
SP gives 3-23 44-64 89-109 116-136 179-199 205-225 277-297 305-325 334-354 358-378 410-430 432-452

matfgacrff fgypvvtnif slwrddgras cgynktmrfy mrkikglrWY
MIALVTLGTV LGYLTrntva aaaptlmeel nistqqYSYI IAAYSAAYTV
MQPVAGYVLd vlgtkigyAM FAVLWAVFCG ATALAGSWGG Lavargavga
aeaamipagl kassewfpak ersiaVGYFN VGSSIGAMIA PPLVVWAIVM 200
hsWQMAFIIS GALSFIWAMA WLIFYkhprd qkhltdeerd yiingqeaqh
qvstakkmsv gqilrnrqfw gIALPRFLAE PAWGTFNAWI PLFMFkvygf
nlkeiaMFAW MPMLFADLGC ILGGYLPPLF qrwfgvnliv srkMVVTLGA
VLMIGPGMIG LFTnpyvAIM LLCIGGFAHQ ALSGALITLS sdvfgrneva 400
tanGLTGMSA WLASTLFALV VGALAdtigF SPLFAVLAVF DLLGALVIWT
VLqnkpaiev aqethndpap qh

MW 51571 Da; 472 aa


Ion Transport

ATP synthase protein I (atpZ )
functiona possible function is to guide the assembly of the membrane sector of the ATPase enzyme complex
interaction 
regulation 
topologytransmembrane domains: 4 (potential)

TMHMM gives 13-30 35-57 70-92 98-120
SP gives 14-34 37-57 70-93 100-116

svslvsrnva rkLLLVQLLV VIASGLLFSL kdpFWGVSAI SGGLAVFLPN
VLFMIFAwrh qahtpakgrV AWTFAFGEAF KVLAMLVLLV VALavlkAVF
LPLIVTWVLV LVVQILAPAV innkg

MW 13500 Da; 125 aa


Calcium/proton antiporter (chaA )
functionCa+/H+ antiporter, can also act as a weak Na+/H+ antiporter
interaction 
regulation 
topologytransmembrane domains: 11 (potential)

TMHMM gives 13-32 36-58 71-93 108-127 139-161 166-188 221-238 258-280 287-309 319-341 346-365
SP gives 17-37 38-58 75-95 107-127 144-164 168-188 217-237 256-276 291-311 319-339 346-366

msnaqeavkt rhkeTSLIFP VLALVVLFLW GSsqtLPVVI AINLLALIGI
LSSAFSVVrh advlahrlge pYGSLILSLS VVILEVSLIS ALMatgdaap
tlmrdtLYSI IMIVTGGLVG FSLLLGGrkf atqymnlfgi kqYLIALFPL
AIIVLVFPMA LpaanFSTGQ ALLVALISAA MYGVFLLIqt kthqslfvye 200
heddsddddp hhgkpsahss LWHAIWLIIH LIAVIAVTkm nassletlld
smnapvaFTG FLVALLILSP EGLGALKAVL nnqvqrAMNL FFGSVLATIS
LTVPVVTLIa fmtgnelqFA LGAPEMVVMV ASLVLCHISF StgrtnVLNG
AAHLALFAAY LMTIFa

MW 3916 Da; 366 aa


Putative potassium channel protein (kch )
functionmay play a role in the defense against osmotic shock
interaction 
regulation 
topologytransmembrane domains: 6 (potential), TMHMM has 7

TMHMM gives 21-43 58-80 87-106 110-127 134-156 171-193 200-222
SP gives 22-41 64-83 87-104 111-127 141-160 200-220

mshwatfkqt atnlwvtlrh DILALAVFLN GLLIFKTIYG MSVnlldifh
ikafselDLS LLANAPLFML GVFLVLNSIG llfrakLAWA ISIILLLIAL
IYTLHFypwL KFSIGFCIFT LVFLLILrkd fshSSAAAGT IFAFISFTTL
LFYSTYgaly lsegfnprie slmtafyfsi etmstvgygd ivpvsesarL 200
FTISVIISGI TVFATSMTSI FGplirggfn klvkgnnhtm hrkdhfivcg
hsilaintil qlnqrgqnvt visnlpeddi kqleqrlgdn advipgdsnd
ssvlkkagid rcrailalsd ndadnafvvl sakdmssdvk tvlavsdskn
lnkikmvhpd iilspqlfgs eilarvlnge einndmlvsm llnsghgifs 400
dndeletkad skesaqk

MW 46062 Da; 417 aa


Large conductance mechanosensitive channel (mscL )
functionchannel that gates in response to strech forces in the lipid bilayer
homopentamer
interaction 
regulation 
topologytransmembane domains: 2

TMHMM gives 20-42 77-99
SP gives 19-38 70-96

msiikefref amrgnvvdLA VGVIIGAAFG KIVSSLVADI IMpplgllig
gidfkqfavt lrdaqgdipa vvmhygVFIQ NVFDFLIVAF AIFMAIKLIn
klnrkkeepa aapaptkeev llteirdllk eqnnrs

MW 14957 Da; 136 aa


Iron Transport/ click to view these entries


Lactate Transport

L-lactate permease (lldP )
functionmay play a role in L-lactate transport
interaction 
regulationinduction: aerobically by L-lactate
topologytransmembrane domains: 12, SP has 16

TMHMM gives 10-32 39-58 68-90 119-141 161-183 195-217 244-266 368-387 407-426 433-455 498-515 528-550
SP gives 13-33 37-57 70-90 131-151 159-179 194-214 224-244 245-265 306-326 328-348 366-386 405-425 438-458 466-486 494-514 530-550

mnlwqqnydP AGNIWLSSLI ASLPILFFFF ALiklklkGY VAASWTVAIA
LAVALLFYkm pvanalaSVV YGFFYGLWPI AWIIIAAVFV ykisvktgqf
diirssilsi tpdqrlqmLI VGFCFGAFLE GAAGFGAPVA Itaallvglg
fkplyaaglc LIVNTAPVAF GAMGIPILVA GQVtgidsfe igqmVGRQLP 200
FMTIIVLFWI MAIMDGWrgi ketwpavvva ggsfaiaqyl ssnFIGPELP
DIISSLVSLL CLTLFLkrwq pvrvfrfgdl gasqvdmtla htgytagqvl
rawtpflflt atvtlwsipp fkalfasgga lyewvinipv pyldklvarm
ppvvseatay aavfkfdWFS ATGTAILFAA LLSIVWLkmk psdaistfgs 400
tlkelaLPIY SIGMVLAFAF ISNYSGlsst laLALAHTGH AFTFFSPFLG
WLGVFltgsd tssnalfaal qataaqqigv sdlllvaant tggvtgkMIS
PQSIAIACAA VGLVGkesdl frftvkhSLI FTCIVGVITT LQAYVLTWMI
p (potential)

MW 59168 Da; 551 aa


Magnesium and Cobalt Transport

Magnesium and cobalt transport protein CorA (corA )
functionplays a role in the transport of magnesium and cobalt ions
interaction 
regulation 
topologytransmembrane domains: 2 (potential)

TMHMM gives 255-273 288-310
SP gives 255-273 288-310

mlsafqlenn rltrlevees qplvnavwid lvepddderl rvqselgqsl
atrpeledie asarffeddd glhihsffff edaedhagns tvaftirdgr
lftlrerelp afrlyrmrar sqsmvdgnay ellldlfetk ieqladeien
iysdleqlsr vimeghqgde ydealstlae ledigwkvrl clmdtqraln 200
flvrkarlpg gqleqareil rdiesllphn eslfqkvnfl mqaamgfini
eqnrIIKIFS VVSVVFLPPT LVAssygmnf efmpelkWSF GYPGAIIFMI
LAGLAPYLYF krknwl

MW 36589 Da; 316 aa


MntH (mntH/yfeP )
functionH(+)-stimulated manganese uptake system. Can also transport cadmium, cobalt, iron, zinc and to a lesser extent nickel and copper. Involved in response to reactive oxygen.
interaction 
regulation 
topologytransmembrane domains: 11 (potential)

TMHMM gives 20-39 54-76 96-118 123-145 157-176 196-218 239-261 290-312 324-343 348-370 391-410
SP gives 19-39 48-68 94-114 122-142 156-176 196-216 241-261 290-310 329-349 350-370 392-412

mtnyrvesss graarkmrLA LMGPAFIAAI GYIDPGNFAt niqagasfgy
qLLWVVVWAN LMAMLIQILS AKLGIAtgkn laeqirdhyp rpvvwFYWVQ
AEIIAMATDL AEFIGAAIgf kLILGVSLLQ GAVLTGIATF LILMLqrrgq
kplekvIGGL LLFVAAAYIV ELIFSqpnla qlgkgmvips lptseAVFLA 200
AGVLGATIMP HVIYLhsslt qhlhggsrqq rysatkwdVA IAMTIAGFVN
LAMMATAAAA Fhfsghtgva dldeayltlq pllshaaatV FGLSLVAAGL
SSTVVGTLAG QVvmqgfirf hipLWVRRTV TMLPSFIVIL MGLdptrILV
MSQVLLSFGI ALALVPLLIF tsdsklmgdl vnskrvkqtg WVIVVLVVAL 400
NIWLLVGTAL gl

MW44193 Da; 412 aa




Molybdenum Transport

Molybdenum transport system permease protein ModB (modB )
functionpart of the binding-protein dependent transport system for molybdenum, pobably responsible for the translocation of the substrate across the membrane
interaction 
regulation 
topologytransmembrane domains: 5 (potential)

TMHMM gives 15-37 49-71 86-108 136-158 197-219
SP gives 17-37 50-70 84-104 137-157 202-222

miltdpewqa vllslkVSSL AVLFSLPFGI FFAWLLVrcs fpgkalldSV
LHLPLVLPPV VVGYLLLVSM Grrgfigerl ydwfgITFAF SWRGAVLAAA
VMSFPLMVra irlalegvdv kleqaartlg agrwrVFFTI TLPLTLPGII
VGTVLAFArs lgefgatitf vsnipgetrt ipsamytliq tpggesGAAR 200
LCIISIALAM ISLLISEWLa risreragr

MW 24938 Da; 229 aa


Nickel Transport

Nickel transport system permease protein NikB (nikB )
functioninvolved in a nickel transport system, probably translocates nickel through the bacterial inner membrane
interaction 
regulation 
topologytransmembrane domains: 6 (potential)

TMHMM gives 9-31 101-123 136-158 173-195 230-252 280-302
SP gives 9-29 104-124 138-158 170-190 232-252 275-295

mlryvlrrFL LLIPMVLAAS VIIFLIVRLG Tgdpaldylr lsnlpptpem
lastrtmlgl dqplyvqygt wlwkalhldf gisfasqrpv lddmlnflpa
TLELAGAALV LILLTSVPLG IWAarhrdrl pdfavrFIAF LGVSMPNFWL
AFLLVMAFsv ylqwlpamgy ggWQHIILPA VSIAFMSLAI NARLLrpsml 200
dvagqrhvtw arlrglndkq terrhilrnA SLPMITAVGM HIGELIGGTM
IIenifawpg vgryavsaif nrdypviqcF TLMMVVVFVV CNLIVDLLNA
ALdprirrhe gaha

MW 35242 Da; 314 aa


Nickel transport system permease protein NikC (nikC )
functioninvolved in a nickel transport system, probably translocates nickel through the bacterial inner membrane
interaction 
regulation 
topologytransmembrane domains: 6 (potential)

TMHMM gives 13-32 78-100 121-143 179-198 205-227 242-260
SP gives 13-33 79-99 121-141 184-204 208-228 240-260

mnfflssrws vrLALIIIAL LALIALTSQW WLpydpqaid lpsrllspda
qhwlgtdhlg rdifsrlmaa trvslgsVMA CLLLVLTLGL VIGGSAGLIG
grvdqatmrv admfmtfpts ILSFFMVGVL GTGLTNVIIA IALshwawya
rmvrslvisl rqrefvlasr lsgaghvrVF VDHLAGAVIP SLLVLATLdi 200
ghmmLHVAGM SFLGLGVTAP TAEWGVMind arqyiwtqpl qMFWPGLALF
ISVMAFNLVG dalrdhldph lvtehah

MW 30362 Da; 277 aa


Nitrite Transport

Nitrite extrusion protein 1 (narK )
functioninvolved in excretion of nitrite produced by the dissimilatory reduction of nitrate
interaction 
regulationinduction: by nitrate under anaerobic conditions
topologytransmembrane domains: 12 (potential)

TMHMM gives 38-60 75-97 104-123 133-155 176-198 213-235 256-278 288-307 320-339 354-376 404-421 436-458
SP gives 38-58 79-99 104-124 132-152 178-198 212-232 257-277 284-304 320-340 345-365 405-425 436-456

mshssapera tgavitdwrp edpafwqqrg qriasrnLWI SVPCLLLAFC
VWMLFSAVAV nlpkvgfnft tdqlFMLTAL PSVSGALLRV PYSFMVPifg
grrWTAFSTG ILIIPCVWLG FAVqdtstpy svFIIISLLC GFAGANFASS
MANISFFFpk qkqggalgln gglgnMGVSV MQLVAPLVVS LSIFAVFGsq 200
gvkqpdgteL YLANASWIWV PFLAIFTIAA WFGMNdlats kasikeqlpv
lkrghLWIMS LLYLATFGSF IGFSAGFAml sktqfpdVQI LQYAFFGPFI
GALARSAgga lsdrlggtrV TLVNFILMAI FSGLLFLTLp tdgqggsfma
ffaVFLALFL TAGLGSGSTF QMISVIFrkl tmdrvkaegg sderamreaa 400
tdtAAALGFI SAIGAIGGFF Ipkafgssla ltgspVGAMK VFLIFYIACV
VITWAVYGrh skk

MW 49693 Da; 463 aa


Nitrite extrusion protein 2 (narU )
functioninvolved in excretion of nitrite produced by the dissimilatory reduction of nitrate
interaction 
regulationinduction: by nitrate under anaerobic conditions
topologytransmembrane domains: 12 (potential)

TMHMM gives 36-58 73-95 102-121 131-153 174-196 211-233 254-276 286-306 313-335 345-367 401-423 433-455
SP gives 36-56 77-97 102-122 126-146 181-201 207-227 259-279 288-308 318-338 345-365 402-422 433-453
malqneknsr yllrdwkpen pafwenkgkh iarrnLWISV SCLLLAFCVW
MLFSAVTVnl nkigfnfttd qLFLLTALPS VSGALLRVPY SFMVPIFggr
rWTVFSTAIL IIPCVWLGIA Vqnpntpfgi FIVIALLCGF AGANFASSMG
NISfffpkak qgsalgingg lgnLGVSVMQ LVAPLVIFVP VFAFLGvngv 200
pqadgsvmsL ANAAWIWVPL LAIATIAAWS GMndiassra siadqlpvlq
rlhLWLLSLL YLATFGSFIG FSAGFAmlak tqfpdVNILR LAFFGPFIGA
IARSVGgais dkFGGVRVTL INFIFMAIFS ALLFLtlpgt gsgnFIAFYA
VFMGLFLTAG LGSGSTFqmi avifrqitiy rvkmkggsde qahkeavtet 400
AAALGFISAI GAVGGFFIPQ AFGmslnmtg spVGAMKVFL IFYIVCVLLT
WLVYGrrkfs qk

MW 49890 Da; 462 aa


Potential nitrite transporter (nirC )
function 
interaction 
regulation 
topologytransmembrane domains: 6 (potential)

TMHMM gives 26-48 58-80 101-123 150-172 184-206 226-248
SP gives 30-46 59-75 108-125 154-172 180-195 231-250

mftdtinkca anaariarls annplgFWVS SAMAGAYVGL GIILIFTLgn
lldpsvrpLV MGATFGIALT LVIIAGSELF tghtmfltfg vkagsishgq
MWAILPQTWL GNLVGSVFVA MLYswgggsl lpvdtsivhs valakttapA
MVLFFKGALC NWLVCLAIWM ALrtegaakf iaiWWCLLAF IASGYEHSIA 200
NMTLFALswf gnhseaytla gighnLLWVT LGNTLSGAVF MGLGYWYAtp
kanrpvadkf nqtetaag

MW 28562 Da; 268 aa


NMN (Nicotinamide Mononucleotide)Transport

PnuC protein (pnuC )
functionrequired for NMN transport across the cytoplasmic membrane
interaction 
regulationrepressed by NadR
topologytransmembrane domains: 6 (potential), SP has 7

TMHMM gives 20-42 49-68 72-89 110-132 158-177 184-206
SP gives 22-42 49-69 103-123 127-147 158-178 185-205 206-226

mdffsvqnil vhipigaggy dLSWIEAVGT IAGLLCIGLA SLekisnyFF
GLINVTLFGI IFFQIQLYas lLLQVFFFAA NIYGWYAWSr qtsqneaelk
irwlplpkaL SWLAVCVVSI GLMTVFINPV FAFLtrvavm imqalglqvv
mpelqpdAFP FWDSCMMVLS IVAMILMtrk yvenWLLWVI INVISVVIFA 200

LQGVYAmsle yiiltfialn gsrmwinsar ergsralsh

MW 26996 Da; 239 aa


Nucleoside Transport

Nucleoside permease NupC (nupC )
functiontransports nucleosides with high affinity except guanosine and deoxyguanosine, driven by a PMF
interaction 
regulation 
topologytransmembrane domains: 8 (potential), SP has 9

TMHMM gives 4-23 30-48 86-108 193-212 249-271 278-300 342-364 377-399
SP gives 4-24 37-57 88-108 169-189 193-213 251-271 282-302 342-362 379-399

mdrVLHFVLA LAVVAILALL VSSdrkkiri rYVIQLLVIE VLLAWFFLns
dvglgfvkgf semfekllgf anegtnfvfg smndqGLAFF FLKVLCPIVF
ISALIGILqh irvlpviira igfllskvng mgklesfnav sslilgqsen
fiaykdilgk isrnrmytma atamstvsms ivgaymtmle pkYVVAALVL 200
NMFSTFIVLS LInpyrvdas eeniqmsnlh egqsffemlg eyilagfkVA
IIVAAMLIGF IALIAALNAL FatvtgwFGY SISFQGILGY IFYPIAWVMG
vpssealqvg simatklvsn efvammdlqk iastlsprae gIISVFLVSF
ANFSSIGIIA GAVKglneeq gnvvsrFGLK LVYGSTLVSV LSASIAALVl 400

MW 43475 Da; 400 aa


Nucleoside permease NupG (nupG )
functiontransports nucleosides with high affinity, driven by a PMF
interaction 
regulation 
topologytransmembrane domains: 12 (potential)

TMHMM gives 7-29 39-61 68-90 94-116 137-159 163-185 211-233 253-275 282-301 311-333 346-365 380-402
SP gives 9-29 40-60 70-90 96-116 137-157 162-182 210-230 255-275 283-303 305-325 349-369 382-402

mnlklqlkIL SFLQFCLWGS WLTTLGSYMF VtlkfdgaSI GAVYSSLGIA
AVFMPALLGI VadkwlsakW VYAICHTIGA ITLFMAAQVT tpeAMFLVIL
INSFAYMPTL GLINTIsyyr lqnagmdivt dfppirIWGT IGFIMAMWVV
SLSGFELShm qLYIGAALSA ILVLFTLTLP HIPVAkqqan qswttllgld 200
afalfknkrm AIFFIFSMLL GAELQITNMF GNTFLhsfdk dpmfassfiv
qhASIIMSIS QISETLFILT IPFFLsrygi knVMMISIVA WILRFALFAY
GdptpfgtVL LVLSMIVYGC AFDFFNISGS VFVekevspa irasaqGMFL
MMTNGFGCIL GGIVSgkvve mytqngitdW QTVWLIFAGY SVVLAFAFMA 400
MFkykhvrvp tgtqtvsh

MW 46389 Da; 418 aa


Xanthosine permease (xapB )
functionnucleoside transport
interaction 
regulation 
topologytransmembrane domains: 12 (potential)

TMHMM gives 12-30 40-62 71-90 94-116 128-150 160-179 212-234 249-271 278-300 305-327 347-369 380-402
SP gives 10-30 42-62 71-91 92-112 137-157 160-180 210-230 255-275 278-298 307-327 349-369 382-402

msiamrlkvm sFLQYFIWGS WLVTLGSYMI ntlhftganV GMVYSSKGIA
AIIMPGIMGI IAdkwlraer aYMLCHLVCA GVLFYAASVT dpdMMFWVML
VNAMAFMPTI ALSNSVsysc laqagldpVT AFPPIRVFGT VGFIVAMWAV
sllhlelssL QLYIASGASL LLSAYALTLp kipvaekkat tslasklgld 200
afvlfknprm aIFFLFAMML GAVLQITNVF GNPFLhdfar npefadsFVV
KYPSILLSVS QMAEVGFILT IpfflkrFGI KTVMLMSMVA WTLRFGFFAY
gdpsTTGFIL LLLSMIVYGC AFDFFNIsgs vfveqevdss irasaqGLFM
TMVNGVGAWV GSILSGMAVd yfsvdgvkdW QTIWLVFAGY ALFLAVIFFF 400
GFkynhdpek ikhravth

MW 46139 Da; 418 aa


O-Antigen Transport

Putative O-antigen transporter (rfbX )
functionmay be involved in the translocation process of the nascent O-polysaccharide molecules and/or its ligation to lipid A core units
interaction 
regulation 
topologytransmembrane domains: 10 (potential)

TMHMM gives 12-34 44-63 84-106 116-138 172-194 220-242 294-316 326-348 361-383 388-407
SP gives 12-32 42-62 84-104 118-138 174-194 221-241 296-316 329-349 363-383 386-406

mntnklslrr nVIYLAVVQG SNYLLPLLTF PYLVrtlgpe nfgIFGFCQA
TMLYMIMFVE YGFnltatqs iakaadskdk vtsIFWAVIF SKIVLIVITL
IFLTSMtllv peynkhAVII WSFVPALVGN LIYPIWLFqg kekmkwltls
silsrlaiip ltfifvntks dIAIAGFIQS SANLVAGIIA LAIVvhegwi 200
gkvtlslhnv rrsladgfhV FISTSAISLY STGIVIILGF ISgptsvgnf
naantirnal qgllnpitqa iyprisstlv lnrvkgvili kksLTCLSLI
GGAFSLILLL GASILVkisi gpgydnAVIV LMIISPLPFL ISLSNVYGiq
vmlthnykke FSKILIAAGL LSLLLIFPLT TLFkeigAAI TLLATECLVT 400
SLMLMFVrnn kllvc

MW 45382 Da; 415 aa


Peptide Transport/ click to view these entries


Permeases with Unknown Substrates

AmpG protein (ampG )
functionprobably acts as a permease in the beta-lactamase induction system
interaction 
regulation 
topologytransmembrane domains: 14 (potential), SP has 10

TMHMM gives 13-35 50-69 82-104 109-131 144-166 176-195 223-245 260-282 287-309 319-341 354-376 380-402 423-445 458-480
SP gives 13-33 81-105 110-128 174-197 224-244 266-283 328-345 382-406 425-450 461-485

mssqylrifq qprSAILLIL GFASGLPLAL TSGTLqawmt venidlktiG
FFSLVGQAYV FKFLWSPLMd rytppffgrr rGWLLATQIL LLVAIAAMGF
LEPGtqlrWM AALAVVIAFC SASQDIVFDA Wktdvlpaee rgaGAAISVL
GYRLGMLVSG GLALWLadkw lgwqgMYWLM AALLIPCIIA TLLAPeptdt 200
ipvpktleqa vvaplrdffg rnnAWLILLL IVLYKLGDAF AMSLTttfli
rgvgfdageV GVVNKTLGLL ATIVGALYGG ILmqrlSLFR ALLIFGILQG
ASNAGYWLLs itdkhlysMG AAVFFENLCG GMGTSAFVAL Lmtlcnksfs
atqFALLSAL SAVGRVYVGP VAGWFVeahG WSTFYLFSVA AAVPGLILLL 400
VCrqtleytr vndnfisrta ypAGYAFAMW TLAAGVSLLA VWLLLLtmda
ldlthfsFLP ALLEVGVLVA LSGVVLGGLL dylalrkthl t

MW 53245 Da; 491 aa


DsdX permease (dsdX )
functionprobable permease for a unknown substrate
interaction 
regulation 
topologytransmembrane domains: 12 (potential), SP has 13

TMHMM gives 5-23 27-49 54-76 104-126 139-161 176-198 225-244 259-281 300-322 342-364 385-407 422-444
SP gives 5-25 29-49 57-77 106-126 140-160 178-198 224-244 258-278 302-322 343-363 364-384 385-405 425-445

mhsqIWVVST LLISIVLIVL TIVkfkFHPF LALLLASFFV GTMMGMGPLd
mvnAIESGIG GTLGFLAAVI GLGTILgkmm evsgaaerig ltlqrcrwls
vdvIMVLVGL ICGITLFVEV GVVLLIplaf siakktntSL LKLAIPLCTA
LMAVHCVVPP Hpaalyvank lgadiGSVIV YGLLVGLMAS LIGGPLFLkf 200
lgqrlpfkpv ptefadlkvr dektLPSLGA TLFTILLPIA LMLVktiael
nmaresglYI LVEFIGNPIT AMFIAVFVAY Yvlgirqhms mgtmlthten
GFGSIANILL IIGAGGAFNA ILksssladt lavilsnmhm hPILLAWLVA
LILHAAVGSA TVAMmgatai vapmlplypd ispeIIAIAI GSGAIGCTIV 400
TDSLFWLvkq ycgatlnetf kYYTTATFIA SVVALAGTFL LSFIi

MW 47163 Da; 445 aa


Putative permease PerM (perM )
function 
interaction 
regulation 
topologytransmembrane domains: 7 (potential)

TMHMM gives 20-51 72-94 155-177 217-236 251-273 278-300 310-332
SP gives 19-39 72-92 156-176 217-237 240-260 281-301 310-330

mlemlmqwyr rrfsdpeaiA LLVILVAGFG IIFFFSGLLA PLLVAIVLAY
Llewptvrlq sigcsrrwat sIVLVVFVGI LLLMAFVVLP IAWQqgiyli
rdmpgmlnkl sdfaatlprr ypalmdagii damaenmrsr mltmgdsvvk
islaSLVGLL TIAVYLVLVP LMVFFLLkdk eqmlnavrrv lprnrglagq 200
vwkemnqqit nyirgkVLEM IVVGIATWLG FLLFGLnysl llavlvgfsv
LIPYIGAFVV TIPVVGVALF QFGagteFWS CFAVYLIIQA LDGNLLVPVL
FseavnlhpL VIILSVVIFG GLWGFWGVFF AIplatlika vihawpdgqi
aqe

MW 39194 Da; 353 aa


Putative transport protein SgaT (sgaT )
functioncould act as the transport protein for the unknown pentitol substrate of the sga operon
interaction 
regulation 
topologytransmembrane domains: 10 (potential), SP has 12

TMHMM gives 30-52 59-81 118-140 160-191 252-271 283-305 325-347 359-381 396-418 443-465
SP gives 12-32 33-53 57-77 120-140 160-180 252-272 282-302 335-355 357-377 398-418 420-440 446-466

mhnipgvwnt rlpllqeivm eilyniftvF FNQVMTNAPL LLGIVTCLGY
ILlrksvsVI IKGTIKTIIG FMLLQAGSGI Ltstfkpvva kmsevyging
aisdtyasmm atidrmgDAY SWVGYAVLLA LALNICYVLL rritgirtim
ltghimfqqA GLIAVTLFIF GYSMWTTIIC TAILVSLYWG Itsnmmykpt 200
qevtdgcgfs ighqqqfasw iaykvapflg kkeesvedlk lpgwlnifhd
nIVSTAIVMT IFFGAILLSF Gidtvqamag kvHWTVYILQ TGFSFAVAIF
IITQGvrmfv aelseafngi sqrLIPGAVL AIDCAAIYSF APNAVVWgfm
wgtigqliAV GILVACGSSI LIIPGFIPMF Fsnatigvfa nhfggWRAAL 400
KICLVMGMIE IFGCVWAVkl tgmsawmgma dwsilappmm qgFFSIGIAF
MAVIIVIALA YMFFAgralr aeedaekqla eqsa

MW 52950 Da; 484 aa


Phosphate Transport

Low-affinity inorganic phosphate transporter 1 (pitA )
functionlow-affinity inorganic phosphate transport, can also transport arsenate
interaction 
regulation 
topologytransmembrane domains: 10 (potentail)

TMHMM gives 10-32 52-74 94-116 123-145 155-177 207-224 234-256 381-403 418-440 474-496
SP gives 5-25 52-72 94-114 124-144 155-175 207-227 233-253 382-402 430-450 473-493

mlhlfagldl hTGLLLLLAL AFVLFYEAIN GFhdtanava tviytramrs
qLAVVMAAVF NFLGVLLGGL SVAYaivhml ptdlllnmgs shgLAMVFSM
LLAAIIWNLG TWYFGLpass shTLIGAIIG IGLTNALMTG TSVVdalnip
kvlsIFGSLI VSPIVGLVFA GGLIFLLrry wsgtkkrari hltpaerekk 200
dgkkkpPFWT RIALILSAIG VAFShgandg qkgIGLVMLV LIGVAPAGFV
VNMNATgyei trtrdainnv eayfeqhpal lkqatgadql vpapeagatq
paefhchpsn tinalnrlkg mlttdvesyd klsldqrsqm rrimlcvsdt
idkvvkmpgv saddqrllkk lksdmlstie YAPVWIIMAV ALALGIGTMI 400
GWrrvattig ekigkkgMTY AQGMSAQMTA AVSIGLASYT gmpvstthvl
sssvagtmvv dggglqrktv tsiLMAWVFT LPAAVLLSGG LYWLSLqfl

MW 53389 Da; 499 aa


Pobable low-affinity inorganic phosphate transporter 2 (pitB )
functionlow-affinity inorganic phosphate transport
interaction 
regulation 
topologytransmembrane domains: 10 (potential)

TMHMM gives 10-32 52-74 94-116 123-140 155-177 207-224 234-256 381-403 418-440 474-496
SP gives 5-25 52-72 94-114 124-144 155-175 207-227 233-253 382-402 430-450 473-493

mlnlfvgldI YTGLLLLLAL AFVLFYEAIN GFhdtanava aviytramqp
qLAVVMAAFF NFFGVLLGGL SVAYaivhml ptdlllnmgs thgLAMVFSM
LLAAIIWNLG TWFFGLpass shTLIGAIIG IGLTNALLTG ssvmdalnlr
evtkIFSSLI VSPIVGLVIA GGLIFLLrry wsgtkkrdri hripedrkkk 200
kgkrkppFWT RIALIVSAAG VAFShgandg qkgIGLVMLV LVGIAPAGFV
VNMNASgyei trtrdavtnf ehylqqhpel pqkliamepp lpaastdgtq
vtefhchpan tfdaiarvkt mlpgnmesye plsvsqrsql rrimlcisdt
saklaklpgv skedqnllkk lrsdmlstie YAPVWIIMAV ALALGIGTMI 400
GWrrvamtig ekigkrgMTY AQGMAAQMTA AVSIGLASYI gmpvstthvl
ssavagtmvv dggglqrktv tsiLMAWVFT LPAAIFLSGG LYWIALqli

MW 53808 Da; 499 aa


Phosphate transport system permease protein PstA (pstA )
functionpart of the binding protein dependent transport system for phosphate, probably responsible for translocation of the substrate across the membrane
interaction 
regulation 
topologytransmembrane domains: 6 (potential)

TMHMM gives 29-51 88-110 123-145 150-169 201-223 268-290
SP gives 29-50 83-102 127-146 151-169 205-223 267-286

mamvemqtta alaesrrkmq arrrlknrIA LTLSMATMAF GLFWLIWILM
Stitrgidgm slalftemtp ppntegggla nalagsgLLI LWATVFGTPL
GIMAGIYLAe ygrkswlaev irFINDILLS APSIVVGLFV YTIVVaqmeh
FSGWAGVIAL ALLQVPIVIr ttenmlklvp yslreaayal gtpkwkmisa 200
ITLKASVSGI MTGILLAIAR IAGetapllf talsnqfwst dmmqpianlp
vtifkfamsp faewqqlAWA GVLIITLCVL LLNILARVVF aknkhg

MW 32321 Da; 296 aa


Phosphate transport system permease protein PstC (pstC )
functionpart of the binding protein dependent transport system for phosphate, probably responsible for translocation of the substrate across the membrane
interaction 
regulation 
topologytransmembrane domains: 6 (potential)

TMHMM gives 21-43 78-100 112-134 166-188 227-249 282-304
SP gives 25-44 75-94 118-137 168-187 233-252 284-303

maatkpafnp pgkkgdiifs VLVKLAALIV LLMLGGIIVS LIIsswpsiq
kfglaflwtk ewdapndiyg alvpiygTLV TSFIALLIAV PVSFGIALFL
telapgwlkr pLGIAIELLA AIPSIVYGMW GLFIfaplfa vyfqepvgni
msnipivgal fsgpaFGIGI LAAGVILAIM IIPYIAAVmr dvfeqtpvmm 200
kesaygigct tweviwrivl pftkngVIGG IMLGLGRALG ETMAVTFIIg
ntyqldsasl ympgnsitsa lanefaeaes gLHVAALMEL GLILFVITFI
VLAAskfmim rlaknegar

MW 34121 Da; 319 aa


Potassium Transport

Gluthation-regulated potassium efflux system protein KefB (kefB )
functiontransport sytem that facilitates potassium-efflux possibly by potassium-proton antiport
interaction 
regulation 
topologytransmembrane domains: 13 (potential)

TMHMM gives 5-24 29-51 56-73 86-108 113-135 148-170 180-197 204-226 230-252 265-287 291-313 326-344 354-376
SP gives 5-25 29-49 55-75 87-107 115-135 152-172 177-197 207-227 230-250 268-288 291-311 324-344 356-376

megsdFLLAG VLFLFAAVAA VPLAsrlgIG AVLGYLLAGI AIGPWGLGFI
SdvdeILHFS ELGVVFLMFI IGLelnpskl wqlrrSIFGV GAAQVLLSAA
LLAGLLMLtd faWQAAVVGG IGLAMSSTAM ALQLMrekgm nrsesgqLGF
SVLLFQDLAV IPALALVPLL agsadehfdW MKVGMKVLAF VGMLIGGryl 200
lrpVFRFIAA SGVREVFTAA TLLLVLgsaL FMDALGLSMA LGTFIAGVLL
Aeseyrhele taidpFKGLL LGLFFISVGM SLNLGVLyth LLWVVISVVV
LVAVKILVLY LLArlygvrs sermqFAGVL SQGGEFAFVL FSTAssqrlf
qgdqMALLLV TVTLSMMTTP LLMKLVdkwl srqfngpeee dekpwvnddk 400
pqvivvgfgr fgqvigrllm ankmritvle rdisavnlmr kygykvyygd
atqvdllrsa gaeaaesivi tcnepedtmk lveicqqhfp hlhilararg
rveahellqa gvtqfsretf ssalelgrkt lvtlgmhphq aqraqlhfrr
ldmrmlreli pmhadtvqis rarearrele eifqremqqe rrqldgwdef 600
e

MW 66411 Da; 601 aa


Gluthation-regulated potassium efflux system protein KefC (kefC )
functiontransport sytem that facilitates potassium-efflux possibly by potassium-proton antiport
interaction 
regulationunder negative feedback regulation by glutathione and removal of glutathione leads to partial activation of the system. complete activation requires the formation of glutathion metabolites that carry a hydrophobic substituent on the S-atom
topologytransmembrane domains: 13 (potential), SP has 12

TMHMM gives 5-24 26-45 55-72 85-107 112-134 147-169 179-201 214-233 237-254 267-289 293-315 327-349 359-381
SP gives 4-24 26-46 54-74 90-110 114-134 149-169 178-198 218-238 270-290 294-314 327-347 359-379

mdshTLIQAL IYLGSAALIV PIAVrLGLGS VLGYLIAGCI IGPWGlrlvt
daesILHFAE IGVVLMLFII GLeldpqrlw klraAVFGCG ALQMVICGGL
LGLFCMLlgl rWQVAELIGM TLALSSTAIA MQAMnernlm vtqmgrSAFA
VLLFQDIAAI PLVAMIPLLa tssasttmGA FALSALKVAG ALVLVVLLGR 200
Yvtrpalrfv arsGLREVFS AVALFLVFGF GLLleeVGLS MAMGAFLAGV
LLASseyrha lesdiePFKG LLLGLFFIGV GMSIDFGTLl enplrIVILL
LGFLIIKIAM LWLIArplqv pnkqrrWFAV LLGQGSEFAF VVFGAAQMAn
vlepewakSL TLAVALSMAA TPILLVILNR Leqssteear eadeideeqp 400
rviiagfgrf gqitgrllls sgvkmvvldh dpdhietlrk fgmkvfygda
trmdllesag aakaevlina iddpqtnlql temvkehfph lqiiarardv
dhyirlrqag vekperetfe galktgrlal eslglgpyea reradvfrrf
niqmveemam vendtkaraa vykrtsamls eiitedrehl sliqrhgwqg 600
teegkhtgnm adepetkpss

MW 67795 Da; 620 aa


Kup system potassium uptake protein (kup )
functionlow-affinity potassium transport system
interaction 
regulation 
topologytransmembrane domains: 12 (potential)

TMHMM gives 7-29 49-71 102-124 134-156 168-190 210-232 245-267 287-309 335-357 363-385 392-414 419-441
SP gives 9-29 48-66 102-123 134-157 168-185 212-232 245-267 284-304 337-357 363-383 395-414 419-440

mstdnkqSLP AITLAAIGVV YGDIGTSPLY tlreclsgqf gfgverdaVF
GFLSLIFWLL IFVVSIKYLT Fvmradnage ggiltlmsla grntsartts
mLVIMGLIGG SFFYGEVVIT PAISvmsaie gleIVAPQLD TWIVPLSIIV
LTLLFMiqkh gtamvgkLFA PIMLTWFLIL AGLGLRSIIA npevlhalnp 200
mwavhffleY KTVSFIALGA VVLSITGVEA LYadmghfgk fpirLAWFTV
VLPSLTLNYF GQGALLLknp eaiknpffll apdwalIPLL IIAALATVIA
SQAVISGVFs ltrqavrlgy lspmriihts emesGQIYIP FVNWMLYVAV
VIVIVSFehs snLAAAYGIA VTGTMVLTSI LSTTVarqnw hwnkYFVALI 400
LIAFLCVDIP LFTAnldkLL SGGWLPLSLG TVMFIVMTTW Kserfrllrr
mhehgnslea miaslekspp vrvpgtavym srainvipfa lmhnlkhnkv
lhervilltl rtedapyvhn vrrvqieqls ptfwrvvasy gwretpnvee
vfhrcglegl scrmmetsff msheslilgk rpwylrlrgk lylllqrnal 600
rapdqfeipp nrvielgtqv ei

MW 69294 Da; 622 aa


Trk sytem potassium uptake protein TrkG (trkG )

functionlow affinity potassium transport system interacts with trk system potassium uptake protein TrkA , TrkE increases affinity of the system
interaction 
regulation 
topologytransmembrane domains: 12 (potential), TMHMM has 11

TMHMM gives 12-34 39-58 71-93 139-161 188-207 241-263 276-298 334-356 398-420 430-452 459-481
SP gives 13-33 39-59 73-93 100-120 139-159 194-214 243-263 279-299 336-356 399-419 424-444 462-482

mntshvrvvt hMCGFLVWLY SLSMLPPMVV ALFYkeksLF VFFITFVIFF
CIGGGAWYtt kksgiqlrtr DGFIIIVMFW ILFSVISAFP LWIdselnlt
FIDALFEGVS GITTTGATVI ddvsslpray lyyrsqlnFI GGLGVIVLAV
AVLPLLGIGG Aklyqsempg pfkddkltpr ladtsrtLWI TYSLLGIACI 200
VCYRLAGmpl fdaichgist vslggfsths esigyfnnyl VELVAGSFSL
LSAFNFTLWY IVIsrktikp lirdiELRFF LLIALGVIIV TSFQVWHIgm
ydlhgsfihs fflassmltd nglatqdyas wptHTIVFLL LSSFFGGCIG
STCGGIkslr flilfkqskh einqlshpra llsvnvggki vtdrvmrSVW 400
SFFFLYTLFT VFFILVLNGM gydfltsfaT VAACINNMGL GFGATASSFG
VLndiakcLM CIAMILGRLE IYPVIILFSG Ffwrs

MW 53943 Da; 485 aa


Trk system potassium uptake protein TrkH (trkH )
functionlow affinity potassium transport system, interacts with trk system potassium uptake protein TrkA and requires TrkE for transport activity
interaction 
regulation 
topologytransmembrane domains: 10 (potential), SP has 11

TMHMM gives 9-31 35-57 69-91 133-155 185-204 238-260 273-295 332-354 396-418 456-478
SP gives 9-29 35-55 70-90 109-129 136-156 185-205 240-260 277-297 329-349 397-417 423-443

mhfraitrIV GLLVILFSGT MIIPGLVALI YrdgAGRAFT QTFFVALAIG
SMLWWPNrke kgelksreGF LIVVLFWTVL GSVGALPFIF Sespnltitd
affesfsglt ttgattlvgl dslphailfy rqMLQWFGGM GIIVLAVAIL
PILGVggmql yraempgplk dnkmrpriae taktLWLIYV LLTVACALAL 200
WFAGmdafda ighsfatiai ggfsthdasi gyfdsptINT IIAIFLLISG
CNYGLHFSLL sgrslkvywr dpEFRMFIGV QFTLVVICTL VLWFHnvyss
almtinqaff qvvsmattag fttdsiarwp lFLPVLLLCS AFIGGCAGST
GGGLkviril llfkqgnrel krlvhpnavy siklgnralp erileAVWGF 400
FSAYALVFIV SMLAIIATgv ddfsafasvv atlnnlgpgl gvvadnftsm
npvakWILIA NMLFGRLEVF TLLVLFTPtf wre

MW 52959 Da; 483 aa


Protein Secretion/ click to view these entries


Putrescine/Spermidine Transport

Spermidine/putrescine transport permease protein PotB (potB )
functionrequired for the activity of the bacterial periplasmic transport system of putrescine and spermidine
interaction 
regulation 
topologytransmembrane domains: 6 (potential)

TMHMM gives 5-27 59-81 88-110 141-163 184-206 240-262
SP gives 3-22 61-80 90-109 141-160 189-208 242-261

mivtIVGWLV LFVFLPNLMI IGTSFLTrdd asfvkmvftl dnytrlldpl
yfevllhsLN MALIATLACL VLGYPFAWFL AklphkvrpL LLFLLIVPFW
TNSLIRIYGL kiflstkgyl nefllwlgvi dtpirimftp SAVIIGLVYI
LLPFMVMPLY SSIekldkpl leaardlgas klqTFIRIII PLTMPGIIAG 200
CLLVMLpamg lfyvsdlmgg aknllignvi kvqflnirdW PFGAATSITL
TIVMGLMLLV YWrasrllnk kvele

MW 31062 Da; 275 aa


Spermidine/putrescine transport permease protein PotC (potC )
functionrequired for the activity of the bacterial periplasmic transport system of putrescine and spermidine
interaction 
regulation 
topologytransmembrane domains: 6 (potential)

TMHMM gives 5-27 64-86 99-121 126-148 176-195 230-252
SP gives 8-27 66-85 101-120 129-148 177-196 232-251

migrllrggF MTAIYAYLYI PIIILIVNSF nssrfginwq gfttkwysll
mnndsllqaa qhsLTMAVFS ATFATLIGSL TAVALYryrf rgkpfvsgML
FVVMMSPDIV MAISLLVLFM LlgiqLGFWS LLFSHITFCL PFVVVTVYsr
lkgfdvrmle aakdlgasef tilrkIILPL AMPAVAAGWV LSFTLsmddv 200
vvssfvtgps yeilplkiys mvkvgvspeV NALATILLVL SLVMVIASQL
IArdktkgnt gdvk

MW 29111 Da; 264 aa


Spermidine/putrescine transport permease protein PotH (potH )
functionrequired for the activity of the bacterial periplasmic transport system of putrescine and spermidine
interaction 
regulation 
topologytransmembrane domains: 6 (potential)

TMHMM gives 31-52 100-122 135-157 186-208 229-251 284-306
SP gives 32-51 105-124 134-153 185-204 240-259 285-304

mstlepaaqs kppggfklwl sqlqmkhgrk LVIALPYIWL ILLFLLPFLI
VFkislaema raippytelm ewadgqlsit lnlgnflqlt ddplyfdayL
QSLQVAAIST FCCLLIGYPL AWavahskps trniLLLLVI LPSWTSFLIR
VYAWMGILkn ngvlnnfllw lgvidqplti lhtnLAVYIG IVYAYVPFMV 200
LPIYTALIri dyslveaald lgarplktFF TVIVPLTKGG IIAGSMLVFI
Pavgefvipe llggpdsimi grvlwqeffn nrdWPVASAV AIIMLLLLIV
PIMWFHkhqq ksvgehg

MW 35489 Da; 317 aa


Spermidine/putrescine transport permease protein Pot I (potI )
functionrequired for the activity of the bacterial periplasmic transport system of putrescine and spermidine
interaction 
regulation 
topologytransmembrane domains: 6 (potential)

TMHMM gives 13-35 69-91 104-126 141-163 184-206 242-264
SP gives 14-33 69-88 116-135 141-160 187-206 244-263

mnnlpvvrsp wrIVILLLGF TFLYAPMLML VIYSFnsskl vtvwagwstr
wygellrdda mmsavglsLT IAACAATAAA ILGTIAAVVL Vrfgrfrgsn
gfaFMITAPL VMPDVITGLS LLLLFValah aigwpadrgm LTIWLAHVTF
CTAYVAVVIS SRLreldrsi eeaamdlgat plkVFFVITL PMIMPAIISG 200
WLLAFTLsld dlviasfvsg pgattlpmlv fssvrmgvnp eINALATLIL
GAVGIVGFIA WYLMaraekq rirdiqrarr g

MW 30540 Da; 281 aa


Shikimate Transport

Shikimate transporter (shiA )
function 
interaction 
regulation 
topologytransmembrane domains: 12 (potential), SP has 11

TMHMM gives 25-47 62-84 97-119 129-151 164-186 196-215 255-277 287-309 318-337 341-363 383-405 410-432
SP gives 28-48 64-84 109-129 133-153 168-188 193-213 255-275 287-307 333-353 387-407 411-431

mdstlistrp degtlslsra rraaLGSFAG AVVDWYDFLL YGITAALvfn
reffpqvspa mGTLAAFATF GVGFLFRPLG GVIFghfgdr lgrkrmLMLT
VWMMGIATAL IGILPSFSTi gwwapILLVT LRAIQGFAVG GEWGGAALLS
Vesapknkka FYSSGVQVGY GVGLLLSTGL VSLISMMttd eqflsWGWRI 200
PFLFSIVLVL GALWVrngme esaefeqqqh yqaaakkrip vieallrhpg
aflkIIALRL CELLTMYIVT AFALNYStqn mglpreLFLN IGLLVGGLSC
LTIPCFAWLa drfgrrrVYI TGTLIGTLSA FPFFMALeaq SIFWIVFFSI
MLANIAHDMV VCVqqpmfte mfgasyrysg agVGYQVASV VGGGFTPFIA 400
AALITyfagN WHSVAIYLLA GCLISAMTAL LMkdsqra

MW 47817 Da; 438 aa


Sialic Acid Transport

Putative sialic acid transporter (nanT )
function 
interaction 
regulation 
topologytransmembranbe domains: 12 (potential)

TMHMM gives 21-43 53-72 92-114 146-168 170-189 224-241 248-267 277-299 316-338 353-375 404-426 431-453
SP gives 22-42 58-78 93-113 148-168 170-190 224-244 247-267 278-298 313-333 355-375 406-426 431-451

mstttqnipw yrhlnraqwr AFSAAWLGYL LDGFDFVLIA LVLtevqgef
gLTTVQAASL ISAAFISRWF GGLMLgamgd rygrrlamvt sIVLFSAGTL
ACGFAPGYIT MFIArlvigm gmageygssa tyvieswpkh lrnkaSGFLI
SGFSVGAVVA AQVYSLVVpV WGWRALFFIG ILPIIFALWL rknipeaedw 200
kekhagkapv rtmvdilyrg ehrIANIVMT LAAATALWFC FagnlqnAAI
VAVLGLLCAA IFISFMVqsa gkrwptGVML MVVVLFAFLY SWPIQALLPt
ylktdlaynp htvanVLFFS GFGAAVGCCV GGFLGDWLgt rkayvcslla
sqLLIIPVFA IGGANVWVLG LLLFFqqmlg qgiagilpkl iggyfdtdqr 400
aagLGFTYNV GALGGALAPI IGALIAqrld LGTALASLSF SLTFVVILLI
GLdmpsrvqr wlrpealrth daidgkpfsg avpfgsaknd lvktks

MW 53551 Da; 496 aa


Polysialic acid transport protein KpsM (KPM1) (kpsM )
functionKpsM and KpsT constitute a system for the transport of polysialic acid across the cytoplasmic membrane
interaction 
regulation 
topologytransmembrane domains: 6 (potential)

TMHMM gives 31-53 63-85 106-128 143-165 174-196 228-247
SP gives 33-53 61-81 110-130 144-164 175-195 227-247

marsgfevqk vtvealflre irtrfgkfrl GYLWAILEPS AHLLILLGIL
GYVmhrtmpd isFPVFLLNG LIPFFIFSSI SKRSIgaiea nqglfnyrpv
kpidtIIARA LLETLIYVAV YILLMLIVwm tgeyfeitnf lqLVLTWSLL
IILSCGVGLI FMVVGktfpe mqkVLPILLK PLYFISCIMF PLHSIPkqyw 200
syllwnplvh vvelsreavm pgyisegVSL NYLAMFTLVT LFIGLALyrt
reeamlts

MW 29557 Da; 258 aa


Polysialic acid transport protein KpsM (KPM2) (kpsM )
functionKpsM and KpsT constitute a system for the transport of polysialic acid across the cytoplasmic membrane
interaction 
regulation 
topologytransmembrane domains: 6 (potential)

TMHMM gives 31-53 63-85 106-128 143-165 174-196 228-247
SP gives 33-53 61-81 110-130 144-164 175-195 227-247

marsgfevqk vtvealflre irtrfgkfrl GYLWAILEPS AHLLILLGIF
GYImhrtmpd isFPVFLLNG LIPFFIFSSI SNRSVgaiea nqglfnyrpv
kpidtIIARA LLETLIYVAV YILLMLIVwm ageyfeitnf lqLVLTWSLL
IILSCGIGLI FMVVGktfpe mqkVLPILLK PLYFISCIMF PLHSIPkqyw 200
syllwnplvh vvelsreavm pgyisegVSL NYLAMFTLVT LFIGLALyrt
reeamlts

MW 29561 Da; 258 aa


Capsule polysaccharide export inner membrane protein KpsE (KSE1) (kpsE )
functioninvolved in the translocation of the polisialic acid capsule
interaction 
regulation 
topologytransmembrane domains: 2 (potential)

TMHMM gives 28-47 355-377
SP gives 28-48 357-377

mlikvksavs wmrarlsais ladiqkhLAK IIILAPMAML LIYLAIFsqp
rymseskvai krsddlnsgs lnfglllgas npssaedaly lkeyinspdm
laaldkqlnf reafshsgld flnhlskdet aegflkyykd rinvsyddkt
gllniqttgf spefalkfnq tvlkeserfi nemshriard qlafaeteme 200
karqrldask aellsyqdnn nvldpqaqaq aastlvntlm gqkiqmeadl
rnlltylred apqvvsarna iqslqaqide eqskitapqg dklnrmavdf
eeikskvefn telykltlts iektrveaar klkvlsviss pqlpqessfp
nipyLIACWL LVCCLLFGTL KLLLAVIedh rd

MW 43049 Da; 382 aa


Capsule polysaccharide export inner membrane protein KpsE (KSE5) (kpsE )
functioninvolved in the translocation of the polisialic acid capsule
interaction 
regulation 
topologytransmembrane domains: 2 (potential)

TMHMM gives 28-47 355-377
SP gives 28-48 357-377

mlikvksavs wmrarlsais ladiqkhLAK IIILAPMAVL LIYLAIFsqp
rymseskvai krsddlnsgs lnfglllgas npssaedaly lkeyinspdm
laaldkqlnf reafshsgld flnhlskdet aegflkyykd rinvsyddkt
gllniqtqgf spefalkfnq tvlkeserfi nemshriard qlafaeteme 200
karqrldask aellsyqdnn nvldpqaqaq aastlvntlm gqkiqmeadl
rnlltylred apqvvsarna iqslqaqide ekskitapqg dklnrmavdf
eeikskvefn telykltlts iektrveaar klkvlsviss pqlpqessfp
nipyLIACWL LVCCLLFGTL KLLLAVIedh rd

MW 43044 Da; 382 aa


Sodium Transport

Sodium/glutamate symport carrier protein (gltS )
functioncatalyzes the sodium dependent uptake of extracellular glutamate
interaction 
regulation 
topologytransmembrane domains: 9 (potential), SP has 12

TMHMM gives 70-87 94-116 157-179 213-235 245-267 274-292 302-324 336-358 368-390
SP gives 3-21 36-54 69-87 91-109 112-132 160-178 214-240 246-267 276-294 301-325 336-357 371-398

mfhldtlatl vaatltlllg rklvhsvsfl kkytipepva ggllvalall
vlkksmgwev nfdmslrdpL MLAFFATIGL NANIASLrag grvVGIFLIV
VVGLLVMQNA IGIGMAsllg ldplmgllag sitlsgghgt gaawsklfie
rygftnATEV AMACATFGLV LGGLIGGPVa rylvkhsttp ngipddqevp 200
tafekpdvgr miTSLVLIET IALIAICLTV GKIVAqllag tafeLPTFVC
VLFVGVILSN GLSIMGFyrv ferAVSVLGN VSLSLFLAMA LMglklwela
sLALPMLAIL VVQTIFMALY AIFVtwrmmg knydaAVLAA GHCGFGLGAT
PTAIANMQai terfgpsHMA FLVVPMVGAF FIDIVNALVI klylmlpifa 400
g

MW 42425 Da; 401 aa


Na+/H+ antiporter 1 (nhaA )
functioncan mediate when a transmembrane pH gradient is applied, it acts probably in the regulation of internal pH at the alkaline pH range
interaction 
regulationactivity higly dependent on pH
topologytransmembrane domains: 10 (potential), TMHMM has 11

TMHMM gives 7-29 60-77 94-116 126-145 152-174 179-201 206-237 257-279 291-313 328-350 357-379
SP gives 59-79 95-115 125-145 154-174 179-199 205-221 254-274 283-299 328-348 360-380

mkhlhrffss dasggiilii aailamiman sgatsgwyhd fletpvqlrv
gsleinknmL LWINDALMAV FFLLVGLevk relmqgslas lrqAAFPVIA
AIGGMIVPAL LYLAFNyadp itregWAIPA ATDIAFALGV LALLGsrvpl
aLKIFLMALA IIDDLGAIII IALFytndLS MASLGVAAVA IAVLAVLNLC 200
GarrtGVYIL VGVVLWTAVL KSGVHATLAG VIVGFFIplk ekhgrspakr
lehvlhPWVA YLILPLFAFA NAGVSLQGVt ldgltsilpl GIIAGLLIGK
PLGISLFCWL ALRlklahlp egttyqqIMV VGILCGIGFT MSIFIASLAF
gsvdpeLINW AKLGILVGSI SSAVIGYSWl rvrlrpsv

MW 41355 Da; 388 aa


Na+/H+ antiporter 2 (nhaB )
functionhas a high affinity for Na+ and a relative independence of ist activity on pH
interaction 
regulation 
topologytransmembrane domains: 12 (potential)

TMHMM gives 26-48 61-80 95-117 122-144 148-165 197-219 239-261 299-331 346-368 389-411 453-472 479-501
SP gives 23-43 55-71 90-110 126-146 147-167 201-221 235-255 299-317 318-338 342-362 448-468 474-494

meiswgralw rnflgqspdw yklaLIIFLI VNPLIFLISP FVAGWLLVae
fiftlamalk CYPLLPGGLL AIEAVFIGMT saehvreeva anleVLLLLM
FMVAGIYFMK QLLLFIFtrL LLSIRSKMLL SLSFCVAAAF LSAFLdaLTV
VAVVISVAVG FYGIYhrvas srtedtdlqd dshidkhykv vleqfrGFLR 200
SLMMHAGVGT ALGGVMTMVg epqnliiaka agwhfgdFFL RMSPVTVPVL
ICGLLTCLLV eklrwfgyge tlpekvrevl qqfddqsrhq rtrqdkirLI
VQAIIGVWLV TALALHLAEV GLIGLSVIIL Atsltgvtde haigkAFTES
LPFTALLTVF FSVVAVIIdq qlfspiiqfv lqasehaqLS LFYIFNGLLS 400
SISDNVFVGT Iyineakaam esgaitlkqy ellavaintg tnlpsvatpn
gqAAFLFLLT SALAPLIRLS YGrmvwmaLP YTLVLTLVGL LCVEFTLAPV
Tewfmqmgwi atl

MW 56728 Da; 513 aa


Sodium/pantothenate symporter (panF )
functioncatalyzes the sodium dependent uptake of extracellular pantothenate
interaction 
regulation 
topologytransmembrane domains: 13 (potential), SP has 12

TMHMM gives 5-24 37-59 72-94 123-145 160-182 189-211 233-255 268-290 319-341 369-386 391-413 425-447 452-471
SP gives 3-23 43-63 74-94 124-144 162-182 233-253 273-293 306-326 369-389 392-412 424-444 446-466

mqleVILPLV AYLVVVFGIS VYAMrkrstg tflneyFLGS RSMGGIVLAM
TLTATYISAs sfiggpgaay kYGLGWVLLA MIQLPAVWLS LGILgkkfai
larrynavtl ndmlfaryqs rlLVWLASLS LLVAFVGAMT VQFIGgarll
etaagipyeT GLLIFGISIA LYTAFGGFRA SVlndtmqGL VMLIGTVVLL 200
IGVVHAAGGL Snavqtlqti dpqlvtpqga ddILSPAFMT SFWVLVCFGV
IGLPHtavrc isykdskAVH RGIIIGTIVV AILMFGMHLA galgravipd
ltvpdlvipt lmvkvlppFA AGIFLAAPMA AIMSTINAQL Lqssatiikd
lylnirpdqm qnetrlkrMS AVITLVLGAL LLLAAWkppe MIIWLNLLAF 400
GGLEAVFLWP LVLglywera nakgALSAMI VGGVLYAVLA TLNIQYLgfh
pIVPSLLLSL LAFLVGNRFG Tsvpqatvlt tdk

MW 51717 Da; 483 aa