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1  structure 1  species 0  interactions 1  sequence 1  architecture

Protein: Q9VJY9_DROME (Q9VJY9)

Summary

This is the summary of UniProt entry Q9VJY9_DROME (Q9VJY9).

Description: RE14437p {ECO:0000313|EMBL:AAL48692.1}
Source organism: Drosophila melanogaster (Fruit fly) (NCBI taxonomy ID 7227)
Length: 465 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
disorder n/a 1 39
low_complexity n/a 11 24
low_complexity n/a 41 55
disorder n/a 45 48
disorder n/a 54 66
disorder n/a 73 75
disorder n/a 89 95
low_complexity n/a 97 114
Pfam dsrm 136 204
disorder n/a 180 188
disorder n/a 211 248
low_complexity n/a 227 245
Pfam dsrm 251 316
disorder n/a 265 275
disorder n/a 327 329
Pfam Staufen_C 361 463
low_complexity n/a 377 391
low_complexity n/a 444 455

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Sequence information

This is the amino acid sequence of the UniProt sequence database entry with the accession Q9VJY9. 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
MDQENFHGSS LPQQLQNLHI QPQQASPNPV QTGFAPRRHY NNLVGLGNGN
50
51
AVSGSPVKGA PLGQRHVKLK KEKISAQVAQ LSQPGQLQLS DVGDPALAGG
100
101
SGLQGGVGLM GVILPSDEAL KFVSETDANG LAMKTPVSIL QELLSRRGIT
150
151
PGYELVQIEG AIHEPTFRFR VSFKDKDTPF TAMGAGRSKK EAKHAAARAL
200
201
IDKLIGAQLP ESPSSSAGPS VTGLTVAGSG GDGNANATGG GDASDKTVGN
250
251
PIGWLQEMCM QRRWPPPSYE TETEVGLPHE RLFTIACSIL NYREMGKGKS
300
301
KKIAKRLAAH RMWMRLQETP IDSGKISDSI CGELEGEPRS SENYYGELKD
350
351
ISVPTLTTQH SNKVSQFHKT LKNATGKKLL KLQKTCLKNN KIDYIKLLGE
400
401
IATENQFEVT YVDIEEKTFS GQFQCLVQLS TLPVGVCHGS GPTAADAQRH
450
451
AAQNALEYLK IMTKK                                      
465
 

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Checksums:
CRC64:B69684E6B912F929
MD5:3428665b85df2e0409f055374bb9b634

Structures

For those sequences which have a structure in the Protein DataBank, we use the mapping between UniProt, PDB and Pfam coordinate systems from the PDBe SIFTS project, to allow us to map Pfam domains onto UniProt three-dimensional structures. The table below shows the mapping between Pfam domains, this UniProt entry and a corresponding three dimensional structure.

Pfam family UniProt residues PDB ID PDB chain ID PDB residues View
Staufen_C 392 - 433 4X8W G 392 - 433 Show 3D Structure View in InterPro
392 - 462 4X8W A 392 - 462 Show 3D Structure View in InterPro
C 392 - 462 Show 3D Structure View in InterPro
392 - 463 4X8W B 392 - 463 Show 3D Structure View in InterPro
D 392 - 463 Show 3D Structure View in InterPro
E 392 - 463 Show 3D Structure View in InterPro
429 - 463 4X8W F 429 - 463 Show 3D Structure View in InterPro
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The parts of the structure corresponding to the Pfam family are highlighted in blue.

Loading Structure Data

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;