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0  structures 1  species 0  interactions 1  sequence 1  architecture

Protein: PKS41_DICDI (Q54ED6)

Summary

This is the summary of UniProt entry PKS41_DICDI (Q54ED6).

Description: Probable polyketide synthase 41 EC=2.3.1.-
Source organism: Dictyostelium discoideum (Slime mold) (NCBI taxonomy ID 44689)
Length: 2542 amino acids
Reference Proteome: ✓

Please note: when we start each new Pfam data release, we take a copy of the UniProt sequence database. This snapshot of UniProt forms the basis of the overview that you see here. It is important to note that, although some UniProt entries may be removed after a Pfam release, these entries will not be removed from Pfam until the next Pfam data release.

Pfam domains

Download the data used to generate the domain graphic in JSON format.

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Source Domain Start End
Pfam ketoacyl-synt 11 255
Pfam Ketoacyl-synt_C 263 389
Pfam KAsynt_C_assoc 391 508
Pfam Acyl_transf_1 545 873
disorder n/a 896 897
Pfam PS-DH 940 1231
low_complexity n/a 1357 1372
Pfam Methyltransf_12 1428 1542
low_complexity n/a 1431 1442
Pfam ADH_N 1838 1904
low_complexity n/a 2088 2099
Pfam KR 2177 2372
low_complexity n/a 2199 2216
low_complexity n/a 2326 2335
low_complexity n/a 2405 2420
Pfam PP-binding 2466 2533

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Sequence information

This is the amino acid sequence of the UniProt sequence database entry with the accession Q54ED6. This sequence is stored in the Pfam database and updated with each new Pfam release, but this means that the sequence we store may differ from that stored by UniProt.

Sequence:
1
MDSKNLVDEN CNKVAIIGIG FRFPNLKGDI TPNELWSKLL NRYDGIVKND
50
51
RWNESFFKSG DISTNYAGFI PFEELKSFDP LFFGINPSEG IHMCPQQRLL
100
101
LKCTWEALED SGIDPIEIRG SNTSVFIGCS GADYQNLNKN DNKVQQEIFS
150
151
SSTHSISNRV SYCFDLHGES MTIDTACSSS SNAIRRGYKS IIDGSSNISV
200
201
VGGINILLDP NISKSYSRLN ILSKDGKCKS FDAGADGYVR SDAAGIAILK
250
251
NLNDAIKDDN NIYCVIDGSA SNVDGNGFSD KSNFYSPSKS SQVECIRLAL
300
301
ESTNGQVNEN DIVYFEAHGT GTPTGDPIEL ESVSIALKTS ENRSSDNPLL
350
351
IGSFKPNIGH TESASGISSL IKCCLILKNQ CFVPNLNFNK PNPLIKFDQW
400
401
NLKVVTDPID FSTLNYINKR VSIAINNFGV TGSNCCLIVS SFKGNQIRNN
450
451
INNKSKSPKQ YLIPFSTNSI KSLDLYKSRI DNNVEFKEFA ENQIKSKSKK
500
501
LIQRSVVIAS NWDEFNLKSN TINTSNDKLT SNMLVSSNKK NVTMVFVFCG
550
551
QGAQYSTMAK NLYDNEPIFK KSMDKIDSKL NEYYGFSILE KLRSFNENDL
600
601
KGIQYSIIAQ PSTCMVQISL FELYCHWGIK PSIIVGHSLG EISSSYCSGM
650
651
IDLDTFCYLI YHRSMVQSKT NGLGRMLSIS IGENEYNSKY SSRYPELEIA
700
701
CYNSPSSIVI AGKELILNEI IKELKKDGVF CAILGSPTSF HTSSQLSVKD
750
751
EILKISFKSK QPTIPIFSTV TTNLYDEMNP FDTKYVYDNI INPVRFTNTI
800
801
SNIYKHIELN YSVNNNSNEV IFIEIAPHPT LSFYLKQMVP EDKKQSVSIF
850
851
SPLSKKKSND LFEIQKLISE LYCLGYNGIG FNIQLSDHNN TNNQTRVNLP
900
901
LYQWEDQEYW KLDNLHQYHL SNGPSINHLG ISNSNHTPIK SYQTHINIQK
950
951
KPFQWLKGHQ IKGKYYFPGC GYIDNILKIF GESKTDTNPN KELPDILISF
1000
1001
IEFKTPLIFM DGISQCLQTN IHSTGKKEYK ALFHFKDEKS SSDWVQTSTA
1050
1051
NFQLFSRGPN LNEDDEQSLF MYNINDLISN QCNLTKLSKQ ELYSHIKTKC
1100
1101
GLNYSGDFQR VDKCYLGYNC SLSEISIIQG VNENRSTFFD SSIIDCCLHG
1150
1151
SIGLIDENCQ LVFEKLEELT YYSSKVPKTT SQHSKIYVYS KLKPRIGDSY
1200
1201
SASIIVMLEN GTVLFEMENA SFKSTTKIKD PLAMEYPTNE IYSCNLQSKD
1250
1251
SLIPSLSSFD HIFKRKIPNE YVDQINIYES FIPKLLFSNI NKRCPEITID
1300
1301
EIQSSEIEQL LLKYYKIKED NDNKWLSRLF TFAFESIKQW YHNEDYDFEN
1350
1351
VLSPHNFKIF SKSTKIISKL LFPLENDNDE DSPQSLFEGG LLDKFYSSGF
1400
1401
SAQNELVGEI IQESIKPILN EKLVFRILEF GGGVGSLSLL VLEKINSLLI
1450
1451
QYPNYQIDIE YTWSDISPSF ITEAKAKFEK FNDRFNIIYK ALNLEQPLIG
1500
1501
EKQGLKPQYF DYIIMFNVLH VIKDVKYGVE QIYQLLVPNG HLLFIEPIYK
1550
1551
SIIGDGIFGV FDQWWSFQDT EIRKDRCCMK QKTWYKLLKS VNFNDDIRMT
1600
1601
PELTCFVIQA QKPSISNLSF SKSETTNYDS IIVFGNKYAS NLSNHFIKSI
1650
1651
DNGNLQFIST IEELNKIGKY ISNESIIYFI KSIDELSVDN FVNITHEYTQ
1700
1701
INQKLMELNC KCKHVLITND STTTNYLSSS LIGAARYYHE CPLELFILNF
1750
1751
DTPSIIENQN LFKTIEPLIN SSINIQREFI INNHKVYYER IKNETKLKSI
1800
1801
FKNSSSFESL EQVDNFMISL TPNLEYKVKV KPTSILKENE VEIKVMSTGL
1850
1851
NYKDYLIYAG LVESVEPIFG IEFSGIITRI STGSKEFKVG DHVYGIGKST
1900
1901
TSSHIITDID VISHKPSNIS HSEASSIPVV YLTSYHSLYN IGALKNNETI
1950
1951
LIHSATGGVG LSTLEILKWK GHSGLIFVTV GSNEKEEYLR ENYGDMISGI
2000
2001
YSTRNKNFVK QIKSKISKLN PFGKSGVDFI LNTLSSSDYM DSNFKCLNMS
2050
2051
GRIVDLSITH LNSNEFTDNK KFKYNYGYHN IELQYVDKKI IKSTLSIISN
2100
2101
AVSSNDLQLI PITHYSIEKV KESIEFINER VHMGKIIINH ENQDSIINEL
2150
2151
IEKQKSINKF DQSIFKQNYK LEPSLLGRNI LLTGQSGIVL EILKWILRNS
2200
2201
ENNSIGNIII LSKSSIKWEM EYLINKVKLI NKLGNFFNNI KFHFKSVDIS
2250
2251
DSGLIDESIN KLLIENPDIN NIDSIFHFAY TQATCNSDEV DLHHLTQSHS
2300
2301
AKSMGAINLH NQSIKRNWKL KNFIMSSSVS SKTSTANQCG YISSNNVLDA
2350
2351
LSKYRISIGL PTICTNYGLI ESTGFVSRNE SVAALLSGEG FIPISANLIL
2400
2401
GTLDLQLQNQ AQSSNLILSN FNFTSLNGLP QKSLISKFDY QININEENEK
2450
2451
SKSLLKDDNV ELTVDQLITF KISEILSTDI LKLNKDIILV DYGIDSLVII
2500
2501
QLKNWVDKEF SIPNELTIQK IQNSTINSFI QLVKNSMDKN KK        
2542
 

Show the unformatted sequence.

Checksums:
CRC64:D281219899617A16
MD5:354fdf7c9b8910d340e9568d921c7da9

AlphaFold Structure Prediction

The protein structure below has been predicted by DeepMind with AlphaFold. For more information, please visit the AlphaFold page for this protein.

Model confidence scale

  Very High (pLDDT > 90)
  Confident (90 > pLDDT > 70)
  Low (70 > pLDDT > 50)
  Very Low (pLDDT < 50)
Highly accurate protein structure prediction with AlphaFold. John Jumper, Richard Evans, Alexander Pritzel, Tim Green, Michael Figurnov, Olaf Ronneberger, Kathryn Tunyasuvunakool, Russ Bates, Augustin Žídek, Anna Potapenko, Alex Bridgland, Clemens Meyer, Simon A. A. Kohl, Andrew J. Ballard, Andrew Cowie, Bernardino Romera-Paredes, Stanislav Nikolov, Rishub Jain, Jonas Adler, Trevor Back, Stig Petersen, David Reiman, Ellen Clancy, Michal Zielinski, Martin Steinegger, Michalina Pacholska, Tamas Berghammer, Sebastian Bodenstein, David Silver, Oriol Vinyals, Andrew W. Senior, Koray Kavukcuoglu, Pushmeet Kohli & Demis Hassabis Nature 2021-07-15; DOI: 10.1038/s41586-021-03819-2;