eF-site ID 6ftg-12345678ABCDEFGHIJLMNOPQRSTUVWXYZabcdefghijklmnoprstxyz
PDB Code 6ftg
Chain 1, 2, 3, 4, 5, 6, 7, 8, A, B, C, D, E, F, G, H, I, J, L, M, N, O, P, Q, R, S, T, U, V, W, X, Y, Z, a, b, c, d, e, f, g, h, i, j, k, l, m, n, o, p, r, s, t, x, y, z
Title Subtomogram average of OST-containing ribosome-translocon complexes from canine rough microsomal membranes
Classification PROTEIN TRANSPORT
Compound uL2
Source ORGANISM_COMMON: Rabbit; ORGANISM_SCIENTIFIC: Oryctolagus cuniculus;
Sequence 1:  EPLLVVAAFYILFFTVIIYVRLXXXXXXXXXXXXXXXXXX
XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX
XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX
XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX
XX
2:  XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX
XXXXXXXXXXXXXXXXXXXX
3:  AMTVYALVVVSYFLITGGIIYDVIVEPPSVGSMTDEHGHQ
RPVAFLAYRVNGQYIMEGLASSFLFTMGGLGFIILDRSNA
PNIPKLNRFLLLFIGFVCVLLSFFMARVFMRMKLPGYLMG
4:  MITDVQLAIFANMLGVSLFLLVVLYHYVAVNNPK
5:  MTKLGFLRLSYEKQDTLLKLLILSMAAVLSFSTRLFAVLR
FESVIHEFDPYFNYRTTRFLAEEGFYKFHNWFDDRAWYPL
GRIIGGTLYPGLMITSAAIYHVLHFFHDIRNVCVFLAPLF
SSFTTIVTYHLTKELKDAGAGLLAAAMIAVVPGYISRSVA
GSYDNEGIAIFCMLLTYYMWIKAVKTGSIYWAAKCALAYF
YMVSSWGGYVFLINLIPLHVLVLMLTGRFSHRIYVAYCTV
YCLGTILSMQISFVGFQPVLSSEHMAAFGVFGLCQIHAFV
DYLRSKLNPQQFEVLFRSVISLVGFVLLTVGALLMLIIAS
VSEHQPTTWSSYYFDLQLLVFMFPVGLYYCFSNLSDARIF
IIMYGVTSMYFSAVMVRLMLVLAPVMCILSGIGVSQVLST
YMKNLDIEVASGMILVMAFFLITYTFHSTWVTSEAYSSPS
IVLSARGGDGSRIIFDDFREAYYWLRHNTPEDAKVMSWWD
YGYQITAMANRTILVDNNTWNNTHISRVGQAMASTEEKAY
EIMRELDVSYVLVIFGGLTGYSSDDINKFLWMVRIGGSTD
TGKHIKEHDYYTPTGEFRVDREGSPVLLNCLMYKMCYYRF
GQVYTEAKDRVRNAEIGNKDFELDVLEEAYTTEHWLVRIY
KVKD
6:  XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX
XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX
XXXXXXXXXXXXXXXXX
7:  XXXXXXXXXXXXXXXXXXXXXXXXX
8:  XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX
XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX
A:  GRVIRGQRKGAGSVFRAHVKHRKGAARLRAVDFAERHGYI
KGIVKDIIHDPGRGAPLAKVVFRDPYRFKKRTELFIAAEG
IHTGQFVYCGKKAQLNIGNVLPVGTMPEGTIVCCLEEKPG
DRGKLARASGNYATVISHNPETKKTRVKLPSGSKKVISSA
NRAVVGVVAGGGRIDKPILKAGRAYHKYKAKRNCWPRVRG
VAMNPVEHPFGGGNHQHIGKPSTIRRDAPAGRKVGLIAAR
RTGR
B:  SHRKFSAPRHGSLGFLPRKRSSRHRGKVKSFPKDDPSKPV
HLTAFLGYKAGMTHIVREVDRPGSKVNKKEVVEAVTIVET
PPMVVVGIVGYVETPRGLRTFKTVFAEHISDECKRRFYKN
WHKSKKKAFTKYCKKWQDDAGKRQLDKDFSSMKKYCQVIR
VLAHTQMRLLPLRQKKAHLMEIQVNGGTVAEKLDWARERL
EQQVPVSQVFGQDEMIDVIGVTKGKGYKGVTSRWHTKKLP
RKTHRGLRKVACIGAWHPARVAFSVARAGQKGYHHRTEIN
KKIYKIGQGYLIKDGKLIKNNASTDYDLSDKSINPLGGFV
HYGEVTNDFVMLKGCVVGTKKRVLTLRKSLLVQTKRRALE
KIDLKFIDTTSKFGHGRFQTVEEKKAFMGPLKKD
C:  ACARPLISVYSEKGESSGKNVTLPAVFKAPIRPDIVNFVH
TNLRKNNRQPYAVSELAGHQTSAESWGTGRAVARIPRVRG
GGTHRSGQGAFGNMCRGGRMFAPTKTWRRWHRRVNTTQKR
YAICSALAASALPALVMSKGHRIEEVPELPLVVEDKVEGY
KKTKEAVLLLKKLKAWNDIKKVYASQRMRAGKGKMRNRRR
IQRRGPCVIYNEDNGIVKAFRNIPGITLLNVTKLNILKLA
PGGHVGRFCIWTESAFRKLDDLYGTWRKAASLKSNYNLPM
HKMLNTDLSRILKSPEIQRALRAPRKKIHRRVLKKNPLKN
LRIMLKLNPYAKTMRRNTILRQARNHKLRVERAAAALAAK
KS
D:  FVKVVKNKAYFKRYQVKFRRRREGKTDYYARKRLVIQDKN
KYNTPKYRMIVRVTNRDIICQIAYARIEGDMIVCAAYAHE
LPKYGVKVGLTNYAAAYCTGLLLARRLLNRFGMDKIYEGQ
VEVTGDEYNVESIDGQPGAFTCYLDAGLARTTTGNKVFGA
LKGAVDGGLSIPHSTKRFPGYDSESKEFNAEVHRKHIMGQ
NVADYMRYLMEEDEDAYKKQFSQYIKNNVTPDMMEEMYKK
AHAAIRENPVYEKKPKREVKKKRWNRPKMSLAQKKDRVAQ
KKASFLRAQERA
E:  PHCSRNPVLVRGIGRYSRSAMYSRKALYKRKYAAPVLATV
TKPVGGDKNGGTRVVKLRKMPRYYPTEDVPRKLLSHGRKP
FSQHVRKLRASITPGTILIILTGRHRGKRVVFLKQLSSGL
LLVTGPLSLNRVPLRRTHQKFVIATSTKIDISGVKIPKHL
TDAYFKKKQLRKPRHQEGEIFDTEKEKYEITEQRKVDQKA
VDSQILPKIKAVPQLQGYLRSVFALTNGVYPHKLVF
F:  NFAELKIKRLRKKFAQKMLRKARRKLIYEKAKHYHKEYRQ
MYRTEIRMARMARKAGNFYVPAEPKLAFVIRIRGINGVSP
KVRKVLQLLRLRQIFNGTFVKLNKASINMLRIVEPYIAWG
YPNLKSVNELIYKRGYGKINKKRIALTDNALIARSLGKYG
IICMEDLIHEIYTVGKRFKEANNFLWPFKLSSPRGGMKKK
TTHFVEGEDAGNREDQINRLIRRMN
G:  KVVNPLFEKRPKNFGIGQDIQPKRDLTRFVKWPRYIRLQR
QRAILYKRLKVPPAINQFTQVLDRQTATQLLKLAHKYRPE
TKQEKKQRLLARAEKKAAGKGDVPTKRPPVLRAGVNTVTT
LVENKKAQLVVIAHDVDPIELVVFLPALCRKMGVPYCILK
GKARLGRLVHRKTCTTVAFTQVNSEDKGALAKLVEAIRTN
YNDRYDEIRRHWGGNVLGPKSVARIAKLEKAKAKELATKL
G
H:  MKTILSNQTVDIPENVDISLKGRTVIVKGPRGTLRRDFNH
INVELSLLGKKKKRLRVDKWWGNRKELATVRTICSHVQNM
IKGVTLGFRYKMRSVYAHFPINVVIQENGSLVEIRNFLGE
KYIRRVRMRPGVACSVSQAQKDELVLEGNDIELVSNSAAL
IQQATTVKNKDIRKFLDGIYVSEKGTVQQA
I:  GRRPARCYRYCKNKPYPKSRFCRGVPDAKIRIFDLGRKKA
KVDEFPLCGHMVSDEYEQLSSEALEAARICANKYMVKSCG
KDGFHIRVRLHPFHVIRINKMLTGMRGAFGKPQGTVARVH
IGQVIMSIRTKLQNKEHVVEALRRAKFKFPGRQKIHISKK
WGFTKFNADEFEDMVAEKRLIPDGCGVKYIPNRGPLDKWR
ALHS
J:  ENPMRELRIRKLCLNICVGESGDRLTRAAKVLEQLTGQTP
VFSKARYTVRSFGIRRNEKIAVHCTVRGAKAEEILEKGLK
VREYELRKNNFSDTGNFGFGIQEHIDLGIKYDPSIGIYGL
DFYVVLGRPGFSIADKKRRTGCIGAKHRISKEEAMRWFQQ
KYDGIILPG
L:  APSRNGMILKPHFHKDWQRRVATWFNQPARKIRRRKARQA
RARRIAPRPASGPLRPIVRCPTVRYHTKVRAGRGFSLEEL
RVAGIHKKVARTIGISVDPRRRNKSTESLQANVQRLKEYR
SKLVLFPRKPSAPKKGDSSAEELKLATQLTGPVMPIRNVF
KKEKARVITEEEKNFKAFASLRMARANARLFGIRAKRAKE
AAEQDVEKKK
M:  VFRRFVEVGRVAYVSFGPHAGKLVAIVDVIDQNRALVDGP
CTRVRRQAMPFKCMQLTDFILKFPHSARQKYVRKAWEKAD
INTKWAATRWAKKIEARERKAKMTDFDRYKVMKAKKMRNR
IIKNEVKKLQRAALLKAS
N:  GAYKYIQELWRKKQSDVMRFLLRVRCWQYRQLSALHRAPR
PTRPDKARRLGYKAKQGYVIYRIRVRRGGRKRPVPKGATY
GKPVHHGVNQLKFARSLQSVAEERAGRHCGALRVLNSYWV
GEDSTYKFFEVILIDPFHKAIRRNPDTQWITKPVHKHREM
RGLTSAGRKSRGLGKGHKFHHTIGGSRRAAWRRRNTLQLH
RYR
O:  QVLVLDGRGHLLGRLAAIVAKQVLLGRKVVVVRCEGINIS
GNFYRNKLKYLAFLRKRMNTNPSRGPYHFRAPSRIFWRTV
RGMLPHKTKRGQAALDRLKVFDGIPPPYDKKKRMVVPAAL
KVVRLKPTRKFAYLGRLAHEVGWKYQAVTATLEEKRKEKA
KIHYRKKKQLMRLRKQAEKNVEKKIDRFTEVLKTHGFLV
P:  VRYSLDPENPTKSCKSRGSNLRVHFKNTRETAQAIKGMHI
RKATKYLKDVTLQKQCVPFRRYNGGVGRCAQAKQWGWTQG
RWPKKSAEFLLHMLKNAESNAELKGLDVDSLVIEHIQVNK
APKMRRRTYRAHGRINPYMSSPCHIEMILTEKE
Q:  GVDIRHNKDRKVRRKEPKSQDIYLRLLVKLYRFLARRTNS
TFNQVVLKRLFMSRTNRPPLSLSRMIRKMKLPGREGKTAV
VVGTITDDVRVQEVPKLKVCALRVSSRARSRILKAGGKIL
TFDQLALDSPKGCGTVLLSGPRKGREVYRHFGKAPGTPHS
HTKPYVRSKGRKFERARGRRASRGYKN
R:  SMLRLQKRLASSVLRCGKKKVWLDPNETNEIANANSRQQI
RKLIKDGLIIRKPVTVHSRARCRKNTLARRKGRHMGIGKR
KGTANARMPEKVTWMRRMRILRRLLRRYRESKKIDRHMYH
SLYLKVKGNVFKNKRILMEHIHKLKADKARKKLLADQAEA
RRSKTKEARKRREERLQAKK
S:  KASGTLREYKVVGRCLPTPKCRTPPLYRMRIFAPNHVVAK
SRFWYFVSQLKKMKKSSGEIVYCGQVFEKSPLRVKNFGIW
LRYDSRSGTHNMYREYRDLTTAGAVTQCYRDMGARHRARA
HSIQIMKVEEIAASKCRRPAVKQFHDSKIKFPLPHRVLRR
QHKPRFTTKRPNTFF
T:  TNTKGKRRGTRYMFSRPFRKHGVVPLATYMRIYKKGDIVD
IKGMGTVQKGMPHKCYHGKTGRVYNVTQHAVGIVVNKQVK
GKILAKRINVRIEHIKHSKSRDSFLKRVKENDQKKKEAKE
KGTWVQLKRQPAPPREAHFVRTNGKEPELLEPIPYEFMA
U:  QVLKFTLDCTHPVEDGIMDAANFEQFLQERIKVNGKAGNL
GGGVVTIERSKSKITVTSEVPFSKRYLKYLTKKYLKKNNL
RDWLRVVANSKESYELRYF
V:  SGAKFRISLGLPVGAVINCADNTGAKNLYIISVKGIKGRL
NRLPAAGVGDMVMATVKKGKPELRKKVHPAVVIRQRKSYR
RKDGVFLYFEDNAGVIVNNKGEMKGSAITGPVAKECADLW
PRIASNAGSIA
W:  MKVELCSFSGYKIYPGHGRRYARTDGKVFQFLNAKCESAF
LSKRNPRQINWTVLYRRKHKKGQ
X:  KKIRTSPTFRRPKTLRLRRQPKYPRKSAPRRNKLDHYAII
KFPLTTESAMKKIEDNNTLVFIVDVKANKHQIKQAVKKLY
DIDVAKVNTLIRPDGEKKAYVRLAPDYDALDVANKIGII
Y:  MKFNPFVTSDRSKNRKRHFNAPSHIRRKIMSSPLSKELRQ
KYNVRSMPIRKDDEVQVVRGHYKGQQIGKVVQVYRKKYVI
YIERVQREKANGTTVHVGIHPSKVVITRLKLDKDRKKILE
RKAKSRQVGKEKGK
Z:  GKFMKPGKVVLVLAGRYSGRKAVIVKNIDDGTSDRPYSHA
LVAGIDRYPRKVTAAMGKKKIAKRSKIKSFVKVYNYNHLM
PTRYSVDIPLDKTVVNKDVFRDPALKRKARREAKVKFEER
YKTGKNKWFFQKLRF
a:  PSRLRKTRKLRGHVSHGHGRIGKHRKHPGGRGNAGGMHHH
RINFDKYHPGYFGKVGMRHYHLKRNQSFCPTVNLDKLWTL
VSEQTRVNAAKNKTGAAPIIDVVRSGYYKVLGKGKLPKQP
VIVKAKFFSRRAEEKIKGVGGACVLVA
b:  AKSKNHTTHNQSRKWHRNGIKKPRSQRYESLKGVDPKFLR
NMRFAKKHNKKGLKKMQANNAKAMAARAEAIKALV
c:  SINSRLQLVMKSGKYVLGYKQTLKMIRQGKAKLVILANNC
PALRKSEIEYYAMLAKTGVHHYSGNNIELGTACGKYYRVC
TLAIIDPGDSDIIR
d:  NEVVTREYTINIHKRIHGVGFKKRAPRALKEIRKFAMKEM
GTPDVRIDTRLNKAVWAKGIRNVPYRIRVRLSRKRNEDED
SPNKLYTLVTYVPVTTFKNLQTVNVDE
e:  AALRPLVKPKIVKKRTKKFIRHQSDRYVKIKRNWRKPRGI
DNRVRRRFKGQILMPNIGYGSNKKTKHMLPSGFRKFLVHN
VKELEVLLMCNKSYCAEIAHNVSSKNRKAIVERAAQLAIR
VTNPNARL
f:  SGRLWCKAIFAGYKRGLRNQREHTALLKIEGVYARDETEF
YLGKRCAYVYKAKNNTVTPGGKPNKTRVIWGKVTRAHGNS
GMVRAKFRSNLPAKAIGHRIRVMLYPSRI
g:  VQRLTYRRRLSYNTASNKTRLSRTPGNRIVYLYTKKVGKA
PKSACGVCPGRLRGVRAVRPKVLMRLSKTKKHVSRAYGGS
MCAKCVRDRIKRAFLIEEQKIVVKVLKAQAQSQK
h:  AKIKARDLRGKKKEELLKQLDDLKVELSQLRVAKVTGGAA
SKLSKIRVVRKSIARVLTVINQTQKENLRKFYKGKKYKPL
DLRPKKTRAMRRRLNKHEESLKTKKQQRKERLYPLRKYAV
KA
i:  ALRYPMAVGLNKGHKVTKNVSKPRHSRRRGRLTKHTKFVR
DMIREVCGFAPYERRAMELLKVSKDKRALKFIKKRVGTHI
RAKRKREELSSVLAAMRKAAAK
j:  TKGTSSFGKRRNKTHTLCRRCGSKAYHLQKSTCGKCGYPA
KRKRKYNWSAKAKRRNTTGTGRMRHLKIVYRRFRHGFREG
TTPKPK
k:  PRKIEEIKDFLLTARRKDAKSVKIKKNKDNVKFKVRCSRY
LYTLVITDKEKAEKLKQSLPPGLAVKELK
l:  SSHKTFRIKRFLAKKQKQNRPIPQWIRMKTGNKIRYNSKR
RHWRRTKLGL
m:  IIEPSLRQLAQKYNCDKMICRKCYARLHPRAVNCRKKKCG
HTNNLRPKKKVK
n:  RAKWRKKRMRRLKRKRRKMRQRS
o:  VNVPKTRRTFCKKCGKHQPHKVTQYKKGKDSLYAQGKRRY
DRKQSGYGGQTKPIFRKKAKTTKKIVLRLECVEPNCRSKR
MLAIKRCKHFELGGDKKRKGQVIQ
p:  AKRTKKVGIVGKYGTRYGASLRKMVKKIEISQHAKYTCSF
CGKTKMKRRAVGIWHCGSCMKTVAGGAWTYNTTSAVTVKS
AIRRLKELKDQ
r:  SAHLQWMVVRNCSSFLIKRNKQTYSTEPNNLKARNSFRYN
GLIHRKTVGVEPAADGKGVVVVMKRRSGQRKPATSYVRTT
INKNARATLSSIRHMIRKNKYHPDLRMAAIRRASAILRSQ
KPVMVKRKRTRPTKSS
s:  DRATWKSNYFLKIIQLLDDYPKCFIVGADNVGSKQMQQIR
MSLRGKAVVLMGKNTMMRKAIRGHLENNPALEKLLPHIRG
NVGFVFTKEDLTEIRDMLLANKVPAAARAGAIAPCEVTVP
AQNTGLGPEKTSFFQALGITTKISRGTIEILSDVQLIKTG
DKVGASEATLLNMLNISPFSFGLIIQQVFDNGSIYNPE
t:  MPPKFDPNEIKVVYLRCTGGEVGATSALAPKIGPLGLSPK
KVGDDIAKATGDWKGLRITVKLTIQNRQAQIEVVPSASAL
IIKALKEPPRDRKKQKNIKHSGNITFDEIVNIARQMRHRS
LARELSGTIKEILGTAQSVGCNVDGRHPHDIIDDINSGAV
ECP
x:  FLEVIKPFCVILPEIQKPERKIQFKEKVLWTAITLFIFLV
CCQIPLFGIMSSDSADPFYWMRVILASNRGTLMELGISPI
VTSGLIMQLLAGAKIIEVGDTPKDRALFNGAQKLFGMIIT
IGQSIVYVMSGICLLITIQLFVAGLIVLLLDELLQKGYGL
GSGISLFIATNICETIVWKAFSPTTVNTGRGMEFEGAIIA
LFHLLATRTDKVRALREAFYRQNLPNLMNLIATIFVFAVV
IYFQGFRVDLPIKSARYRGQYNTYPIKLFYTSNIPIILQS
ALVSNLYVISQMLSARFPVGGLCHYLSPPESFGSVLEDPV
HAVVYIVFMLGSCAFFSKTWIEVSGSSAKDVAKQLKEQQM
VMRGHRETSMVHELNRYIPTAAAFGGLCIGALSVLADFLG
AIGSGTGILLAVTIIYQYFEIFVKEQ
y:  FVEPSRQFVKDSIRLVKRCTKPDRKEFQKIAMATAIGFAI
MGFIGFFVKLIHIPINNIIVGG
z:  VGPVPVLVMSLLFIASVFMLHIWGKYTRS
Description (1)  Uncharacterized protein, Ribosomal protein L4, 60S ribosomal protein L5, 60S ribosomal protein L6, Ribosomal protein L10 (Predicted), Ribosomal protein L11, eL13, Ribosomal protein L14, Ribosomal protein L15, uL13, uL22, uL14, eL19, eL20, eL22, Ribosomal protein L24, Ribosomal protein L26, 60S ribosomal protein L27, 60S ribosomal protein L29, eL30, eL32, eL33, 60S ribosomal protein L36, Ribosomal protein L37, eL38, eL39, eL40, 60s ribosomal protein l41, Ribosomal protein L37a, 60S acidic ribosomal protein P0, Ribosomal protein L12, Protein transport protein Sec61 subunit alpha isoform 1, Protein transport protein Sec61 subunit gamma, Protein transport protein Sec61 subunit beta, Dolichyl-diphosphooligosaccharide--protein glycosyltransferase subunit 1,RPN1, TMEM258, Oligosaccharyltransferase complex subunit OSTC, OST4, Dolichyl-diphosphooligosaccharide--protein glycosyltransferase subunit STT3A, DAD1, OST48, RPN2/RNA Complex


Functional site
1) chain C
residue 347
type CROSSLNK
sequence H
description Glycyl lysine isopeptide (Lys-Gly) (interchain with G-Cter in SUMO1); alternate => ECO:0000250|UniProtKB:P36578
source Swiss-Prot : SWS_FT_FI10
2) chain B
residue 226
type SITE
sequence K
description Interacts with target acceptor peptide in protein substrate => ECO:0000250|UniProtKB:B9KDD4
source Swiss-Prot : SWS_FT_FI6
3) chain B
residue 386
type SITE
sequence K
description Interacts with target acceptor peptide in protein substrate => ECO:0000250|UniProtKB:B9KDD4
source Swiss-Prot : SWS_FT_FI6
4) chain B
residue 393
type SITE
sequence K
description Interacts with target acceptor peptide in protein substrate => ECO:0000250|UniProtKB:B9KDD4
source Swiss-Prot : SWS_FT_FI6
5) chain 5
residue 595
type SITE
sequence K
description Interacts with target acceptor peptide in protein substrate => ECO:0000250|UniProtKB:B9KDD4
source Swiss-Prot : SWS_FT_FI6
6) chain 5
residue 49
type SITE
sequence D
description Interacts with target acceptor peptide in protein substrate => ECO:0000250|UniProtKB:B9KDD4
source Swiss-Prot : SWS_FT_FI6
7) chain 5
residue 351
type SITE
sequence E
description Interacts with target acceptor peptide in protein substrate => ECO:0000250|UniProtKB:B9KDD4
source Swiss-Prot : SWS_FT_FI6
8) chain B
residue 366
type SITE
sequence K
description Important for catalytic activity => ECO:0000250|UniProtKB:B9KDD4
source Swiss-Prot : SWS_FT_FI7
9) chain 5
residue 160
type SITE
sequence R
description Important for catalytic activity => ECO:0000250|UniProtKB:B9KDD4
source Swiss-Prot : SWS_FT_FI7
10) chain 5
residue 544
type CARBOHYD
sequence N
description N-linked (GlcNAc...) asparagine => ECO:0000255|PROSITE-ProRule:PRU00498
source Swiss-Prot : SWS_FT_FI8
11) chain 5
residue 537
type CARBOHYD
sequence N
description N-linked (GlcNAc...) asparagine => ECO:0000255|PROSITE-ProRule:PRU00498
source Swiss-Prot : SWS_FT_FI8
12) chain C
residue 313
type CARBOHYD
sequence V
description N-linked (GlcNAc...) (high mannose) asparagine => ECO:0000250|UniProtKB:P39007
source Swiss-Prot : SWS_FT_FI9
13) chain 5
residue 548
type CARBOHYD
sequence N
description N-linked (GlcNAc...) (high mannose) asparagine => ECO:0000250|UniProtKB:P39007
source Swiss-Prot : SWS_FT_FI9
14) chain x
residue 75-94
type prosite
sequence TLMELGISPIVTSGLIMQLL
description SECY_1 Protein secY signature 1. TLMeLGIsPIVtSGLIMQLL
source prosite : PS00755
15) chain x
residue 164-182
type prosite
sequence LLDELLQKGYGLGSGISLF
description SECY_2 Protein secY signature 2. LLdElLQkgyGLGSGiSLF
source prosite : PS00756
16) chain y
residue 14-42
type prosite
sequence FVKDSIRLVKRCTKPDRKEFQKIAMATAI
description SECE_SEC61G Protein secE/sec61-gamma signature. FvKDsIrlVkRctKPdrkEfqkiaMATAI
source prosite : PS01067
17) chain P
residue 126-150
type prosite
sequence RRRTYRAHGRINPYMSSPCHIEMIL
description RIBOSOMAL_L22 Ribosomal protein L22 signature. RrrTyRAhGRinpymsspCHIEMiL
source prosite : PS00464
18) chain J
residue 40-56
type prosite
sequence LEQLTGQTPVFSKARYT
description RIBOSOMAL_L5 Ribosomal protein L5 signature. LeqLTGQtpVfSkARyT
source prosite : PS00358
19) chain L
residue 71-85
type prosite
sequence RAGRGFSLEELRVAG
description RIBOSOMAL_L13E Ribosomal protein L13e signature. RaGRGFSLeELrvaG
source prosite : PS01104
20) chain h
residue 43-57
type prosite
sequence KLSKIRVVRKSIARV
description RIBOSOMAL_L29 Ribosomal protein L29 signature. KLSKIRvVRKSIARV
source prosite : PS00579
21) chain Z
residue 125-136
type prosite
sequence GKNKWFFQKLRF
description RIBOSOMAL_L27E Ribosomal protein L27e signature. GKNkWFFqkLRF
source prosite : PS01107
22) chain A
residue 197-208
type prosite
sequence PRVRGVAMNPVE
description RIBOSOMAL_L2 Ribosomal protein L2 signature. PrvRGVAmNPvE
source prosite : PS00467
23) chain a
residue 110-141
type prosite
sequence KVLGKGKLPKQPVIVKAKFFSRRAEEKIKGVG
description RIBOSOMAL_L15 Ribosomal protein L15 signature. KVLGkGkLpkqp.ViVkakfFSrrAeekIkgvG
source prosite : PS00475
24) chain V
residue 79-105
type prosite
sequence AVVIRQRKSYRRKDGVFLYFEDNAGVI
description RIBOSOMAL_L14 Ribosomal protein L14 signature. AVVIrqrksyrrk.DGvflyFedNagVI
source prosite : PS00049
25) chain j
residue 4-23
type prosite
sequence GTSSFGKRRNKTHTLCRRCG
description RIBOSOMAL_L37E Ribosomal protein L37e signature. GTsSfGkRrnkt.HtlCrRCG
source prosite : PS01077
26) chain R
residue 7-26
type prosite
sequence QKRLASSVLRCGKKKVWLDP
description RIBOSOMAL_L19E Ribosomal protein L19e signature. QKRLaSsvlrCGkkkVWLDP
source prosite : PS00526
27) chain E
residue 178-196
type prosite
sequence NRVPLRRTHQKFVIATSTK
description RIBOSOMAL_L6E Ribosomal protein L6e signature. NrvPLRRthqkFVIATSt.K
source prosite : PS01170
28) chain e
residue 20-40
type prosite
sequence FIRHQSDRYVKIKRNWRKPRG
description RIBOSOMAL_L32E Ribosomal protein L32e signature. FiRhqsdRyvKIkrn..WRKprG
source prosite : PS00580
29) chain F
residue 110-142
type prosite
sequence VLQLLRLRQIFNGTFVKLNKASINMLRIVEPYI
description RIBOSOMAL_L30 Ribosomal protein L30 signature. VLqlLrLrQifNgTfvklnkasinMLriVepYI
source prosite : PS00634
30) chain W
residue 8-25
type prosite
sequence FSGYKIYPGHGRRYARTD
description RIBOSOMAL_L24E Ribosomal protein L24e signature. FsGykIyPGhGrrYaRtD
source prosite : PS01073
31) chain c
residue 24-48
type prosite
sequence SGKYVLGYKQTLKMIRQGKAKLVIL
description RIBOSOMAL_L30E_1 Ribosomal protein L30e signature 1. SgkyvlGyKqtLKmiRqGkaKlVIL
source prosite : PS00709
32) chain c
residue 80-100
type prosite
sequence ELGTACGKYYRVCTLAIIDPG
description RIBOSOMAL_L30E_2 Ribosomal protein L30e signature 2. ELGTacGKyyrvctLaIiDpG
source prosite : PS00993
33) chain G
residue 174-191
type prosite
sequence CRKMGVPYCILKGKARLG
description RIBOSOMAL_L7AE Ribosomal protein L7Ae signature. CrkmgVPYciLkGKarLG
source prosite : PS01082
34) chain Q
residue 49-66
type prosite
sequence KRLFMSRTNRPPLSLSRM
description RIBOSOMAL_L18E Ribosomal protein L18e signature. KrLfmSRtnRPpLSLsRM
source prosite : PS01106
35) chain i
residue 52-62
type prosite
sequence PYERRAMELLK
description RIBOSOMAL_L36E Ribosomal protein L36e signature. PYERRaMELLK
source prosite : PS01190
36) chain o
residue 61-72
type prosite
sequence KTTKKIVLRLEC
description RIBOSOMAL_L44E Ribosomal protein L44e signature. KtTKKivLRleC
source prosite : PS01172
37) chain g
residue 15-28
type prosite
sequence TASNKTRLSRTPGN
description RIBOSOMAL_L34E Ribosomal protein L34e signature. TaSnKtrlsRTPGN
source prosite : PS01145
38) chain l
residue 30-46
type prosite
sequence KTGNKIRYNSKRRHWRR
description RIBOSOMAL_L39E Ribosomal protein L39e signature. KTgnkIryNskrRHWRR
source prosite : PS00051
39) chain f
residue 72-93
type prosite
sequence GKVTRAHGNSGMVRAKFRSNLP
description RIBOSOMAL_L35AE Ribosomal protein L35Ae signature. GKVtRaHGnsGmVrAkFrsnLP
source prosite : PS01105
40) chain Y
residue 52-70
type prosite
sequence DDEVQVVRGHYKGQQIGKV
description RIBOSOMAL_L24 Ribosomal protein L24 signature. DDeVqVVrGhyKGqqiGkV
source prosite : PS01108
41) chain H
residue 163-184
type prosite
sequence QATTVKNKDIRKFLDGIYVSEK
description RIBOSOMAL_L6_2 Ribosomal protein L6 signature 2. QattVknKdiRkFlDGIYVseK
source prosite : PS00700
42) chain N
residue 46-69
type prosite
sequence DKARRLGYKAKQGYVIYRIRVRRG
description RIBOSOMAL_L15E Ribosomal protein L15e signature. DKARrLGYkAkqGYVIYRiRVrRG
source prosite : PS01194
43) chain d
residue 62-76
type prosite
sequence VRIDTRLNKAVWAKG
description RIBOSOMAL_L31E Ribosomal protein L31e signature. VRIDtrLNkAvWaKG
source prosite : PS01144
44) chain T
residue 37-62
type prosite
sequence GDIVDIKGMGTVQKGMPHKCYHGKTG
description RIBOSOMAL_L21E Ribosomal protein L21e signature. GDiVdikgmgtvqk.GmpHkcYhGkTG
source prosite : PS01171
45) chain C
residue 15-22
type prosite
sequence GESSGKNV
description ALDEHYDE_DEHYDR_GLU Aldehyde dehydrogenases glutamic acid active site. GESSGKNV
source prosite : PS00687
46) chain C
residue 116-142
type prosite
sequence NTTQKRYAICSALAASALPALVMSKGH
description RIBOSOMAL_L1E Ribosomal protein L1e signature. NttqKryAIcSALaASAlpalvmsKGH
source prosite : PS00939
47) chain X
residue 134-149
type prosite
sequence KKAYVRLAPDYDALDV
description RIBOSOMAL_L23 Ribosomal protein L23 signature. KKAYVRLApdydaldV
source prosite : PS00050
48) chain t
residue 130-145
type prosite
sequence KEILGTAQSVGCNVDG
description RIBOSOMAL_L11 Ribosomal protein L11 signature. KeIlGTaqSVGcNVdG
source prosite : PS00359
49) chain O
residue 84-107
type prosite
sequence VRGMLPHKTKRGQAALDRLKVFDG
description RIBOSOMAL_L13 Ribosomal protein L13 signature. VRGMLPhktkrGQaaldrLkVFdG
source prosite : PS00783
50) chain B
residue 211-234
type prosite
sequence FGQDEMIDVIGVTKGKGYKGVTSR
description RIBOSOMAL_L3 Ribosomal protein L3 signature. FgqdemiDviGvTkGKGykGvtsR
source prosite : PS00474
51) chain 5
residue 1-17
type TOPO_DOM
sequence MTKLGFLRLSYEKQDTL
description Cytoplasmic => ECO:0000305
source Swiss-Prot : SWS_FT_FI1
52) chain 5
residue 139-140
type TOPO_DOM
sequence KD
description Cytoplasmic => ECO:0000305
source Swiss-Prot : SWS_FT_FI1
53) chain 5
residue 190-191
type TOPO_DOM
sequence GS
description Cytoplasmic => ECO:0000305
source Swiss-Prot : SWS_FT_FI1
54) chain 5
residue 229-233
type TOPO_DOM
sequence TGRFS
description Cytoplasmic => ECO:0000305
source Swiss-Prot : SWS_FT_FI1
55) chain 5
residue 288-300
type TOPO_DOM
sequence SKLNPQQFEVLFR
description Cytoplasmic => ECO:0000305
source Swiss-Prot : SWS_FT_FI1
56) chain 5
residue 380-385
type TOPO_DOM
sequence SNLSDA
description Cytoplasmic => ECO:0000305
source Swiss-Prot : SWS_FT_FI1
57) chain x
residue 357-379
type TOPO_DOM
sequence DPVHAVVYIVFMLGSCAFFSKTW
description Cytoplasmic => ECO:0000305
source Swiss-Prot : SWS_FT_FI1
58) chain x
residue 421-437
type TOPO_DOM
sequence AAFGGLCIGALSVLADF
description Cytoplasmic => ECO:0000305
source Swiss-Prot : SWS_FT_FI1
59) chain x
residue 444-458
type TOPO_DOM
sequence GTGILLAVTIIYQYF
description Cytoplasmic => ECO:0000305
source Swiss-Prot : SWS_FT_FI1
60) chain 5
residue 18-38
type TRANSMEM
sequence LKLLILSMAAVLSFSTRLFAV
description Helical => ECO:0000255
source Swiss-Prot : SWS_FT_FI2
61) chain x
residue 197-241
type TRANSMEM
sequence SPTTVNTGRGMEFEGAIIALFHLLATRTDKVRALREAFYR
QNLPN
description Helical => ECO:0000255
source Swiss-Prot : SWS_FT_FI2
62) chain x
residue 307-356
type TRANSMEM
sequence MLSARFPVGGLCHYLSPPESFGSVLE
description Helical => ECO:0000255
source Swiss-Prot : SWS_FT_FI2
63) chain x
residue 438-443
type TRANSMEM
sequence LGAIGS
description Helical => ECO:0000255
source Swiss-Prot : SWS_FT_FI2
64) chain 5
residue 39-119
type TOPO_DOM
sequence LRFESVIHEFDPYFNYRTTRFLAEEGFYKFHNWFDDRAWY
PLGRIIGGTLYPGLMITSAAIYHVLHFFHDIRNVCVFL
description Lumenal => ECO:0000305
source Swiss-Prot : SWS_FT_FI3
65) chain 5
residue 159-169
type TOPO_DOM
sequence SRSVAGSYDNE
description Lumenal => ECO:0000305
source Swiss-Prot : SWS_FT_FI3
66) chain 5
residue 207-211
type TOPO_DOM
sequence SSWGG
description Lumenal => ECO:0000305
source Swiss-Prot : SWS_FT_FI3
67) chain 5
residue 260-267
type TOPO_DOM
sequence QPVLSSEH
description Lumenal => ECO:0000305
source Swiss-Prot : SWS_FT_FI3
68) chain 5
residue 403-406
type TOPO_DOM
sequence MVRL
description Lumenal => ECO:0000305
source Swiss-Prot : SWS_FT_FI3
69) chain 5
residue 192-206
type TRANSMEM
sequence IYWAAKCALAYFYMV
description Helical => ECO:0000250|UniProtKB:P39007
source Swiss-Prot : SWS_FT_FI4
70) chain 5
residue 212-228
type TRANSMEM
sequence YVFLINLIPLHVLVLML
description Helical => ECO:0000250|UniProtKB:P39007
source Swiss-Prot : SWS_FT_FI4
71) chain 5
residue 234-259
type TRANSMEM
sequence HRIYVAYCTVYCLGTILSMQISFVGF
description Helical => ECO:0000250|UniProtKB:P39007
source Swiss-Prot : SWS_FT_FI4
72) chain 5
residue 268-287
type TRANSMEM
sequence MAAFGVFGLCQIHAFVDYLR
description Helical => ECO:0000250|UniProtKB:P39007
source Swiss-Prot : SWS_FT_FI4
73) chain 5
residue 357-379
type TRANSMEM
sequence WSSYYFDLQLLVFMFPVGLYYCF
description Helical => ECO:0000250|UniProtKB:P39007
source Swiss-Prot : SWS_FT_FI4
74) chain 5
residue 386-402
type TRANSMEM
sequence RIFIIMYGVTSMYFSAV
description Helical => ECO:0000250|UniProtKB:P39007
source Swiss-Prot : SWS_FT_FI4
75) chain 5
residue 407-428
type TRANSMEM
sequence MLVLAPVMCILSGIGVSQVLST
description Helical => ECO:0000250|UniProtKB:P39007
source Swiss-Prot : SWS_FT_FI4
76) chain 5
residue 120-138
type TRANSMEM
sequence APLFSSFTTIVTYHLTKEL
description Helical => ECO:0000250|UniProtKB:P39007
source Swiss-Prot : SWS_FT_FI4
77) chain 5
residue 141-158
type TRANSMEM
sequence AGAGLLAAAMIAVVPGYI
description Helical => ECO:0000250|UniProtKB:P39007
source Swiss-Prot : SWS_FT_FI4
78) chain 5
residue 170-189
type TRANSMEM
sequence GIAIFCMLLTYYMWIKAVKT
description Helical => ECO:0000250|UniProtKB:P39007
source Swiss-Prot : SWS_FT_FI4
79) chain 5
residue 169
type BINDING
sequence E
description BINDING => ECO:0000250|UniProtKB:B9KDD4
source Swiss-Prot : SWS_FT_FI5
80) chain 5
residue 405
type BINDING
sequence R
description BINDING => ECO:0000250|UniProtKB:B9KDD4
source Swiss-Prot : SWS_FT_FI5
81) chain 5
residue 530
type BINDING
sequence Y
description BINDING => ECO:0000250|UniProtKB:B9KDD4
source Swiss-Prot : SWS_FT_FI5
82) chain 5
residue 49
type BINDING
sequence D
description BINDING => ECO:0000250|UniProtKB:B9KDD4
source Swiss-Prot : SWS_FT_FI5
83) chain 5
residue 167
type BINDING
sequence D
description BINDING => ECO:0000250|UniProtKB:B9KDD4
source Swiss-Prot : SWS_FT_FI5

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