YRC Public Data Repository - Protein Structure Prediction

Protein:	SPO13_YEAST
Organism:	Saccharomyces cerevisiae S288c
Length:	291 amino acids
Reference:	Drew K, et al. (2011) The proteome folding project: Proteome-scale prediction of structure and function. Genome Res. 2011 Sep 16

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Top Sequence Alignment Hits

Listed below are up to the top 10 sequence alignment matches, by species, for the PSI-BLAST search against the protein sequence for SPO13_YEAST.

Description	E-value	Query Range	Subject Range
gi\|151943956 - gi\|151943956\|gb\|EDN62249.1\| sporulation protein [Saccharomyces cerevisiae YJM789] SPO13_YEAST - Meiosis-specific protein SPO13 OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=SPO13 PE=... SPO13 - Meiosis-specific protein, involved in maintaining sister chromatid cohesion during meiosis I as well...	0.0	[1..291]	[1..291]
gi\|17426715 - gi\|17426715\|emb\|CAC87102.1\| putative meiosis-specific protein [Saccharomyces uvarum] gi\|17426715 - gi\|17426715\|emb\|CAC87102.1\| putative meiosis-specific protein [Saccharomyces uvarum]	0.0	[1..290]	[1..297]

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Predicted Domain #1

Region A:
Residues: [1-291]

      1          11         21         31         41         51         
      |          |          |          |          |          |          
    1 MAPRKRFRLL ELGSPTHSKR KVQKPLQEKT PNLRVSPLAF KIGKEIKNKE IRKTKKTESE  60
   61 NIFNSKHVDL RLESPHPGLN FVSDAQQYSK AGDVRYLKNK SSNTLKNERQ TIERPSFDNS 120
  121 LRFEDIEQPP KSTSTPVLSQ SSQINVEREA PMFPVPYYIA PSPMYNFSPY QNFVGNPTFL 180
  181 TPSHNPNLNY AIPIQRPELL YPNVNVYDSP LFKKTRLPHQ TKSLDKEKNY QYLPIYPVSI 240
  241 SNNGDFVGQE TPRAAPKLSK KRLSNTLDVN CSDYESSGQN ATYNDSESSL N

[Run NCBI BLAST on this sequence.]

Detection Method:

deduced

Shown below is our most confident de novo (Rosetta) prediction for this domain.
Click here to view all matches.

Found no confident structure predictions for this domain.

TMHMM	2.0c	PSIPRED	v2.61
SignalP	3.0	COILS	1999
DISOPRED	v0.1	NCBI nr	06/2007
PSI-BLAST	2.2.18	FFAS	ffas03
PDB	06/2007	Pfam	22
HMMER	2.3.2

View Structure Prediction Details

Top Sequence Alignment Hits