※ dbPPT Protein Information

TagContent
UniProt Accession
Theoretical PI
4.84 
Molecular Weight
395762.03 
Genbank Protein ID
Genbank Nucleotide ID
Protein Name
Putative uncharacterized protein 
Gene Name
SELMODRAFT_403041 
Created Date
2010-10-05 
Organism
Selaginella moellendorffii(Spikemoss) 
NCBI Taxa ID
88036 
Phosphorylation Sites
Position
Peptide
Source
References
2169
ISQEKSRSPGVAVDK
dbPPT
[1]
Functional Description
 
Sequence Annotation
Keyword
Complete proteome 
Sequence Source
UniProt 
Protein Sequence
MAAASQAHVE SEATKFLQKV GQDLKDEPPR LASKLFAICQ HMKMTGREQT LPFQVISRAL 60
EKVLTTYNLD HSVLGSSSRG PSAPGRDVAV FGIPETKQAT LIAGSSGSHE AGLKDDQPRQ 120
LEEMSHPFLG HDAGRRFSSD QTVGAGAFPD AGTPNSQQKR KLPADEAAGI SFAAKGHAFK 180
TPRLDDATVV SPEHHLLRLK QLQAQQQQQQ QQQQQGLGSL DMSKAMSAVR RANSGASPES 240
GKADLQSTGF SGGVPTEGGD GMSSPQGNRA GAFNSYSPIR PSQGSFGPLD PQQHIHEAFG 300
LPRPGETFRL GKAGSLTPPP EQVHMQNTGT LQSLETQLPP KSFVSPGKAY VSGPNGGPLA 360
VGPSPFSDFQ LKQLKAQCLV FLSFRNKTVP KKSQLVLALQ SQQEMLNAEA ANAGPSTIQP 420
QKPADPPVES SEAAEQDSSA EAERDSESGS LPSAKTPAVA VPPQNANKEA ESVKKPKVKK 480
KYPPIDPNLT PEERKVLINT RRKEARAEAM AARKASRAAA SAQAAVAEES PDTSAQEVDT 540
PEAKRSKVDT QVDQVPREKE PVVYESLKKD IPRQFQSPSP SRLKAVTSTP ENTTAAATVM 600
EHEETRMAAS SIQPSTIAKE TSNYVTLPNG DLIPKNYLIT LPNGERVELQ RLLESAKSFQ 660
TSQTNSGQAA VLSSLTREKA QDPAFDGGTS SPAFKLQDPG LQQASQGQLQ RHISAQLQGH 720
ISSQLQGHTS SQLQGHIVAQ AQGHMQTQVQ AQVQAQLQPP VQPQLQVPIQ TQVQAPTQAP 780
FPGPVQTQVQ PQIQPQAQAP IQAQMQAPGQ GQMQLLNNGV TEVTTSRPAT AEQAEDLLPG 840
ETPVYSSKPQ YSTIDKWSID ERRKKFMADQ VWVQKQRKTE ENIGTRFNEL KAIVSSSDDS 900
SSKTKSVIEL KKLQLLQLQR KLRREVLHDF FKAIAPEMAQ LRGMKKNRPL RRLKQLERLE 960
QKQREERSRR IKDRQREFFK DIELQRDKLE DWNKAKRERW KSFNRYVRDT HKRKDKVHRE 1020
KLDKIQREKI NLLKNNDVEG YLRMIKDAKS DRVEQLLRET ESYLEKLGTK LQEQKKEIGR 1080
SDSDLFNQFS VMTKKEQSYD QAEHYLESNE KYYLLAHSVK ESIPSQPASL HGGTLREYQM 1140
NGLRWLVSLY NNHLNGMLAD EMGLGKTVQV IALICYLIEA KHDRGPFLVV VPSSVLPNWM 1200
SEITRWAPNV IKLSYTGTPD ERRRLFKEHI VQQQFNILVT TYEYLMNKND RPKLSKIRWH 1260
YIIIDEGHRI KNASCKLNAE LKHYQSNNRL LLTGTPIQNN LDELWALLNF LLPSIFNSSE 1320
DFAQWFNKPF ESVADNGDTE ALLTEEENLL IINRLHQVLR PFVLRRLKHK VEYELPEKIE 1380
RLVRCEASAY QRLLMKRVKE KMGGIGHAKV RSVQNTVMEL RNICNHPYLS HVHTEEAESL 1440
LPSHYLPTVI RLCGKLEMLD RILPKLKKSN HRVLLFSTMT RLLNVLEDYL TWKGYKYLRL 1500
DGHTMGSERG SLIDRFNAPD SDAFLFLLSI RAGGIGVNLQ AADTVIIFDT DWNPQVDLQA 1560
QARAHRIGQK RDVLVLRLET VNTIEEQVRA SAEHKLGVAN QSITAGFFDN NTSAEDRREY 1620
LESLLRESKK EEVAAVPDDD ALNYLLARSD DEIDVFESVD RERRAEEEII WRTMNNCEDG 1680
DEHPEMPPRL LGESELKPVM SIIHKADAKR KKTASSLDTQ HYGRGKRTRE IRSYGDQLSE 1740
QEFEQLCRAE SPEHEKKPEV VVGTRPRRKG KASVSADDEK DVTYVEEVEV VEEPPVKRGR 1800
GRPRKNPEAV QPPRGKAHAA AEKEEPINLD TLKLRTDTSQ APETTFKRLK KAVQGEAKKT 1860
ETETKSELKK RKVSPMVEEK EDDEETTTDA KARSETGSKT FAILRAADDV KVARTGIEII 1920
TPAVKVAGTE DLTKRQKSEL DDKSANASSP DSEPEEPDSS KSDKETDNIA RDEIRTTAGE 1980
IVESIDAAPT LQNNDSAIRF LECDTETQKP QGGEVAGCEQ GVTKNDSAEI LRENLPSESM 2040
DEQPKDSVPE IQNVTGKENE IVCATGVADH ANEDPGTGDG SAGSDSGDNS ALDVSKAMED 2100
KSSSVASHSG ESGHGPDADD KLPDASEGVS DSKHFAASAD AEQVDSETDR NIQDGIDMGT 2160
TISQEKSRSP GVAVDKKGEP PSLSDKLPSE NVESEDREAE HMHGDLATGL TLEGSDEPVG 2220
ILSSNNEPPS PSDKLESALF PAAAECKEPE SDELEPEHNL QMHEELDRGL TLEEGGVTEP 2280
AFSSDKLDSK KTDSDERKAE NYEDQLQTHA DVDNGLAIEA SDDVGVLRVK METPATQDDS 2340
SETFPAHEKE IDPQKENEGN YFPRLDTPEI CLERNDTGSA KLQTLHSTST FITAESTEVG 2400
KVALSTEGII KMLPDNSLPI EIQSPTRFTD TEISENHGNE RATDVLQADK DMEKENVPEP 2460
ASYEIGSRLD DGSRRCLFLR EVKAEETSTP EGSDKNGDDR IPENEQAGKS LHASPLVDGS 2520
GDVEMADARG EDVADANVEE GNAERVIMED AEINLLDSPS SFKPEVAAGA DLDEVEGPKA 2580
GQDDGKSSDD VEGLTAERAD GVTEGSQQER AGGVKSRTDS DEVEGSKTER VDGVEWDIGT 2640
GVKHTGEDAE TIFGIIKAPE NEISVDKAGP DSTEECSPKE TLTAKAVAEP NEKPNNTSSA 2700
SKSHIGHEDE AFLYAINEIG KDKSPEVPVE PDENTTVDSK DRLEDNPDVV LEDATTLTPH 2760
ETPASEHMKS PPCDAECEGL SLTEPENEVG KAIEKTNEMD EDDLVDSGML TVGTAEVTIQ 2820
ATESSTVEGT NEQVTEIVTV VKTAEDTAVE MEVQTLEHAT VDIQTTEVSP EASEAQNNQT 2880
DVILEVVTAP RLTEVASGSS ERFLSPPPEV SDIPAPHAEG TEETTAVIAV KKEIETMEHT 2940
TIDIQTTEVS PEASEAENNQ TEVIHEVVTA SHVIEVASGS ERFLSHPEVS DTPAPHAEGA 3000
EETTEVTAFE MEVETMEHAT VDIQTTEVLP EPEYNQIEVI REVVHITEVA SGSSERFLSP 3060
PEVSDTPAPH AEGTEETTEV TASEMEGETM EHATVDIQTI VVLPEVENNQ TEVIREVVTA 3120
PHITEVASGS SERFLSHPEV SDTPAPHAEG TEETTKVTAL EMEVETMEHA TVDIQTIVVL 3180
PEAEHNHTEV IREVVHITEV ASGFSERFLS PREVLDTPAP HAEGTKQTTE VTAVEKEAET 3240
MEHATVDIQT TEVLPEPENN QTDEVVHMTE VASGFSERFL SPPEVSDTPA PHAEGTEETT 3300
EVTASEMEVE TMEHATVDIQ TTVVLPEAEN NQTEVIREVV TAPHITEVAS GSSERFLSLP 3360
EVLDTPAPHA EGTKQTTEVT AVEKEVETME HATVDIQTEV SPEASEAENN QTEVVTASHI 3420
TEVASSSDER YPEVSDTPIV HITPTETSES EAGPQDEIAE SNAGCFETSH HESPTRTESL 3480
EQGVDTEDRS KGGGSKSDAG GKEAGHGRTP LHWKDQVPQP ANVRKVWNKV LMPRTVVKGI 3540
VVGSLRTDTI SLEGSSPTAC KLAESLEQGD HKEDRGDKEA GVVYLNPWTS WRLLHHKV 3598 
Gene Ontology
GO:0005524; F: ATP binding; IEA: InterPro
GO:0003677; F: DNA binding; IEA: InterPro
GO:0004386; F: helicase activity; IEA: InterPro 
Interpro
InterPro; IPR017956; AT_hook_DNA-bd_motif
InterPro; IPR014001; Helicase_ATP-bd
InterPro; IPR001650; Helicase_C
InterPro; IPR027417; P-loop_NTPase
InterPro; IPR029295; SnAC
InterPro; IPR000330; SNF2_N
Pfam
Pfam; PF00271; Helicase_C
Pfam; PF14619; SnAC
Pfam; PF00176; SNF2_N 
SMART
SMART; SM00384; AT_hook
SMART; SM00487; DEXDc
SMART; SM00490; HELICc 
PROSITE
PS51192; HELICASE_ATP_BIND_1
PS51194; HELICASE_CTER 
PRINTS