View Summary Pdf File Gene model: Kalax.0368s0016.1.p
IDENTIFICATION
- Species Name
- Kalanchoe laxiflora
- Locus:
- Kalax.0368s0016.1.p
- Gene Model:
- Kalax.0368s0016.1.p
- Description:
- KlEXPA-38
- Family:
- Alpha Expansin
- 3D Structure:
- 2HCZ
- Genome Databases:
- Tair
- External Resources
- Gene Structure:
-
- Domain Architecture:
-
- Peptide Sequences
-
>KlEXPA-38
MGKGQLHVRPVNGEFVFFVFHLRILSSFLIQLPPRGPHHLFEGDGMLQAVRVSDTEAAALARIVVDRVRRLAGLYNPVNGTGRANTSLAYLGYRLFALEESDAPYAVQVMPSRPSAAVISTGMTAHPKLDPDTDELFAVRYFRVDPISKKLPDDPVTSLDRLSLFHDFAITKRHRLGVSTIQRIKGGGLPIAADLSKVPRLGILPRYANDESQIVWLEAPGFNMLHAVNAWDDDDEDREGGITGVAKLDLDEENGVVSGIRMYGQGCYGGEPFFLARDPDNAEAEEDDGCLATYNQDETTGESRFLVMDAKSSDLDIVAAVKLPQRVPAPKMVATLHHSLSPPPRRRHHHLLVITLTTSFSLLAAHESFSTSSPSAPASASSDWRSARATYYAAADPNEAVGGACGYGDLSRAGYGLATAGLSQALFERGQICGACFQIKCVEDMRWCIPGTSIIVTATNFCAPNYGFTSEGGGHCNPPNSHFVLPIEAFEKIAIWKAGNMPVQYRRIKCRKEGGVRFSVDGFGVFISVLVTNVAGAGDITAMKIKGSRTGWLPMGRNWGQNWHINADLKSQPLSFELTSSDGHTLTSYNVASRSWNFGQTFEGKQFES*
- CDS (Coding Sequence):
-
>KlEXPA-38
ATGGGGAAGGGGCAGTTACATGTCAGACCCGTAAATGGCGAGTTTGTTTTCTTCGTCTTTCACCTGAGAATTCTGTCTTCTTTCCTCATCCAGCTCCCTCCCCGCGGACCTCATCACCTTTTCGAAGGCGATGGGATGCTTCAGGCAGTCCGCGTATCCGACACAGAAGCAGCGGCCCTTGCGCGCATTGTAGTAGACCGAGTCAGAAGATTAGCCGGCCTGTACAATCCTGTCAACGGCACAGGCCGCGCAAATACCAGCCTGGCTTACTTGGGCTACCGTCTGTTTGCTCTGGAAGAGTCCGATGCCCCGTACGCTGTTCAAGTTATGCCATCAAGACCGTCGGCCGCTGTGATTTCCACGGGGATGACTGCGCATCCAAAGCTTGATCCTGATACCGATGAGCTCTTTGCAGTCCGCTATTTCCGAGTTGATCCCATCAGCAAGAAGCTTCCGGACGACCCGGTTACCTCCCTGGATCGACTCTCCCTTTTTCATGACTTTGCCATAACAAAGCGACACAGATTAGGCGTCAGCACTATACAGAGAATAAAGGGAGGAGGGCTGCCGATAGCGGCCGACCTCAGTAAAGTTCCGAGACTCGGAATCCTCCCAAGATACGCCAATGACGAGTCACAAATTGTGTGGCTCGAAGCTCCTGGATTCAACATGTTACATGCGGTAAATGCGTGGGACGATGACGACGAAGATAGGGAAGGCGGGATAACCGGTGTGGCGAAGCTCGACCTAGATGAGGAAAACGGCGTTGTTTCGGGAATCCGGATGTATGGCCAAGGATGCTACGGCGGAGAGCCGTTCTTTTTGGCTAGAGACCCGGACAATGCGGAAGCTGAGGAAGACGACGGATGTCTTGCTACTTACAACCAGGACGAGACGACTGGAGAGTCACGGTTTCTCGTCATGGATGCCAAGTCCTCCGACCTTGACATCGTTGCTGCTGTGAAGCTTCCACAGCGCGTGCCAGCTCCAAAAATGGTAGCAACGCTTCATCACTCACTCTCACCGCCACCACGCCGCCGCCACCACCATCTTCTTGTCATCACGCTGACCACTTCATTTTCCTTACTCGCCGCCCATGAGTCTTTCTCCACCTCCTCTCCCTCCGCCCCCGCCTCCGCCTCCTCCGACTGGCGGTCGGCGCGCGCGACGTACTACGCGGCCGCGGATCCGAACGAGGCGGTGGGGGGAGCGTGCGGGTACGGCGATCTGAGCAGGGCCGGGTACGGGCTGGCCACGGCGGGGCTGAGCCAGGCGCTGTTCGAGCGGGGGCAGATCTGCGGCGCCTGCTTCCAGATCAAATGCGTGGAGGACATGCGGTGGTGTATTCCTGGAACGTCGATCATCGTCACGGCCACGAATTTCTGCGCGCCGAACTACGGGTTTACCAGCGAAGGCGGTGGACATTGTAATCCGCCGAATAGTCACTTCGTGCTTCCGATTGAGGCGTTTGAGAAGATAGCGATCTGGAAGGCTGGGAATATGCCTGTTCAGTACAGGAGGATAAAGTGCAGGAAGGAAGGAGGCGTCCGATTCTCAGTCGATGGCTTCGGCGTCTTCATCTCAGTCCTGGTAACCAACGTAGCTGGTGCTGGCGACATAACAGCCATGAAAATAAAGGGTTCTAGAACTGGATGGCTTCCAATGGGCAGAAATTGGGGCCAGAACTGGCACATCAACGCCGATCTGAAGAGCCAGCCTCTCTCATTTGAGCTCACCAGCAGCGACGGCCATACTCTAACATCCTACAATGTCGCTTCCCGTAGCTGGAACTTCGGACAAACCTTTGAAGGCAAACAATTTGAATCTTGA - Nucleotide:
-
>KlEXPA-38
ATGGGGAAGGTAGAATTTACTGGAGCCCAAGTGGGACCAAAGTGACCAGACAATGAAAACAGGCCAATCTGGCAAGTTTCATATCAATGAATGATCCTGAAGTTCTTCAGGTTCTTACTCGAAAAGTTCCATGGCCAACCAACCGATGCTTCAGGCGCAGTTCCTTCCATATACAGGTAATGAAGTATCTGTTTGTAATGGAAAAGTAGGCTTGAATATATGCCTGATTGTTGAGTTGTCGGACTCTAAGATGCAAGTATCAGAAAATCGGAGAAAACATGAGATGTGGTTCTTCGCTTATGTTGTCAGGGGCAGTTACATGTCAGACCCGTAAATGGCGAGTTTGTTTTCTTCGTCTTTCACCTGAGAATTCTGTCTTCTTTCCTCATCCAGGTAATGAAATTTCTGATTTATGATGCAGCCTCGAGCTGAAGCTGAGATGAACGCATGCTGGCTATCGGTTTGGTCATAGCATGGATGCCATGAAAACGCCGACCAGCTATTTTCAGACAGTAGGACTTCTGACCCAGAACTGTCGCAGCACTGTGTCAACTGGGAGAAGCAAAAGAGTTCAAGCCCTTAGTGTCAAGGGTCGAAATGGCGGGTCTGTTAAGGTCGCATTGGCGGCGAGGTTTAGCTCCTTGGATGATTTGATTCACAAGCACTTGGATCTTCAGCTGAGACCAGCTATAGACCCAAAGCGCGTCCTAGCAGGCAACTTTGCTCAGTGGACGAAACTCCTCCCACAGAATGCGAAGTGCTGGAAGGAGCCCTCCTTCCGTTTCTGAATGGTGTTTGCATCCGCAGCGGGCCGAACCCGTAGCTCCCTCCCCGCGGACCTCATCACCTTTTCGAAGGCGATGGGATGCTTCAGGCAGTCCGCGTATCCGACACAGAAGTACACGGTGGAGCGTGATGTGGGTGTTCAGTCGCCTTCAAATTTTATTCCGCCTTCTGCTGCCACAGGCAGCGGCCCTTGCGCGCATTGTAGTAGACCGAGTCAGAAGATTAGCCGGCCTGTACAATCCTGTCAACGGCACAGGCCGCGCAAATACCAGCCTGGCTTACTTGGGCTACCGTCTGTTTGCTCTGGAAGAGTCCGATGCCCCGTACGCTGTTCAAGTTATGCCATCAAGACCGTCGGCCGCTGTGATTTCCACGGCAAGTTACAGGGGATGACTGCGCATCCAAAGCTTGATCCTGATACCGATGAGCTCTTTGCAGTCCGGTACAGCCCGTCCCGCCCGTTCCTCAGCTATTTCCGAGTTGATCCCATCAGCAAGAAGCTTCCGGACGACCCGGTTACCTCCCTGGATCGACTCTCCCTTTTTCATGACTTTGCCATAACAAAGCGGTATGCTATATTCTTCGAGACACAGATTAGGCGTCAGCACTATACAGAGAATAAAGGGAGGAGGGCTGCCGATAGCGGCCGACCTCAGTAAAGTTCCGAGACTCGGAATCCTCCCAAGATACGCCAATGACGAGTCACAAATTGTGTGGCTCGAAGCTCCTGGATTCAACATGTTACATGCGGTAAATGCGTGGGACGATGACGACGAAGATAGGGAAGGTAACATTTCGCCCATATAGCACTTCCCGGACCGAACATATTTGCTGCACTTGTCGATGGAAAAGGTTCGGATAAGTCTCCGGCCCGGGACAGTGTCGAGACACCTGGTCTCATCGATGAGCTTGGATCTTGCTGTGATAAATCGGTCTTATGCCGGAAAGAAGAATCGGTATGTGTTTGGCTCGGTTCTTCAGGCGGGATAACCGGTGTGGCGAAGCTCGACCTAGATGAGGAAAACGGCGTTGTTTCGGGAATCCGGATGTATGGCCAAGGATGCTACGGCGGAGAGCCGTTCTTTTTGGCTAGAGACCCGGACAATGCGGAAGCTGAGGAAGACGACGGATGTCTTGCTACTTACAACCAGGACGAGACGACTGGAGAGTCACGGTTTCTCGTCATGGATGCCAAGTCCTCCGACCTTGACATCGTTGCTGCTGTGAAGCTTCCACAGCGCGTGCCGTACGGCTTTCACTCCATTTTTGTCCGGGATGAAGACCTCGACGAGTCTTTCATGTCCGAATAGCCTACCTACGTAGCAATCGTAAGTAGTAACATGACATGTTCGAGCGTTTCTTGGACCGAGTCACGAGACGTGACACTTAGGTATCATACTGGACTCTCACGATTGGGCCAGCCCTTCAAATGTCGGCCTAACAGCGGCCCAGCAACCGGTTTGGTAAAGAAACCTCAAAAGCAGAGCAAAAGCACGACCCCAACGGATCTTTTCCTTCCTCCACCTTCTTCTTCCTCCTACCCTTTTTTTATGTTTACTTTCTTTTTATTTATGTTCTCAGAGCTCCAAAAATGGTAGCAACGCTTCATCACTCACTCTCACCGCCACCACGCCGCCGCCACCACCATCTTCTTGTCATCACGCTGACCACTTCATTTTCCTTACTCGCCGCCCATGAGTCTTTCTCCACCTCCTCTCCCTCCGCCCCCGCCTCCGCCTCCTCCGACTGGCGGTCGGCGCGCGCGACGTACTACGCGGCCGCGGATCCGAACGAGGCGGTGGGGGGAGCGTGCGGGTACGGCGATCTGAGCAGGGCCGGGTACGGGCTGGCCACGGCGGGGCTGAGCCAGGCGCTGTTCGAGCGGGGGCAGATCTGCGGCGCCTGCTTCCAGATCAAATGCGTGGAGGACATGCGGTGGTGTATTCCTGGAACGTCGATCATCGTCACGGCCACGAATTTCTGCGCGCCGAACTACGGGTTTACCAGCGAAGGCGGTGGACATTGTAATCCGCCGAATAGTCACTTCGTGCTTCCGATTGAGGCGTTTGAGAAGATAGCGATCTGGAAGGCTGGGAATATGCCTGTTCAGTACAGGAGGTAACTGCTATTGCTGCTGCTGCTGCTTTTGAAATTGATTATTATTAGCTCTAGGGTTTGATTATATGCCTGTTTTTTTCACTGGCATTGAATGCATGCCTTGAGCTATTTAGGTAGTTAGGTTAAGTGAGTAGATAGTAGAAGCTTGGATCTCTAAAGTACATGGCGCCACATTGGCTGCTGACTGGTCTGAGACTAGTGAAGTGTGCTGGGTTGAGGCTTGGTTGATGCGGTGAGGTTTTCCAAGTAGGAGATGTGCGAGGCATATTTTATGAAAATGGTTTGTTAATGCTTAGTTTATTTGCTTTTAATGTAGCACATTTATGCTGCTAGTTCATCGGAATTGTTAGGTTACCCTATTTCGACGCACACCGCTCATTCAAACATTATTAGGATCACTCTTGAAAGTCCAAACTATGTAGAGGCGACTTAGATTGTGTTTGGTTTAAGGAAAATTTGAGGGAAAATGAGATAGAATCCTTTGTTTGGTTTGAGGACCTAAATGAAAAAGTAGATGGGGAGGAAAATTTGTTTAAATTAAGGAATGTTTTAGTATTTTCTCCAAAATTTTCCACCCCTAACCAAACAAGGGGAAAATAAAATAGATTCTACGGGGAATTCATTTTCCTCAAATGTTCCTTGCCTTCAAACTTTCCCCAAACCAAACACACCCTTAAAATTTCAGATTTACCAGAAATGTACGTATATGGTTGTGGCATTTAGATCTGAGTAAATGTGATGTATTGAAGGAGGTTGTGGATATTGACCGTGAGCTTTGGCATGGGTTGCATTTCTTGTCTCTCTGTTTTTTTTCAAGTCATGGAACTTTCCAATTCTGTGCAGCAACCATATTGTATTTATATTGTTTAGAGCATGAGGATTTGTTGCTAGATTCAGAAGCATATGTGCGGTTGAATGCAATGTGTTTCCTGACACAAAACTCTATAGGCATAGCCTCCTCTGTTAAATGAAATATGAATTACTCAACTATCTTGGCTTCCGCTAATACCACGAAACATATTGAAGCTGTATATTTGTTTCTGTAGTGTTGATAAAATCACGATTCACGACTTACCTAAGATTTTGTGTCTGTGATCTTACGAATTGGTGATATAAACACTTAAGTTGGGGAATCAATCGGATTTCAGCAGGCCTTTTCGTGGCCGAACAAGTGGGAATGGGATTGTTTTGTCCCTCATCTTCTTATGTGCTGTCACTTATATATCTCATTGTTGCAGTTGAGTTTTAGTATTGTTTTACGAGTCTACTCGAAATTTATATGGGGCATTTTCACATTATTAGCTTCTGCTTAGACCATGAGTTATCGCCGCTTGGTCAATATATCACTCATCTCAAATTTGATATATCACATGTCTTCCTCCAGGATAAAGTGCAGGAAGGAAGGAGGCGTCCGATTCTCAGTCGATGGCTTCGGCGTCTTCATCTCAGTCCTGGTAACCAACGTAGCTGGTGCTGGCGACATAACAGCCATGAAAATAAAGGGTTCTAGAACTGGATGGCTTCCAATGGGCAGAAATTGGGGCCAGAACTGGCACATCAACGCCGATCTGAAGAGCCAGCCTCTCTCATTTGAGCTCACCAGCAGCGACGGCCATACTCTAACATCCTACAATGTCGCTTCCCGTAGCTGGAACTTCGGACAAACCTTTGAAGGCAAACAATTTGAATCTTGA
