Transporter Protein
SPCC4B3.13


    Transport Function
Transporter Name: SPCC4B3.13
Transporter Type: Secondary Transporter
Transporter Family: MOP (TC#: 2.A.66)
The Multidrug/Oligosaccharidyl-lipid/Polysaccharide (MOP) Flippase Superfamily
Transporter Subfamily: 
Substrate/Function: family
TC#: 
^ Return to the top ^

    Genome Locus
PID:   19075577     Blast
Source:   Schizosaccharomyces pombe
Chromosome:   CHR3
Location:   1156142..1157761
Gene:   -
Length:  539
Strand:  -
Code:   -
COG:   -
Product:  conserved hypothetical protein
^ Return to the top ^

    Transmembrane Segment
TMSs: 
TMHMM Server 
Total:     11
TMS 1:  104-126
TMS 2:  133-155
TMS 3:  175-197
TMS 4:  245-267
TMS 5:  277-299
TMS 6:  320-340
TMS 7:  355-377
TMS 8:  397-419
TMS 9:  434-451
TMS 10:  470-492
TMS 11:  496-515
Topology:   >SPCC4B3.13
MEGENDPLLGSYKPKRRRSSLVYGLSRPQFLDTAASEVSPIPQERPTTSLRKPTPRVQRPATDVSYGALE
ETEENESIASGLSVQEDFNSKAWWKELTLLIKFATPVVLTSLLQYGEVVTTVFSLGHLGKTELAAASLSN
MTATITAFAIYQGIVSALDTVGTQSFGSGNYEMVGLHLQRILAILLLIQFPIFLIWWKIEGILLFLRQDP
LTCMFAAKYMRVMMLASPAYALFEALKRFLQVQGIFHPVTYILAIVVPINIFLNYLFVWSPWVGFGFLGA
PVAVALTLWSACAVLIIYIMKVNGRQAWGGFSREALKNWGPLCRLAVPGVIMICSEYWAFELVTFASGVL
GTTELASMSVLSTTSTLSYNLAFGVAAAAATRVGNLIGAGNTKLAKLATHVSINLGAAIGVIIAVILFLT
RNTWTYIFTSDKDVVALVATIIPLVALINIADNTQCVAGGLLRGQGRQRIGGVVNFIAYYLLGLPVAIIL
CFKLDWGLYGLWIGIGAAILIIAGVETWCSLHVNWDHLVELANRQFDEA
^ Return to the top ^

    Sequence
Protein Sequence: >SPCC4B3.13 19075577 conserved hypothetical protein [Schizosaccharomyces pombe ]
MEGENDPLLGSYKPKRRRSSLVYGLSRPQFLDTAASEVSPIPQERPTTSLRKPTPRVQRPATDVSYGALE
ETEENESIASGLSVQEDFNSKAWWKELTLLIKFATPVVLTSLLQYGEVVTTVFSLGHLGKTELAAASLSN
MTATITAFAIYQGIVSALDTVGTQSFGSGNYEMVGLHLQRILAILLLIQFPIFLIWWKIEGILLFLRQDP
LTCMFAAKYMRVMMLASPAYALFEALKRFLQVQGIFHPVTYILAIVVPINIFLNYLFVWSPWVGFGFLGA
PVAVALTLWSACAVLIIYIMKVNGRQAWGGFSREALKNWGPLCRLAVPGVIMICSEYWAFELVTFASGVL
GTTELASMSVLSTTSTLSYNLAFGVAAAAATRVGNLIGAGNTKLAKLATHVSINLGAAIGVIIAVILFLT
RNTWTYIFTSDKDVVALVATIIPLVALINIADNTQCVAGGLLRGQGRQRIGGVVNFIAYYLLGLPVAIIL
CFKLDWGLYGLWIGIGAAILIIAGVETWCSLHVNWDHLVELANRQFDEA
DNA Sequence: >SPCC4B3.13 19075577 conserved hypothetical protein [Schizosaccharomyces pombe ]
ATGGAAGGGGAAAATGATCCTTTATTAGGATCTTATAAGCCTAAACGAAGAAGATCGAGTCTTGTTTACG
GTTTGTCAAGACCCCAATTTCTTGACACCGCAGCTTCGGAAGTTTCACCTATTCCACAAGAAAGACCCAC
TACTTCCTTAAGAAAGCCTACACCTAGGGTACAAAGACCTGCGACTGATGTATCATATGGCGCTTTAGAG
GAAACAGAAGAAAACGAATCTATTGCGAGTGGCCTTTCAGTACAAGAAGACTTTAATAGCAAGGCATGGT
GGAAAGAATTAACATTACTTATTAAATTCGCAACCCCTGTTGTATTAACGTCTTTACTTCAGTATGGTGA
GGTGGTTACTACTGTTTTCTCTTTGGGCCACTTGGGTAAAACAGAGCTTGCGGCTGCAAGTCTGTCTAAC
ATGACTGCCACAATTACGGCTTTTGCTATTTATCAGGGGATTGTATCTGCTTTGGATACCGTTGGAACTC
AAAGTTTCGGATCTGGAAATTACGAAATGGTGGGTTTACATTTACAGAGGATTCTGGCCATATTGTTGTT
GATACAATTCCCTATTTTCTTGATATGGTGGAAAATAGAGGGCATACTTTTATTCCTTAGACAGGATCCT
CTTACTTGTATGTTTGCGGCAAAGTATATGCGAGTAATGATGTTGGCTAGTCCGGCATACGCATTATTTG
AAGCACTAAAACGTTTCCTTCAGGTGCAAGGTATATTTCATCCTGTAACATACATTTTAGCAATTGTTGT
ACCTATTAATATTTTTCTTAATTACCTTTTTGTGTGGAGTCCCTGGGTTGGTTTCGGTTTTCTAGGTGCA
CCGGTCGCTGTAGCATTAACGCTATGGAGTGCTTGTGCTGTTCTAATTATCTATATTATGAAGGTAAACG
GACGACAAGCATGGGGAGGTTTTAGTAGAGAAGCATTAAAAAATTGGGGCCCGTTATGTCGATTGGCTGT
TCCTGGTGTAATTATGATTTGCAGTGAGTACTGGGCTTTTGAACTCGTTACTTTCGCATCGGGCGTGTTG
GGTACCACTGAATTAGCCTCTATGTCTGTTTTGTCTACTACCTCGACCCTTTCTTATAATTTGGCTTTCG
GTGTCGCTGCTGCAGCTGCCACAAGAGTAGGAAATTTAATTGGTGCTGGAAATACGAAACTCGCTAAGCT
AGCTACGCACGTTTCTATCAATTTAGGTGCTGCAATTGGTGTTATCATTGCTGTAATCCTTTTTTTAACT
CGCAACACATGGACTTACATTTTTACGTCTGATAAAGATGTCGTCGCATTGGTTGCAACTATCATTCCCC
TTGTTGCACTCATTAATATTGCCGATAATACACAATGTGTAGCTGGAGGCCTTCTTCGGGGACAAGGAAG
ACAAAGGATTGGTGGGGTAGTAAATTTCATCGCATATTATTTATTGGGTTTGCCTGTTGCCATAATCCTT
TGCTTCAAGCTAGATTGGGGGCTGTACGGTTTATGGATTGGAATTGGAGCTGCAATTCTAATTATTGCTG
GAGTAGAAACTTGGTGCTCATTGCATGTCAATTGGGACCATTTAGTTGAACTTGCTAATCGTCAGTTTGA
TGAGGCTTAA
^ Return to the top ^

    Publications
Publications on this gene:
1.  Yeast 2006 Oct 15; 13(23):913-9.
Gene Ontology annotation status of the fission yeast genome: preliminary coverage approaches 100%.

Aslett M ,Wood V ,

Wellcome Trust Sanger Institute, Cambridge CB10 1HH, UK.

In this review, we present an overview of the Gene Ontology (GO) structure and describe how the GO is implemented for Sz. pombe and made available via Sz. pombe GeneDB (http://www.genedb.org/genedb/pombe/). We give a detailed progress report of Sz. pombe GO annotation, providing the current status of both manual and automatic annotations. Fission yeast has at least one GO annotation for 98.3% of its genes (excluding annotations to 'unknown' terms), greater than the current percentage coverage for any other organism. Approximately 65% (3225 gene products) have at least one annotation to each of the three ontologies (biological process, cellular component and molecular function). Approximately 30% (1443 gene products) have GO terms derived directly from small-scale experiments in fission yeast, supporting the validity of fission yeast as a model eukaryote and a reference organism.

Publication Type: Review;
2.  Nat Biotechnol 2006 Jul ; 7(24):841-7.
ORFeome cloning and global analysis of protein localization in the fission yeast Schizosaccharomyces pombe.

Matsuyama A ,Arai R ,Yashiroda Y ,Shirai A ,Kamata A ,Sekido S ,Kobayashi Y ,Hashimoto A ,Hamamoto M ,Hiraoka Y ,Horinouchi S ,Yoshida M ,

Chemical Genetics Laboratory, RIKEN, Wako, Saitama 351-0198, Japan.

Cloning of the entire set of an organism's protein-coding open reading frames (ORFs), or 'ORFeome', is a means of connecting the genome to downstream 'omics' applications. Here we report a proteome-scale study of the fission yeast Schizosaccharomyces pombe based on cloning of the ORFeome. Taking advantage of a recombination-based cloning system, we obtained 4,910 ORFs in a form that is readily usable in various analyses. First, we evaluated ORF prediction in the fission yeast genome project by expressing each ORF tagged at the 3' terminus. Next, we determined the localization of 4,431 proteins, corresponding to approximately 90% of the fission yeast proteome, by tagging each ORF with the yellow fluorescent protein. Furthermore, using leptomycin B, an inhibitor of the nuclear export protein Crm1, we identified 285 proteins whose localization is regulated by Crm1.

Publication Type: Research Support, Non-U.S. Gov't;
Comment In: Nat Biotechnol. 2006 Jul;24(7):789-90
^ Return to the top ^

    External Links

THE SEEDThe SEED  
^ Return to the top ^

    NBCI Gene Page
^ Return to the top ^