CmUC01G001220 (gene) Watermelon (USVL531) v1

Overview
NameCmUC01G001220
Typegene
OrganismCitrullus mucosospermus (Watermelon (USVL531) v1)
DescriptionNOD26-like intrinsic protein 5;1
LocationCmU531Chr01: 941653 .. 954147 (+)
RNA-Seq ExpressionCmUC01G001220
SyntenyCmUC01G001220
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

Legend: exonCDSpolypeptidethree_prime_UTR
Hold the cursor over a type above to highlight its positions in the sequence below.
ATGACTGTGAGGAAAAGAAACCCAAAAGCAGGTGTGACTCTAGCATTATCTCACAAAGCAAAGAGCTGTATCAAGACAATTCCATACCCATTGACTTTTTTTTTTTTTTTTTTCATTAATAGTATCAACTAGTTTTTTCAATTCAATTAAATTAATAATTAAAAAAAAAAAAAAAGGTATTTCATGGGCCTTTATTCCTCTGTATAAATTTGCCTCTTCCTTCTTCCCCATTCTCTCCATTCTTATTCCATTTGAACCTTTCTCTTTCATTCCCATTTTCTCTCTATCTTTTCTTTTTTCTCTTTCTCCATTAATTATCTTAAATTCCATCATTTCCATTTAGCTTTCTATTTTTCACTCTGGATTTTCTCATTCAACCCATTTCTTAGCTTCTAAATTAAATTAGGCCTGGCTTCCTTCTCTCCAACAAATCTTCCTTAACTTCACATTTATAAAAGCTTCCAAATCATGTAACTTCTGCCTCTTTCTCAATCACCCCCTTCAAAAAAAAAATCGTTTTTTTTTTTTTTTTTTTTTTTTTAATTTTAGATGAATTTCTTTTGTATCCCTAAGTAAAAAACTAGTGTTCATTATCCTGGCTAAGCTTCCAATTCTGCCTTAGAAAAACTTTTATAAAAAACCCCAAATCATGTAACTTTGTTTTTTTAAATCCCCATCATTCCAAACCCAAAAAAACCCAAAAAAAAAAAAAAAATTTGATTTTTTACCTAGAAGTTTTTTTTATTGAAAAAAGAAAAGAAAAAAAAAAAAGAAATGCCGGAATCGGATAGTGGAACGCCGGTAGCATCGGCGCCGGCGACGCCGGGGACGCCGGGAGGGCCGCTGTTTTCCGGCCTCCGAGTGGATTCTCTATCGTACGATCGGAAGTCAATGCCGCGGTGTAAGTGCTTGCCCGTGAATGCTCCCACGTGGGGCCAACCTCACACGTGCTTTACTGACTTCCCTGCTCCTGATGTCTCTCTCACCCGCAAGGTAATATACTTTTTTATTTTTTTATTGCTCAACTTATGTGTTTAATTCCTATTTTAGGCCTTTATATTTTAAATGTCTTTGTGATTTTTTTCTTGTATTAATACAACATTTTTTGTTACCTTGAAATAATTTTAGAGAGAATAGCTAATTTTTTACAACTATTTTTCTAATTTAAAATAGTGATTTTATTTTTCTTTTTAGTTAAATAAAATAGAAGGTAGAAATTTCTATGTTTGACTTTTGATCTTATTATTGGGTCAAAGTTTCATCATAATAATTAATGAGTTTTGGTTGTGTATCTCTATAGGATATGTGTTGGGATTTTACCCATAGAGATTAAAATTATCATCTTTTTTAAAAATAGAATTTTTATATCGTAACAGTGAATGTATATTTAAAAAAGAAATGGAGCAAAATAGGATTTTAATATTGCATCCTTTCGTTTTTTGCTTTTGTAAATGCAGATAATATATACACTTATTTATTTCCTTTGCTGACATCTCTGACTCGGATTGGATTGTTTCTCCCCATTCAATTATTAAGTCATAACGGAAGAACTATCTTCATGTACTCACTAATTGAATTAAATTAGATATATTTATATTTAAATAATTTCTAAGGGTTCACTTGTCATTTGTCAATAATTGATCTCAAATTCTTTTTTCTGCCTAAAATGACCCTCCATTGTCCCTTTTCTTAATTTTTAATGGAGGCATCTATTTTTCTTATAGGATGGGAAGTTCAAATGTTCCACGTACTATTTTTCTAAAAAAAAAATTATAATAAAATTAACATAGAAATAATTTCAAATTATTATTATTTTTTCATCCAAAGTGCTTGGAATTAAAAATCTTAAAAAATTTAAAAACCTCGAGCCGATTTGATAACCATTTTAGTTTTGGTGTTTGGTTTTTGCTTACAATGATTTCCATCTTTCTTAATTACAATAGATGAATTCTTATATAAATTTCAATAACCAAAAAACAAGTTTTTAAAAGCTAATTTTTTTAGTTTTCGACTTAATTTTTTTCCAACTATTGGTAAAAAATAAATAAATAATGAAAAAAAATTTAGTGGTGAAAGTAGTATCTATATACTTAATTTTCATAAACAAAAACTAAAAACTAAATGATACTAAATGGGACTTTAATGATTGGTTTGATAACAATTTTTAAACAATTATTAAACCAAGTTATTAAACCAAGTGTTAGACTCTTAATTTTTTAAAATTTTAAATCTAAAATCCAAACACCATACCTAAAGTCTAGGCTCCAAATTTAAAATTCACTGTTTTGTCTTCCTCATCTTACCCAAAAAAAAAAAAAAAAATCTATTTACTCAATTTTCTCTTCGTAGATGTTAAGAATTCCAATTTTCTTAAAGTGATAAAAATGAACATAAAGGAGTTGTGAATAGAAAAGGTCCATTAAAAAAATGGAAAATGTAAATATTATCAACGAGAAAAAAAATAGTTTTTTTTTTTTTTTTTTTTTTTTTTAATTTAGCTAAGAAGTCAGTTTTATTTTCCAAAAGAAAAAAAAGACAAAACAAAGAATTCATAAATGTACTAATAAAAATAATTAACATCTATTTCCCTTTTATTTATTTATTTTCTTGGTGGTTCAACATAAGTAAACAATAATTGTAAAAGATATTCAAAATTATTATGTGGATGGCGATTCTTGTCCGTATAAAACAAATCGAATTTTTTTATTGTACTAAAAAAAGGAAAATGACATCAATTTTGTATAAAAGAATTCTTAGTGCACATTTTTATTATTTTAGCTAAATGAATGTTTTAGTCCTCATTACAATTTTGTTCATATTGTTTAAAGAAAAATTAACTTTAGTTCTTTTATTATTATTTTTGAAAGTTTTGCTGGTTTATTATTATGCTTTACAAAACCTACTTTTTAAACATACTTTCTTTAGTTAACTTCAAAACTTGAAATGGTTTTTTTACAACACCCATCATAAAAAACAGTTTTAAATATAAAAACCAAAAATTTAAATGCTTACACCTAAATTTTCAATTTTTTTATTTAATTAGTTCATAAAGTATCCAAGAAATCTAAGATTTATTAGGCAAAACATTGAAAACTTAAAGGCTTAGTTTGACATATCTCAATTTAAGAACCTATTTGGCACAAACTTGAAATTAAGAAGACCAAACTTGCAATTTAATGTTTTTATTTTTATATTATTTATTTTTTTGTTTCAACAATTATATAAAAATTGTGGAAGGAATTGTTAAGTAAAAATATGTTCCAGCTAACCATTTGTTTCACTAATATGTAGCTGGGAGCAGAATTTGTGGGAACATTCATCTTGATATTTGCTGCGACGGCAGGGCCCATTGTCAACCAAAAGTACAACGGCGTCGAGACTCTGATCGGCAACGCCGCGTGCGCCGGCCTGGCGGTGATGATCGTAATTCTGTCAACGGGACACATTTCCGGCGCCCATCTGAACCCGTCGCTCACCATTGCTTTTGCGGCCCTCCGCCACTTCCCTTGGGTTCAAGTTCCGGCCTACATCGCCGCCCAGGTCTCTGCCTCCATTTGCGCCTCCTTCGCTCTCAAAGGTGTTTTCCACCCCTTCATGTCCGGTGGCGTCACCGTCCCCTCTGTCAGCACTGGCCAAGCCTTCGCTCTTGAATTTATCATCACTTTCAATCTCTTGTTTGTCGTCACTGCGGTCGCCACTGATACTCGCGCGGTATGTACTTTTTCATTGGTAATATTAATCAACCAAAAGCAATCTATCCATTTCTTCATATTCTTAACAAATTTTCTCCTCCCTTTTTCTTTTTCTTTTGCAGGTTGGAGAGTTGGCTGGAATTGCAGTCGGAGCTACAGTGATGCTTAACATTCTTGTCGCTGGGTTAGTATTTAATCCCATCTCTTTTTCTTTTTTCATCAAATATATATATGCAACATATTTAAGGATTACGTTAAAATGATTAAAATCACTTTTGTGTTACACTATCAAATTTAATTTTCATATATTTACATATTGATTTTGAAGGGACTTTAATCACTTTAAAATTACTCTCCAAACATCCAACATGTCACAAACTGAAATAATGCAGAAGCATAAAGAAATCTCAATCATTCATAAAAACAAATAAATTTTGGACCTATGTGCTTTCATATCATGCTTGATTGAGTTTGAAACAAGTGAAGTTGAAATAACGTTTATAATCCCAATATTTCCATCCTTTTTTCCTCAATCAAACGTACAACAAACAACAGTTAGGTGTCAAAAAGTTGCCATCTTTCCCACTTCCCCCAACTCCATAATGCTCCATTTTTTTCCCAATAATTTCATAAACAAAACAAAAGGAAGAGGAATCTCAATTTCAACGAGATACTTGTAATGACGACAACTCGTGTTCTTAGTCCCACTTTGTCGTTTTCTTCACATAATTTTCAGACAAAACTTTTGTTGTTTTGAATTTTGGTTCAATTATGTACAAAATACTCCTATATGCCCCTAAATTCTTGCGCTTCAAAATAGTTCAAGGAAATATCTTGTATCTAAAATTAGGGATGAACATTGATGCAACGGATGTGACAATATCTATAACTATATAGAAGGTTAAGATCATTTTTACCATTTATTTCTTGACAAAGGAAATTGTACATTAAAAGCATTTGCATAGTTAATTTTTAACTTGTCAATTTATGGGAATGATATTATGAATTCTTTCTAAATTTTATGCATGAGTTGCACATCAACATCAATGTCCGTCTTATTTTCACATAATGTAAGTGTAGTTTTTAAAAACAAGTTTCAAATTTTTAAGAATAAAAACAAAACCTTTCCAAACTTGGGATACTTAAGTTCTCGTTTAATAACAATTTCGTTTCTAGTTTCTTTTGTCCAAATTTATATTTTATCTCCTTTCAATTTCTTTATTAAGGTTTTAAAGTATGGCTTGATTTTTTAAAATAAAAGTTTTTTTTTTTTAGTACAACTATTATCGGGAATAGGGATCAAACCTTCCACCTCTAGGATGAGGTGATGCCAATTATGCTGAGTTAAGTTTGCTTTGGGTTAAAATAGAGTTGAAATTGTATTGAAAAAAAATCTTATAAGATTAAAATACTGTTTATAAGCTTGATTTTTTCTTTAAAAAAGACCAAATAATTATCGGCTAAATTAGGGTTTATTAACAAAATTCATTTCTATCGTTTGAAAAAGATTAAGACTTTAATCCTTTAAAAGTTAGAATTTAATTCTTATAGTTTTAATAAAACTAAATAAATAGTCTATATAGTTGATAAAATCTTCATATATAATCCCCTTAGGGACTAGATAGTCAAATTATAAGTATTAAGCTATAATGAGGAGGGACTAAATTTTTTCAAATTTATAATTTAACCCCTAAATTATTAGTGCCCCCAAAACTTTGACTTTTGAACCAAAAGAAAAAAAAGATTCCTTTTTGCCTTCATAATAACGGAGACTTTTGTGGCATATGTCAGGCCCTCAAGCGGTGGTTCGATGAACCCAGTTCGAACTTTGGGCCCCGCCGTGGCTGCCGGAAATTACAGAGCATTATGGGTGTATCTGGTGGCGCCGACGCTAGGGGCAATACTCGGTGCCGGAACTTACACTGCCGTTAAGCTGAGAGACGACGAAGTGGATGCTCCGTCGCAGGTAAGGAGCTTCCGGCGTTGAAATCGGGGGGGGGGGGGGGGGGGGGGGGGCATTGGCTATGCATAACTTAAAATAAGTGTGTGTGTGATTAGAAAATAAGGATAAGAAAAATGCGATTGGTGATTGATGAGACTTCAGAACATATAGTCTTGATTGCTATGTTTGTGTCTTTTTATGTGCGCCATTGCTTCTTCTTTCCGTCTTTGAATTGAGTTCTTTTGAGGTTTCTTTTGTAAAAGCACATACTTTTGTGCTCTCTCTTTGATTGTGATCAATATGTAATAGACATGATCTTGTCTTTGTGATATATATTTATAAAATGTATGGCCTTGTTTAGTGTATCATAAGAATTCATACAATGTTGTTCTCCAATTCCTCTATTTTTCCTTTATTTTGGTTTGTCTTAGTTGTTTTTTCTTTTCTTCTTTTTCTTTATTTACAACCTAAGGTGGTAAATTGAACCTTTAATTTTGAGGTAGATAGTAAACTATGTTCATGTTGCACAATAGAATCACCATATTTTAATTCTTGTCTCTGATTTTTTTTGTTAGTGTTTATATAATTAAACATTGATTCAAGGGACAATATAATTATTCCAAGTTGGACCATAAAAGCAACCATATTACCACTAACCTGCCTACACCTATTTAGAATTTTGTTGATGTCCATATCCAAGCATTTAATGGCCAACAATCAATGTCATTTTGCACATCTAAACTACTATTTTTCTTAGAGAGCATACTTTTGTTGGTCTCTAGGGAACTTCTTCAATGACCTATAGTTCTCCTTCCGATGCCCTTCTAGTTTTCTAGATAAATCGAAGAAAGAAAAAAAAAACAAAGAAAAAAGCAAAAAAAAAAAAAATGATGACTAAATTATTTATGAGAATTTTATCCTACCCCATGAACTAAATTATAACTTTCTTCAAATTACAAGAATCAAGATTTGCAATTTAACTAAAAATGTTTTTATTTCTATATGATTATTTATTTCAGTAAGATATCGAAAATAAAGTGAAAGAAAAGAAAATTAAACTCATCCTAACTATTTTTAGATTTATATCATCCTTTTACAAATTTCTAACTCTGATAGATAAAGTATTCACTATCACTAAAGATCAATTGTTCAATCTCCACTTTTACTAACGTTGAAACTAAATAATAATAATGAGAAAAGATATCTTAAATACAATAGGTATACTACACATGCAAGTTGACTTATGCTAGATTTAGCTCTTTATAATAAAAGTTAATAATTCTTTTTCTACATCATCATTTAATTTATGAAGGCATCTTGGAAAGTTGAAGAAAGGTCCCCACCCATAGAAGAATTAACTTTGTGTCCATTGCTAAAACAATTAATACCTGCTGGTTGGATGCAGTTGAATGCTGATGCTGCAAGTAGGCCTAATATATATTCAATTCATTGTTGGAATTTTTTTTTTTTTTTTTTTAGGACATATACTTTTTTTTATCCAAAATTCGCAAGAATTATTGATATAGTACGTTGTCTCATATATTCCTTCGCATGTGAGAAGGGAAAGTAACTAGAGACTCTCTAATTTGATAAAGATTTTGTTTTTTTTGTTTTATATTTTTTAAATTTATGTTTATTTTCTCTCATTTTTTTTTGTTTTATATTTTTAAAATTTATGTTTGTTTTCTCTCATTTTTTAATTATAATTTTCACTTAGAAACATACTTCAATTTTTAGTTAGATTCTAAACACAAAAATAAGGTTTTGAAAATTTGCTTCTTTTAGTTTTAAAAAAAGACCAAAAACCAAAACCAAACAGTCTGTTTGGCAGAGAATTCAAATTCTGTTTTATGCTTTAAGATTCATTGAATTCAACAAATATGTGTTTTGTAGACAATCCGAATTTTGTTTCTGAAAATTGTTTTATATTATGTGATCCAAACATTCTAAAAACAACATTTTTATGTTTTCATTGTATCTAGATTTTGAATTTTAAATTTTAAGATACAAAATTATATTAAATAAAGATAAAAATATTTTAAAATACAATATGTCATATGTAAACTCAATTCATTTTTAAAAAATACAATATATAATATATAACGTATTATAAATTATATAACATTACAAAATAGTATTTGTATACTTTTTTTTTAACATAAACTATATTCATAAATAAGTTAATAATAATTGTTGTCAACTAAATATTAGTAGGTAACTACGACTACTTTTATGATTTGTAAATATATAGTATTAAACACATCTTAAATAATTGTTTAAAATATAATCCAATTTTTGAATCTGCTACCAAACGCATAGATAAAAACATGAAATACAACTATGTTTTTATTGAACCTCTTATTTTCAGATTTCTATTTTCAAATTTTCTGCTAAACAAACCCAAAATGATTAGTAAACCGAACCTAATTTTTTGGCTTGAGAAGCGGACACGTCATCGAGCAACTTGTGGTTATATGAATTTTTCACTGCTCGTTGATGCTGCCAGGTTGGAACCTCTTGTATCATAGACTCAATATTCTTCATTAATGCTTTCCTCTAAGTTTCAAAAAAGAAAAAAAGGTTGTAACGTTAAGATTACTCTCTTCACTTCTTTAAATAGAGGCCAAATTTCATCACTATTAATAGCCTAATATTTCAGCTATATGATCTCCAACTTTGGTTTGAGTTAACCTTAAAAATGCAGGTATTCTTTCTACTCTTTTTAATTTCAATTTGAAGCCTTTTATTTAGTATTGTTTTTTTAGTTAAAGTACTGGGAAAAAAAAAACGGTAACATATACAAAATCCATTGCAAGAAAGTATTAGAAATTTAATTAGAGGAATTATTTAGGATGCATATTATTGGTGACAAAATTTTTTTATTTTATAGCATAGAAAGTTGTATTCTGTGATGATTTCACTAGTTTTATATTATGGGTCAAAAATATTAAAAAATACTAAAATATATATATAAATGTCTTTCAAAAGTACTATTTTCTTATATTTATAATTCCCCCAAACAATAATTCGCTAAATTTAAAGACAAGAAATTGAATAGCCAAACCAAATAAGCACTTACATATCTAATTCTTCAAGTAAAAAAAATGTTTCCTTAATAAAAGGATTTTTTGTTTCTCTTTTCAGTAAAATTTAAACCTTATATTCATACAAGGAAAAAAAAAAAAAAAAAAAGGTATTATCTAATCGTACGATCAGAAGCCAATGTCGCAATTCGATTGCATACACGTGGACGCCCCAAAACGGAGCCAAACTCTTGATGCCTCTCTCACTCGAAAGGTATTTTATTTTGGTAAAATTACTATTTACTCCAATAATTTTTAGTTGTATTTAGTTTTTAAATTAATTCAACCGTAATTAGTATGGTTTGAAGGTTCAATTTCCAATCTAACCATTATTGTACTAAAAATATTATTATTTTACATGTTGACAAACATTTTAAATTGAAAATAATAATTAAAGAAGAAATGGAGAATGAGGATAGAGAGAAGAGAGATTAAAGATAAAAATTAAAATAAAAAATATAAATAAATAAATAATTAATTAATTATTAATTTAAAATGTCAGGTTAATAAATTTTCGATTTTGTGTGGAGTAGGTTTATGAAATTTTGAAAAGTATCAAATAACAAAGGCTAATTACTTATTAAGATACAAAATTATATAAACAAATTATGATATACAAATTTGAAAATTTGAGGATTTATTGGACGCTTTTGAAGTCGCAAAATTTGTGCAACTCTCAACTTGGTTAAACGCAGTCCAATGAGGAGAAGCCCACAAACTAGGTCAAAACATTACTATTTAAGGCTGGGCCGGTCGGGCTCAAACTTCGATTGAGCCTCACGGGCTTGTGCTTAGGCCTGGCTTCGCTCAACCAGCTTGACCCAATGACCATTGGTATGGGTGAACACAAAAACTCAATTGGAGAAATTTCTCTTTATCTTTGGAGAACCACTCCCAATTTGGATAATCTTTATACTTCTCCTTCCTTCACATAATATTCACCTTTATGACTTGTGTAGGTTTGAGATTTTAGGTGATTTGATAGTGGAGTAGTTTTTAAATTTCATTTAGTCGTATGATGTCTATTACTACTAGTTGATTCCATTTAACTAAAGTTGATCTAAGTTAAAGCTAGACCTATTTCAAAATAACTCTTGATTTAGGACTCGTTTGATAACAATTTTAGTTTTGTTTGATAATTATTTGATTTTTTAAAATTATGTTTATAAATACTTATTTCACCCATAAGTTTCTATATTTTATTATCTACATCTTTCAACTAAGATTTTAAAAAACTAAGTAAAGTCTTGAAAACTAAAATATATTCTTAGTTTGTTTTGTTTTTTTTTTTTTCTCTTTTAGAATTTGACAAAAAAAAATTCTAATGTTTTTGTTATTGTTAATAAGGGTGAAAATTATAATGGAAAGACGAAAAAACATAAGTTTTAGAAATACAAAACTAAAAACAAAACCATGATCAAACAAGTCATTCAATTTCTTGTATTTTTGTTATTTGAAATCTTAGGGCTCCCCTAATTATCTTAGTATGGTTTGGTTTGATTTTTGAAAATATTCGGAGACTTTAGAAAAGAAAAAAAAGTGTGGAAATAATATTTATAAGTTTACTTTTTTTATAAAGAAAATATAACAAACACCATATGCTTATCAAATTAGATTTATGGATTTTTTTTTTAATTATCTAATATATTTGTTTTAGATGTTTTCGTAATGAGAGAGAGAGAGAGAGAAAAAAGTTGAAAGTAAACTGATTTTTTTTTTTTTTTTAAACTTGTGATTTTGTTTGTGAAGTTTGACTACATAATTTTATTGCATCTTTAAGAAAGATGAAAAAAAGTTCGAAAGTAAACTGTGGAAAGCAAATACAATTTTTAGAAGTCAAATGGTTATATCACACAACCTTAATTTTTTAATAATTATGAGTGAATTATTTAAAATGAAGAGCTTGGTTTAAATAGAAGAGCATGAAAAAATATTATAAATCTAAACATAATTAAATAAGGCACAAATTTACAATTTGAAGAGTGAAACGGTTCCATCTTGAATAATAAGAAGAAAGGAAAAAAGGAAAAAAAGAAAAAAAAGAAAGAAAAACATTTTGAATTTGAATATAGCTTCCAGCTGAGCTGAGTATTTGAAGTGTAATATCCAAAGGTGGGAGCAGAATTTGTGGGCACATTCATTCTCATATTTGCTGCAACAGCCGCACCCATCGTCAACCAAAAGTACAACTCCGTCATGTCACTTATCGGAAACGCTGCATGCGGCGGCCTAGCGGCAATGGTCGTAATTCTGTCCACGGGACACATATCTGGCGGCCACCTAAACCCGTCACTAACCATCGCCTTGGCCGCCGTCCGCCACTTCCGTTGGGCCCATGTCCCCGCCTACATCATCGCCCAGGTCTCCGCTTCCATCTGCGCCTCCTTCGCTCTTAAAGGCGTTTTTCACCCTTTTATGTCTGGCGGCGTCACCGTCCCCTCCGTTGGCACTGCCCAGGCCTTTGCTCTCGAATTCCTCATCACTTTCAATCTCTTGTTCGTCGTCACCGCTCTCTCTACTGATACTCGAGCCGTAAGAAAAAATTAATATATATATATAATATATATATATATCACTATTTAACTTTAAGCTTTTTCTTACGATAATGACCAATGTGATTATCGCAGGTTGGAGAGTTGGGCGGAATTGCAGTTGGAGCAACGGTGGTGCTCAACATTCTTATCGCTGGGTCAATATTTCTAATTCCATCCTTTTTTTTTCTTACCTTTAATTTCGAAAATGTTTGATACCAATTCAAAATTAGTAAAATTTATTATTGTCACCTTCAAAATTACTATACGACGTACTCATAATAATTAAAATTTAATTTTTTTTTTTTTGTACAAATCAGTTTTAAAATATAAAAAAAATCAAACATAAAAAAGCAAGAAGCTTGTACATGTGCGAGTTTCTATGATTTGTTACCAATACATAAATAAAAACGATACAAACTCGCTTCTACAAATATTTATAGAAGAGATATATTATAACTAATTTATTATCTAAAAATGAGAATGAAAAATTTAAAAACTTAACTTCGCTTGACCTTGAGCAATATAACTACGAGTTAAGATATAATCAACTATAAACTTACGTTATAAGTATAATAATTTTTTAGTTAACTTATTCTCATAGATTTTGCATTTAAAACTCTTTGTAGTTATATTCTTTACTCTTAAGTCAACATTTATATTACTTTGTCAATTATGTTAGATAACTAACTAAGTCTCACATTAGTGAAAAAAGAGAAACATCCATAGTATATAAGTAGTATGGTTAATGAGATCCCCAAAACTTTAACCGTGTAAATGAAATCCTTAGGCTGCTAAGTGAAGTCGGAGAGATGATTGTTAGTAAACAAATACTATTTGAAATACTTTATTCCAGGGAAAAAATTAATGTTTTGAGTGAAACTAAAAACAAGGGTAAAATGAACAAAATATTGCATCATGGTAGAAATTGATTGTTACTTATAGACGATATATAACAGGCCATCCACCGGTGGTTCGATGAACCCAGTGAGGACTCTAGGCCCCGCTGTGGCTGCCGGAAATTATAAAGAACTGTGGGTGTACATGGTGGCTCCTACACTTGGGGCGATCGTTGGCGCTGGAACCTACACCGCCGTGAAGCACAAAGATGATGAAATGGATCATGTTCCGCCGTATGTGAGGAGCTTCCGTCGATGAAAATGGGCGGTGGCTGTATGTTTGTATTTAAATGTTCTTCTTCTTCTTCCTGTGTATCATGATTATTAATTTTCAAATGATTGATATAC

mRNA sequence

ATGACTATGAATTTCTTTTGTATCCCTAATGGAACGCCGGTAGCATCGGCGCCGGCGACGCCGGGGACGCCGGGAGGGCCGCTGTTTTCCGGCCTCCGAGTGGATTCTCTATCGTACGATCGGAAGTCAATGCCGCGGTGTAAGTGCTTGCCCGTGAATGCTCCCACGTGGGGCCAACCTCACACGTGCTTTACTGACTTCCCTGCTCCTGATGTCTCTCTCACCCGCAAGCTGGGAGCAGAATTTGTGGGAACATTCATCTTGATATTTGCTGCGACGGCAGGGCCCATTGTCAACCAAAAGTACAACGGCGTCGAGACTCTGATCGGCAACGCCGCGTGCGCCGGCCTGGCGGTGATGATCGTAATTCTGTCAACGGGACACATTTCCGGCGCCCATCTGAACCCGTCGCTCACCATTGCTTTTGCGGCCCTCCGCCACTTCCCTTGGGTTCAAGTTCCGGCCTACATCGCCGCCCAGGTCTCTGCCTCCATTTGCGCCTCCTTCGCTCTCAAAGGTGTTTTCCACCCCTTCATGTCCGGTGGCGTCACCGTCCCCTCTGTCAGCACTGGCCAAGCCTTCGCTCTTGAATTTATCATCACTTTCAATCTCTTGTTTGTCGTCACTGCGGTCGCCACTGATACTCGCGCGGTTGGAGAGTTGGCTGGAATTGCAGTCGGAGCTACAGTGATGCTTAACATTCTTGTCGCTGGGCCCTCAAGCGGTGGTTCGATGAACCCAGTTCGAACTTTGGGCCCCGCCGTGGCTGCCGGAAATTACAGAGCATTATGGGTGTATCTGGTGGCGCCGACGCTAGGGGCAATACTCGGTGCCGGAACTTACACTGCCGTTAAGCTGAGAGACGACGAAGTGGATGCTCCGTCGCAGGCATCTTGGAAAGTTGAAGAAAGGTCCCCACCCATAGAAGAATTAACTTACGATCAGAAGCCAATGTCGCAATTCGATTGCATACACGTGGACGCCCCAAAACGGAGCCAAACTCTTGATGCCTCTCTCACTCGAAAGGTGGGAGCAGAATTTGTGGGCACATTCATTCTCATATTTGCTGCAACAGCCGCACCCATCGTCAACCAAAAGTACAACTCCGTCATGTCACTTATCGGAAACGCTGCATGCGGCGGCCTAGCGGCAATGGTCGTAATTCTGTCCACGGGACACATATCTGGCGGCCACCTAAACCCGTCACTAACCATCGCCTTGGCCGCCGTCCGCCACTTCCGTTGGGCCCATGTCCCCGCCTACATCATCGCCCAGGTCTCCGCTTCCATCTGCGCCTCCTTCGCTCTTAAAGGCGTTTTTCACCCTTTTATGTCTGGCGGCGTCACCGTCCCCTCCGTTGGCACTGCCCAGGCCTTTGCTCTCGAATTCCTCATCACTTTCAATCTCTTGTTCGTCGTCACCGCTCTCTCTACTGATACTCGAGCCGTTGGAGAGTTGGGCGGAATTGCAGTTGGAGCAACGGTGGTGCTCAACATTCTTATCGCTGGGCCATCCACCGGTGGTTCGATGAACCCAGTGAGGACTCTAGGCCCCGCTGTGGCTGCCGGAAATTATAAAGAACTGTGGGTGTACATGGTGGCTCCTACACTTGGGGCGATCGTTGGCGCTGGAACCTACACCGCCGTGAAGCACAAAGATGATGAAATGGATCATGTTCCGCCGTATGTGAGGAGCTTCCGTCGATGAAAATGGGCGGTGGCTGTATGTTTGTATTTAAATGTTCTTCTTCTTCTTCCTGTGTATCATGATTATTAATTTTCAAATGATTGATATAC

Coding sequence (CDS)

ATGACTATGAATTTCTTTTGTATCCCTAATGGAACGCCGGTAGCATCGGCGCCGGCGACGCCGGGGACGCCGGGAGGGCCGCTGTTTTCCGGCCTCCGAGTGGATTCTCTATCGTACGATCGGAAGTCAATGCCGCGGTGTAAGTGCTTGCCCGTGAATGCTCCCACGTGGGGCCAACCTCACACGTGCTTTACTGACTTCCCTGCTCCTGATGTCTCTCTCACCCGCAAGCTGGGAGCAGAATTTGTGGGAACATTCATCTTGATATTTGCTGCGACGGCAGGGCCCATTGTCAACCAAAAGTACAACGGCGTCGAGACTCTGATCGGCAACGCCGCGTGCGCCGGCCTGGCGGTGATGATCGTAATTCTGTCAACGGGACACATTTCCGGCGCCCATCTGAACCCGTCGCTCACCATTGCTTTTGCGGCCCTCCGCCACTTCCCTTGGGTTCAAGTTCCGGCCTACATCGCCGCCCAGGTCTCTGCCTCCATTTGCGCCTCCTTCGCTCTCAAAGGTGTTTTCCACCCCTTCATGTCCGGTGGCGTCACCGTCCCCTCTGTCAGCACTGGCCAAGCCTTCGCTCTTGAATTTATCATCACTTTCAATCTCTTGTTTGTCGTCACTGCGGTCGCCACTGATACTCGCGCGGTTGGAGAGTTGGCTGGAATTGCAGTCGGAGCTACAGTGATGCTTAACATTCTTGTCGCTGGGCCCTCAAGCGGTGGTTCGATGAACCCAGTTCGAACTTTGGGCCCCGCCGTGGCTGCCGGAAATTACAGAGCATTATGGGTGTATCTGGTGGCGCCGACGCTAGGGGCAATACTCGGTGCCGGAACTTACACTGCCGTTAAGCTGAGAGACGACGAAGTGGATGCTCCGTCGCAGGCATCTTGGAAAGTTGAAGAAAGGTCCCCACCCATAGAAGAATTAACTTACGATCAGAAGCCAATGTCGCAATTCGATTGCATACACGTGGACGCCCCAAAACGGAGCCAAACTCTTGATGCCTCTCTCACTCGAAAGGTGGGAGCAGAATTTGTGGGCACATTCATTCTCATATTTGCTGCAACAGCCGCACCCATCGTCAACCAAAAGTACAACTCCGTCATGTCACTTATCGGAAACGCTGCATGCGGCGGCCTAGCGGCAATGGTCGTAATTCTGTCCACGGGACACATATCTGGCGGCCACCTAAACCCGTCACTAACCATCGCCTTGGCCGCCGTCCGCCACTTCCGTTGGGCCCATGTCCCCGCCTACATCATCGCCCAGGTCTCCGCTTCCATCTGCGCCTCCTTCGCTCTTAAAGGCGTTTTTCACCCTTTTATGTCTGGCGGCGTCACCGTCCCCTCCGTTGGCACTGCCCAGGCCTTTGCTCTCGAATTCCTCATCACTTTCAATCTCTTGTTCGTCGTCACCGCTCTCTCTACTGATACTCGAGCCGTTGGAGAGTTGGGCGGAATTGCAGTTGGAGCAACGGTGGTGCTCAACATTCTTATCGCTGGGCCATCCACCGGTGGTTCGATGAACCCAGTGAGGACTCTAGGCCCCGCTGTGGCTGCCGGAAATTATAAAGAACTGTGGGTGTACATGGTGGCTCCTACACTTGGGGCGATCGTTGGCGCTGGAACCTACACCGCCGTGAAGCACAAAGATGATGAAATGGATCATGTTCCGCCGTATGTGAGGAGCTTCCGTCGATGA

Protein sequence

MTMNFFCIPNGTPVASAPATPGTPGGPLFSGLRVDSLSYDRKSMPRCKCLPVNAPTWGQPHTCFTDFPAPDVSLTRKLGAEFVGTFILIFAATAGPIVNQKYNGVETLIGNAACAGLAVMIVILSTGHISGAHLNPSLTIAFAALRHFPWVQVPAYIAAQVSASICASFALKGVFHPFMSGGVTVPSVSTGQAFALEFIITFNLLFVVTAVATDTRAVGELAGIAVGATVMLNILVAGPSSGGSMNPVRTLGPAVAAGNYRALWVYLVAPTLGAILGAGTYTAVKLRDDEVDAPSQASWKVEERSPPIEELTYDQKPMSQFDCIHVDAPKRSQTLDASLTRKVGAEFVGTFILIFAATAAPIVNQKYNSVMSLIGNAACGGLAAMVVILSTGHISGGHLNPSLTIALAAVRHFRWAHVPAYIIAQVSASICASFALKGVFHPFMSGGVTVPSVGTAQAFALEFLITFNLLFVVTALSTDTRAVGELGGIAVGATVVLNILIAGPSTGGSMNPVRTLGPAVAAGNYKELWVYMVAPTLGAIVGAGTYTAVKHKDDEMDHVPPYVRSFRR
Homology
BLAST of CmUC01G001220 vs. NCBI nr
Match: KAF3787709.1 (putative aquaporin [Nymphaea thermarum])

HSP 1 Score: 663.7 bits (1711), Expect = 1.4e-186
Identity = 360/585 (61.54%), Postives = 418/585 (71.45%), Query Frame = 0

Query: 10  NGTPVAS-APATPGTPGGPLFSGLRVDSLSYDRKSMPRCKCLPVNAPTWGQPHTCFTDFP 69
           N TP AS AP TPGTPG PLFS +RVDSLSY+RKS+P CKC       W   H+CFTDFP
Sbjct: 9   NVTPAASPAPTTPGTPGAPLFSSIRVDSLSYERKSLPHCKCFFPGG--WTPNHSCFTDFP 68

Query: 70  APDVSLTRKLGAEFVGTFILIFAATAGPIVNQKYNGVETLIGNAACAGLAVMIVILSTGH 129
            P VSLTRKLGAEFVGT ILIF ATA PIVN+KYNG ETLIGNA CAGLAVMIVIL+TGH
Sbjct: 69  TPTVSLTRKLGAEFVGTLILIFFATAAPIVNEKYNGAETLIGNAGCAGLAVMIVILATGH 128

Query: 130 ISGAHLNPSLTIAFAALRHFPWVQVPAYIAAQVSASICASFALKGVFHPFMSGGVTVPSV 189
           ISGAHLNP++TI FA+ RHFPWVQVPAYIAAQVSAS+CA F LK VFHPF+ GGVTVPS 
Sbjct: 129 ISGAHLNPAVTIGFASFRHFPWVQVPAYIAAQVSASMCAGFLLKAVFHPFLHGGVTVPSG 188

Query: 190 STGQAFALEFIITFNLLFVVTAVATDTRAVGELAGIAVGATVMLNILVAGPSSGGSMNPV 249
              Q+F LEFII+FNL+FVVTAVATDTRAVGELAGIAVGATVMLNILVAGP SGGSMNPV
Sbjct: 189 PFWQSFMLEFIISFNLMFVVTAVATDTRAVGELAGIAVGATVMLNILVAGPGSGGSMNPV 248

Query: 250 RTLGPAVAAGNYRALWVYLVAPTLGAILGAGTYTAVKLRDDEVDAPSQASWKVEERSPPI 309
           RTLGPA+A GNY  +W+YL+AP +G +LGA TYT V+LRDDEV+ PS+            
Sbjct: 249 RTLGPAIATGNYSGIWIYLIAPPIGTVLGAATYTTVRLRDDEVE-PSR------------ 308

Query: 310 EELTYDQKPMSQFDCIHVDAPKRSQTLDASLTRKVGAEFVGTFILIFAATAAPIVNQKYN 369
                               P R  T       + GAEFVGTF++IFAA AA IVN+KY 
Sbjct: 309 --------------------PPRKFT-------QAGAEFVGTFVIIFAAAAASIVNEKYG 368

Query: 370 SVMSLIGNAACGGLAAMVVILSTGHISGGHLNPSLTIALAAVRHFRWAHVPAYIIAQVSA 429
              +LIG A   GLA MV++++TGHISG HLNP++T++ A   H  WA VPAY  AQV+A
Sbjct: 369 GAETLIGGAGASGLAVMVMVVATGHISGAHLNPAVTLSFATFGHLPWAQVPAYFGAQVTA 428

Query: 430 SICASFALKGVFHPFMSGGVTVPSVGTAQAFALEFLITFNLLFVVTALSTDTRAVGELGG 489
           SI A F LKGV+HPF+ GGVTVPSV   QAF LE LI+FNL+FV+TA+ TD RA  ++ G
Sbjct: 429 SISAGFLLKGVYHPFLHGGVTVPSVSYWQAFLLELLISFNLMFVITAIVTDNRAPRQMAG 488

Query: 490 IAVGATVVLNILIAG----------------------------------PSTGGSMNPVR 549
           IAVG TV++NILIAG                                  P +GGSMNPVR
Sbjct: 489 IAVGTTVMVNILIAGFVASALHLLPDYNSIFCPKIRDRDSEYQSVNICRPGSGGSMNPVR 548

Query: 550 TLGPAVAAGNYKELWVYMVAPTLGAIVGAGTYTAVK--HKDDEMD 558
           TLGPA+AA N+K +W+YM+AP +G IVGA  YTAV+  + DD++D
Sbjct: 549 TLGPAIAARNFKGIWIYMIAPPIGTIVGAAAYTAVRLYNDDDQVD 551

BLAST of CmUC01G001220 vs. NCBI nr
Match: KAF3543925.1 (hypothetical protein DY000_02002997 [Brassica cretica])

HSP 1 Score: 627.1 bits (1616), Expect = 1.5e-175
Identity = 350/559 (62.61%), Postives = 379/559 (67.80%), Query Frame = 0

Query: 11  GTPVASAPATPGTPGGPLFSGLRVDSLSYD-RKSMPRCKCLPVNAPTWGQPHTCFTDFPA 70
           G    +AP TPGTPGGPL +G+RVDS+S+D RK +P CKCLPV    WGQ  TCF DFP 
Sbjct: 2   GAVAVTAPPTPGTPGGPLITGMRVDSMSFDHRKPIPPCKCLPVMGNPWGQHDTCFADFPT 61

Query: 71  PDVSLTRKLGAEFVGTFILIFAATAGPIVNQKYNGVETLIGNAACAGLAVMIVILSTGHI 130
           P VSLTRKLGAEFVGTFILIF ATAGPIVNQKY+G ETLIGNAACAGLAVMI+ILSTGHI
Sbjct: 62  PGVSLTRKLGAEFVGTFILIFTATAGPIVNQKYDGAETLIGNAACAGLAVMIIILSTGHI 121

Query: 131 SGAHLNPSLTIAFAALRHFPWVQVPAYIAAQVSASICASFALKGVFHPFMSGGVTVPSVS 190
           SGAHLNPS+TIAFAALRHFPW QVPAYIAAQVSASICASFALK VFHPFMSGGVTVPSVS
Sbjct: 122 SGAHLNPSMTIAFAALRHFPWAQVPAYIAAQVSASICASFALKAVFHPFMSGGVTVPSVS 181

Query: 191 TGQAFALEFIITFNLLFVVTAVATDTRAVGELAGIAVGATVMLNILVAGPSSGGSMNPVR 250
            GQAFALEFII+F LLFV+TAVATDTRA                                
Sbjct: 182 VGQAFALEFIISFILLFVITAVATDTRA-------------------------------- 241

Query: 251 TLGPAVAAGNYRALWVYLVAPTLGAILGAGTYTAVKLRDDEVDAPSQASWKVEERSPPIE 310
                                                                       
Sbjct: 242 ------------------------------------------------------------ 301

Query: 311 ELTYDQKPMSQFDCIHVDAPKRSQTLDASLTRKVGAEFVGTFILIFAATAAPIVNQKYNS 370
                                            +GAEFVGTFILIF ATA PIVNQKY+ 
Sbjct: 302 ---------------------------------LGAEFVGTFILIFTATAGPIVNQKYDG 361

Query: 371 VMSLIGNAACGGLAAMVVILSTGHISGGHLNPSLTIALAAVRHFRWAHVPAYIIAQVSAS 430
             +LIGNAAC GLA M++ILSTGHISG HLNPSLTIA AA+RHF WAHVPAYI AQVSAS
Sbjct: 362 AETLIGNAACAGLAVMIIILSTGHISGAHLNPSLTIAFAALRHFPWAHVPAYIAAQVSAS 421

Query: 431 ICASFALKGVFHPFMSGGVTVPSVGTAQAFALEFLITFNLLFVVTALSTDTRAVGELGGI 490
           +CASFALK VFHPFMSGGVTVPSV   QAFALEF+I+F LLFVVTA++TDTRAVGEL GI
Sbjct: 422 VCASFALKAVFHPFMSGGVTVPSVSVGQAFALEFIISFILLFVVTAVATDTRAVGELAGI 434

Query: 491 AVGATVVLNILIAGPSTGGSMNPVRTLGPAVAAGNYKELWVYMVAPTLGAIVGAGTYTAV 550
           AVGATV+LNIL+AGPSTG SMNPVRTLGPA+A+GNY+ LWVY+VAPTLGAI GA  YT V
Sbjct: 482 AVGATVMLNILVAGPSTGASMNPVRTLGPALASGNYRLLWVYLVAPTLGAISGAAVYTGV 434

Query: 551 KHKDDEMDHVPPYVRSFRR 569
           K  D+  D  P  VRSFRR
Sbjct: 542 KLNDNVTD-PPRQVRSFRR 434

BLAST of CmUC01G001220 vs. NCBI nr
Match: XP_008437497.1 (PREDICTED: probable aquaporin NIP5-1 [Cucumis melo])

HSP 1 Score: 558.5 bits (1438), Expect = 6.5e-155
Identity = 284/287 (98.95%), Postives = 287/287 (100.00%), Query Frame = 0

Query: 10  NGTPVASAPATPGTPGGPLFSGLRVDSLSYDRKSMPRCKCLPVNAPTWGQPHTCFTDFPA 69
           +GTPVASAPATPGTPGGPLFSGLRVDSLSYDRKSMPRCKCLPVNAPTWGQPHTCFTDFPA
Sbjct: 6   SGTPVASAPATPGTPGGPLFSGLRVDSLSYDRKSMPRCKCLPVNAPTWGQPHTCFTDFPA 65

Query: 70  PDVSLTRKLGAEFVGTFILIFAATAGPIVNQKYNGVETLIGNAACAGLAVMIVILSTGHI 129
           PDVSLTRKLGAEFVGTFILIFAATAGPIVNQKYNGVETLIGNAACAGLAVMIVILSTGHI
Sbjct: 66  PDVSLTRKLGAEFVGTFILIFAATAGPIVNQKYNGVETLIGNAACAGLAVMIVILSTGHI 125

Query: 130 SGAHLNPSLTIAFAALRHFPWVQVPAYIAAQVSASICASFALKGVFHPFMSGGVTVPSVS 189
           SGAHLNPSLTIAFAALRHFPWVQVPAYIAAQVSASICASFALKGVFHPFMSGGVTVPSVS
Sbjct: 126 SGAHLNPSLTIAFAALRHFPWVQVPAYIAAQVSASICASFALKGVFHPFMSGGVTVPSVS 185

Query: 190 TGQAFALEFIITFNLLFVVTAVATDTRAVGELAGIAVGATVMLNILVAGPSSGGSMNPVR 249
           TGQAFALEFIITFNLLFVVTAVATDTRAVGELAGIAVGATVMLNILVAGPSSGGSMNPVR
Sbjct: 186 TGQAFALEFIITFNLLFVVTAVATDTRAVGELAGIAVGATVMLNILVAGPSSGGSMNPVR 245

Query: 250 TLGPAVAAGNYRALWVYLVAPTLGAILGAGTYTAVKLRDDEVDAPSQ 297
           TLGPAVAAGNYRALWVYLVAPTLGAI+GAGTYTAVKLRDDEV+APSQ
Sbjct: 246 TLGPAVAAGNYRALWVYLVAPTLGAIIGAGTYTAVKLRDDEVEAPSQ 292

BLAST of CmUC01G001220 vs. NCBI nr
Match: XP_004145889.1 (probable aquaporin NIP5-1 [Cucumis sativus] >KGN49946.1 hypothetical protein Csa_000397 [Cucumis sativus])

HSP 1 Score: 556.6 bits (1433), Expect = 2.5e-154
Identity = 283/287 (98.61%), Postives = 286/287 (99.65%), Query Frame = 0

Query: 10  NGTPVASAPATPGTPGGPLFSGLRVDSLSYDRKSMPRCKCLPVNAPTWGQPHTCFTDFPA 69
           +GTPVASAPATPGTPGGPLFSGLRVDSLSYDRKSMPRCKCLPVNAPTWGQPHTCFTDFPA
Sbjct: 6   SGTPVASAPATPGTPGGPLFSGLRVDSLSYDRKSMPRCKCLPVNAPTWGQPHTCFTDFPA 65

Query: 70  PDVSLTRKLGAEFVGTFILIFAATAGPIVNQKYNGVETLIGNAACAGLAVMIVILSTGHI 129
           PDVSLTRKLGAEFVGTFILIFAATAGPIVNQKYNGVETLIGNAACAGLAVMIVILSTGHI
Sbjct: 66  PDVSLTRKLGAEFVGTFILIFAATAGPIVNQKYNGVETLIGNAACAGLAVMIVILSTGHI 125

Query: 130 SGAHLNPSLTIAFAALRHFPWVQVPAYIAAQVSASICASFALKGVFHPFMSGGVTVPSVS 189
           SGAHLNPSLTIAFAALRHFPWVQVPAYIAAQVSASICASFALKGVFHPFMSGGVTVPSVS
Sbjct: 126 SGAHLNPSLTIAFAALRHFPWVQVPAYIAAQVSASICASFALKGVFHPFMSGGVTVPSVS 185

Query: 190 TGQAFALEFIITFNLLFVVTAVATDTRAVGELAGIAVGATVMLNILVAGPSSGGSMNPVR 249
            GQAFALEFIITFNLLFVVTAVATDTRAVGELAGIAVGATVMLNILVAGPSSGGSMNPVR
Sbjct: 186 IGQAFALEFIITFNLLFVVTAVATDTRAVGELAGIAVGATVMLNILVAGPSSGGSMNPVR 245

Query: 250 TLGPAVAAGNYRALWVYLVAPTLGAILGAGTYTAVKLRDDEVDAPSQ 297
           TLGPAVAAGNY+ALWVYLVAPTLGAI+GAGTYTAVKLRDDEVDAPSQ
Sbjct: 246 TLGPAVAAGNYKALWVYLVAPTLGAIIGAGTYTAVKLRDDEVDAPSQ 292

BLAST of CmUC01G001220 vs. NCBI nr
Match: XP_038875525.1 (probable aquaporin NIP5-1 [Benincasa hispida])

HSP 1 Score: 556.6 bits (1433), Expect = 2.5e-154
Identity = 283/287 (98.61%), Postives = 287/287 (100.00%), Query Frame = 0

Query: 10  NGTPVASAPATPGTPGGPLFSGLRVDSLSYDRKSMPRCKCLPVNAPTWGQPHTCFTDFPA 69
           +GTPVASAPATPGTPGGPLFSGLRVDSLSYDRKSMPRCKCLPVNAPTWGQPHTCFTDFPA
Sbjct: 6   SGTPVASAPATPGTPGGPLFSGLRVDSLSYDRKSMPRCKCLPVNAPTWGQPHTCFTDFPA 65

Query: 70  PDVSLTRKLGAEFVGTFILIFAATAGPIVNQKYNGVETLIGNAACAGLAVMIVILSTGHI 129
           PDVSLTRKLGAEFVGTFILIFAATAGPIVNQKYNGVETLIGNAACAGLAVMIVILSTGHI
Sbjct: 66  PDVSLTRKLGAEFVGTFILIFAATAGPIVNQKYNGVETLIGNAACAGLAVMIVILSTGHI 125

Query: 130 SGAHLNPSLTIAFAALRHFPWVQVPAYIAAQVSASICASFALKGVFHPFMSGGVTVPSVS 189
           SGAHLNPSLTIAFAALRHFPWVQVPAYIAAQVSASICASFALKGVFHPFMSGGVTVPSVS
Sbjct: 126 SGAHLNPSLTIAFAALRHFPWVQVPAYIAAQVSASICASFALKGVFHPFMSGGVTVPSVS 185

Query: 190 TGQAFALEFIITFNLLFVVTAVATDTRAVGELAGIAVGATVMLNILVAGPSSGGSMNPVR 249
           TGQAFALEFIITFNLLFVVTAVATDTRAVGELAGIAVGATVMLNILVAGPSSGGSMNPVR
Sbjct: 186 TGQAFALEFIITFNLLFVVTAVATDTRAVGELAGIAVGATVMLNILVAGPSSGGSMNPVR 245

Query: 250 TLGPAVAAGNYRALWVYLVAPTLGAILGAGTYTAVKLRDDEVDAPSQ 297
           TLGPAVAAGNYRALWVYLVAPTLGAI+GAGTYTAVKLR+DEV+APSQ
Sbjct: 246 TLGPAVAAGNYRALWVYLVAPTLGAIVGAGTYTAVKLREDEVEAPSQ 292

BLAST of CmUC01G001220 vs. ExPASy Swiss-Prot
Match: Q9SV84 (Probable aquaporin NIP5-1 OS=Arabidopsis thaliana OX=3702 GN=NIP5-1 PE=2 SV=1)

HSP 1 Score: 474.6 bits (1220), Expect = 1.6e-132
Identity = 242/278 (87.05%), Postives = 253/278 (91.01%), Query Frame = 0

Query: 18  PATPGTPGGPLFSGLRVDSLSYD-RKSMPRCKCLPVNAPTWGQPHTCFTDFPAPDVSLTR 77
           P TPGTPGGPL +G+RVDS+S+D RK  PRCKCLPV   TWGQ  TCFTDFP+PDVSLTR
Sbjct: 19  PGTPGTPGGPLITGMRVDSMSFDHRKPTPRCKCLPVMGSTWGQHDTCFTDFPSPDVSLTR 78

Query: 78  KLGAEFVGTFILIFAATAGPIVNQKYNGVETLIGNAACAGLAVMIVILSTGHISGAHLNP 137
           KLGAEFVGTFILIF ATAGPIVNQKY+G ETLIGNAACAGLAVMI+ILSTGHISGAHLNP
Sbjct: 79  KLGAEFVGTFILIFTATAGPIVNQKYDGAETLIGNAACAGLAVMIIILSTGHISGAHLNP 138

Query: 138 SLTIAFAALRHFPWVQVPAYIAAQVSASICASFALKGVFHPFMSGGVTVPSVSTGQAFAL 197
           SLTIAFAALRHFPW  VPAYIAAQVSASICASFALKGVFHPFMSGGVT+PSVS GQAFAL
Sbjct: 139 SLTIAFAALRHFPWAHVPAYIAAQVSASICASFALKGVFHPFMSGGVTIPSVSLGQAFAL 198

Query: 198 EFIITFNLLFVVTAVATDTRAVGELAGIAVGATVMLNILVAGPSSGGSMNPVRTLGPAVA 257
           EFIITF LLFVVTAVATDTRAVGELAGIAVGATVMLNILVAGPS+GGSMNPVRTLGPAVA
Sbjct: 199 EFIITFILLFVVTAVATDTRAVGELAGIAVGATVMLNILVAGPSTGGSMNPVRTLGPAVA 258

Query: 258 AGNYRALWVYLVAPTLGAILGAGTYTAVKLRDDEVDAP 295
           +GNYR+LWVYLVAPTLGAI GA  YT VKL D   D P
Sbjct: 259 SGNYRSLWVYLVAPTLGAISGAAVYTGVKLNDSVTDPP 296

BLAST of CmUC01G001220 vs. ExPASy Swiss-Prot
Match: Q0IWF3 (Aquaporin NIP3-1 OS=Oryza sativa subsp. japonica OX=39947 GN=NIP3-1 PE=2 SV=2)

HSP 1 Score: 429.1 bits (1102), Expect = 7.8e-119
Identity = 224/284 (78.87%), Postives = 242/284 (85.21%), Query Frame = 0

Query: 15  ASAPATPGTPGGPLFSGLRVDSLSYDRKSMPRCKCLPVN-APTWG-QPHTCFTDFPAPDV 74
           ASAPATPGTP  PLF+G RVDSLSY+RKSMPRCKCLP   A  W    H C  + PAPDV
Sbjct: 21  ASAPATPGTP-APLFAGPRVDSLSYERKSMPRCKCLPAAVAEAWAPSAHGCVVEIPAPDV 80

Query: 75  SLTRKLGAEFVGTFILIFAATAGPIVNQKYNGVETLIGNAACAGLAVMIVILSTGHISGA 134
           SLTRKLGAEFVGTFILIF ATA PIVNQKY G  +  GNAACAGLAV  +ILSTGHISGA
Sbjct: 81  SLTRKLGAEFVGTFILIFFATAAPIVNQKYGGAISPFGNAACAGLAVTTIILSTGHISGA 140

Query: 135 HLNPSLTIAFAALRHFPWVQVPAYIAAQVSASICASFALKGVFHPFMSGGVTV--PSVST 194
           HLNPSLTIAFAALRHFPW+QVPAY+A QV  SICA FALKGVFHPF+SGGVTV  P++ST
Sbjct: 141 HLNPSLTIAFAALRHFPWLQVPAYVAVQVLGSICAGFALKGVFHPFLSGGVTVPDPTIST 200

Query: 195 GQAFALEFIITFNLLFVVTAVATDTRAVGELAGIAVGATVMLNILVAGPSSGGSMNPVRT 254
            QAF  EFIITFNLLFVVTAVATDTRAVGELAGIAVGA V LNIL+AGP++GGSMNPVRT
Sbjct: 201 AQAFFTEFIITFNLLFVVTAVATDTRAVGELAGIAVGAAVTLNILIAGPTTGGSMNPVRT 260

Query: 255 LGPAVAAGNYRALWVYLVAPTLGAILGAGTYTAVKLRDDEVDAP 295
           LGPAVAAGNYR LW+YL+APTLGA+ GAG YTAVKLRD+  + P
Sbjct: 261 LGPAVAAGNYRQLWIYLIAPTLGAVAGAGVYTAVKLRDENGETP 303

BLAST of CmUC01G001220 vs. ExPASy Swiss-Prot
Match: Q9ATN1 (Aquaporin NIP3-1 OS=Zea mays OX=4577 GN=NIP3-1 PE=2 SV=1)

HSP 1 Score: 422.9 bits (1086), Expect = 5.6e-117
Identity = 228/293 (77.82%), Postives = 246/293 (83.96%), Query Frame = 0

Query: 9   PNGTPV-ASAPATPGTPGGPLFS--GLRVDSLSYDRKSMPRCKCLPVNA-PTWG-QPHTC 68
           P  TP   SAPATPGTP  PLFS  G RVDSLSY+RKSMPRCKCLP+ A   WG   HTC
Sbjct: 3   PGSTPPNGSAPATPGTP-APLFSSGGPRVDSLSYERKSMPRCKCLPLPAVEGWGVATHTC 62

Query: 69  FTDFPAPDVSLTRKLGAEFVGTFILIFAATAGPIVNQKYNGVETLIGNAACAGLAVMIVI 128
             + PAPDVSLTRKLGAEFVGTFILIF ATA PIVNQKY G  +  GNAACAGLAV  VI
Sbjct: 63  VVEIPAPDVSLTRKLGAEFVGTFILIFFATAAPIVNQKYGGAISPFGNAACAGLAVATVI 122

Query: 129 LSTGHISGAHLNPSLTIAFAALRHFPWVQVPAYIAAQVSASICASFALKGVFHPFMSGGV 188
           LSTGHISGAHLNPSLTIAFAALRHFPW+QVPAY+A Q  AS+CA+FALKGVFHPF+SGGV
Sbjct: 123 LSTGHISGAHLNPSLTIAFAALRHFPWLQVPAYVAVQALASVCAAFALKGVFHPFLSGGV 182

Query: 189 TVP--SVSTGQAFALEFIITFNLLFVVTAVATDTRAVGELAGIAVGATVMLNILVAGPSS 248
           TVP  +VST QAF  EFII+FNLLFVVTAVATDTRAVGELAGIAVGA V LNILVAGP++
Sbjct: 183 TVPDATVSTAQAFFTEFIISFNLLFVVTAVATDTRAVGELAGIAVGAAVTLNILVAGPTT 242

Query: 249 GGSMNPVRTLGPAVAAGNYRALWVYLVAPTLGAILGAGTYTAVKLRDDEVDAP 295
           GGSMNPVRTLGPAVAAGNYR LW+YL+APTLGA+ GA  Y AVKLRD+  + P
Sbjct: 243 GGSMNPVRTLGPAVAAGNYRQLWIYLLAPTLGALAGASVYKAVKLRDENGETP 294

BLAST of CmUC01G001220 vs. ExPASy Swiss-Prot
Match: Q9SAI4 (Aquaporin NIP6-1 OS=Arabidopsis thaliana OX=3702 GN=NIP6-1 PE=1 SV=1)

HSP 1 Score: 355.5 bits (911), Expect = 1.1e-96
Identity = 198/293 (67.58%), Postives = 225/293 (76.79%), Query Frame = 0

Query: 16  SAPA-TPGTPGGPLFSGLRVDSLSYDRKSMPR-----CKCLPVNAPTWG------QPHTC 75
           S PA TPGTPG PLF G       ++ +  P+     CKC  V+   W        P TC
Sbjct: 11  STPATTPGTPGAPLFGGFEGKRNGHNGRYTPKSLLKSCKCFSVD-NEWALEDGRLPPVTC 70

Query: 76  FTDFPAPDVSLTRKLGAEFVGTFILIFAATAGPIVNQKYNGVETLIGNAACAGLAVMIVI 135
               P P+VSL RKLGAEFVGT ILIFA TA  IVNQK +G ETLIG AA AGLAVMIVI
Sbjct: 71  --SLPPPNVSLYRKLGAEFVGTLILIFAGTATAIVNQKTDGAETLIGCAASAGLAVMIVI 130

Query: 136 LSTGHISGAHLNPSLTIAFAALRHFPWVQVPAYIAAQVSASICASFALKGVFHPFMSGGV 195
           LSTGHISGAHLNP++TIAFAAL+HFPW  VP YI AQV AS+ A+FALK VF P MSGGV
Sbjct: 131 LSTGHISGAHLNPAVTIAFAALKHFPWKHVPVYIGAQVMASVSAAFALKAVFEPTMSGGV 190

Query: 196 TVPSVSTGQAFALEFIITFNLLFVVTAVATDTRAVGELAGIAVGATVMLNILVAGPSSGG 255
           TVP+V   QAFALEFII+FNL+FVVTAVATDTRAVGELAGIAVGATVMLNIL+AGP++  
Sbjct: 191 TVPTVGLSQAFALEFIISFNLMFVVTAVATDTRAVGELAGIAVGATVMLNILIAGPATSA 250

Query: 256 SMNPVRTLGPAVAAGNYRALWVYLVAPTLGAILGAGTYTAVKLRDDEVDAPSQ 297
           SMNPVRTLGPA+AA NYRA+WVYL AP LGA++GAGTYT VKL +++ +AP +
Sbjct: 251 SMNPVRTLGPAIAANNYRAIWVYLTAPILGALIGAGTYTIVKLPEED-EAPKE 299

BLAST of CmUC01G001220 vs. ExPASy Swiss-Prot
Match: Q7EYH7 (Aquaporin NIP3-2 OS=Oryza sativa subsp. japonica OX=39947 GN=NIP3-2 PE=2 SV=1)

HSP 1 Score: 235.3 bits (599), Expect = 1.7e-60
Identity = 123/217 (56.68%), Postives = 157/217 (72.35%), Query Frame = 0

Query: 70  PDVSLTRKLGAEFVGTFILIFAATAGPIVNQKYNGVETLIGNAACAGLAVMIVILSTGHI 129
           P V L +K+GAEF GTF LIF   +  I+++++ GVE+L+G A  AGLAV +++LS  HI
Sbjct: 89  PPVPLVKKVGAEFFGTFTLIFTVLSTIIMDEQHKGVESLLGIATSAGLAVTVLVLSLIHI 148

Query: 130 SGAHLNPSLTIAFAALRHFPWVQVPAYIAAQVSASICASFALKGVFHPFMSGGVTVPSVS 189
           SG HLNP+++IA     H P   +  YIAAQ+  SI ASFA+KG++HP   G VTVP V 
Sbjct: 149 SGCHLNPAVSIAMTVFGHLPPAHLLPYIAAQILGSITASFAVKGMYHPVNPGIVTVPKVG 208

Query: 190 TGQAFALEFIITFNLLFVVTAVATDTRAVGELAGIAVGATVMLNILVAGPSSGGSMNPVR 249
           T +AF LEF+ TF LLF++TA+ATD  AV EL  +AVGAT+M+N LVAGPS+G SMNP R
Sbjct: 209 TVEAFFLEFVTTFVLLFIITALATDPNAVKELIAVAVGATIMMNALVAGPSTGASMNPAR 268

Query: 250 TLGPAVAAGNYRALWVYLVAPTLGAILGAGTYTAVKL 287
           TLGPA+A G Y  +WVYLVA  LGA+ G G Y A+KL
Sbjct: 269 TLGPAIATGRYTQIWVYLVATPLGAVAGEGFYFAIKL 305

BLAST of CmUC01G001220 vs. ExPASy TrEMBL
Match: A0A1S3AU64 (probable aquaporin NIP5-1 OS=Cucumis melo OX=3656 GN=LOC103482897 PE=3 SV=1)

HSP 1 Score: 558.5 bits (1438), Expect = 3.1e-155
Identity = 284/287 (98.95%), Postives = 287/287 (100.00%), Query Frame = 0

Query: 10  NGTPVASAPATPGTPGGPLFSGLRVDSLSYDRKSMPRCKCLPVNAPTWGQPHTCFTDFPA 69
           +GTPVASAPATPGTPGGPLFSGLRVDSLSYDRKSMPRCKCLPVNAPTWGQPHTCFTDFPA
Sbjct: 6   SGTPVASAPATPGTPGGPLFSGLRVDSLSYDRKSMPRCKCLPVNAPTWGQPHTCFTDFPA 65

Query: 70  PDVSLTRKLGAEFVGTFILIFAATAGPIVNQKYNGVETLIGNAACAGLAVMIVILSTGHI 129
           PDVSLTRKLGAEFVGTFILIFAATAGPIVNQKYNGVETLIGNAACAGLAVMIVILSTGHI
Sbjct: 66  PDVSLTRKLGAEFVGTFILIFAATAGPIVNQKYNGVETLIGNAACAGLAVMIVILSTGHI 125

Query: 130 SGAHLNPSLTIAFAALRHFPWVQVPAYIAAQVSASICASFALKGVFHPFMSGGVTVPSVS 189
           SGAHLNPSLTIAFAALRHFPWVQVPAYIAAQVSASICASFALKGVFHPFMSGGVTVPSVS
Sbjct: 126 SGAHLNPSLTIAFAALRHFPWVQVPAYIAAQVSASICASFALKGVFHPFMSGGVTVPSVS 185

Query: 190 TGQAFALEFIITFNLLFVVTAVATDTRAVGELAGIAVGATVMLNILVAGPSSGGSMNPVR 249
           TGQAFALEFIITFNLLFVVTAVATDTRAVGELAGIAVGATVMLNILVAGPSSGGSMNPVR
Sbjct: 186 TGQAFALEFIITFNLLFVVTAVATDTRAVGELAGIAVGATVMLNILVAGPSSGGSMNPVR 245

Query: 250 TLGPAVAAGNYRALWVYLVAPTLGAILGAGTYTAVKLRDDEVDAPSQ 297
           TLGPAVAAGNYRALWVYLVAPTLGAI+GAGTYTAVKLRDDEV+APSQ
Sbjct: 246 TLGPAVAAGNYRALWVYLVAPTLGAIIGAGTYTAVKLRDDEVEAPSQ 292

BLAST of CmUC01G001220 vs. ExPASy TrEMBL
Match: A0A0A0KQH1 (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_5G146190 PE=3 SV=1)

HSP 1 Score: 556.6 bits (1433), Expect = 1.2e-154
Identity = 283/287 (98.61%), Postives = 286/287 (99.65%), Query Frame = 0

Query: 10  NGTPVASAPATPGTPGGPLFSGLRVDSLSYDRKSMPRCKCLPVNAPTWGQPHTCFTDFPA 69
           +GTPVASAPATPGTPGGPLFSGLRVDSLSYDRKSMPRCKCLPVNAPTWGQPHTCFTDFPA
Sbjct: 6   SGTPVASAPATPGTPGGPLFSGLRVDSLSYDRKSMPRCKCLPVNAPTWGQPHTCFTDFPA 65

Query: 70  PDVSLTRKLGAEFVGTFILIFAATAGPIVNQKYNGVETLIGNAACAGLAVMIVILSTGHI 129
           PDVSLTRKLGAEFVGTFILIFAATAGPIVNQKYNGVETLIGNAACAGLAVMIVILSTGHI
Sbjct: 66  PDVSLTRKLGAEFVGTFILIFAATAGPIVNQKYNGVETLIGNAACAGLAVMIVILSTGHI 125

Query: 130 SGAHLNPSLTIAFAALRHFPWVQVPAYIAAQVSASICASFALKGVFHPFMSGGVTVPSVS 189
           SGAHLNPSLTIAFAALRHFPWVQVPAYIAAQVSASICASFALKGVFHPFMSGGVTVPSVS
Sbjct: 126 SGAHLNPSLTIAFAALRHFPWVQVPAYIAAQVSASICASFALKGVFHPFMSGGVTVPSVS 185

Query: 190 TGQAFALEFIITFNLLFVVTAVATDTRAVGELAGIAVGATVMLNILVAGPSSGGSMNPVR 249
            GQAFALEFIITFNLLFVVTAVATDTRAVGELAGIAVGATVMLNILVAGPSSGGSMNPVR
Sbjct: 186 IGQAFALEFIITFNLLFVVTAVATDTRAVGELAGIAVGATVMLNILVAGPSSGGSMNPVR 245

Query: 250 TLGPAVAAGNYRALWVYLVAPTLGAILGAGTYTAVKLRDDEVDAPSQ 297
           TLGPAVAAGNY+ALWVYLVAPTLGAI+GAGTYTAVKLRDDEVDAPSQ
Sbjct: 246 TLGPAVAAGNYKALWVYLVAPTLGAIIGAGTYTAVKLRDDEVDAPSQ 292

BLAST of CmUC01G001220 vs. ExPASy TrEMBL
Match: A0A6J1H3D6 (probable aquaporin NIP5-1 OS=Cucurbita moschata OX=3662 GN=LOC111459297 PE=3 SV=1)

HSP 1 Score: 552.0 bits (1421), Expect = 2.9e-153
Identity = 280/287 (97.56%), Postives = 283/287 (98.61%), Query Frame = 0

Query: 10  NGTPVASAPATPGTPGGPLFSGLRVDSLSYDRKSMPRCKCLPVNAPTWGQPHTCFTDFPA 69
           +GTPV SAPATPGTPGGPLFSGLRVDSLSYDRKSMPRCKCLPVNAPTWGQPHTCFTDFP 
Sbjct: 6   SGTPVPSAPATPGTPGGPLFSGLRVDSLSYDRKSMPRCKCLPVNAPTWGQPHTCFTDFPV 65

Query: 70  PDVSLTRKLGAEFVGTFILIFAATAGPIVNQKYNGVETLIGNAACAGLAVMIVILSTGHI 129
           PDVSLTRKLGAEFVGTFILIFAATAGPIVNQKYNG ETLIGNAACAGLAVMIVILSTGHI
Sbjct: 66  PDVSLTRKLGAEFVGTFILIFAATAGPIVNQKYNGAETLIGNAACAGLAVMIVILSTGHI 125

Query: 130 SGAHLNPSLTIAFAALRHFPWVQVPAYIAAQVSASICASFALKGVFHPFMSGGVTVPSVS 189
           SGAHLNPSLTIAFAALRHFPWVQVPAYIAAQVSASICASFALKGVFHPFMSGGVTVPSVS
Sbjct: 126 SGAHLNPSLTIAFAALRHFPWVQVPAYIAAQVSASICASFALKGVFHPFMSGGVTVPSVS 185

Query: 190 TGQAFALEFIITFNLLFVVTAVATDTRAVGELAGIAVGATVMLNILVAGPSSGGSMNPVR 249
           TGQAFALEF ITFNLLFVVTAVATDTRAVGELAGIAVGATVM+NILVAGPSSGGSMNPVR
Sbjct: 186 TGQAFALEFFITFNLLFVVTAVATDTRAVGELAGIAVGATVMVNILVAGPSSGGSMNPVR 245

Query: 250 TLGPAVAAGNYRALWVYLVAPTLGAILGAGTYTAVKLRDDEVDAPSQ 297
           TLGPAVAAGNYRALWVYLVAPTLGAI+GAGTYTAVKLRDDEVDAPSQ
Sbjct: 246 TLGPAVAAGNYRALWVYLVAPTLGAIVGAGTYTAVKLRDDEVDAPSQ 292

BLAST of CmUC01G001220 vs. ExPASy TrEMBL
Match: A0A6J1K9S5 (probable aquaporin NIP5-1 OS=Cucurbita maxima OX=3661 GN=LOC111491380 PE=3 SV=1)

HSP 1 Score: 550.8 bits (1418), Expect = 6.6e-153
Identity = 278/287 (96.86%), Postives = 283/287 (98.61%), Query Frame = 0

Query: 10  NGTPVASAPATPGTPGGPLFSGLRVDSLSYDRKSMPRCKCLPVNAPTWGQPHTCFTDFPA 69
           +GTPV SAPATPGTPGGPLFSGLRVDSLSYDRKSMPRCKCLPVNAPTWGQPHTCFTDFP 
Sbjct: 6   SGTPVPSAPATPGTPGGPLFSGLRVDSLSYDRKSMPRCKCLPVNAPTWGQPHTCFTDFPV 65

Query: 70  PDVSLTRKLGAEFVGTFILIFAATAGPIVNQKYNGVETLIGNAACAGLAVMIVILSTGHI 129
           PDVSLTRKLGAEFVGTFILIFAATAGPIVNQKYNG ETLIGNAACAG+AVMIVILSTGHI
Sbjct: 66  PDVSLTRKLGAEFVGTFILIFAATAGPIVNQKYNGAETLIGNAACAGMAVMIVILSTGHI 125

Query: 130 SGAHLNPSLTIAFAALRHFPWVQVPAYIAAQVSASICASFALKGVFHPFMSGGVTVPSVS 189
           SGAHLNPSLTIAFAALRHFPW+QVPAYIAAQVSASICASFALKGVFHPFMSGGVTVPSVS
Sbjct: 126 SGAHLNPSLTIAFAALRHFPWIQVPAYIAAQVSASICASFALKGVFHPFMSGGVTVPSVS 185

Query: 190 TGQAFALEFIITFNLLFVVTAVATDTRAVGELAGIAVGATVMLNILVAGPSSGGSMNPVR 249
           TGQAFALEF ITFNLLFVVTAVATDTRAVGELAGIAVGATVM+NILVAGPSSGGSMNPVR
Sbjct: 186 TGQAFALEFFITFNLLFVVTAVATDTRAVGELAGIAVGATVMVNILVAGPSSGGSMNPVR 245

Query: 250 TLGPAVAAGNYRALWVYLVAPTLGAILGAGTYTAVKLRDDEVDAPSQ 297
           TLGPAVAAGNYRALWVYLVAPTLGAI+GAGTYTAVKLRDDEVDAPSQ
Sbjct: 246 TLGPAVAAGNYRALWVYLVAPTLGAIVGAGTYTAVKLRDDEVDAPSQ 292

BLAST of CmUC01G001220 vs. ExPASy TrEMBL
Match: B9RZ04 (Nodulin-26, putative OS=Ricinus communis OX=3988 GN=RCOM_1315270 PE=3 SV=1)

HSP 1 Score: 530.4 bits (1365), Expect = 9.2e-147
Identity = 267/284 (94.01%), Postives = 276/284 (97.18%), Query Frame = 0

Query: 11  GTPVASAPATPGTPGGPLFSGLRVDSLSYDRKSMPRCKCLPVNAPTWGQPHTCFTDFPAP 70
           GTP  SAP TPGTPGGPLFS LR+DSLSYDRKSMPRCKC PVNAPT+G PHTCFTDFPAP
Sbjct: 7   GTPTVSAPNTPGTPGGPLFSALRIDSLSYDRKSMPRCKCFPVNAPTFGPPHTCFTDFPAP 66

Query: 71  DVSLTRKLGAEFVGTFILIFAATAGPIVNQKYNGVETLIGNAACAGLAVMIVILSTGHIS 130
           D+SLTRKLGAEFVGTFILIFAATAGPIVNQKYNGVETLIGNAACAGLAVMI+ILSTGHIS
Sbjct: 67  DISLTRKLGAEFVGTFILIFAATAGPIVNQKYNGVETLIGNAACAGLAVMIIILSTGHIS 126

Query: 131 GAHLNPSLTIAFAALRHFPWVQVPAYIAAQVSASICASFALKGVFHPFMSGGVTVPSVST 190
           GAHLNPSLTIAFAALRHFPWVQVPAYIAAQVSASICASFALKGVFHPFMSGGVTVPSVST
Sbjct: 127 GAHLNPSLTIAFAALRHFPWVQVPAYIAAQVSASICASFALKGVFHPFMSGGVTVPSVST 186

Query: 191 GQAFALEFIITFNLLFVVTAVATDTRAVGELAGIAVGATVMLNILVAGPSSGGSMNPVRT 250
           GQAFALEF+ITFNLLFVVTAVATDTRAVGELAGIAVGATVMLNILVAGPSSGGSMNPVRT
Sbjct: 187 GQAFALEFLITFNLLFVVTAVATDTRAVGELAGIAVGATVMLNILVAGPSSGGSMNPVRT 246

Query: 251 LGPAVAAGNYRALWVYLVAPTLGAILGAGTYTAVKLRDDEVDAP 295
           LGPAVAAGNYRALW+YLVAPTLGAI GAGTY+AVKLR++EVD P
Sbjct: 247 LGPAVAAGNYRALWIYLVAPTLGAIAGAGTYSAVKLREEEVDPP 290

BLAST of CmUC01G001220 vs. TAIR 10
Match: AT4G10380.1 (NOD26-like intrinsic protein 5;1 )

HSP 1 Score: 474.6 bits (1220), Expect = 1.2e-133
Identity = 242/278 (87.05%), Postives = 253/278 (91.01%), Query Frame = 0

Query: 18  PATPGTPGGPLFSGLRVDSLSYD-RKSMPRCKCLPVNAPTWGQPHTCFTDFPAPDVSLTR 77
           P TPGTPGGPL +G+RVDS+S+D RK  PRCKCLPV   TWGQ  TCFTDFP+PDVSLTR
Sbjct: 19  PGTPGTPGGPLITGMRVDSMSFDHRKPTPRCKCLPVMGSTWGQHDTCFTDFPSPDVSLTR 78

Query: 78  KLGAEFVGTFILIFAATAGPIVNQKYNGVETLIGNAACAGLAVMIVILSTGHISGAHLNP 137
           KLGAEFVGTFILIF ATAGPIVNQKY+G ETLIGNAACAGLAVMI+ILSTGHISGAHLNP
Sbjct: 79  KLGAEFVGTFILIFTATAGPIVNQKYDGAETLIGNAACAGLAVMIIILSTGHISGAHLNP 138

Query: 138 SLTIAFAALRHFPWVQVPAYIAAQVSASICASFALKGVFHPFMSGGVTVPSVSTGQAFAL 197
           SLTIAFAALRHFPW  VPAYIAAQVSASICASFALKGVFHPFMSGGVT+PSVS GQAFAL
Sbjct: 139 SLTIAFAALRHFPWAHVPAYIAAQVSASICASFALKGVFHPFMSGGVTIPSVSLGQAFAL 198

Query: 198 EFIITFNLLFVVTAVATDTRAVGELAGIAVGATVMLNILVAGPSSGGSMNPVRTLGPAVA 257
           EFIITF LLFVVTAVATDTRAVGELAGIAVGATVMLNILVAGPS+GGSMNPVRTLGPAVA
Sbjct: 199 EFIITFILLFVVTAVATDTRAVGELAGIAVGATVMLNILVAGPSTGGSMNPVRTLGPAVA 258

Query: 258 AGNYRALWVYLVAPTLGAILGAGTYTAVKLRDDEVDAP 295
           +GNYR+LWVYLVAPTLGAI GA  YT VKL D   D P
Sbjct: 259 SGNYRSLWVYLVAPTLGAISGAAVYTGVKLNDSVTDPP 296

BLAST of CmUC01G001220 vs. TAIR 10
Match: AT1G80760.1 (NOD26-like intrinsic protein 6;1 )

HSP 1 Score: 355.5 bits (911), Expect = 7.8e-98
Identity = 198/293 (67.58%), Postives = 225/293 (76.79%), Query Frame = 0

Query: 16  SAPA-TPGTPGGPLFSGLRVDSLSYDRKSMPR-----CKCLPVNAPTWG------QPHTC 75
           S PA TPGTPG PLF G       ++ +  P+     CKC  V+   W        P TC
Sbjct: 11  STPATTPGTPGAPLFGGFEGKRNGHNGRYTPKSLLKSCKCFSVD-NEWALEDGRLPPVTC 70

Query: 76  FTDFPAPDVSLTRKLGAEFVGTFILIFAATAGPIVNQKYNGVETLIGNAACAGLAVMIVI 135
               P P+VSL RKLGAEFVGT ILIFA TA  IVNQK +G ETLIG AA AGLAVMIVI
Sbjct: 71  --SLPPPNVSLYRKLGAEFVGTLILIFAGTATAIVNQKTDGAETLIGCAASAGLAVMIVI 130

Query: 136 LSTGHISGAHLNPSLTIAFAALRHFPWVQVPAYIAAQVSASICASFALKGVFHPFMSGGV 195
           LSTGHISGAHLNP++TIAFAAL+HFPW  VP YI AQV AS+ A+FALK VF P MSGGV
Sbjct: 131 LSTGHISGAHLNPAVTIAFAALKHFPWKHVPVYIGAQVMASVSAAFALKAVFEPTMSGGV 190

Query: 196 TVPSVSTGQAFALEFIITFNLLFVVTAVATDTRAVGELAGIAVGATVMLNILVAGPSSGG 255
           TVP+V   QAFALEFII+FNL+FVVTAVATDTRAVGELAGIAVGATVMLNIL+AGP++  
Sbjct: 191 TVPTVGLSQAFALEFIISFNLMFVVTAVATDTRAVGELAGIAVGATVMLNILIAGPATSA 250

Query: 256 SMNPVRTLGPAVAAGNYRALWVYLVAPTLGAILGAGTYTAVKLRDDEVDAPSQ 297
           SMNPVRTLGPA+AA NYRA+WVYL AP LGA++GAGTYT VKL +++ +AP +
Sbjct: 251 SMNPVRTLGPAIAANNYRAIWVYLTAPILGALIGAGTYTIVKLPEED-EAPKE 299

BLAST of CmUC01G001220 vs. TAIR 10
Match: AT5G37820.1 (NOD26-like intrinsic protein 4;2 )

HSP 1 Score: 208.4 bits (529), Expect = 1.5e-53
Identity = 111/219 (50.68%), Postives = 146/219 (66.67%), Query Frame = 0

Query: 72  VSLTRKLGAEFVGTFILIFAATAGPIVNQKYNGVETLIGNAACAGLAVMIVILSTGHISG 131
           V LT+KL AE +GT+ +IF+     +VN  Y G  T  G     GL VM++I STGHISG
Sbjct: 39  VCLTQKLIAEMIGTYFIIFSGCGVVVVNVLYGGTITFPGICVTWGLIVMVMIYSTGHISG 98

Query: 132 AHLNPSLTIAFAALRHFPWVQVPAYIAAQVSASICASFALKGVFH--PFMSGGVTVPSVS 191
           AH NP++T+ FA  R FPW QVP YI AQ++ S+ AS  L+ +F+  P    G T P+ S
Sbjct: 99  AHFNPAVTVTFAVFRRFPWYQVPLYIGAQLTGSLLASLTLRLMFNVTPKAFFG-TTPTDS 158

Query: 192 TGQAFALEFIITFNLLFVVTAVATDTRAVGELAGIAVGATVMLNILVAGPSSGGSMNPVR 251
           +GQA   E II+F L+FV++ VATD+RA GELAGIAVG T++LN+ VAGP SG SMNP R
Sbjct: 159 SGQALVAEIIISFLLMFVISGVATDSRATGELAGIAVGMTIILNVFVAGPISGASMNPAR 218

Query: 252 TLGPAVAAGNYRALWVYLVAPTLGAILGAGTYTAVKLRD 289
           +LGPA+  G Y+ +WVY+V P +G   G   Y  ++  D
Sbjct: 219 SLGPAIVMGRYKGIWVYIVGPFVGIFAGGFVYNFMRFTD 256

BLAST of CmUC01G001220 vs. TAIR 10
Match: AT4G19030.1 (NOD26-like major intrinsic protein 1 )

HSP 1 Score: 206.5 bits (524), Expect = 5.8e-53
Identity = 114/225 (50.67%), Postives = 152/225 (67.56%), Query Frame = 0

Query: 72  VSLTRKLGAEFVGTFILIFAATAGPIVNQKYNGVETLIGNAACAGLAVMIVILSTGHISG 131
           V   +KL AEF+GT+ L+F   A  +VN + + V TL G A   GL +M++I S GHISG
Sbjct: 51  VPFLQKLIAEFLGTYFLVFTGCASVVVNMQNDNVVTLPGIAIVWGLTIMVLIYSLGHISG 110

Query: 132 AHLNPSLTIAFAALRHFPWVQVPAYIAAQVSASICASFALK---GVFHPFMSGGVTV--- 191
           AH+NP++TIAFA+   FP  QVPAY+ +QV  S  A+  L+   G+ H   SG   V   
Sbjct: 111 AHINPAVTIAFASCGRFPLKQVPAYVISQVIGSTLAAATLRLLFGLDHDVCSGKHDVFIG 170

Query: 192 --PSVSTGQAFALEFIITFNLLFVVTAVATDTRAVGELAGIAVGATVMLNILVAGPSSGG 251
             P  S  QAF +EFI+TF L+F+++ VATD RA+GELAG+A+G+TV+LN+L+A P S  
Sbjct: 171 SSPVGSDLQAFTMEFIVTFYLMFIISGVATDNRAIGELAGLAIGSTVLLNVLIAAPVSSA 230

Query: 252 SMNPVRTLGPAVAAGNYRALWVYLVAPTLGAILGAGTYTAVKLRD 289
           SMNP R+LGPA+  G Y+ +W+YLVAPTLGAI GA  Y  V+  D
Sbjct: 231 SMNPGRSLGPALVYGCYKGIWIYLVAPTLGAIAGAWVYNTVRYTD 275

BLAST of CmUC01G001220 vs. TAIR 10
Match: AT5G37810.1 (NOD26-like intrinsic protein 4;1 )

HSP 1 Score: 204.1 bits (518), Expect = 2.9e-52
Identity = 111/219 (50.68%), Postives = 143/219 (65.30%), Query Frame = 0

Query: 72  VSLTRKLGAEFVGTFILIFAATAGPIVNQKYNGVETLIGNAACAGLAVMIVILSTGHISG 131
           V LT+KL AE +GT+ ++F+     +VN  Y G  T  G     GL VM++I STGHISG
Sbjct: 39  VCLTQKLIAEMIGTYFIVFSGCGVVVVNVLYGGTITFPGICVTWGLIVMVMIYSTGHISG 98

Query: 132 AHLNPSLTIAFAALRHFPWVQVPAYIAAQVSASICASFALKGVFH--PFMSGGVTVPSVS 191
           AH NP++T+ FA  R FPW QVP YI AQ + S+ AS  L+ +F   P    G T P+ S
Sbjct: 99  AHFNPAVTVTFAIFRRFPWHQVPLYIGAQFAGSLLASLTLRLMFKVTPEAFFG-TTPADS 158

Query: 192 TGQAFALEFIITFNLLFVVTAVATDTRAVGELAGIAVGATVMLNILVAGPSSGGSMNPVR 251
             +A   E II+F L+FV++ VATD RAVGELAGIAVG T+M+N+ VAGP SG SMNP R
Sbjct: 159 PARALVAEIIISFLLMFVISGVATDNRAVGELAGIAVGMTIMVNVFVAGPISGASMNPAR 218

Query: 252 TLGPAVAAGNYRALWVYLVAPTLGAILGAGTYTAVKLRD 289
           +LGPA+  G Y+ +WVY+V P LG I G   Y  ++  D
Sbjct: 219 SLGPALVMGVYKHIWVYIVGPVLGVISGGFVYNLIRFTD 256

The following BLAST results are available for this feature:
Match NameE-valueIdentityDescription
KAF3787709.11.4e-18661.54putative aquaporin [Nymphaea thermarum][more]
KAF3543925.11.5e-17562.61hypothetical protein DY000_02002997 [Brassica cretica][more]
XP_008437497.16.5e-15598.95PREDICTED: probable aquaporin NIP5-1 [Cucumis melo][more]
XP_004145889.12.5e-15498.61probable aquaporin NIP5-1 [Cucumis sativus] >KGN49946.1 hypothetical protein Csa... [more]
XP_038875525.12.5e-15498.61probable aquaporin NIP5-1 [Benincasa hispida][more]
Match NameE-valueIdentityDescription
Q9SV841.6e-13287.05Probable aquaporin NIP5-1 OS=Arabidopsis thaliana OX=3702 GN=NIP5-1 PE=2 SV=1[more]
Q0IWF37.8e-11978.87Aquaporin NIP3-1 OS=Oryza sativa subsp. japonica OX=39947 GN=NIP3-1 PE=2 SV=2[more]
Q9ATN15.6e-11777.82Aquaporin NIP3-1 OS=Zea mays OX=4577 GN=NIP3-1 PE=2 SV=1[more]
Q9SAI41.1e-9667.58Aquaporin NIP6-1 OS=Arabidopsis thaliana OX=3702 GN=NIP6-1 PE=1 SV=1[more]
Q7EYH71.7e-6056.68Aquaporin NIP3-2 OS=Oryza sativa subsp. japonica OX=39947 GN=NIP3-2 PE=2 SV=1[more]
Match NameE-valueIdentityDescription
A0A1S3AU643.1e-15598.95probable aquaporin NIP5-1 OS=Cucumis melo OX=3656 GN=LOC103482897 PE=3 SV=1[more]
A0A0A0KQH11.2e-15498.61Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_5G146190 PE=3 SV=1[more]
A0A6J1H3D62.9e-15397.56probable aquaporin NIP5-1 OS=Cucurbita moschata OX=3662 GN=LOC111459297 PE=3 SV=... [more]
A0A6J1K9S56.6e-15396.86probable aquaporin NIP5-1 OS=Cucurbita maxima OX=3661 GN=LOC111491380 PE=3 SV=1[more]
B9RZ049.2e-14794.01Nodulin-26, putative OS=Ricinus communis OX=3988 GN=RCOM_1315270 PE=3 SV=1[more]
Match NameE-valueIdentityDescription
AT4G10380.11.2e-13387.05NOD26-like intrinsic protein 5;1 [more]
AT1G80760.17.8e-9867.58NOD26-like intrinsic protein 6;1 [more]
AT5G37820.11.5e-5350.68NOD26-like intrinsic protein 4;2 [more]
AT4G19030.15.8e-5350.67NOD26-like major intrinsic protein 1 [more]
AT5G37810.12.9e-5250.68NOD26-like intrinsic protein 4;1 [more]
InterPro
Analysis Name: InterPro Annotations of Watermelon (USVL531) v1
Date Performed: 2022-01-31
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
IPR000425Major intrinsic proteinPRINTSPR00783MINTRINSICPcoord: 417..436
score: 30.3
coord: 341..360
score: 34.55
coord: 529..549
score: 35.0
coord: 461..479
score: 30.24
coord: 492..514
score: 42.98
coord: 380..404
score: 42.48
IPR000425Major intrinsic proteinPFAMPF00230MIPcoord: 338..546
e-value: 1.1E-47
score: 162.7
coord: 72..281
e-value: 3.5E-49
score: 167.6
IPR023271Aquaporin-likeGENE3D1.20.1080.10Glycerol uptake facilitator protein.coord: 308..558
e-value: 1.4E-65
score: 222.7
coord: 68..298
e-value: 1.3E-64
score: 219.5
IPR023271Aquaporin-likeSUPERFAMILY81338Aquaporin-likecoord: 337..555
IPR023271Aquaporin-likeSUPERFAMILY81338Aquaporin-likecoord: 73..290
IPR034294Aquaporin transporterPANTHERPTHR45724AQUAPORIN NIP2-1coord: 306..557
IPR034294Aquaporin transporterPANTHERPTHR45724AQUAPORIN NIP2-1coord: 12..298
NoneNo IPR availablePANTHERPTHR45724:SF11AQUAPORIN NIP5-1-RELATEDcoord: 306..557
NoneNo IPR availablePANTHERPTHR45724:SF11AQUAPORIN NIP5-1-RELATEDcoord: 12..298
IPR022357Major intrinsic protein, conserved sitePROSITEPS00221MIPcoord: 133..141
IPR022357Major intrinsic protein, conserved sitePROSITEPS00221MIPcoord: 398..406

Relationships

The following mRNA feature(s) are a part of this gene:

Feature NameUnique NameType
CmUC01G001220.1CmUC01G001220.1mRNA


GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0090502 RNA phosphodiester bond hydrolysis, endonucleolytic
biological_process GO:0055085 transmembrane transport
cellular_component GO:0016021 integral component of membrane
cellular_component GO:0016020 membrane
molecular_function GO:0015267 channel activity
molecular_function GO:0003676 nucleic acid binding
molecular_function GO:0004523 RNA-DNA hybrid ribonuclease activity