eF-site ID 6fyy-ACDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmopqrs
PDB Code 6fyy
Chain A, C, D, E, F, G, H, I, J, K, 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, o, p, q, r, s
Title Structure of a partial yeast 48S preinitiation complex with eIF5 N-terminal domain (model C2)
Classification RIBOSOME
Compound tRNAi
Source ORGANISM_SCIENTIFIC: Saccharomyces cerevisiae; ORGANISM_COMMON: Yeast;
Sequence A:  SLPSTFDLTSEDAQLLLAARVHLGAKNVQVHQEPYVYKAR
PDGVNVINVGKTWEKIVLAARIIAAIPNPEDVVAISSRTY
GQRAVLKYAAHTGATPIAGRFTPGSFTNYITRSFKEPRLV
IVTDPRSDAQAIKESSYVNIPVIALTDLDSPSEYVDVAIP
CNNRGKHSIGLIWYLLAREVLRLRGALPDRTQPWAIMPDL
YFYRNPEEIEQQTAEEEAV
C:  EEKGWVPVTKLGRLVKAGKISSIEEIFLHSLPVKEFQIID
QLLPNLKDEVMNIKPVQKQTRAGQRTRFKAVVVVGDSNGH
VGLGIKTAKEVAGAIRAGIIIAKLSVIPIRRGYWGTNLGQ
PHSLATKTSGKCGSVSVRLIPAPRGSGIVASPAVKKLMQL
AGVEDVYTSSTGSTRTLENTLKAAFVAIGNTYGFLTPNLW
EVQALTPSPMDVYADYATAS
D:  AIISKKRKLVADGVFYAELNEFFTRELAEEGYSGVEVRVT
PTKTEIIIRATKVQDVVGENGRRINELTLLIEKRFKYKRG
TIALYAERVHDRGLSAVAQAESMKFKLLNGLAIRRAAYGV
VRYVMESGAKGCEVVISGKLRAARAKSMKFADGFLIHSGQ
PVNDFIETATRHVLLRQGVLGIKVKIMKDPSRNTSGPKAL
PDAVTIIEPKEEEPVLEPSVKDYRPTE
E:  ARGPKKHLKRLAAPHHWMLDKLSGCYAPRPSAGPHKLRES
LPLIVFLRNRLKYALNGREVKAILMQRHVKVDGKVRTDTT
FPAGFMDVITLEATNENFRLVYDVKGRFAVHRITDEEASY
KLAKVKKVQLGKKGIPYVVTHDGRTIRYPDPNIKVNDTVK
VDLATGTITDFIKFDTGKLVYVTGGRNLGRVGTIVHRERH
EGGFDLVHIKDSLENTFVTRLNNVFVIGEPGRPWISLPKG
KGIKLTISEERDRRRAQHGL
F:  FVPVELATTIPVEIQQAQQEIKLFNKWSFEDVEVKDASLV
DYIQISKPIYVAHTAGRYANKRFRKAQCPIVERLTNSLMM
NGRNNGKKLKAVRIVKHTLEIINVLTDQNPLQVVVDAIIN
SGPREDTTRVGGGGAARRQAVDVSPLRRVNQSIALLTIGA
REAAFRNIKTIAETLAEELINAAKGSSTSYAIKKKDELER
VAKSNR
G:  MKLNISYPINGTQKCIEIDDEHRVRVFYDKRIGQEVDGES
VGDEFKGYVFKIAGGNDKQGFPMKQGVLLPTRVKLLLAKG
HSCYRPRRNGERKRKSVRGAIVGPDLAVLALIITKKGEQE
IEGITNDTVPKRLGPKRANNIRKFFGLTKEDDVRDYVIRR
EVTKGDKSYTKAPKIQRLVTPQRLQRKRQQKSLKIKNAQA
QREAAAEYAQLLAKRLSERKAEKAEVRKRR
H:  PQAKILSQAPTELELQVAQAFIDLENNSPELKADLRALQF
KSIREIEVAGGKKALAVFVPVPSLAAYHKVQIKLTRELEK
KFQDRHVIFLAERRILPKPSRKSRQTQKRPRSRTLTAVHD
KILEDLVFPTEIVGKRVRYLVGGNKIQKILLNSKDVQHID
NKLESFQAVYNKLTGKQIVFEIPS
I:  GISRDSRHKRAATGAKRAQFRKKRKFELGRQAANTKIGTK
RIHPVRTRGGNQKFRALRIETGNFSWASEGVARKTRITGV
VYHPSNNELVRTNTLTKAAIVQIDATPFRQWYESHYGQSL
GKTSKNTERKWAARAAEAKIEHAVDSQFGAGRLYAAISSR
PGQSGRCDGYILEGEELAFYLRRLTAKK
J:  PRAPRTYSKTYSTPKRPYESARLDAELKLAGEYGLKNKRE
IYRISFQLSKIRRAARDLLTRDEKDPKRLFEGNALIRRLV
RIGVLSEDKKKLDYVLALKVEDFLERRLQTQVYKLGLAKS
VHHARVLISQRHIAVGKQIVNIPSFMVRLESEKHIDFART
SPFGGARPGRVARKRAAAAGGE
K:  MLIPKEDRKKIYQHLFQEGVLVAKKDFNQPKHEEIDTKNL
FVIKALQSLTSKGFVKTQFSWQYYYYTLTEEGVVYLREYL
NLPEHIFPATYLAGQS
L:  STELTVQSERAFQKQPHIFTNPKAKANRKTKRWYKNVGLG
FKTPKTAIEGSYIDKKCPFTGLVSIRGKILTGTVVSTRMH
RTIVIRRDYLHYVPKYNRYEKRHKNVPAHVSPAFRVQVGD
IVTVGQCRPISKTVRFNVLKVASATGKANKQFAKF
M:  IEDALKVVLRTSLVHDGLARGLRESAKALTRGEGQLAVLV
ESVTEEAISKLVQGLATENVPLIKVADAKQLGEWAGLGKI
DRDGNARKVVGASVVVVKNWGADTQEREILLEHFSQQ
N:  MGRMHSKGKGMSSSAIPYSRNAPAWFKGSSDGVVEQIIKY
ARKGLTPSQIGVLLRDAHGVTQAKVITGNKILRILKSNGL
APEIPEDLYFLIKKAVSVRKHLERNRKDKDAKFRLILIES
RIHRLARYYRTVSVLPPNWKYESATASALVN
O:  DNSQVFGVARIFASFNDTFVHVTDLSGRETIARVTGGMKV
KADRDESSPYAAMLAAQDVAAKCKEVGITAVHIKIRATGG
TRSKTPGPGGQAALRALARSGLRIGRIEDVTPVPSDSTRK
KGGRRGRRL
P:  KTYSYKGVDLEKLLEMPTEDFVKLAPARVRRKFARGLSEK
PAGLMKKLRAAKLSAPENEKPAVVRTHLRNMIIVPEMIGS
VVGVYNGKVFNQVEIRPEMVGHYLGEFSITYTPVRHG
Q:  TVPSVQTFGKKKSATAVAHVKAGKGLIKVNGSPITLVQPE
ILRFKVYEPLLLVGLDKFANIDIRVKVTGGGHVSQVYAIR
QAIAKGLVAYHQKFVDEQSKNELKKAFTSYDRTLLIADSR
RPEPKKFGGRGARSRFQKSYR
R:  GRVRTKTVKRASKALIEKYYPKLTMDFQTNKRLCDEIATI
QSKRLRNKIAGYTTHLMKRIQKGPVRGISFKLQEEERERK
DQYVPDVSALDLSHSNDVLNVDTQTAELVNSLGLKLPLSV
SSVSAVRDRR
S:  SLVVQEQGSFQHILRLLNTNVDGNINVVYALTTIRGVGRR
YANLVCKKADVDLHKRAGELTQEELERIVQIMQNPTHYKI
PAWFLNRQKDVNDGKDYHSLANNLESKLRDDLERLKKIRS
HRGIRHFWGLRVRGQHTKTTGRRRA
T:  PGVSVRDVPAQDFINNYASFLQRQGKLEVPGYVDIVKTSA
GNELPPQDSEGWFYKRAASVARHIYLRKQVGVGKLNKLYG
GAKNRGVRPHKHVDASGSINRKVLQSLEKLGVVEISPKGG
RRISDNGLRDLDRIAAATLEDEE
U:  QEVVIHKIRINLTSTKVKQLENVSANIIKNAETFKLVKKG
PVRLPTKVLKISTRKTPNGEGSKTWDTYEMRIHKRYIDLE
APAHIVKRITQITIEPGVDVEVIIAA
V:  MENDKGQLVELYVPRKCSATNRIIKAKDHSSVQINIAQVD
EEGRAIPGEYVTYALSGYIRARGEADDSLNRLAQQDGLLK
NVWSYSR
W:  TRTSVLADALNAINNAEKTGKRQVLIRPSSKVIIKFLQVM
QKHGYIGEFEYIDDHRSGKIVVQLNGRLNKCGVISPRFNV
KIADVEKWTANLLPARQFGYVILTTSAGIMDHEEAHRKHV
SGKILGFVY
X:  GKGKPRGLNSARKLRVHRRNNRWAETTYKKRLLGTAFKSS
PFGGSSHAKGIVLEKIGIESKQPNSAIRKCVRVQLIKNGK
KVTAFVPNDGCLNFVDENDEVLLAGFGRKGKAKGDIPGVR
FKVVKVSGVSLLALWKEKKEKPRS
Y:  SDAITIRTRKVISNPLLARKQFVVDVLHPNRANVSKDELR
EKLAEAYKAEKDAVSVFGFRTQYGGGKSTGFGLVYNSVAD
AKKFEPAYRLVRYGLAEKVEKASRQQRKQRKNRGKKIFGT
GKSIAKKAARRNAD
Z:  SKKSHKDKAKHAVVLDQDKFDRIMKEAPTYRYVSVSVLVD
RFKLGGSLARVALRHLENEGIIKPVSKHSKQAIYTRAT
a:  PKKRASNGRNKKGRGHVKPVRCVNCSRSVPKDKAIKRMAI
RNIVEAAAIRDLSEASVYAEYALPKTYNKLHYCISCAIHA
RIVRVRSRTDRRIRAPPQRPRFN
b:  VLVQDLLHPTAASEARKHKLKTLVQSPRSHFLDVKCPGCL
NITTVFSHAQTAVTCESCSTVLCTPTGGKAKLSEGTSFRR
K
c:  KTPVTLAKVIKVLGRTGSRGGVTQVRVEFLEDTTRTIVRN
VKGPVREGDILVLMESEREARRLR
d:  AHENVWYSHPRKFGKGSRQCRISGSHSGLIRKYGLNIDRQ
SFREKANDIGFYKYR
e:  GKVHGSLARAGKVKSQTPKVEKQEKPKQPKGRAYKRLLYT
RRFVNVTLTNGKRKMNPSPS
f:  GKKRKKKVYTTPKKIRHKHKKVKLAVLNYYKVDDEGKVAK
LRKECPNCGPGIFLANHGDRFYCGKCHSTFATQK
g:  SSNIMLVLRGTLEGHNGWVTSLSTSAAQPNLLVSGSRDKT
LISWRLTENEQQFGVPVRSYKGHSHIVQDVVVSADGNYAV
SASWDKTLRLWNLATGNSEARFVGHTGDVLSVAIDANSSK
IISASRDKTIRVWNTVGDCAYVLLGHTDWVTKVRVAPKNL
EDVDDGRITFVSAGMDKIVRSWSLNSYRIEADFIGHNNYI
NVVQPSPDGSLAASAGKDGQIYVWNLKHKSAFMNFDAKDE
VFALAFSPSRFWLTAATASGIKIYDLENEVLIDELKPEFA
GYTKAQDPHAVSLAWSADGQTLFAGYTDNVIRVWQVMTAN
h:  MRAKWRKKRTRRLKRKRRKVRARSK
i:  GKKNTKGGKKGRRGKNDSDGPKRELIYKEEGQEYAQITKM
LGNGRVEASCFDGNKRMAHIRGKLRKKVWMGQGDIILVSL
RDFQDDQCDVVHKYNLDEARTLKNQGELPENAKINETDNF
G
j:  TSHCRFYENKYPEIDDIVMVNVQQIAEMGAYVKLLEYDNI
EGMILLSELSRRRIRSIQKLIRVGKNDVAVVLRVDKEKGY
IDLSKRRVSSEDIIKCEEKYQKSKTVHSILRYCAEKFQIP
LEELYKTIAWPLSRKFGHAYEAFKLSIIDETVWEGIEPPS
KDVLDELKNYISVKIRADVEVSCFSYEGIDAIKDALKSAE
DVKVKLVAAPLYVLTTQALDKQKGIEQLESAIEKITEVIT
KYGGVCNIT
k:  QATINIGTIGHVAHGKSTVVRAISGVQTVRFKDELERNIT
IKLGYANAKIYKCQEEISPKCQRPGCPGRYKLVRHVSFVD
CPGHDILMSTMLSGAAVMDAALLLIAGNESCPQPQTSEHL
AAIEIMKLKHVIILQNKVDLMREESALEHQKSILKFIRGT
IADGAPIVPISAQLKYNIDAVNEFIVKTIPVPPRDFMISP
RLIVIRSFDVNKPGAEIEDLKGGVAGGSILNGVFKLGDEI
EIRPGIVTIQCKPIFSNIVSLFAEQNDLKFAVPGGLIGVG
TKVDPTLCRADRLVGQVVGAKGHLPNIYTDIEINYFLLRR
LLGVKKQAKVRKLEPNEVLMVNIGSTATGARVVAVKADMA
RLQLTSPACTEINEKIALSRRIEKHWRLIGWATIKK
l:  VGLPYSELLSRFFNILRKFRIPPPVCLRDGKKTIFSNIQD
IAEKLHRSPEHLIQYLFAELGTSGSVDGKRLVIKGKFQSK
QMENVLRRYILEYVTCKTCKSINTELKRENRLFFMVCKSC
GSTRSVSS
m:  INICRDNHDPFYRYKMPPIQAKVEGRGNGIKTAVLNVADI
SHALNRPAPYIVKYFGFELGAQTSISVDKDRYLVNGVHEP
AKLQDVLDGFINKFVLCGSCKNPETEIIITKDNDLVRDCK
ACGKRTPMDLRHKLSSFILKNPPDSVS
o:  FRPENAIKRADELISVGEKQAALQSLHDFITARRIRWATP
STVEPVVFKFLEIGVELKKGKLLKDGLHQYKKLIQGSTEG
LVSVGAVARKFIDLVESKIASEQTRADELQKQEIDAITSW
LRFTWESYRAVLDLLRNNALLEITYSGVVKKTMHFCLKYQ
RKNEFKRLAEMLRQHLDAANYQQSDADTLQRYLDQRFQQV
DVSVKLELWHEAYRSIEDVFHLMKISKRAPKPSTLANYYE
NLVKVFFVSGDPLLHTTAWKKFYKLYSTNPRATEEEFKTY
SSTIFLSAISTQLDEIPSIGYDPHLRMYRLLNLDAKPTRK
EMLQSIIEDESIYGKVDEELKELYDIIEVNFDVDTVKQQL
ENLLVKLSSKTYFSQYIAPLRDVIMRRVFVAASQKFTTVS
QSELYKLATLPAPLDLSAWDIEKSLLQAAVEDYVSITIDH
ESAKVTFAKDPAAKKARIEEVRKRRYEEAIARRKEEIANA
ERQKRAQELAEATRKQREIEEAAAKKSAGRTAGGSSPATP
ATPATPATP
p:  EFNFDQYIVVNGAPVIPSAKVPVLKKALTSLFSKAGKVVN
MEFPIDEATGKTKGFLFVECGSMNDAKKIIKSFHGKRLDL
KHRLFLYTMKDVERYNSPSSSLKSWLMDDKVRDQFVLQDD
VKTSVFWNSMFNEEDSLVESRENWSTNYVRFSPKGTYLFS
YHQQGVTAWGGPNFDRLRRFYHPDVRNSSVSPNEKYLVTF
STEPIIVEEDNEFSPFTKKNEGHQLCIWDIASGLLMATFP
VIKSPYLKWPLVRWSYNDKYCARMVGDSLIVHDATKNFMP
LEAKALKPSGIRDFSFAPEGVKLQPFRNGDEPSVLLAYWT
PETNNSACTATIAEVPRGRVLKTVNLVQVSNVTLHWQNQA
EFLCFNVERHTKSGKTQFSNLQICRLTERDIPVEKVELKD
SVFEFGWEPHGNRFVTISVHEVADMNYAIPANTIRFYAPE
TKEKTDVIKRWSLVKEIPKTFANTVSWSPAGRFVVVGALV
GPNMRRSDLQFYDMDYPGEKNINDNNDVSASLKDVAHPTY
SAATNITWDPSGRYVTAWSSSLKHKVEHGYKIFNIAGNLV
KEDIIAGFKNFAWRPRPSILSNAERKKVRKNLREWSAQFE
EQDAMEADTAMRDLHQRELLKQWTEYREKIGQEMEKSMNF
KIFDVQP
q:  XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX
XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXQED
FFTRLQTIIDSRGKKTVNQQSLISTLEELLTVAEKPYEFI
MAYLTLIPSRFDASANLSYQPIDQWKSSFNDISKLLSILD
QTIDTYQVNEFADPIDFIEDEPKEDSDGVKRILGSIFSFV
ERLDDEFMKSLLNIDPHSSDYLIRLRDEQSIYNLILRTQL
YFEATLKDEHDLERALTRPFVKRLDHIYYKSENLIKIMET
AAWNIIPAQFKSKFTSKDQLDSADYVDNLIDGLSTILSKQ
NNIAVQKRAILYNIYYTALNKDFQTAKDMLLTSQVQTNIN
QFDSSLQILFNRVVVQLGLSAFKLCLIEECHQILNDLLSS
SHLREILGQQSLHRISLNSSNNASADERARQCLPYHQHIN
LDLIDVVFLTCSLLIEIPRMTAFYSGIKVKRIPYSPKSIR
RSLEHYDKLSFQGPPETLRDYVLFAAKSMQKGNWRDSVKY
LREIKSWALLPNMETVLNSLTERVQVESLKTYFFSFKRFY
SSFSVAKLAELFDLPENKVVEVLQSVIAELEIPAKLNDEK
TIFVVEKGDEITKLEEAMVKL
r:  SVAERKNWHKYGSEKGSPAGPSAVTARLGEEVELRLSRNW
KQAEEERIQ
s:  MKAIKLTGHERPLTQVKYNKEGDLLFSCSKDSSASVWYSL
NGERLGTLDGHTGTIWSIDVDCFTKYCVTGSADYSIKLWD
VSNGQCVATWKSPVPVKRVEFSPCGNYFLAILDNVMKNPG
SINIYEIERDSATHELTKVSEEPIHKIITHEGLDAATVAG
WSTKGKYIIAGHKDGKISKYDVSNNYEYVDSIDLHEKSIS
DMQFSPDLTYFITSSRDTNSFLVDVSTLQVLKKYETDCPL
NTAVITPLKEFIILGGGQGKFEARFYHKIFEEEIGRVQGH
FGPLNTVAISPQGTSYASGGEDGFIRLHHFEKSYFDFKYD
VEKAAEAKEH
Description


Functional site
1) chain T
residue 44
type
sequence E
description binding site for residue MG 2 1859
source : AH8
2) chain T
residue 85
type
sequence N
description binding site for residue MG 2 1869
source : AI6
3) chain i
residue 13
type
sequence R
description binding site for residue MG 2 1879
source : AJ6
4) chain i
residue 17
type
sequence N
description binding site for residue MG 2 1879
source : AJ6
5) chain Q
residue 142
type
sequence Y
description binding site for residue MG 2 1884
source : AK1
6) chain T
residue 79
type
sequence L
description binding site for residue MG 2 1890
source : AK6
7) chain m
residue 30
type
sequence N
description binding site for residue MG 2 1893
source : AK9
8) chain a
residue 34
type
sequence K
description binding site for residue MG 2 1897
source : AL2
9) chain X
residue 60
type
sequence E
description binding site for residue MG 2 1898
source : AL3
10) chain X
residue 68
type
sequence I
description binding site for residue MG 2 1898
source : AL3
11) chain i
residue 62
type
sequence R
description binding site for residue MG 2 1898
source : AL3
12) chain a
residue 23
type
sequence C
description binding site for residue ZN a 500
source : AN4
13) chain a
residue 26
type
sequence C
description binding site for residue ZN a 500
source : AN4
14) chain a
residue 74
type
sequence C
description binding site for residue ZN a 500
source : AN4
15) chain a
residue 77
type
sequence C
description binding site for residue ZN a 500
source : AN4
16) chain b
residue 37
type
sequence C
description binding site for residue ZN b 101
source : AN5
17) chain b
residue 56
type
sequence C
description binding site for residue ZN b 101
source : AN5
18) chain b
residue 59
type
sequence C
description binding site for residue ZN b 101
source : AN5
19) chain b
residue 61
type
sequence T
description binding site for residue ZN b 101
source : AN5
20) chain f
residue 121
type
sequence C
description binding site for residue ZN f 501
source : AN6
21) chain f
residue 123
type
sequence N
description binding site for residue ZN f 501
source : AN6
22) chain f
residue 124
type
sequence C
description binding site for residue ZN f 501
source : AN6
23) chain f
residue 139
type
sequence C
description binding site for residue ZN f 501
source : AN6
24) chain f
residue 142
type
sequence C
description binding site for residue ZN f 501
source : AN6
25) chain k
residue 142
type
sequence Y
description binding site for residue MET k 601
source : AN7
26) chain k
residue 144
type
sequence N
description binding site for residue MET k 601
source : AN7
27) chain k
residue 321
type
sequence F
description binding site for residue MET k 601
source : AN7
28) chain k
residue 381
type
sequence F
description binding site for residue MET k 601
source : AN7
29) chain k
residue 382
type
sequence A
description binding site for residue MET k 601
source : AN7
30) chain k
residue 383
type
sequence E
description binding site for residue MET k 601
source : AN7
31) chain k
residue 395
type
sequence L
description binding site for residue MET k 601
source : AN7
32) chain k
residue 397
type
sequence G
description binding site for residue MET k 601
source : AN7
33) chain k
residue 137
type
sequence T
description binding site for residue MG k 602
source : AN8
34) chain k
residue 141
type
sequence G
description binding site for residue MG k 602
source : AN8
35) chain k
residue 108
type
sequence H
description binding site for residue GCP k 603
source : AN9
36) chain k
residue 109
type
sequence V
description binding site for residue GCP k 603
source : AN9
37) chain k
residue 110
type
sequence A
description binding site for residue GCP k 603
source : AN9
38) chain k
residue 111
type
sequence H
description binding site for residue GCP k 603
source : AN9
39) chain k
residue 112
type
sequence G
description binding site for residue GCP k 603
source : AN9
40) chain k
residue 113
type
sequence K
description binding site for residue GCP k 603
source : AN9
41) chain k
residue 115
type
sequence T
description binding site for residue GCP k 603
source : AN9
42) chain k
residue 136
type
sequence I
description binding site for residue GCP k 603
source : AN9
43) chain k
residue 196
type
sequence G
description binding site for residue GCP k 603
source : AN9
44) chain k
residue 249
type
sequence N
description binding site for residue GCP k 603
source : AN9
45) chain k
residue 285
type
sequence A
description binding site for residue GCP k 603
source : AN9
46) chain k
residue 286
type
sequence Q
description binding site for residue GCP k 603
source : AN9
47) chain l
residue 238
type
sequence T
description binding site for residue GCP k 603
source : AN9
48) chain l
residue 239
type
sequence C
description binding site for residue GCP k 603
source : AN9
49) chain l
residue 262
type
sequence C
description binding site for residue GCP k 603
source : AN9
50) chain l
residue 236
type
sequence C
description binding site for residue ZN l 301
source : AO1
51) chain l
residue 241
type
sequence S
description binding site for residue ZN l 301
source : AO1
52) chain l
residue 244
type
sequence T
description binding site for residue ZN l 301
source : AO1
53) chain l
residue 259
type
sequence C
description binding site for residue ZN l 301
source : AO1
54) chain m
residue 99
type
sequence C
description binding site for residue ZN m 501
source : AO2
55) chain m
residue 124
type
sequence C
description binding site for residue ZN m 501
source : AO2
56) chain m
residue 126
type
sequence K
description binding site for residue ZN m 501
source : AO2
57) chain m
residue 128
type
sequence T
description binding site for residue ZN m 501
source : AO2
58) chain s
residue 302
type MOD_RES
sequence S
description Phosphoserine => ECO:0000250|UniProtKB:P40217
source Swiss-Prot : SWS_FT_FI1
59) chain k
residue 249
type MOD_RES
sequence N
description Phosphoserine => ECO:0000250|UniProtKB:P40217
source Swiss-Prot : SWS_FT_FI1
60) chain k
residue 284
type MOD_RES
sequence S
description Phosphoserine => ECO:0000250|UniProtKB:P40217
source Swiss-Prot : SWS_FT_FI1
61) chain p
residue 669
type MOD_RES
sequence S
description Phosphoserine => ECO:0007744|PubMed:18407956
source Swiss-Prot : SWS_FT_FI3
62) chain J
residue 105-129
type prosite
sequence LERRLQTQVYKLGLAKSVHHARVLI
description RIBOSOMAL_S4 Ribosomal protein S4 signature. LErRLqtqVYKlglAkSvhhARvLI
source prosite : PS00632
63) chain G
residue 52-63
type prosite
sequence IAGGNDKQGFPM
description RIBOSOMAL_S6E Ribosomal protein S6e signature. IAGGnDkqGfPM
source prosite : PS00578
64) chain E
residue 8-22
type prosite
sequence HLKRLAAPHHWMLDK
description RIBOSOMAL_S4E Ribosomal protein S4e signature. HlKRLAaPhhWmLdK
source prosite : PS00528
65) chain Q
residue 71-89
type prosite
sequence GGGHVSQVYAIRQAIAKGL
description RIBOSOMAL_S9 Ribosomal protein S9 signature. GGGhvSQvyAirqAiAKGL
source prosite : PS00360
66) chain R
residue 41-56
type prosite
sequence IQSKRLRNKIAGYTTH
description RIBOSOMAL_S17E Ribosomal protein S17e signature. IqSKrLRNkIAGYtTH
source prosite : PS00712
67) chain V
residue 11-19
type prosite
sequence LYVPRKCSA
description RIBOSOMAL_S21E Ribosomal protein S21e signature. LYVPRKCSA
source prosite : PS00996
68) chain a
residue 73-80
type prosite
sequence YCISCAIH
description RIBOSOMAL_S26E Ribosomal protein S26e signature. YCISCAIH
source prosite : PS00733
69) chain Y
residue 64-86
type prosite
sequence YGGGKSTGFGLVYNSVADAKKFE
description RIBOSOMAL_S24E Ribosomal protein S24e signature. YGggKStGFGlVYNSvadakkfE
source prosite : PS00529
70) chain D
residue 147-183
type prosite
sequence AKSMKFADGFLIHSGQPVNDFIETATRHVLLRQGVLG
description RIBOSOMAL_S3 Ribosomal protein S3 signature. AKsmkfadGfLihSgqpVndfIEtatrhvlLrqGvlG
source prosite : PS00548
71) chain M
residue 20-38
type prosite
sequence ALKVVLRTSLVHDGLARGL
description RIBOSOMAL_S12E Ribosomal protein S12e signature. ALKvvLrtSlvhDGLarGL
source prosite : PS01189
72) chain b
residue 36-68
type prosite
sequence KCPGCLNITTVFSHAQTAVTCESCSTVLCTPTG
description RIBOSOMAL_S27E Ribosomal protein S27e signature. KCpgClnittvFShAqtavtCesCStvLctPtG
source prosite : PS01168
73) chain A
residue 14-25
type prosite
sequence AQLLLAARVHLG
description RIBOSOMAL_S2_1 Ribosomal protein S2 signature 1. AqLLLAARVHLG
source prosite : PS00962
74) chain A
residue 118-142
type prosite
sequence PRLVIVTDPRSDAQAIKESSYVNIP
description RIBOSOMAL_S2_2 Ribosomal protein S2 signature 2. PrlVIVtDprsDaqaIkEssyvNIP
source prosite : PS00963
75) chain X
residue 62-69
type prosite
sequence KQPNSAIR
description RIBOSOMAL_S12 Ribosomal protein S12 signature. KqPNSAiR
source prosite : PS00055
76) chain N
residue 98-128
type prosite
sequence VRKHLERNRKDKDAKFRLILIESRIHRLARY
description RIBOSOMAL_S15 Ribosomal protein S15 signature. VrkHLernRkDkdAkfrLilIesrihrLarY
source prosite : PS00362
77) chain c
residue 58-66
type prosite
sequence ESEREARRL
description RIBOSOMAL_S28E Ribosomal protein S28e signature. ESEREARrL
source prosite : PS00961
78) chain S
residue 123-136
type prosite
sequence RGIRHFWGLRVRGQ
description RIBOSOMAL_S13_1 Ribosomal protein S13 signature. RGiRHfwGlrVRGQ
source prosite : PS00646
79) chain O
residue 102-124
type prosite
sequence LRALARSGLRIGRIEDVTPVPSD
description RIBOSOMAL_S11 Ribosomal protein S11 signature. LrALarS.GLrIgrieDvTPvPSD
source prosite : PS00054
80) chain P
residue 98-122
type prosite
sequence NGKVFNQVEIRPEMVGHYLGEFSIT
description RIBOSOMAL_S19 Ribosomal protein S19 signature. NGKvfnqveIrpemVGhyLGEFsiT
source prosite : PS00323
81) chain F
residue 93-119
type prosite
sequence ERLTNSLMMNGRNNGKKLKAVRIVKHT
description RIBOSOMAL_S7 Ribosomal protein S7 signature. ErLtnsLMmngrnnGKKlkavrIVkhT
source prosite : PS00052
82) chain I
residue 11-30
type prosite
sequence RAATGAKRAQFRKKRKFELG
description RIBOSOMAL_S8E Ribosomal protein S8e signature. RaaTGAkraqf.RkKrKfELG
source prosite : PS01193
83) chain i
residue 41-63
type prosite
sequence MLGNGRVEASCFDGNKRMAHIRG
description IF1A Eukaryotic initiation factor 1A signature. MlGnGRveasCfDGnkRmaHIrG
source prosite : PS01262
84) chain W
residue 100-117
type prosite
sequence GYVILTTSAGIMDHEEAH
description RIBOSOMAL_S8 Ribosomal protein S8 signature. GyvILTTSaGIMdheeAH
source prosite : PS00053
85) chain T
residue 90-109
type prosite
sequence PHKHVDASGSINRKVLQSLE
description RIBOSOMAL_S19E Ribosomal protein S19e signature. PhkhvdaSgsInRkVLQsLE
source prosite : PS00628
86) chain H
residue 76-89
type prosite
sequence KLTRELEKKFQDRH
description RIBOSOMAL_S7E Ribosomal protein S7e signature. KLtRELEKKFQdRH
source prosite : PS00948
87) chain L
residue 120-132
type prosite
sequence GDIVTVGQCRPIS
description RIBOSOMAL_S17 Ribosomal protein S17 signature. GDiVtVgQcRPIS
source prosite : PS00056
88) chain C
residue 98-130
type prosite
sequence GQRTRFKAVVVVGDSNGHVGLGIKTAKEVAGAI
description RIBOSOMAL_S5 Ribosomal protein S5 signature. GQrtrFkAvvVVGDsn.GhVGlGiktak.EVag.AI
source prosite : PS00585
89) chain g
residue 81-95
type prosite
sequence AVSASWDKTLRLWNL
description WD_REPEATS_1 Trp-Asp (WD) repeats signature. AVSAswDkTLRLWNL
source prosite : PS00678
90) chain g
residue 123-137
type prosite
sequence IISASRDKTIRVWNT
description WD_REPEATS_1 Trp-Asp (WD) repeats signature. AVSAswDkTLRLWNL
source prosite : PS00678
91) chain g
residue 218-232
type prosite
sequence AASAGKDGQIYVWNL
description WD_REPEATS_1 Trp-Asp (WD) repeats signature. AVSAswDkTLRLWNL
source prosite : PS00678
92) chain s
residue 67-81
type prosite
sequence CVTGSADYSIKLWDV
description WD_REPEATS_1 Trp-Asp (WD) repeats signature. AVSAswDkTLRLWNL
source prosite : PS00678

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