Gene Details:
- Gene ID: AT1G02730
- Gene Symbol: ATCSLD5, CSLD5, CSLD5, SOS6
- Gene Name: cellulose synthase-like D5, CELLULOSE SYNTHASE LIKE D5, cellulose synthase-like D5, SALT OVERLY SENSITIVE 6
- Description: cellulose synthase-like D5;(source:Araport11)
- TAIR Accession: locus:2024745
- Genome: Araport11_genome_release
- Species: Arabidopsis thaliana
Transcripts:
Plant Ontology Annotations:
- PO:0000013 — cauline leaf — hoja caulinar (Spanish, exact), 茎生葉、茎葉 (Japanese, exact)
- PO:0000230 — inflorescence meristem — meristema de la inflorescencia (Spanish, exact), 花序分裂組織 (Japanese, exact)
- PO:0009010 — seed — semilla (Spanish, exact), 種子 (Japanese, exact), pyrene (narrow), diaspore (broad)
- PO:0009030 — carpel — carpelo (Spanish, exact), 心皮 (Japanese, exact), Poaceae carpel (narrow), Zea carpel (narrow), pistil (broad)
- PO:0009032 — petal — pétalo (Spanish, exact), 花弁 (Japanese, exact)
- PO:0000293 — guard cell — célula guardiana (Spanish, exact), occlusive cell (exact), 孔辺細胞 (Japanese, exact)
Gene Ontology:
- GO:0030244 — involved in — cellulose biosynthetic process
- GO:0042546 — acts upstream of or within — cell wall biogenesis
- GO:0009414 — acts upstream of or within — response to water deprivation
- GO:0005794 — located in — Golgi apparatus
- GO:0005886 — is active in — plasma membrane
- GO:0048367 — acts upstream of or within — shoot system development
- GO:0051753 — enables — mannan synthase activity
- GO:0000919 — acts upstream of or within — cell plate assembly
- GO:0006970 — acts upstream of or within — response to osmotic stress
- GO:0016760 — enables — cellulose synthase (UDP-forming) activity
- GO:0009833 — involved in — plant-type primary cell wall biogenesis
- GO:0009651 — acts upstream of or within — response to salt stress
- GO:0046527 — enables — glucosyltransferase activity
Function-related keywords:
- cauline leaf , inflorescence meristem , seed , carpel , petal , guard cell
Literature:
- Different plant hormones regulate similar processes through largely nonoverlapping transcriptional responses. DOI: 10.1016/j.cell.2006.05.050 ; PMID: 16901781
- Global transcript levels respond to small changes of the carbon status during progressive exhaustion of carbohydrates in Arabidopsis rosettes. DOI: 10.1104/pp.107.115592 ; PMID: 18305208
- Arabidopsis chloroplastic glutaredoxin C5 as a model to explore molecular determinants for iron-sulfur cluster binding into glutaredoxins. DOI: 10.1074/jbc.M111.228726 ; PMID: 21632542
- The glutaredoxin ATGRXS13 is required to facilitate Botrytis cinerea infection of Arabidopsis thaliana plants. DOI: 10.1111/j.1365-313X.2011.04706.x ; PMID: 21756272
- Glutaredoxin GRXS13 plays a key role in protection against photooxidative stress in Arabidopsis. DOI: 10.1093/jxb/err301 ; PMID: 21963612
- MED18 interaction with distinct transcription factors regulates multiple plant functions. DOI: 10.1038/ncomms4064 ; PMID: 24451981
- SENESCENCE-SUPPRESSED PROTEIN PHOSPHATASE Directly Interacts with the Cytoplasmic Domain of SENESCENCE-ASSOCIATED RECEPTOR-LIKE KINASE and Negatively Regulates Leaf Senescence in Arabidopsis. DOI: 10.1104/pp.15.01112 ; PMID: 26304848
- Ectopically expressed glutaredoxin ROXY19 negatively regulates the detoxification pathway in Arabidopsis thaliana. DOI: 10.1186/s12870-016-0886-1 ; PMID: 27624344
- TGACG-BINDING FACTORs (TGAs) and TGA-interacting CC-type glutaredoxins modulate hyponastic growth in Arabidopsis thaliana. DOI: 10.1111/nph.15496 ; PMID: 30252136
- Analysis of the Arabidopsis mitochondrial proteome. DOI: 6919 ; PMID: 11743115
- Genomic and proteomic analysis of mitochondrial carrier proteins in Arabidopsis. DOI: 10.1104/pp.009985 ; PMID: 12586869
- Mitochondrial complex I from Arabidopsis and rice: orthologs of mammalian and fungal components coupled with plant-specific subunits. DOI: 10.1016/s0005-2728(03)00045-8 ; PMID: 12837548
- Resolving and identifying protein components of plant mitochondrial respiratory complexes using three dimensions of gel electrophoresis. DOI: 10.1021/pr700595p ; PMID: 18189341
- Internal architecture of mitochondrial complex I from Arabidopsis thaliana. DOI: 10.1105/tpc.109.073726 ; PMID: 20197505
- Co-immunoprecipitation-based identification of putative BAX INHIBITOR-1-interacting proteins involved in cell death regulation and plant-powdery mildew interactions. DOI: 10.1111/mpp.12050 ; PMID: 23782494
- Unraveling the functions of type II-prohibitins in Arabidopsis mitochondria. DOI: 10.1007/s11103-015-0320-3 ; PMID: 25896400
- The Arabidopsis PHB3 is a pleiotropic regulator for plant development. DOI: 10.1080/15592324.2019.1656036 ; PMID: 31429630
- The complex structures of arabinogalactan-proteins and the journey towards understanding function. DOI: NA ; PMID: 11554470
- The fasciclin-like arabinogalactan proteins of Arabidopsis. A multigene family of putative cell adhesion molecules. DOI: 10.1104/pp.103.031237 ; PMID: 14645732
- AtFLA11, a fasciclin-like arabinogalactan-protein, specifically localized in sclerenchyma cells. DOI: 10.1271/bbb.69.1963 ; PMID: 16244449
- A quantitative analysis of Arabidopsis plasma membrane using trypsin-catalyzed (18)O labeling. DOI: 10.1074/mcp.M500414-MCP200 ; PMID: 16635983
- Fasciclin-like arabinogalactan proteins: specialization for stem biomechanics and cell wall architecture in Arabidopsis and Eucalyptus. DOI: 10.1111/j.1365-313X.2010.04181.x ; PMID: 20202165
Sequences:
cDNA Sequence
- >AT1G02730.1
GAAAATTATAATGCTCTTCTGCTTCGTACTAGCTGCTTCAGCTTCTTCTTCTTCTTCCTTAGATTCAAAATCTCTCTTCTTCTGAGTTTCTGATTTTCAAGTTTGAGAACTACTCTTTTCCTTCTAAATCTTTGATTTTTTTCTCTCGTGATTTTTGTGGTTCACTGCTAATTGTGAACCAAAGATGGTGAAATCAGCAGCTTCTCAGTCACCATCTCCGGTGACTATAACGGTGACACCATGTAAAGGATCCGGCGACAGAAGCTTAGGATTGACGAGTCCTATCCCACGCGCCTCCGTCATCACCAACCAAAACTCTCCTCTAAGCTCAAGAGCCACGCGTCGCACTTCCATTAGCAGCGGGAATCGGAGATCTAACGGTGATGAAGGAAGATACTGTTCTATGTCTGTGGAAGATCTAACGGCGGAGACGACTAATTCAGAGTGCGTTCTGAGCTATACTGTTCATATCCCACCTACGCCGGATCATCAGACGGTGTTCGCTTCACAGGAGAGTGAAGAAGACGAGATGCTAAAAGGGAATTCGAATCAAAAAAGTTTCCTCTCTGGGACGATTTTCACCGGTGGGTTTAAATCGGTGACACGTGGTCATGTGATCGATTGTTCTATGGATAGAGCTGATCCGGAGAAGAAGTCAGGTCAGATCTGCTGGTTAAAAGGTTGTGATGAGAAAGTTGTTCACGGGAGATGTGAGTGTGGTTTCCGAATCTGTAGAGATTGTTACTTTGATTGTATCACAAGTGGTGGAGGCAATTGTCCTGGTTGCAAAGAGCCTTATAGGGATATCAACGATGATCCAGAGACTGAGGAAGAAGACGAAGAAGATGAGGCGAAACCACTTCCTCAGATGGGTGAATCAAAGCTTGACAAGAGGCTTTCGGTTGTGAAGTCGTTTAAAGCGCAGAATCAAGCTGGAGATTTTGATCATACTCGGTGGTTGTTTGAGACTAAAGGTACTTATGGGTATGGGAACGCTGTTTGGCCTAAAGATGGGTATGGAATCGGGTCGGGTGGTGGTGGAAACGGGTATGAAACGCCACCTGAGTTTGGGGAGAGAAGCAAGAGGCCTCTTACTAGGAAAGTCAGTGTCTCTGCTGCAATTATCAGTCCTTACAGATTACTCATTGCACTGCGTCTGGTGGCTCTTGGTTTGTTCCTGACATGGAGGGTTCGCCACCCAAACCGAGAAGCAATGTGGTTGTGGGGAATGTCAACGACCTGTGAGCTTTGGTTTGCCTTGTCTTGGCTTTTGGATCAGCTTCCAAAACTCTGTCCGGTTAACAGATTAACTGATTTAGGTGTTCTTAAAGAACGCTTTGAGTCTCCAAACCTCAGGAACCCCAAAGGAAGATCTGATCTTCCGGGTATCGATGTGTTTGTCTCAACTGCAGACCCTGAGAAAGAACCACCTCTGGTCACAGCCAACACCATTCTCTCGATCCTTGCTGTTGATTACCCTGTGGAGAAACTTGCTTGCTACTTGTCAGACGATGGAGGAGCTTTGCTAACATTTGAAGCCTTGGCTCAAACAGCTAGCTTTGCAAGTACATGGGTGCCATTTTGCAGGAAACACAATATAGAGCCAAGGAACCCTGAGGCCTACTTTGGACAGAAGCGTAACTTTCTCAAGAACAAAGTCAGGCTGGATTTTGTGAGGGAAAGGAGGAGAGTGAAGAGAGAATATGATGAGTTTAAGGTCAGAATCAACTCATTGCCTGAAGCGATAAGGAGAAGGTCTGATGCTTATAACGTGCACGAAGAGCTAAGGGCTAAGAAGAAACAGATGGAAATGATGATGGGAAACAATCCACAAGAAACTGTTATAGTTCCAAAGGCCACTTGGATGTCAGATGGTTCTCACTGGCCAGGGACTTGGTCCTCTGGAGAAACCGATAACTCTCGAGGAGATCATGCTGGAATCATTCAGGCAATGTTGGCTCCTCCAAATGCAGAACCAGTTTATGGAGCTGAAGCAGATGCTGAGAACTTAATTGATACAACAGACGTTGACATCAGGCTACCAATGCTGGTCTATGTGTCGAGAGAGAAGCGTCCGGGTTATGACCACAACAAGAAAGCAGGAGCCATGAATGCTTTGGTTAGAACCAGCGCAATTATGTCTAATGGCCCATTCATCCTCAATCTTGATTGTGACCACTACATCTACAACTCTATGGCTTTGAGAGAAGGAATGTGCTTCATGCTTGATCGTGGTGGCGATAGAATCTGCTATGTTCAGTTCCCTCAGAGGTTTGAAGGTATTGACCCAAATGATCGTTATGCAAACCACAACACTGTCTTCTTTGATGTTAGTATGAGAGCTTTGGATGGACTTCAAGGTCCAATGTATGTGGGAACTGGCTGCATCTTTCGGAGAACAGCTCTTTATGGATTTAGCCCGCCAAGAGCAACTGAACATCATGGCTGGCTTGGAAGAAGAAAAGTCAAGATATCGCTGAGGAGACCAAAAGCCATGATGAAGAAAGACGATGAAGTTTCTTTGCCTATAAATGGAGAATACAACGAAGAAGAGAATGATGATGGAGATATTGAATCTCTGCTTCTCCCAAAGAGATTTGGTAACTCAAACTCTTTCGTTGCTTCAATCCCAGTTGCTGAATACCAAGGGAGACTCATACAAGACTTGCAAGGCAAAGGCAAGAACAGTAGACCAGCTGGCTCACTTGCTGTCCCACGTGAACCACTTGATGCAGCCACTGTAGCTGAAGCAATCAGTGTGATATCTTGCTTCTATGAGGACAAAACTGAATGGGGTAAAAGAGTTGGATGGATCTATGGATCAGTGACTGAAGATGTAGTCACGGGATATCGAATGCACAACAGAGGATGGAGATCAATCTACTGCGTGACAAAAAGAGACGCTTTCCGTGGAACAGCTCCGATCAATCTAACGGATAGACTTCACCAGGTTCTGAGATGGGCAACAGGATCTGTTGAGATCTTCTTCTCAAGGAACAATGCAATTTTTGCAACCAGAAGGATGAAGTTTTTGCAGAGAGTGGCTTACTTCAACGTTGGAATGTATCCATTCACATCGCTATTCCTCATCGTCTACTGCATTCTCCCTGCGATTTCGCTCTTCTCGGGTCAATTCATAGTCCAATCACTCGACATAACGTTCTTGATCTATCTCCTCTCGATAACACTCACGCTCTGTATGCTATCACTCCTTGAGATCAAATGGTCAGGCATAACTCTCCATGAATGGTGGAGAAACGAGCAGTTCTGGGTCATAGGAGGTACAAGCGCACACCCTGCAGCTGTTCTTCAGGGTCTTCTTAAGGTAATTGCAGGAGTTGATATCTCATTTACCTTGACTTCCAAGTCATCTGCACCAGAAGATGGAGACGATGAGTTTGCGGATCTGTATGTTGTGAAATGGAGCTTTTTGATGGTTCCTCCATTAACTATCATGATGGTGAATATGATTGCAATTGCGGTGGGGCTAGCGAGGACTCTGTACAGTCCGTTTCCACAGTGGAGTAAGCTTGTTGGAGGAGTGTTCTTCAGCTTTTGGGTGCTTTGTCATCTGTATCCGTTTGCTAAAGGATTGATGGGAAGAAGAGGCAGAGTTCCGACCATAGTGTTTGTGTGGTCAGGTTTGTTGTCGATTATTGTGTCGTTGCTTTGGGTTTATATTAACCCTCCTTCAGGGAAACAGGACTATATGCAGTTTCAATTCCCTTGATTCTTAAGAGTTTTTTTTCTTTCGTGGTACAAGGCATGAAAGTTCTTCTTTCTAGGCTTCAGCCTTCATGTTTGTAATCAGATATTATAATTACGATTTTTCAAAGTAAAGTCTCAATTTCTTACTTTGTTGTTAATTAATGGTTCAAGTCTTGACGAGGATAGAATTATTTACACAGTCGGTATATCTTCGGTT
CDS Sequence
- >AT1G02730.1
ATGGTGAAATCAGCAGCTTCTCAGTCACCATCTCCGGTGACTATAACGGTGACACCATGTAAAGGATCCGGCGACAGAAGCTTAGGATTGACGAGTCCTATCCCACGCGCCTCCGTCATCACCAACCAAAACTCTCCTCTAAGCTCAAGAGCCACGCGTCGCACTTCCATTAGCAGCGGGAATCGGAGATCTAACGGTGATGAAGGAAGATACTGTTCTATGTCTGTGGAAGATCTAACGGCGGAGACGACTAATTCAGAGTGCGTTCTGAGCTATACTGTTCATATCCCACCTACGCCGGATCATCAGACGGTGTTCGCTTCACAGGAGAGTGAAGAAGACGAGATGCTAAAAGGGAATTCGAATCAAAAAAGTTTCCTCTCTGGGACGATTTTCACCGGTGGGTTTAAATCGGTGACACGTGGTCATGTGATCGATTGTTCTATGGATAGAGCTGATCCGGAGAAGAAGTCAGGTCAGATCTGCTGGTTAAAAGGTTGTGATGAGAAAGTTGTTCACGGGAGATGTGAGTGTGGTTTCCGAATCTGTAGAGATTGTTACTTTGATTGTATCACAAGTGGTGGAGGCAATTGTCCTGGTTGCAAAGAGCCTTATAGGGATATCAACGATGATCCAGAGACTGAGGAAGAAGACGAAGAAGATGAGGCGAAACCACTTCCTCAGATGGGTGAATCAAAGCTTGACAAGAGGCTTTCGGTTGTGAAGTCGTTTAAAGCGCAGAATCAAGCTGGAGATTTTGATCATACTCGGTGGTTGTTTGAGACTAAAGGTACTTATGGGTATGGGAACGCTGTTTGGCCTAAAGATGGGTATGGAATCGGGTCGGGTGGTGGTGGAAACGGGTATGAAACGCCACCTGAGTTTGGGGAGAGAAGCAAGAGGCCTCTTACTAGGAAAGTCAGTGTCTCTGCTGCAATTATCAGTCCTTACAGATTACTCATTGCACTGCGTCTGGTGGCTCTTGGTTTGTTCCTGACATGGAGGGTTCGCCACCCAAACCGAGAAGCAATGTGGTTGTGGGGAATGTCAACGACCTGTGAGCTTTGGTTTGCCTTGTCTTGGCTTTTGGATCAGCTTCCAAAACTCTGTCCGGTTAACAGATTAACTGATTTAGGTGTTCTTAAAGAACGCTTTGAGTCTCCAAACCTCAGGAACCCCAAAGGAAGATCTGATCTTCCGGGTATCGATGTGTTTGTCTCAACTGCAGACCCTGAGAAAGAACCACCTCTGGTCACAGCCAACACCATTCTCTCGATCCTTGCTGTTGATTACCCTGTGGAGAAACTTGCTTGCTACTTGTCAGACGATGGAGGAGCTTTGCTAACATTTGAAGCCTTGGCTCAAACAGCTAGCTTTGCAAGTACATGGGTGCCATTTTGCAGGAAACACAATATAGAGCCAAGGAACCCTGAGGCCTACTTTGGACAGAAGCGTAACTTTCTCAAGAACAAAGTCAGGCTGGATTTTGTGAGGGAAAGGAGGAGAGTGAAGAGAGAATATGATGAGTTTAAGGTCAGAATCAACTCATTGCCTGAAGCGATAAGGAGAAGGTCTGATGCTTATAACGTGCACGAAGAGCTAAGGGCTAAGAAGAAACAGATGGAAATGATGATGGGAAACAATCCACAAGAAACTGTTATAGTTCCAAAGGCCACTTGGATGTCAGATGGTTCTCACTGGCCAGGGACTTGGTCCTCTGGAGAAACCGATAACTCTCGAGGAGATCATGCTGGAATCATTCAGGCAATGTTGGCTCCTCCAAATGCAGAACCAGTTTATGGAGCTGAAGCAGATGCTGAGAACTTAATTGATACAACAGACGTTGACATCAGGCTACCAATGCTGGTCTATGTGTCGAGAGAGAAGCGTCCGGGTTATGACCACAACAAGAAAGCAGGAGCCATGAATGCTTTGGTTAGAACCAGCGCAATTATGTCTAATGGCCCATTCATCCTCAATCTTGATTGTGACCACTACATCTACAACTCTATGGCTTTGAGAGAAGGAATGTGCTTCATGCTTGATCGTGGTGGCGATAGAATCTGCTATGTTCAGTTCCCTCAGAGGTTTGAAGGTATTGACCCAAATGATCGTTATGCAAACCACAACACTGTCTTCTTTGATGTTAGTATGAGAGCTTTGGATGGACTTCAAGGTCCAATGTATGTGGGAACTGGCTGCATCTTTCGGAGAACAGCTCTTTATGGATTTAGCCCGCCAAGAGCAACTGAACATCATGGCTGGCTTGGAAGAAGAAAAGTCAAGATATCGCTGAGGAGACCAAAAGCCATGATGAAGAAAGACGATGAAGTTTCTTTGCCTATAAATGGAGAATACAACGAAGAAGAGAATGATGATGGAGATATTGAATCTCTGCTTCTCCCAAAGAGATTTGGTAACTCAAACTCTTTCGTTGCTTCAATCCCAGTTGCTGAATACCAAGGGAGACTCATACAAGACTTGCAAGGCAAAGGCAAGAACAGTAGACCAGCTGGCTCACTTGCTGTCCCACGTGAACCACTTGATGCAGCCACTGTAGCTGAAGCAATCAGTGTGATATCTTGCTTCTATGAGGACAAAACTGAATGGGGTAAAAGAGTTGGATGGATCTATGGATCAGTGACTGAAGATGTAGTCACGGGATATCGAATGCACAACAGAGGATGGAGATCAATCTACTGCGTGACAAAAAGAGACGCTTTCCGTGGAACAGCTCCGATCAATCTAACGGATAGACTTCACCAGGTTCTGAGATGGGCAACAGGATCTGTTGAGATCTTCTTCTCAAGGAACAATGCAATTTTTGCAACCAGAAGGATGAAGTTTTTGCAGAGAGTGGCTTACTTCAACGTTGGAATGTATCCATTCACATCGCTATTCCTCATCGTCTACTGCATTCTCCCTGCGATTTCGCTCTTCTCGGGTCAATTCATAGTCCAATCACTCGACATAACGTTCTTGATCTATCTCCTCTCGATAACACTCACGCTCTGTATGCTATCACTCCTTGAGATCAAATGGTCAGGCATAACTCTCCATGAATGGTGGAGAAACGAGCAGTTCTGGGTCATAGGAGGTACAAGCGCACACCCTGCAGCTGTTCTTCAGGGTCTTCTTAAGGTAATTGCAGGAGTTGATATCTCATTTACCTTGACTTCCAAGTCATCTGCACCAGAAGATGGAGACGATGAGTTTGCGGATCTGTATGTTGTGAAATGGAGCTTTTTGATGGTTCCTCCATTAACTATCATGATGGTGAATATGATTGCAATTGCGGTGGGGCTAGCGAGGACTCTGTACAGTCCGTTTCCACAGTGGAGTAAGCTTGTTGGAGGAGTGTTCTTCAGCTTTTGGGTGCTTTGTCATCTGTATCCGTTTGCTAAAGGATTGATGGGAAGAAGAGGCAGAGTTCCGACCATAGTGTTTGTGTGGTCAGGTTTGTTGTCGATTATTGTGTCGTTGCTTTGGGTTTATATTAACCCTCCTTCAGGGAAACAGGACTATATGCAGTTTCAATTCCCTTGA
Protein Sequence
- >AT1G02730.1
MVKSAASQSPSPVTITVTPCKGSGDRSLGLTSPIPRASVITNQNSPLSSRATRRTSISSGNRRSNGDEGRYCSMSVEDLTAETTNSECVLSYTVHIPPTPDHQTVFASQESEEDEMLKGNSNQKSFLSGTIFTGGFKSVTRGHVIDCSMDRADPEKKSGQICWLKGCDEKVVHGRCECGFRICRDCYFDCITSGGGNCPGCKEPYRDINDDPETEEEDEEDEAKPLPQMGESKLDKRLSVVKSFKAQNQAGDFDHTRWLFETKGTYGYGNAVWPKDGYGIGSGGGGNGYETPPEFGERSKRPLTRKVSVSAAIISPYRLLIALRLVALGLFLTWRVRHPNREAMWLWGMSTTCELWFALSWLLDQLPKLCPVNRLTDLGVLKERFESPNLRNPKGRSDLPGIDVFVSTADPEKEPPLVTANTILSILAVDYPVEKLACYLSDDGGALLTFEALAQTASFASTWVPFCRKHNIEPRNPEAYFGQKRNFLKNKVRLDFVRERRRVKREYDEFKVRINSLPEAIRRRSDAYNVHEELRAKKKQMEMMMGNNPQETVIVPKATWMSDGSHWPGTWSSGETDNSRGDHAGIIQAMLAPPNAEPVYGAEADAENLIDTTDVDIRLPMLVYVSREKRPGYDHNKKAGAMNALVRTSAIMSNGPFILNLDCDHYIYNSMALREGMCFMLDRGGDRICYVQFPQRFEGIDPNDRYANHNTVFFDVSMRALDGLQGPMYVGTGCIFRRTALYGFSPPRATEHHGWLGRRKVKISLRRPKAMMKKDDEVSLPINGEYNEEENDDGDIESLLLPKRFGNSNSFVASIPVAEYQGRLIQDLQGKGKNSRPAGSLAVPREPLDAATVAEAISVISCFYEDKTEWGKRVGWIYGSVTEDVVTGYRMHNRGWRSIYCVTKRDAFRGTAPINLTDRLHQVLRWATGSVEIFFSRNNAIFATRRMKFLQRVAYFNVGMYPFTSLFLIVYCILPAISLFSGQFIVQSLDITFLIYLLSITLTLCMLSLLEIKWSGITLHEWWRNEQFWVIGGTSAHPAAVLQGLLKVIAGVDISFTLTSKSSAPEDGDDEFADLYVVKWSFLMVPPLTIMMVNMIAIAVGLARTLYSPFPQWSKLVGGVFFSFWVLCHLYPFAKGLMGRRGRVPTIVFVWSGLLSIIVSLLWVYINPPSGKQDYMQFQFP