Information report for AT3G17850
Gene Details
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Functional Descriptions
- GO:0004674 — enables — protein serine/threonine kinase activity
- GO:0018105 — involved in — peptidyl-serine phosphorylation
- GO:0006468 — has protein modification of type — protein phosphorylation
- GO:0046777 — acts upstream of or within — protein autophosphorylation
- GO:0005515 — enables — protein binding
- GO:0016301 — enables — kinase activity
- GO:0035618 — located in — root hair
- GO:0005634 — located in — nucleus
- GO:0035556 — involved in — intracellular signal transduction
- SALK_017861 — Over 30% of the microtubule arrays arranged in different directions; fluorescence intensities of microtubule network in meristem, elongation and maturation zones sign decreased.
- SALK_017861 — Roots skew to the left of the gravity; epidermal cell files rotate to the right.
- SALK_069962C — Roots skew to the left of the gravity; epidermal cell files rotate to the right.
- ire3-1 ireh1-1 — Over 30% of the microtubule arrays arranged in different directions; fluorescence intensities of microtubule network in meristem, elongation and maturation zones sign decreased.
- ire3-1 ireh1-1 — Roots skew to the left of the gravity; epidermal cell files rotate to the right.
- ire3-1 ireh1-2 — Roots skew to the left of the gravity; epidermal cell files rotate to the right.
- ire3-2 ireh1-1 — Roots skew to the left of the gravity; epidermal cell files rotate to the right.
- ire3-2 ireh1-2 — Roots skew to the left of the gravity; epidermal cell files rotate to the right.
Functional Keywords
Literature and News
- Growth signalling pathways in Arabidopsis and the AGC protein kinases. DOI: 10.1016/S1360-1385(03)00188-2 ; PMID: 13678909
- Inactivation of the chloroplast ATP synthase gamma subunit results in high non-photochemical fluorescence quenching and altered nuclear gene expression in Arabidopsis thaliana. DOI: 10.1074/jbc.M308435200 ; PMID: 14576160
- Resources for targeted insertional and deletional mutagenesis in Arabidopsis. DOI: 10.1023/B:PLAN.0000009271.08420.d9 ; PMID: 14756312
- Site-specific phosphorylation profiling of Arabidopsis proteins by mass spectrometry and peptide chip analysis. DOI: 10.1021/pr8000173 ; PMID: 18433157
- Global analysis of Arabidopsis gene expression uncovers a complex array of changes impacting pathogen response and cell cycle during geminivirus infection. DOI: 10.1104/pp.108.121038 ; PMID: 18650403
- Autophosphorylation profiling of Arabidopsis protein kinases using the cell-free system. DOI: 10.1016/j.phytochem.2011.02.029 ; PMID: 21477822
- Arabidopsis AGC protein kinases IREH1 and IRE3 control root skewing. DOI: 10.1016/j.jgg.2019.02.007 ; PMID: 30979587
- Growth signalling pathways in Arabidopsis and the AGC protein kinases. DOI: 10.1016/S1360-1385(03)00188-2 ; PMID: 13678909
- Quantitative phosphoproteomics of early elicitor signaling in Arabidopsis. DOI: 10.1074/mcp.M600429-MCP200 ; PMID: 17317660
- Site-specific phosphorylation profiling of Arabidopsis proteins by mass spectrometry and peptide chip analysis. DOI: 10.1021/pr8000173 ; PMID: 18433157
- MASCP Gator: an aggregation portal for the visualization of Arabidopsis proteomics data. DOI: 10.1104/pp.110.168195 ; PMID: 21075962
Gene Resources
Sequences
cDNA Sequence
- >AT3G17850.1
CTTAACAAAGAATTGACTGTTTTCCATTTCAAGTAAATTAAATGACAAAGGCACTGAATCTAGGCTTTCCCACTAACAGTTACGCTTTCGTCTTCCTCGTCGCTTCCTCAAAATCCTTAACCTCGAAAACTCTGAAGATCTTCCAGAGAGTCTCAGCGAGTGAGAGAGAAAGCTATTTGTTCTCTCGTGAAGTCCGAGTGTTGGAAATTGACAACTGGATTTATGGTTGGATTTGGTGTGTAAGTGTGTAAGCGATTAGGTTTTGAATCAGCGGAATCGAAAAAATGGTATTCAAGAACAAACTCTTCTTCTCTTCGAAGAAATCTGGATCTTCTAGTCCCGATAGCTCTAATAGTCCCAGATCTGTTGGCTCCAACTCTCCGATACGATCAGATAAGAAGAAGTCTAAATCCGCTTCCAAGGATGAACCTCCGATCCCTATTCCTGGATTTGTTGGAGTTGGTTGCAAGCAGACGCAGATTAAAGATGGTTTGAAGAAGAAGGATGGTTCATCTAAGGGTAAACAACTTTCATCTGAAGTTCAAGCTCACTCTATTGGAAAATCGAACTTGTCTCCTAGTTCCGAGGTGAAGAAACCACCTCCGCCGGAAGTGAAGGAAGGACCTGCTTTTGTTTCTCCAATCATGGCTTCGTCTCTTGGGTTGAACCGGATTAAGACGAGATCCGGACCTTTGCCACAGGAAAGGGTTTTCAATTATAGGAATGATCCGGCTACGAGCAATTTGTCGAAGATGGGTGCTGATGGTGGTGACTTGGGCTCGGGTTCAGCTACTTCTGGCTCTGGTAGTGGCAATAGAAAGAAAGAAGCTGGGAGTAGCAAGCTAGGGTTAGAAGAGAACATGGATCGCACTCGACCAAGTGACAATAAGAGTGATCGTGATAGTTTGTCTCCTGATACAGGACCACCGAGGAGCCTCAGCCCTACTTTGCCGCCATCAGGATCTCGATTGCAGAATGTAGCATCCTCATCGGGAACTGGTCGCTCTGAGATGTCATCCGGTCGTTCTGGCCCTCTAAGAAATTCAGACTTTTGCACCCCAGAGAATTCATATGAATGGGAAAATCCCAAAGAGTCAGAATCGCCTCGTTATCAAGCCTTACTTCGTATGACCAGTGCTCCACGAAAGAGGTTTCCTGGTGACATCAAAAGCTTTTCTCATGAGTTGAACTCAAAAGGTGTACGTCCCTTTCCATTATGGAAGCCTCGTAGGTCGAACAATGTGGAGGAAGTATTGAATCTGATTCGGGCAAAATTTGAGAAAGCAAAGGAAGAAGTAAACTCTGACCTTGCAGTATTTGCAGCGGACCTGGTGGGAGTTCTTGAGAAAAATGCAGAAAGCCATCCTGAGTGGGAGGAAACATTTGAAGACTTGCTAATTTTGGCTCGAAGTTGTGCTATGACTACTCCTGGAGATTTCTGGCTTCAGTGTGAAGGCATTGTTCAGGACTTAGATGATAGACGTCAAGAGCTTCCCCCGGGCGTCCTCAAGCAGCTTCATACTCGGATGCTTTTTATCCTTACCAGATGTACTAGATTACTTCAGTTTCATAAGGAAAGCTGGGGGGAGGAGGAACAAGTTGTACAACTACGTCAGTCAAGAGTCTTGCATTCTATAGAGAAAATACCGCCGAGTGGAGCGGGAAGGAGTTACAGTGCTGCAAAGGTACCATCTACCAAGAAAGCTTATAGTCAGGAGCAGCATGGTTTGGACTGGAAGGAAGACGCTGTTGTACGCTCAGTTCCCCCTCTTGCTCCTCCTGAAAATTATGCTATAAAGGAATCTGAATCTCCTGCAAACATTGATAGAATGTCTTCCTGGAAAAAACTTCCATCTCCAGCACTGAAAACTGTGAAAGAAGCGCCAGCGTCAGAAGAGCAGAATGATAGCAAAGTTGAACCTCCAAATATAGTTGGGAGTCGACAAGGTAGGGATGATGCCGCTGTTGCTATTCTCAACTTTCCTCCAGCAAAAGATTCTCATGAACACTCCTCCAAGCATCGGCACAATATTTCTTGGGGTTACTGGGGGGAACAACCCCTTATTTCGGAGGAAAGTTCAATAATGTGCCGTATCTGTGAGGAGGAAGTTCCGACAACTCATGTGGAAGATCACTCTAGGGTTTGTACATTGGCTGATAAATATGACCAGAAAGGACTGAGTGTTGATGAGCGACTGATGGCAGTTGCTGGTACACTTGACAAGATAGCAGAGACCTTCAGGCATAAGGATAGCCTAGCAGCCGCAGAGAGCCCAGATGGTATGAAAGTATCCAATTCACATCTGACTGAAGAATCTGATGTTCTCTCTCCAAGGTTGAGTGATTGGTCGCGAAAAGGATCAGAAGACATGCTTGACTGTTTTCCGGAGGCTGATAATTCAATTTTTATGGATGATCTGAGAGGTTTACCGCTAATGTCATGTAGAACCCGTTTTGGTCCCAAGTCTGATCAAGGTATGACAACTTCATCTGCCAGTAGCATGACTCCTAGATCCCCGATTCCGACCCCTAGGCCTGATCCAATTGAACAGATATTAGGAGGCAAGGGTACATTCCACGATCAAGATGATATTCCACAGATGAGTGAACTTGCTGACATTGCAAAATGTGCAGCAGATGCCATTCCGGGTGATGATCAATCCATTCCATTCCTACTGTCTTGTCTTGAAGATCTAAGGGTTGTCATAGACCGCAGAAAGTTTGATGCACTTACAGTAGAAACATTTGGGACTCGCATAGAAAAGTTGATCCGTGAGAAATATGTGCATATGTGTGAGCTTATGGATGATGAAAAAGTTGATCTACTAAGCACTGTAATTGATGAAGATGCTCCCTTAGAAGATGATGTTGTTCGGAGCTTGAGGACCAGCCCAGTACATCCGCGAGATCGCACATCCATTGATGATTTTGAGATCATAAAACCAATAAGTCGGGGAGCTTTTGGGCGAGTTTTTTTAGCGAAAAAGAGGACAACAGGAGATCTATTCGCAATCAAGGTTCTGAAAAAGGCAGATATGATTCGTAAGAATGCTGTTGAAAGTATACTTGCTGAACGTGATATATTGATCAACGTTCGCAATCCTTTTGTGGTTCGTTTCTTCTATTCTTTCACGTGTCGTGACAACCTGTATTTGGTGATGGAGTATCTGAATGGAGGGGATCTGTATTCGTTGTTGAGAAATTTAGGTTGCTTAGAAGAAGATATTGTCCGTGTATATATTGCTGAAGTTGTCCTTGCTTTGGAATATTTGCATTCTGAGGGTGTTGTTCACCGTGATTTGAAGCCGGATAATTTGTTGATTGCGCATGATGGTCATATAAAGTTAACAGATTTCGGGCTCTCTAAAGTTGGTCTCATCAACAGCACAGATGATCTGGCTGGTCCTGCTGTAAGTGGGACGTCTCTGCTTGATGAGGAGGAATCACGATTAGCGGCATCTGAGGAACAACTTGAAAGGCGCAAGAAACGGTCTGCTGTGGGTACTCCTGACTACTTAGCGCCAGAAATTCTTTTAGGGACAGGACATGGTGCAACTGCGGATTGGTGGTCTGTTGGCATCATTCTGTTTGAACTCATTGTGGGAATTCCACCCTTCAATGCGGAACATCCTCAGCAAATATTTGATAATATTCTCAACCGTAAGATACCATGGCCTCATGTTCCAGAAGAAATGAGTGCTGAAGCCCATGATATAATAGACCGATTTTTAACAGAAGATCCACATCAGAGACTTGGAGCTAGAGGGGCAGCTGAGGTCAAGCAGCACATCTTCTTTAAAGACATCAACTGGGACACACTAGCAAGGCAAAAGGCTGCATTTGTTCCGGCTTCAGAGAGTGCAATTGACACAAGTTACTTCAGAAGTCGCTACTCGTGGAACACATCAGATGAGCAATTTTTCCCAAGCGGTGAGGTTCCAGATTATAGTGATGCTGATAGCATGACTAACAGCAGTGGTTGCTCGAGCAATCATCATGAAGAAGGGGAGGCTGAAGAATGCGAAGGTCATGCAGAGTTTGAGTCTGGCATACCTGTAGATTACTCTTTCAGTAATTTCTCGTTTAAGAACCTCTCTCAGTTGGCGTCTATCAACTATGATCTTTTATCCAAAGGCTGGAAAGATGAGCCACAACAAATTCCGCATCACAAGTAACATCCATTTCCTGGATGTTTTTTCTCGATTCTTTTGGTGTTCAGTCAGTGTAATGAGTACTCTGCCATTACCGGCGTTTGTTTGTATACTCTGTAAATGTAAGTCGTTCGTTTCTGTTAATCACAAAATCAATTTAGTAAGCTCCATCTACAGTGACAACCTGTGTTTTAAAAGGCGAAAGGCGACCCTAGGCACAAAGAGTGCCTGATCTCGCCTTGTGCCTAAGGCGCACGCCTCGGTCGCCTTTCGGATGCAAGGCAACACTAACTTAGAAGACTTAAAATAGGTTTTGTTGTGAGGATCCAGTGTAGAACATTTCTAAAAGACTTAAAATTGGTTTTGTTGTTTCACTGTGGATCTATCTCCTTGGTAGTTTCATACATGATGACGAAAGAGTAGGCACTAAGAGCGTATAATTAAGTCTAGACGGCACAGATGACTAGGT
CDS Sequence
- >AT3G17850.1
ATGGTATTCAAGAACAAACTCTTCTTCTCTTCGAAGAAATCTGGATCTTCTAGTCCCGATAGCTCTAATAGTCCCAGATCTGTTGGCTCCAACTCTCCGATACGATCAGATAAGAAGAAGTCTAAATCCGCTTCCAAGGATGAACCTCCGATCCCTATTCCTGGATTTGTTGGAGTTGGTTGCAAGCAGACGCAGATTAAAGATGGTTTGAAGAAGAAGGATGGTTCATCTAAGGGTAAACAACTTTCATCTGAAGTTCAAGCTCACTCTATTGGAAAATCGAACTTGTCTCCTAGTTCCGAGGTGAAGAAACCACCTCCGCCGGAAGTGAAGGAAGGACCTGCTTTTGTTTCTCCAATCATGGCTTCGTCTCTTGGGTTGAACCGGATTAAGACGAGATCCGGACCTTTGCCACAGGAAAGGGTTTTCAATTATAGGAATGATCCGGCTACGAGCAATTTGTCGAAGATGGGTGCTGATGGTGGTGACTTGGGCTCGGGTTCAGCTACTTCTGGCTCTGGTAGTGGCAATAGAAAGAAAGAAGCTGGGAGTAGCAAGCTAGGGTTAGAAGAGAACATGGATCGCACTCGACCAAGTGACAATAAGAGTGATCGTGATAGTTTGTCTCCTGATACAGGACCACCGAGGAGCCTCAGCCCTACTTTGCCGCCATCAGGATCTCGATTGCAGAATGTAGCATCCTCATCGGGAACTGGTCGCTCTGAGATGTCATCCGGTCGTTCTGGCCCTCTAAGAAATTCAGACTTTTGCACCCCAGAGAATTCATATGAATGGGAAAATCCCAAAGAGTCAGAATCGCCTCGTTATCAAGCCTTACTTCGTATGACCAGTGCTCCACGAAAGAGGTTTCCTGGTGACATCAAAAGCTTTTCTCATGAGTTGAACTCAAAAGGTGTACGTCCCTTTCCATTATGGAAGCCTCGTAGGTCGAACAATGTGGAGGAAGTATTGAATCTGATTCGGGCAAAATTTGAGAAAGCAAAGGAAGAAGTAAACTCTGACCTTGCAGTATTTGCAGCGGACCTGGTGGGAGTTCTTGAGAAAAATGCAGAAAGCCATCCTGAGTGGGAGGAAACATTTGAAGACTTGCTAATTTTGGCTCGAAGTTGTGCTATGACTACTCCTGGAGATTTCTGGCTTCAGTGTGAAGGCATTGTTCAGGACTTAGATGATAGACGTCAAGAGCTTCCCCCGGGCGTCCTCAAGCAGCTTCATACTCGGATGCTTTTTATCCTTACCAGATGTACTAGATTACTTCAGTTTCATAAGGAAAGCTGGGGGGAGGAGGAACAAGTTGTACAACTACGTCAGTCAAGAGTCTTGCATTCTATAGAGAAAATACCGCCGAGTGGAGCGGGAAGGAGTTACAGTGCTGCAAAGGTACCATCTACCAAGAAAGCTTATAGTCAGGAGCAGCATGGTTTGGACTGGAAGGAAGACGCTGTTGTACGCTCAGTTCCCCCTCTTGCTCCTCCTGAAAATTATGCTATAAAGGAATCTGAATCTCCTGCAAACATTGATAGAATGTCTTCCTGGAAAAAACTTCCATCTCCAGCACTGAAAACTGTGAAAGAAGCGCCAGCGTCAGAAGAGCAGAATGATAGCAAAGTTGAACCTCCAAATATAGTTGGGAGTCGACAAGGTAGGGATGATGCCGCTGTTGCTATTCTCAACTTTCCTCCAGCAAAAGATTCTCATGAACACTCCTCCAAGCATCGGCACAATATTTCTTGGGGTTACTGGGGGGAACAACCCCTTATTTCGGAGGAAAGTTCAATAATGTGCCGTATCTGTGAGGAGGAAGTTCCGACAACTCATGTGGAAGATCACTCTAGGGTTTGTACATTGGCTGATAAATATGACCAGAAAGGACTGAGTGTTGATGAGCGACTGATGGCAGTTGCTGGTACACTTGACAAGATAGCAGAGACCTTCAGGCATAAGGATAGCCTAGCAGCCGCAGAGAGCCCAGATGGTATGAAAGTATCCAATTCACATCTGACTGAAGAATCTGATGTTCTCTCTCCAAGGTTGAGTGATTGGTCGCGAAAAGGATCAGAAGACATGCTTGACTGTTTTCCGGAGGCTGATAATTCAATTTTTATGGATGATCTGAGAGGTTTACCGCTAATGTCATGTAGAACCCGTTTTGGTCCCAAGTCTGATCAAGGTATGACAACTTCATCTGCCAGTAGCATGACTCCTAGATCCCCGATTCCGACCCCTAGGCCTGATCCAATTGAACAGATATTAGGAGGCAAGGGTACATTCCACGATCAAGATGATATTCCACAGATGAGTGAACTTGCTGACATTGCAAAATGTGCAGCAGATGCCATTCCGGGTGATGATCAATCCATTCCATTCCTACTGTCTTGTCTTGAAGATCTAAGGGTTGTCATAGACCGCAGAAAGTTTGATGCACTTACAGTAGAAACATTTGGGACTCGCATAGAAAAGTTGATCCGTGAGAAATATGTGCATATGTGTGAGCTTATGGATGATGAAAAAGTTGATCTACTAAGCACTGTAATTGATGAAGATGCTCCCTTAGAAGATGATGTTGTTCGGAGCTTGAGGACCAGCCCAGTACATCCGCGAGATCGCACATCCATTGATGATTTTGAGATCATAAAACCAATAAGTCGGGGAGCTTTTGGGCGAGTTTTTTTAGCGAAAAAGAGGACAACAGGAGATCTATTCGCAATCAAGGTTCTGAAAAAGGCAGATATGATTCGTAAGAATGCTGTTGAAAGTATACTTGCTGAACGTGATATATTGATCAACGTTCGCAATCCTTTTGTGGTTCGTTTCTTCTATTCTTTCACGTGTCGTGACAACCTGTATTTGGTGATGGAGTATCTGAATGGAGGGGATCTGTATTCGTTGTTGAGAAATTTAGGTTGCTTAGAAGAAGATATTGTCCGTGTATATATTGCTGAAGTTGTCCTTGCTTTGGAATATTTGCATTCTGAGGGTGTTGTTCACCGTGATTTGAAGCCGGATAATTTGTTGATTGCGCATGATGGTCATATAAAGTTAACAGATTTCGGGCTCTCTAAAGTTGGTCTCATCAACAGCACAGATGATCTGGCTGGTCCTGCTGTAAGTGGGACGTCTCTGCTTGATGAGGAGGAATCACGATTAGCGGCATCTGAGGAACAACTTGAAAGGCGCAAGAAACGGTCTGCTGTGGGTACTCCTGACTACTTAGCGCCAGAAATTCTTTTAGGGACAGGACATGGTGCAACTGCGGATTGGTGGTCTGTTGGCATCATTCTGTTTGAACTCATTGTGGGAATTCCACCCTTCAATGCGGAACATCCTCAGCAAATATTTGATAATATTCTCAACCGTAAGATACCATGGCCTCATGTTCCAGAAGAAATGAGTGCTGAAGCCCATGATATAATAGACCGATTTTTAACAGAAGATCCACATCAGAGACTTGGAGCTAGAGGGGCAGCTGAGGTCAAGCAGCACATCTTCTTTAAAGACATCAACTGGGACACACTAGCAAGGCAAAAGGCTGCATTTGTTCCGGCTTCAGAGAGTGCAATTGACACAAGTTACTTCAGAAGTCGCTACTCGTGGAACACATCAGATGAGCAATTTTTCCCAAGCGGTGAGGTTCCAGATTATAGTGATGCTGATAGCATGACTAACAGCAGTGGTTGCTCGAGCAATCATCATGAAGAAGGGGAGGCTGAAGAATGCGAAGGTCATGCAGAGTTTGAGTCTGGCATACCTGTAGATTACTCTTTCAGTAATTTCTCGTTTAAGAACCTCTCTCAGTTGGCGTCTATCAACTATGATCTTTTATCCAAAGGCTGGAAAGATGAGCCACAACAAATTCCGCATCACAAGTAA
Protein Sequence
- >AT3G17850.1
MVFKNKLFFSSKKSGSSSPDSSNSPRSVGSNSPIRSDKKKSKSASKDEPPIPIPGFVGVGCKQTQIKDGLKKKDGSSKGKQLSSEVQAHSIGKSNLSPSSEVKKPPPPEVKEGPAFVSPIMASSLGLNRIKTRSGPLPQERVFNYRNDPATSNLSKMGADGGDLGSGSATSGSGSGNRKKEAGSSKLGLEENMDRTRPSDNKSDRDSLSPDTGPPRSLSPTLPPSGSRLQNVASSSGTGRSEMSSGRSGPLRNSDFCTPENSYEWENPKESESPRYQALLRMTSAPRKRFPGDIKSFSHELNSKGVRPFPLWKPRRSNNVEEVLNLIRAKFEKAKEEVNSDLAVFAADLVGVLEKNAESHPEWEETFEDLLILARSCAMTTPGDFWLQCEGIVQDLDDRRQELPPGVLKQLHTRMLFILTRCTRLLQFHKESWGEEEQVVQLRQSRVLHSIEKIPPSGAGRSYSAAKVPSTKKAYSQEQHGLDWKEDAVVRSVPPLAPPENYAIKESESPANIDRMSSWKKLPSPALKTVKEAPASEEQNDSKVEPPNIVGSRQGRDDAAVAILNFPPAKDSHEHSSKHRHNISWGYWGEQPLISEESSIMCRICEEEVPTTHVEDHSRVCTLADKYDQKGLSVDERLMAVAGTLDKIAETFRHKDSLAAAESPDGMKVSNSHLTEESDVLSPRLSDWSRKGSEDMLDCFPEADNSIFMDDLRGLPLMSCRTRFGPKSDQGMTTSSASSMTPRSPIPTPRPDPIEQILGGKGTFHDQDDIPQMSELADIAKCAADAIPGDDQSIPFLLSCLEDLRVVIDRRKFDALTVETFGTRIEKLIREKYVHMCELMDDEKVDLLSTVIDEDAPLEDDVVRSLRTSPVHPRDRTSIDDFEIIKPISRGAFGRVFLAKKRTTGDLFAIKVLKKADMIRKNAVESILAERDILINVRNPFVVRFFYSFTCRDNLYLVMEYLNGGDLYSLLRNLGCLEEDIVRVYIAEVVLALEYLHSEGVVHRDLKPDNLLIAHDGHIKLTDFGLSKVGLINSTDDLAGPAVSGTSLLDEEESRLAASEEQLERRKKRSAVGTPDYLAPEILLGTGHGATADWWSVGIILFELIVGIPPFNAEHPQQIFDNILNRKIPWPHVPEEMSAEAHDIIDRFLTEDPHQRLGARGAAEVKQHIFFKDINWDTLARQKAAFVPASESAIDTSYFRSRYSWNTSDEQFFPSGEVPDYSDADSMTNSSGCSSNHHEEGEAEECEGHAEFESGIPVDYSFSNFSFKNLSQLASINYDLLSKGWKDEPQQIPHHK