※ dbPPT Protein Information

TagContent
UniProt Accession
Theoretical PI
6.19 
Molecular Weight
512846.3 
Genbank Protein ID
Genbank Nucleotide ID
Protein Name
Dynein gamma chain, flagellar outer arm 
Gene Name
ODA2; ODA-2 
Created Date
1997-11-01 
Organism
Chlamydomonas reinhardtii(Chlamydomonas smithii) 
NCBI Taxa ID
3055 
Phosphorylation Sites
Position
Peptide
Source
References
2456
NKTITFSSLTTPGIF
dbPPT
[1]
Functional Description
Force generating protein of eukaryotic cilia and flagella. Produces force towards the minus ends of microtubules. Dynein has ATPase activity; the force-producing power stroke is thought to occur on release of ADP. 
Sequence Annotation
chain 1 4485 Dynein gamma chain, flagellar outer arm
nucleotide phosphate-binding region 1819 1826 ATP
nucleotide phosphate-binding region 2099 2106 ATP
nucleotide phosphate-binding region 2425 2432 ATP
nucleotide phosphate-binding region 2802 2809 ATP
region of interest 1 1780 Stem
region of interest 1781 2002 AAA 1
region of interest 2061 2279 AAA 2
region of interest 2384 2638 AAA 3
region of interest 2763 3013 AAA 4
region of interest 3077 3343 Stalk
region of interest 3412 3643 AAA 5
region of interest 3857 4071 AAA 6
coiled-coil region 449 469
coiled-coil region 804 838
coiled-coil region 1093 1114
coiled-coil region 1275 1297
coiled-coil region 1699 1727
coiled-coil region 3077 3099
coiled-coil region 3196 3227
coiled-coil region 3265 3343
coiled-coil region 3569 3663
Keyword
ATP-binding,Cell projection,Cilium,Cilium biogenesis/degradation,Coiled coil,Cytoplasm,Cytoskeleton,Direct protein sequencing,Dynein,Flagellum,Microtubule,Motor protein,Nucleotide-binding,Repeat 
Sequence Source
UniProt 
Protein Sequence
MALDNRHRLI VGKLAEAFGL PENVIEKTLT QDKQAVNSFF TPAGPPSLVF VYQVKEDKLK 60
DGSVGPVDNK PTLHRIGPHE RIHNSVYFTR LNPKGINEKT LEADMGSGEL SVLWALENFK 120
AIVSDLYLPI MQEQQQWGKM STEYLEDFLS STAKFGSMLT EAVATVSGGV EPMPDPRYID 180
QYGDLRPAGI TQAAGDDDTL QEMEECLTEW CREAELLLNQ TNKIKDGEER GPDTELEYWR 240
TRMSNFNSIT EHLKTKECKL VLGICSHAKT KAYLRWRGLD VQITDAANES KDNVKYLATL 300
EKSMEPMYQG RVTDITESLP ALMTNVRMMY TIARFYSTAE HMTRLFTKIT NQLVRRCKEQ 360
IMENGKIWDQ DKVTLIGNMK VSVELANVYR QQYRLAKETL AAQPKSKQFD FDEQAIFLKF 420
DLSSKALHKL IDMFTTIHQF SSLEQHTHIE GLDTMLKSLN NIIDDVKRKP YDLLDYSRNA 480
FDTDFLEFNV QINDLELQLQ GFVNASFEHI TSTEHALSLL AQFQAIMQRE TLQQDLENKY 540
MVIFQNYAKD LDAVQKLYEK NKYEPPVPRN APPVAGNIMW ARQLLRRIEA PMQLAQNKNL 600
LAAKESKKNI KTYNKVAKAL IEFETLWHQA WIKSIEQCKA GLAAPLLVQH PDTGKILVNF 660
DKEIMQLVRE AKYMQRFNIR CSSPSQMVLL QEEKFKFYHN QLTHLVREYE HVLGRGATIK 720
PLLRPHLDDM ERKIAPGFAV LTWTSLNIDG YLHRFKQGLA RLEELVRKVV DLTENRVDSN 780
LGAISSTLLV ELPTDRSFTY EGFVEQNRFQ KKQAELLAIR NEEVRRAIED LYTLVRNYPR 840
ENTEDVLDEK EVSLLVRHYS KNMYNAIMQC TLNSLQAMKR RLGSKTTTGI FFMERPFFDV 900
DVELKVPSVC MNPTLEEIQA AINQCAKKVL TISKQLPAWG MDNVATYHEM MRGDRRWVKA 960
VLRLTGSVEG IKTQVGEYIR TFDKYDFLWK EDLQAAYDHF MRSNPTLEAF EAELKKYMAI 1020
ETEVTMINGV NNIGALSLET HPLKNSLKAE AVSWKTQFAQ NLHKQCSDDL KLDNYIRDTN 1080
SKFHRKIEDL EDVRNVMAVL KEVREKESEI DNLIGPIEEM YGLLMRYEVR VPKEETTMVS 1140
DLRYGWKKLK KVATEVSDNL TRLQVGFKRE LIKEVKTFVV DAQMFRKDWE ANAMVPGLDP 1200
QEAVDRLRKF QQMFEVRKRK WENYSSGEEL FGLPVTQYPE LEQTEKEIQM LDRLYSLYVA 1260
VITTIKGYGD YFWVDVVEKI DEMGEQVQQY QNQSKKLPKL RDWPAYNACR KTIDDFLEML 1320
PLFQALTHKS MRERHWKEVM RVTGHELNLA EDHFKLQHLL DCNVLRYRED IEDLTGAAVK 1380
EEIIEVKLNQ LKADWATANL ALAEYKNRGP VILKPSDTSE LMEKLEESQM TLGSMATNRY 1440
SAPFRDEVQA WSIKLSTVSE IIEQWLMVQS MWQYMEAVFS GGDIVKQLPQ EAKRFLNIDK 1500
NFMKIVSNAL ETQNVINTCF GNELMKNMLP HLHEQLEMCQ KSLSAYLEQK RAEFPRFTCV 1560
GPHLLEICRW AHDPPSVVPH FQSGLFDSLS NVTFDRIDKT RMTEMFSQQN EKVEFERPVD 1620
AKGNIEVWLQ RLVDGMEDTV KQIIKRAVRN VAEMPLEDFV FGHPAQVSLL GIQFQWTAET 1680
QMALSSAKVD KTIMNKNMKK VDALLRDMVN ITVRLDLTKN QRTNLETCIT VHMHQKESTE 1740
DLVKKKIKDP TDFEWLKQVR FYWRDDKDTV IISICDVDFE YSFEYLGVKE RLVITPLTDI 1800
CYITLSQALG MFLGGAPAGP AGTGKTETTK DLGNTLGKYV VVFNCSDQFD YTYMGKIYKG 1860
LAQSGLWGCF DEFNRINLDV LSVCAQQVYC ICRTRERKKS FQFTDGTTVS LDPRVGFFIT 1920
MNPGYAGAQE LPENLKALFR GVTMMVPNRQ IIMKVKLAAA GYQENDILSK KFFVLYGLCE 1980
QQLSKQAHYD FGLRNILSVL RTAGASKRQS PDKSEVFLMM RTVRDMNMSK FVAEDVPLFL 2040
SLIDDLFPGL KADATRPDVN KDAEKVVLER GLQVHPTWMN KCIQLYETYL VRHGIMLVGP 2100
SGSGKSAICE CLAAALTELG TKHVIWRMNP KAITAPQMFG RRDDTTGDWT DGIFAVLWRR 2160
AAKNKNQNTW IVLDGPVDAI WIENLNTVLD DNKVLTLANG DRILMSAAMK AMFEPENLNN 2220
ASPATVSRAG IIYVSDVELG WEPPVKSWLQ KRDPTEACWA RLFSKYIDRM LEFVRISLKP 2280
VMYNEQVSIV GTVMTLLNGY LKSMKEAGTA MNDAKYERVF LYCMTWSLGG LLEMKERPLF 2340
DQELRTFAHN MPPKEEDSDT IFEFLVNTTD AEWLHWRHCV PVWTYPKNEE KPQYAQLVIP 2400
TLDSVRYGAL LNLSYNVDKA TLLVGGPGTA KTNTINQFIS KFNAETTANK TITFSSLTTP 2460
GIFQMSIEGA VEKRQGRTFG PPGGKQMCIF VDDISMPYIN EWGHQVTNEI VRQLLEQGGM 2520
YSLEKPIGDM KFITDVRYVA AMNTPGGGKN DIPNRLKRQF AIFNVPLPSV AAINGIFGKL 2580
VEGRFSRDVF CEEVVYVASK LVPLTITLWN RIQTKMLPTP AKFHYLFNMR ELSKVFQGVI 2640
LATRDRFNLA AGDSAVFGGN VASPEGYLLG LWIHECRRVF SDKLISYEDK NWVDKAVFDL 2700
CRDNFSSDLV KQVEEPIYFV DFLREPAVMM RPVEIVTPHP SFYYSVPGGL PEVRARVEGL 2760
QRKFNEESKV MKLELVLFTD CVTHLMRITR LLAWPGLGLL VGVGGSGKQS LSRLSAYIAG 2820
PTFYITKTYN VSNLFEHIKG LYKIAGFKGQ PVYFIFTDAE VKDEGFLEYI NQILMTGEVA 2880
GLLTKEDQDM IVNDIRPVMK HQAPGILDTY DNLYNFFLNR VRDNLHVVLC FSPVGAKFAR 2940
RAQQFPGLIN GCTIDWFCPG PKKRLTSVSG KFIDKFTMAC PKEVKNQLEL LMGHAHVFVT 3000
AACKEYFEKY RRYVYVTPKS YLSFLQGYKE LYAKKWSFTK ELAYQIEVAC QKMFEPKADV 3060
NKMKAELAVK NQTAVSAKEA EALLKQISES TAIAEKEKQK VAVIVDAVTK KASEIATVKD 3120
DAERDLAAAK PALDAALEAL NSIKDGDIKN LKALKKPPQI ITRIFDCVLV LRMLPVTKAE 3180
YTDEKGRMVQ VGNYPEAQKM MNQMSFLQDL KDFAKEQIND ETVELLEPYF MSEDFTFENA 3240
QKGSGNVAGL CNWAESMAKY HNVAKVVEPK IAKLREAEAE LKLATKEKNA AEERMAKVQA 3300
KLDEMQAQFD AAMAHKQALE DDAAATQRKM DSANALIGAL AGEEARWTAQ SKEFDVQIQR 3360
LTGDCALASA FVSYLGPFNK EFRELLLNRD FYGDCMKLNV PVTPHLQITK FLVDDSEVGE 3420
WNLQGLPTDE LSIQNGIMVT RASRYPVLVD PQGQGREWIK NREEANQLKT TQLNDKLFRN 3480
HLEECLAFGR PLLIENIEEE LDPLLDPVLE RRLVKKGKTW VVPLADKEVD FTETFRLFCT 3540
TRLPNPHFTP ELSAKVTVVD FTVTMAGLED QLLGKLISKE KKELEDQRQQ LLEEVQSYKK 3600
RIKQLEDDLL CRLSNSQGNL LDEHQELIDV LAVTKQTAQD VSEKLANASE TNKRINEACE 3660
EYRPVAHRAT LLYFLIAEFS VVNCMYQTSL AQFNQLYELA IDRSEKANMP SKRIHNIIEY 3720
MTYEIYLYVQ RGLFERHKII FALMLTNKVL TSAGKVKATD LDVFLKGGAA LDINSVRKKP 3780
KDWIPDLVWL NIIALSAMDA FRDIPDSVFR NDGLWRQWYD QEAPEMAKVP DYEDRLNKFE 3840
RMCVVKTFRE DRTLIAAADY IAEALGQRFV ESVPLNMEKR PGRRAMAKCP LICLLSPGPD 3900
PTKLIEDLAK KKKIKTLGVS MGQGQEVIAR KHMAAASLEG HWVLLQNTHL GLGYLTEVET 3960
FLVKEENVHE DFRLWITAEP HPQFPIGLLQ MGIKITNEAP VGIKAGLRAS YQWVNQDMLD 4020
MVSRQEWRQL LFVMCFLHSV VQEPQFGPIG WNVPYEFNQS DLSACVQFLQ NHLSEMDAKK 4080
APQPTWETVR YMISAIQYGS RITDDFDKLL MDTFAEKYFL QPVLQPSYEL FKDTRSSDGF 4140
SYRVPDSTDI ETFGSYIETL PGTESPEIFG LHPNADITFR TLQVQESIVT ILDTMPKGAG 4200
SGSGLSREDV VDKICEDLLS KAPPLFDKEE TKEKLKKLPG GPTLPLTVHL RQEIDRLNIV 4260
TRLTTTTLKN LALAIAGTIA AERGLIDALD ALFNARIPQQ WLSKSWEAST LGNWFTGLLQ 4320
RYDQLNKWLN LGRPKAYWMT GFFNPQGFLT AMKQEVNRKH RDKWALDDVV MSSEVTHRPK 4380
DFESLKEGAP EGVYVYGLYL DLRLDGRENR LMDSDPKKLF NPLPVLHVDG VLAKDKKRSG 4440
LYEAPKPYRV KARKGLNFIT TFSVRTEDDK SKWILPGVGI LCSID 4485 
Gene Ontology
GO:0005929; C: cilium; IEA: UniProtKB-KW
GO:0005737; C: cytoplasm; IEA: UniProtKB-KW
GO:0030286; C: dynein complex; IEA: UniProtKB-KW
GO:0005874; C: microtubule; IEA: UniProtKB-KW
GO:0005524; F: ATP binding; IEA: UniProtKB-KW
GO:0016887; F: ATPase activity; IEA: InterPro
GO:0003777; F: microtubule motor activity; IEA: InterPro
GO:0030030; P: cell projection organization; IEA: UniProtKB-KW
GO:0007018; P: microtubule-based movement; IEA: InterPro 
Interpro
InterPro; IPR003593; AAA+_ATPase
InterPro; IPR011704; ATPase_dyneun-rel_AAA
InterPro; IPR026983; DHC_fam
InterPro; IPR024743; Dynein_HC_stalk
InterPro; IPR024317; Dynein_heavy_chain_D4_dom
InterPro; IPR004273; Dynein_heavy_dom
InterPro; IPR013594; Dynein_heavy_dom-1
InterPro; IPR013602; Dynein_heavy_dom-2
InterPro; IPR027417; P-loop_NTPase
Pfam
Pfam; PF07728; AAA_5
Pfam; PF12780; AAA_8
Pfam; PF08385; DHC_N1
Pfam; PF08393; DHC_N2
Pfam; PF03028; Dynein_heavy
Pfam; PF12777; MT 
SMART
SMART; SM00382; AAA 
PROSITE
 
PRINTS