Tag | Content |
UniProt Accession | |
Genbank Protein ID | |
Genbank Nucleotide ID | |
Protein Name | DNA translocase FtsK |
Protein Synonyms/Alias | |
Gene Name | ftsK |
Gene Synonyms/Alias | Z1235, ECs0975 |
Created Date | 3-June-2014 |
Organism | Escherichia coli O157:H7 |
NCBI Taxa ID | 83334 |
Phosphorylation | Position | Peptide | Code | Type | References | 663 | AQTQQQRYGEQYQHD | Y | HTP | [1] | 280 | DDDEEITYTARGVAA | Y | HTP | [1] | 667 | QQRYGEQYQHDVPVN | Y | HTP | [1] | 223 | EYEDDEEYEDENHGK | Y | HTP | [1] | 5 | ***MSQEYTEDKEVT | Y | HTP | [1] | 217 | TWVDEDEYEDDEEYE | Y | HTP | [1] | |
Reference | [1]The Escherichia coli phosphotyrosine proteome relates to core pathways and virulence. Hansen AM,Chaerkady R,Sharma J,Díaz-Mejía JJ,Tyagi N,Renuse S,Jacob HK,Pinto SM,Sahasrabuddhe NA,Kim MS,Delanghe B,Srinivasan N,Emili A,Kaper JB,Pandey A PLoS Pathog. 2013;9(6):e1003403. [ PMID:23785281] |
Functional Description From UniProt | FUNCTION: Essential cell division protein that coordinates cell division and chromosome segregation. The N-terminus is involved in assembly of the cell-division machinery. The C-terminus functions as a DNA motor that moves dsDNA in an ATP-dependent manner towards the dif recombination site, which is located within the replication terminus region. Translocation stops specifically at Xer-dif sites, where FtsK interacts with the Xer recombinase, allowing activation of chromosome unlinking by recombination. FtsK orienting polar sequences (KOPS) guide the direction of DNA translocation. FtsK can remove proteins from DNA as it translocates, but translocation stops specifically at XerCD-dif site, thereby preventing removal of XerC and XerD from dif (By similarity) |
| TRANSMEM 22 42 Helical; (Potential) TRANSMEM 76 96 Helical; (Potential) TRANSMEM 112 132 Helical; (Potential) TRANSMEM 137 157 Helical; (Potential) TRANSMEM 164 184 Helical; (Potential) |
| ATP-binding; Cellcycle; Celldivision; Cellinnermembrane; Cellmembrane; Chromosomepartition; Completeproteome; DNA-binding; Membrane; Nucleotide-binding; Transmembrane; Transmembranehelix |
Protein Sequence | MSQEYTEDKE VTLTKLSSGR RLLEALLILI VLFAVWLMAA LLSFNPSDPS WSQTAWHEPI 60 HNLGGMPGAW LADTLFFIFG VMAYTIPVII VGGCWFAWRH QSSDENIDYF AVSLRIIGVL 120 ALILTSCGLA AINADDIWYF ASGGVIGSLL STTLQPLLHS SGGTIALLCV WAAGLTLFTG 180 WSWVTIAEKL GGWILNILTF ASNRTRRDDT WVDEDEYEDD EEYEDENHGK QHESRRARIL 240 RGALARRKRL AEKFINPMGR QTDAALFSGK RMDDDEEITY TARGVAADPD DVLFSGNRAT 300 QPEYDEYDPL LNGAPITEPV AVAAAATTAT QSWAAPVEPV TQTPPVASVD VPPSQPTVAW 360 QPVPGPQTGE PVIAPAPEGY PQQSQYAQPA VQYNEPLQQP VQPQQPYYAP AAEQPAQQPY 420 YAPAPEQPVA GNAWQAEEQQ STFAPQSTYQ TEQTYQQPAA QEPLYQQPQP VEQQPVVEPE 480 PVVEETKPAR PPLYYFEEVE EKRAREREQL AAWYQPIPEP VKEPEPIKSS LKAPSVAAVP 540 PVEAAAAVSP LASGVKKATL ATGAAATVAA PVFSLANSGG PRPQVKEGIG PQLPRPKRIR 600 VPTRRELASY GIKLPSQRAA EEKAREAQRN QYDSGDQYND DEIDAMQQDE LARQFAQTQQ 660 QRYGEQYQHD VPVNAEDADA AAEAELARQF AQTQQQRYSG EQPAGANPFS LDDFEFSPMK 720 ALLDDGPHEP LFTPIVEPVQ QPQQPVAPQQ QYQQPQQPVA PQPQYQQPQQ QVAPQPQYQQ 780 PQQPVAPQQQ YQQPQQPVAP QPQYQQPQQP VAPQPQYQQP QQPVAPQPQD TLLHPLLMRN 840 GDSRPLHKPT TPLPSLDLLT PPPSEVEPVD TFALEQMARL VEARLADFRI KADVVNYSPG 900 PVITRFELNL APGVKAARIS NLSRDLARSL STVAVRVVEV IPGKPYVGLE LPNKKRQTVY 960 LREVLDNAKF RDNPSPLTVV LGKDIAGEPV VADLAKMPHL LVAGTTGSGK SVGVNAMILS 1020 MLYKAQPEDV RFIMIDPKML ELSVYEGIPH LLTEVVTDMK DAANALRWCV NEMERRYKLM 1080 SALGVRNLAG YNEKIAEADR MMRPIPDPYW KPGDSMDAQH PVLKKEPYIV VLVDEFADLM 1140 MTVGKKVEEL IARLAQKARA AGIHLVLATQ RPSVDVITGL IKANIPTRIA FTVSSKIDSR 1200 TILDQAGAES LLGMGDMLYS GPNSTLPVRV HGAFVRDQEV HAVVQDWKAR GRPQYVDGIT 1260 SDSESEGGAG GFDGAEELDP LFDQAVQFVT EKRKASISGV QRQFRIGYNR AARIIEQMEA 1320 QGIVSEQGHN GNREVLSPPP FD 1342 |
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