Information report for PEPR1
Gene Details
Domain Class Descriptions
- RLKs, or Receptor like Kinases, consist of an extracellullar leucine-rich repeat region (eLRR) that consist of 25-38aa conferring broad interaction surface that is well suited to interact with multiple ligands and an intracellular kinase domain. The eLRR domain plays the recognising role while the kinase triggers the downstream activation cascades. In Arabidopsis genome RLKs constitute a large gene family divided in 44 subclasses, 12 of them have the extracellular domain LRR while the other use different type of receptor like B-lactin and many others.
Domain Features
- Domain Class: RLK
- Domain types: TM Kinase LRR
Gene Resources
- UniProt: Q9SSL9
- RefSeq: NP_177451.1
- EMBL: AC008017 , AK117178 , AY139779 , CP002684 , FJ708680
- AlphaFoldDB: Q9SSL9
- KEGG: ath:AT1G73080
- OMA: DWSARYN
- InterPro: IPR000719 , IPR001611 , IPR003591 , IPR008271 , IPR011009 , IPR013210 , IPR017441 , IPR032675 , IPR051716
- PANTHER: PTHR48053 , PTHR48053:SF113
- SUPFAM: SSF52047 , SSF56112
- PROSITE: PS00107 , PS00108 , PS50011 , PS51450
- Gene3D: 1.10.510.10 , 3.30.200.20 , 3.80.10.10
- Pfam: PF00069 , PF00560 , PF08263 , PF13855
- SMR: Q9SSL9
- eggNOG: ENOG502QUAH
- STRING: 3702.Q9SSL9
- HOGENOM: CLU_000288_22_1_1
Sequences
DNA Sequence
- >PEPR1
ATGAAGAATCTTGGGGGGTTGTTCAAAATTCTTCTGCTTTTCTTCTGTCTCTTTCTATCGACCCACATAATTTCCGTTTCTTGTTTAAACTCAGATGGGCTAACTCTACTCTCTCTTCTGAAGCATTTGGATAGAGTACCACCACAAGTTACTTCGACATGGAAAATAAACGCATCTGAAGCAACTCCATGTAACTGGTTCGGTATCACTTGTGACGATTCTAAGAATGTTGCGTCTCTCAACTTCACTCGTTCTAGGGTTTCAGGTCAATTGGGTCCGGAAATTGGGGAGCTCAAAAGCTTGCAGATTTTGGATCTGAGTACTAACAATTTCTCCGGGACTATACCTTCCACTTTAGGAAACTGTACCAAACTCGCTACTCTAGATTTGTCTGAAAATGGATTCTCTGATAAGATCCCAGATACTCTCGATAGCTTGAAGAGGTTGGAGGTGCTTTATCTTTACATAAACTTCCTCACTGGTGAGTTACCTGAATCCTTGTTTCGAATTCCGAAGCTGCAGGTTTTATATCTTGACTATAACAATCTCACCGGTCCGATTCCTCAAAGTATTGGTGATGCTAAGGAGCTTGTGGAGCTGAGTATGTATGCGAATCAGTTCTCTGGTAACATCCCTGAGTCGATTGGGAATAGCAGTAGTCTGCAGATTCTTTATTTGCACAGGAACAAGTTAGTTGGTTCATTACCTGAAAGTCTCAATCTTTTGGGGAATCTCACTACTCTGTTTGTTGGTAACAACAGTCTACAAGGGCCGGTTCGTTTCGGATCACCTAATTGCAAGAATTTGTTGACTTTAGATTTGTCATACAATGAATTCGAAGGCGGTGTTCCACCTGCATTGGGAAATTGCAGTAGCCTTGACGCTTTAGTCATTGTGAGTGGTAACTTGTCAGGTACAATCCCTTCCTCATTGGGTATGTTGAAGAATCTCACAATTCTTAACCTTTCCGAGAATCGTCTCTCTGGGAGTATCCCCGCAGAGCTCGGGAACTGCAGTAGCTTGAACTTGTTGAAGCTGAACGATAACCAGCTTGTAGGCGGAATACCGAGTGCATTAGGTAAGCTGAGGAAGCTAGAAAGTCTGGAGCTTTTCGAAAACCGGTTTTCGGGTGAGATTCCTATTGAGATATGGAAGAGTCAGAGTCTTACGCAGTTGCTAGTTTATCAAAACAATCTCACTGGTGAACTACCTGTGGAAATGACTGAGATGAAGAAGCTAAAGATCGCTACGCTGTTCAACAACAGCTTTTATGGAGCGATACCACCGGGTTTAGGTGTGAACAGCAGCTTAGAAGAGGTTGACTTTATTGGTAACAAACTTACAGGAGAGATACCGCCAAATCTATGCCATGGAAGGAAGTTGAGAATACTCAACTTGGGTTCTAATCTGCTTCATGGTACAATACCAGCTTCTATTGGTCACTGTAAGACCATCAGGAGATTCATCCTTAGAGAAAATAACCTTTCAGGTCTTCTTCCTGAGTTTTCTCAGGATCATAGTCTTTCTTTTCTTGATTTCAATAGCAACAACTTCGAAGGACCAATCCCGGGCAGCCTCGGAAGCTGTAAGAATCTCTCGAGTATTAACCTATCTCGAAACAGATTCACGGGGCAGATACCTCCACAACTTGGGAATCTACAAAACCTTGGTTACATGAATCTTTCTCGTAATCTTCTTGAAGGGTCTCTACCAGCTCAGCTATCTAACTGTGTGAGTTTAGAGCGTTTTGATGTTGGCTTCAACTCATTAAACGGTTCAGTTCCTTCAAACTTTAGTAACTGGAAAGGCTTGACGACTTTAGTTCTCAGCGAGAACCGGTTTTCAGGAGGTATTCCACAGTTCTTGCCTGAGCTTAAGAAGCTGTCAACTCTGCAGATTGCTAGAAATGCTTTTGGTGGTGAGATTCCTTCGTCGATTGGGTTGATAGAGGATCTGATCTATGACTTGGACCTTAGTGGAAACGGATTGACAGGTGAAATTCCAGCCAAGTTGGGAGATCTCATCAAGTTAACAAGACTCAACATATCTAACAACAATTTGACAGGATCTTTATCGGTTCTCAAAGGTCTTACCTCATTGCTACATGTTGATGTCTCCAACAATCAGTTCACAGGTCCAATACCAGATAACTTGGAGGGTCAGTTGTTATCTGAGCCGTCGTCGTTTTCAGGAAATCCAAACCTCTGCATTCCACATTCCTTCTCTGCTAGCAACAATAGCCGCAGCGCGTTAAAGTACTGTAAAGATCAATCTAAAAGCAGGAAGAGTGGCCTTAGCACCTGGCAAATCGTGCTAATAGCGGTCTTATCGTCTTTATTAGTCTTGGTTGTGGTCCTTGCTCTTGTTTTCATTTGCCTACGTCGTCGCAAAGGAAGACCAGAGAAAGATGCTTATGTCTTCACTCAGGAGGAAGGCCCATCTTTGTTGTTGAACAAAGTTCTTGCAGCAACTGACAATCTAAATGAAAAGTACACCATTGGAAGAGGAGCTCATGGAATTGTGTACAGAGCTTCTTTAGGCTCCGGAAAGGTCTACGCTGTGAAGAGACTTGTATTCGCGTCTCACATCCGCGCTAACCAGAGTATGATGAGGGAGATTGATACAATCGGTAAAGTCAGGCACAGGAATCTGATTAAGTTAGAAGGGTTTTGGCTGAGGAAAGACGACGGTTTAATGCTGTATAGATACATGCCAAAAGGAAGTCTTTACGACGTTCTCCACGGTGTTAGCCCGAAAGAAAATGTGCTAGACTGGTCTGCACGGTACAATGTAGCACTTGGTGTCGCTCATGGACTAGCCTATCTACACTATGACTGCCATCCCCCGATTGTTCACCGTGACATCAAACCAGAGAACATACTCATGGACTCAGATTTGGAGCCTCACATTGGGGATTTCGGTTTGGCTCGCCTTCTTGATGACTCAACGGTTTCAACTGCAACTGTTACAGGCACCACCGGCTACATTGCACCAGAAAACGCTTTCAAAACCGTGAGGGGAAGAGAATCAGACGTTTACAGTTATGGAGTCGTGTTACTTGAGCTGGTTACGAGGAAGAGAGCGGTGGACAAATCTTTCCCGGAAAGTACAGATATAGTAAGCTGGGTGAGATCTGCCTTGAGCAGCAGCAACAACAATGTGGAGGATATGGTAACAACAATCGTCGATCCGATTCTCGTGGACGAGCTTCTGGATTCGAGTCTTAGGGAGCAGGTGATGCAAGTGACGGAACTGGCACTGAGTTGTACACAGCAAGATCCGGCAATGAGACCAACGATGAGAGATGCGGTGAAACTGTTGGAAGATGTGAAACATCTGGCAAGAAGCTGCTCCTCTGATTCAGTTCGGTAA
Protein Sequence
- >PEPR1
MKNLGGLFKILLLFFCLFLSTHIISVSCLNSDGLTLLSLLKHLDRVPPQVTSTWKINASEATPCNWFGITCDDSKNVASLNFTRSRVSGQLGPEIGELKSLQILDLSTNNFSGTIPSTLGNCTKLATLDLSENGFSDKIPDTLDSLKRLEVLYLYINFLTGELPESLFRIPKLQVLYLDYNNLTGPIPQSIGDAKELVELSMYANQFSGNIPESIGNSSSLQILYLHRNKLVGSLPESLNLLGNLTTLFVGNNSLQGPVRFGSPNCKNLLTLDLSYNEFEGGVPPALGNCSSLDALVIVSGNLSGTIPSSLGMLKNLTILNLSENRLSGSIPAELGNCSSLNLLKLNDNQLVGGIPSALGKLRKLESLELFENRFSGEIPIEIWKSQSLTQLLVYQNNLTGELPVEMTEMKKLKIATLFNNSFYGAIPPGLGVNSSLEEVDFIGNKLTGEIPPNLCHGRKLRILNLGSNLLHGTIPASIGHCKTIRRFILRENNLSGLLPEFSQDHSLSFLDFNSNNFEGPIPGSLGSCKNLSSINLSRNRFTGQIPPQLGNLQNLGYMNLSRNLLEGSLPAQLSNCVSLERFDVGFNSLNGSVPSNFSNWKGLTTLVLSENRFSGGIPQFLPELKKLSTLQIARNAFGGEIPSSIGLIEDLIYDLDLSGNGLTGEIPAKLGDLIKLTRLNISNNNLTGSLSVLKGLTSLLHVDVSNNQFTGPIPDNLEGQLLSEPSSFSGNPNLCIPHSFSASNNSRSALKYCKDQSKSRKSGLSTWQIVLIAVLSSLLVLVVVLALVFICLRRRKGRPEKDAYVFTQEEGPSLLLNKVLAATDNLNEKYTIGRGAHGIVYRASLGSGKVYAVKRLVFASHIRANQSMMREIDTIGKVRHRNLIKLEGFWLRKDDGLMLYRYMPKGSLYDVLHGVSPKENVLDWSARYNVALGVAHGLAYLHYDCHPPIVHRDIKPENILMDSDLEPHIGDFGLARLLDDSTVSTATVTGTTGYIAPENAFKTVRGRESDVYSYGVVLLELVTRKRAVDKSFPESTDIVSWVRSALSSSNNNVEDMVTTIVDPILVDELLDSSLREQVMQVTELALSCTQQDPAMRPTMRDAVKLLEDVKHLARSCSSDSVR