Spg017103 (gene) Sponge gourd (cylindrica) v1

Overview
NameSpg017103
Typegene
OrganismLuffa cylindrica (Sponge gourd (cylindrica) v1)
DescriptionMonothiol glutaredoxin-related
Locationscaffold4: 38604398 .. 38614155 (-)
RNA-Seq ExpressionSpg017103
SyntenySpg017103
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

ATGTCGTCTGTTGGCGCATTTCAACTAGTATTACCCCCATTTCCTTCCTCCTCTTCTTTTAGCAAAACAACCCCTTCTCTTCGTCTTCTCCCCTTTACCACTTTGCCTCTGCAGCGCCACGCCCACCTTAATCGGAATTCGCAACATTTGGATGCAATTTCACTCGGATATAGTTCCAAATATGGACGGAAACTCGGATTCTTCCGCTGCTTCTCAGTGAGGAAGATGAGGAGGGTGATGGTAGATCGGAAAATGTTTACCCTTCGAAAAAGTAAGTGTGGGAAAAGGGTGTCGGCAGAAGAATGGAGAGGATCCAGAGTGACTTCCGAGGGGCCGGGTTTAGCTAGGGGTTATCAAGGTGAGGGTGAGGGTGAGAGTGAGAGTGAGAGAGATCTGGAGGGTGTAGTCCCAGAGTGCTCAGAGGAGATAGATTTTGCGTTTGAATGCTCCTCCACGGTTATCATTGAAAGGTTCGAAGCAGGGGAGGTGTGGTTCTCCATTAGAGATTCTATCCAAAGGAGGGTGAAAGTAGAGGATCGGAAGCTGGCCTTTTCAGGCGGATGGATTATGGTGCTGGATATCCCACCATTTCTAAGAACCCGTCAGTTGATTGTATCAGTTGCGGATCTATGTGGGGGACTATCTGAGAGTGAAGAGATTTTCGGGGAAGGGGTTTCCATGGAGGATGTTTGCTTTAAGGCTAGGGGAAGATCAGATGGCTTTATACCACTTTTAGGATATCTGAAGGATGAGGATATATTTTTTCCGATCAGAATTGTCATTGGCCGGCGAGAAGCAGAGGAGGAGAGAGTTAGCGTGAAAGGAAAGATGAAGGAATCGAAGATGGTTCTGACACAACTTCCTTTGTCAGCAACTGTAGCAGATGGGCTTGGGCCTTCAGAACACCTCTTAGGGGAAGATGGGGGTGTAGGGGGAAAAGTCAAGCGAAATTTGGTGAAAGAGACTATTTCCCAAGAAAATCATGATATTGTCATTTTATTGGAAACCAAAAGAGAGTACTTTAATCGTCAACTGGTGAATAGTTTGTGGGGTAGTAGGTATGTGGATTGGGAGATTGTAGAGTCGGTGGGGGCCTCGGGAGGTATTGCTATTTTATGGGGTAGTAGGGTGGTTGCCCCGATTGAAGTCATTAAAGGTCTGTATTCAGTGTCTATCTCTTTTCGTCTGAAGGATGAGGATATTAGATGGGTGTTGGGTGTTTACAGCCCCCCAAGGCCTAAAGGGGATTTTAATGTGATTCGTGCGCGCGCAGAAAAATCCTCGGGGGGTAGATCTACTAGATCCATGAAGAAGTTTAACGAGTTCATTGAGGGGTGTAGTCTTACGGATCCTCCTTTGGTGAATGGTAGCTTTACTTGGGCCAATAGTACAGCCAGAAATTGGGGAGGAGAGATAGCCGGTGTTGGAGCCTTAGTCCTTCTGACGGGTTCTCTTGTAGCTCCCTTTTTCGTTGGCTTTTGCACCCTTCTCCCCAAAGCGGAGGAAAACCTGGATCACTTTCTTTGGAGTTGCGCCTATGCTCGTGCAGTGTGGGATCGGTTTGGTCAGGCTTTTGGGTTGCATGGTATGACTTTTGTTGATCACAGGGAGATGATCAAGGAGTTCCTCCTCCATCCGCCGTTTCGTGAGAAAGCAAGATTTCTGTGGCAAGCGGGGATGTGTGCTTTTTTGGTTTGGTCATTATCTCCTGAGCTTAAAACAACAATTGACAAAGTCGTTACGTCAGAGAAAGTAGTGCTGTTTATGAAGGGATCAAAAGACTTCCCACAATGTGGATTCTCCAACACTGTAGTACAAATATTGAAGTCTTTCAATGTGCCTTTCGAGACTATAAACATTCTGGAGAACGAACTACTAAGACAAGGACTGAAGGAGTATTCAAGCTGGCCAACCTTTCCTCAGCTGTATATTGATGGAGAGTTTTTTGGTGGTTGTGACATAACTGTTGAAGCATACAGAAGTGGTGAATTGCAAGAAGTGTTGGAGAAGGCCATGTGTTCTTGA

Coding sequence (CDS)

ATGTCGTCTGTTGGCGCATTTCAACTAGTATTACCCCCATTTCCTTCCTCCTCTTCTTTTAGCAAAACAACCCCTTCTCTTCGTCTTCTCCCCTTTACCACTTTGCCTCTGCAGCGCCACGCCCACCTTAATCGGAATTCGCAACATTTGGATGCAATTTCACTCGGATATAGTTCCAAATATGGACGGAAACTCGGATTCTTCCGCTGCTTCTCAGTGAGGAAGATGAGGAGGGTGATGGTAGATCGGAAAATGTTTACCCTTCGAAAAAGTAAGTGTGGGAAAAGGGTGTCGGCAGAAGAATGGAGAGGATCCAGAGTGACTTCCGAGGGGCCGGGTTTAGCTAGGGGTTATCAAGGTGAGGGTGAGGGTGAGAGTGAGAGTGAGAGAGATCTGGAGGGTGTAGTCCCAGAGTGCTCAGAGGAGATAGATTTTGCGTTTGAATGCTCCTCCACGGTTATCATTGAAAGGTTCGAAGCAGGGGAGGTGTGGTTCTCCATTAGAGATTCTATCCAAAGGAGGGTGAAAGTAGAGGATCGGAAGCTGGCCTTTTCAGGCGGATGGATTATGGTGCTGGATATCCCACCATTTCTAAGAACCCGTCAGTTGATTGTATCAGTTGCGGATCTATGTGGGGGACTATCTGAGAGTGAAGAGATTTTCGGGGAAGGGGTTTCCATGGAGGATGTTTGCTTTAAGGCTAGGGGAAGATCAGATGGCTTTATACCACTTTTAGGATATCTGAAGGATGAGGATATATTTTTTCCGATCAGAATTGTCATTGGCCGGCGAGAAGCAGAGGAGGAGAGAGTTAGCGTGAAAGGAAAGATGAAGGAATCGAAGATGGTTCTGACACAACTTCCTTTGTCAGCAACTGTAGCAGATGGGCTTGGGCCTTCAGAACACCTCTTAGGGGAAGATGGGGGTGTAGGGGGAAAAGTCAAGCGAAATTTGGTGAAAGAGACTATTTCCCAAGAAAATCATGATATTGTCATTTTATTGGAAACCAAAAGAGAGTACTTTAATCGTCAACTGGTGAATAGTTTGTGGGGTAGTAGGTATGTGGATTGGGAGATTGTAGAGTCGGTGGGGGCCTCGGGAGGTATTGCTATTTTATGGGGTAGTAGGGTGGTTGCCCCGATTGAAGTCATTAAAGGTCTGTATTCAGTGTCTATCTCTTTTCGTCTGAAGGATGAGGATATTAGATGGGTGTTGGGTGTTTACAGCCCCCCAAGGCCTAAAGGGGATTTTAATGTGATTCGTGCGCGCGCAGAAAAATCCTCGGGGGGTAGATCTACTAGATCCATGAAGAAGTTTAACGAGTTCATTGAGGGGTGTAGTCTTACGGATCCTCCTTTGGTGAATGGTAGCTTTACTTGGGCCAATAGTACAGCCAGAAATTGGGGAGGAGAGATAGCCGGTGTTGGAGCCTTAGTCCTTCTGACGGGTTCTCTTGTAGCTCCCTTTTTCGTTGGCTTTTGCACCCTTCTCCCCAAAGCGGAGGAAAACCTGGATCACTTTCTTTGGAGTTGCGCCTATGCTCGTGCAGTGTGGGATCGGTTTGGTCAGGCTTTTGGGTTGCATGGTATGACTTTTGTTGATCACAGGGAGATGATCAAGGAGTTCCTCCTCCATCCGCCGTTTCGTGAGAAAGCAAGATTTCTGTGGCAAGCGGGGATGTGTGCTTTTTTGGTTTGGTCATTATCTCCTGAGCTTAAAACAACAATTGACAAAGTCGTTACGTCAGAGAAAGTAGTGCTGTTTATGAAGGGATCAAAAGACTTCCCACAATGTGGATTCTCCAACACTGTAGTACAAATATTGAAGTCTTTCAATGTGCCTTTCGAGACTATAAACATTCTGGAGAACGAACTACTAAGACAAGGACTGAAGGAGTATTCAAGCTGGCCAACCTTTCCTCAGCTGTATATTGATGGAGAGTTTTTTGGTGGTTGTGACATAACTGTTGAAGCATACAGAAGTGGTGAATTGCAAGAAGTGTTGGAGAAGGCCATGTGTTCTTGA

Protein sequence

MSSVGAFQLVLPPFPSSSSFSKTTPSLRLLPFTTLPLQRHAHLNRNSQHLDAISLGYSSKYGRKLGFFRCFSVRKMRRVMVDRKMFTLRKSKCGKRVSAEEWRGSRVTSEGPGLARGYQGEGEGESESERDLEGVVPECSEEIDFAFECSSTVIIERFEAGEVWFSIRDSIQRRVKVEDRKLAFSGGWIMVLDIPPFLRTRQLIVSVADLCGGLSESEEIFGEGVSMEDVCFKARGRSDGFIPLLGYLKDEDIFFPIRIVIGRREAEEERVSVKGKMKESKMVLTQLPLSATVADGLGPSEHLLGEDGGVGGKVKRNLVKETISQENHDIVILLETKREYFNRQLVNSLWGSRYVDWEIVESVGASGGIAILWGSRVVAPIEVIKGLYSVSISFRLKDEDIRWVLGVYSPPRPKGDFNVIRARAEKSSGGRSTRSMKKFNEFIEGCSLTDPPLVNGSFTWANSTARNWGGEIAGVGALVLLTGSLVAPFFVGFCTLLPKAEENLDHFLWSCAYARAVWDRFGQAFGLHGMTFVDHREMIKEFLLHPPFREKARFLWQAGMCAFLVWSLSPELKTTIDKVVTSEKVVLFMKGSKDFPQCGFSNTVVQILKSFNVPFETINILENELLRQGLKEYSSWPTFPQLYIDGEFFGGCDITVEAYRSGELQEVLEKAMCS
Homology
[Close]
BLAST of Spg017103 vs. NCBI nr
Match: XP_022149818.1 (monothiol glutaredoxin-S7, chloroplastic isoform X2 [Momordica charantia])

HSP 1 Score: 214.9 bits (546), Expect = 2.1e-51
Identity = 103/108 (95.37%), Postives = 106/108 (98.15%), Query Frame = 0 

Query: 567 SLSPELKTTIDKVVTSEKVVLFMKGSKDFPQCGFSNTVVQILKSFNVPFETINILENELL 626
           +LSPELKTTIDKVVTSEKVVLFMKGSKDFPQCGFSNTVVQILKS NV FETINILENE+L
Sbjct: 74  ALSPELKTTIDKVVTSEKVVLFMKGSKDFPQCGFSNTVVQILKSLNVTFETINILENEVL 133

Query: 627 RQGLKEYSSWPTFPQLYIDGEFFGGCDITVEAYRSGELQEVLEKAMCS 675
           RQGLKEYSSWPTFPQLYIDGEFFGGCDITVEAY+SGELQEVLEKAMCS
Sbjct: 134 RQGLKEYSSWPTFPQLYIDGEFFGGCDITVEAYKSGELQEVLEKAMCS 181

[Close]
BLAST of Spg017103 vs. NCBI nr
Match: XP_022149818.1 (monothiol glutaredoxin-S7, chloroplastic isoform X2 [Momordica charantia])

HSP 1 Score: 96.7 bits (239), Expect = 8.3e-16
Identity = 53/73 (72.60%), Postives = 56/73 (76.71%), Query Frame = 0 

Query: 1  MSSVGAFQLVLPPFP-SSSSFSKTTPSLRLLPFTTLPLQRHAHLNRNSQHLDAISLGYSS 60
          MSSVGAFQL  PPFP SSSSFSKTTPSLRLLPF    LQRHA LNRN Q  DA+S+G  S
Sbjct: 1  MSSVGAFQLAAPPFPSSSSSFSKTTPSLRLLPFPISSLQRHAILNRNFQRRDAVSIGQIS 60

Query: 61 KYGRKLGFFRCFS 73
          + GRK G  RCFS
Sbjct: 61 RSGRKFGSLRCFS 73


HSP 2 Score: 214.5 bits (545), Expect = 2.7e-51
Identity = 103/108 (95.37%), Postives = 106/108 (98.15%), Query Frame = 0 

Query: 567 SLSPELKTTIDKVVTSEKVVLFMKGSKDFPQCGFSNTVVQILKSFNVPFETINILENELL 626
           +LSPELKTTIDKVVTSEKVVLFMKGSKDFPQCGFS+TVVQILKS NVPFETINILENELL
Sbjct: 892 ALSPELKTTIDKVVTSEKVVLFMKGSKDFPQCGFSHTVVQILKSLNVPFETINILENELL 951

Query: 627 RQGLKEYSSWPTFPQLYIDGEFFGGCDITVEAYRSGELQEVLEKAMCS 675
           RQGLKEYSSWPTFPQLYIDGEFFGGCDITVEAY+SGEL EVLEKAMCS
Sbjct: 952 RQGLKEYSSWPTFPQLYIDGEFFGGCDITVEAYKSGELLEVLEKAMCS 999

[Close]
BLAST of Spg017103 vs. NCBI nr
Match: KAG6598930.1 (putative inactive serine/threonine-protein kinase scy1, partial [Cucurbita argyrosperma subsp. sororia])

HSP 1 Score: 89.4 bits (220), Expect = 1.3e-13
Identity = 49/74 (66.22%), Postives = 53/74 (71.62%), Query Frame = 0 

Query: 1   MSSVGAFQLVLPPFPSSSSFSKTTPS--LRLLPFTTLPLQRHAHLNRNSQHLDAISLGYS 60
           MSS+  FQL+LPPFPSSSS S T P+  L LLP  T PLQR AHLNRNSQH   I L + 
Sbjct: 818 MSSLATFQLLLPPFPSSSSSSSTKPTSFLCLLPLPTSPLQRRAHLNRNSQHFHGIPLEHR 877

Query: 61  SKYGRKLGFFRCFS 73
           SK GRK G FRCFS
Sbjct: 878 SKSGRKFGSFRCFS 891


HSP 2 Score: 214.5 bits (545), Expect = 2.7e-51
Identity = 103/108 (95.37%), Postives = 106/108 (98.15%), Query Frame = 0 

Query: 567 SLSPELKTTIDKVVTSEKVVLFMKGSKDFPQCGFSNTVVQILKSFNVPFETINILENELL 626
           +LSPELKTTIDKVVTSEKVVLFMKGSKDFPQCGFS+TVVQILKS NVPFETINILENELL
Sbjct: 75  ALSPELKTTIDKVVTSEKVVLFMKGSKDFPQCGFSHTVVQILKSLNVPFETINILENELL 134

Query: 627 RQGLKEYSSWPTFPQLYIDGEFFGGCDITVEAYRSGELQEVLEKAMCS 675
           RQGLKEYSSWPTFPQLYIDGEFFGGCDITVEAY+SGEL EVLEKAMCS
Sbjct: 135 RQGLKEYSSWPTFPQLYIDGEFFGGCDITVEAYKSGELLEVLEKAMCS 182

[Close]
BLAST of Spg017103 vs. NCBI nr
Match: XP_022997370.1 (uncharacterized protein LOC111492306 [Cucurbita maxima])

HSP 1 Score: 88.2 bits (217), Expect = 3.0e-13
Identity = 49/74 (66.22%), Postives = 54/74 (72.97%), Query Frame = 0 

Query: 1  MSSVGAFQLVLPPFP--SSSSFSKTTPSLRLLPFTTLPLQRHAHLNRNSQHLDAISLGYS 60
          MSS+  FQL+LPPFP  SSSS +KTT SL LLP  T PLQR A+LNRNSQH   I L + 
Sbjct: 1  MSSLATFQLLLPPFPSFSSSSSTKTTSSLCLLPLPTSPLQRRAYLNRNSQHFHGIPLEHR 60

Query: 61 SKYGRKLGFFRCFS 73
          SK GRK G FRCFS
Sbjct: 61 SKSGRKFGSFRCFS 74


HSP 2 Score: 214.5 bits (545), Expect = 2.7e-51
Identity = 103/108 (95.37%), Postives = 106/108 (98.15%), Query Frame = 0 

Query: 567 SLSPELKTTIDKVVTSEKVVLFMKGSKDFPQCGFSNTVVQILKSFNVPFETINILENELL 626
           +LSPELKTTIDKVVTSEKVVLFMKGSKDFPQCGFS+TVVQILKS NVPFETINILENELL
Sbjct: 75  ALSPELKTTIDKVVTSEKVVLFMKGSKDFPQCGFSHTVVQILKSLNVPFETINILENELL 134

Query: 627 RQGLKEYSSWPTFPQLYIDGEFFGGCDITVEAYRSGELQEVLEKAMCS 675
           RQGLKEYSSWPTFPQLYIDGEFFGGCDITVEAY+SGEL EVLEKAMCS
Sbjct: 135 RQGLKEYSSWPTFPQLYIDGEFFGGCDITVEAYKSGELLEVLEKAMCS 182

[Close]
BLAST of Spg017103 vs. NCBI nr
Match: KAG7029884.1 (Monothiol glutaredoxin-S14, chloroplastic [Cucurbita argyrosperma subsp. argyrosperma])

HSP 1 Score: 89.4 bits (220), Expect = 1.3e-13
Identity = 49/74 (66.22%), Postives = 53/74 (71.62%), Query Frame = 0 

Query: 1  MSSVGAFQLVLPPFPSSSSFSKTTPS--LRLLPFTTLPLQRHAHLNRNSQHLDAISLGYS 60
          MSS+  FQL+LPPFPSSSS S T P+  L LLP  T PLQR AHLNRNSQH   I L + 
Sbjct: 1  MSSLATFQLLLPPFPSSSSSSSTKPTSFLCLLPLPTSPLQRRAHLNRNSQHFHGIPLEHR 60

Query: 61 SKYGRKLGFFRCFS 73
          SK GRK G FRCFS
Sbjct: 61 SKSGRKFGSFRCFS 74


HSP 2 Score: 214.5 bits (545), Expect = 2.7e-51
Identity = 103/108 (95.37%), Postives = 106/108 (98.15%), Query Frame = 0 

Query: 567 SLSPELKTTIDKVVTSEKVVLFMKGSKDFPQCGFSNTVVQILKSFNVPFETINILENELL 626
           +LSPELKTTIDKVVTSEKVVLFMKGSKDFPQCGFS+TVVQILKS NVPFETINILENELL
Sbjct: 75  ALSPELKTTIDKVVTSEKVVLFMKGSKDFPQCGFSHTVVQILKSLNVPFETINILENELL 134

Query: 627 RQGLKEYSSWPTFPQLYIDGEFFGGCDITVEAYRSGELQEVLEKAMCS 675
           RQGLKEYSSWPTFPQLYIDGEFFGGCDITVEAY+SGEL EVLEKAMCS
Sbjct: 135 RQGLKEYSSWPTFPQLYIDGEFFGGCDITVEAYKSGELLEVLEKAMCS 182

[Close]
BLAST of Spg017103 vs. ExPASy Swiss-Prot
Match: Q84Y95 (Monothiol glutaredoxin-S14, chloroplastic OS=Arabidopsis thaliana OX=3702 GN=GRXS14 PE=1 SV=2)

HSP 1 Score: 189.1 bits (479), Expect = 1.6e-46
Identity = 84/108 (77.78%), Postives = 101/108 (93.52%), Query Frame = 0 

Query: 567 SLSPELKTTIDKVVTSEKVVLFMKGSKDFPQCGFSNTVVQILKSFNVPFETINILENELL 626
           +L+P+LK T++K+V SEKVVLFMKG++DFP CGFSNTVVQILK+ NVPFE +NILENE+L
Sbjct: 66  ALTPQLKDTLEKLVNSEKVVLFMKGTRDFPMCGFSNTVVQILKNLNVPFEDVNILENEML 125

Query: 627 RQGLKEYSSWPTFPQLYIDGEFFGGCDITVEAYRSGELQEVLEKAMCS 675
           RQGLKEYS+WPTFPQLYI GEFFGGCDIT+EA+++GELQE +EKAMCS
Sbjct: 126 RQGLKEYSNWPTFPQLYIGGEFFGGCDITLEAFKTGELQEEVEKAMCS 173

[Close]
BLAST of Spg017103 vs. ExPASy Swiss-Prot
Match: Q851Y7 (Monothiol glutaredoxin-S7, chloroplastic OS=Oryza sativa subsp. japonica OX=39947 GN=GRXS7 PE=2 SV=1)

HSP 1 Score: 188.3 bits (477), Expect = 2.8e-46
Identity = 86/107 (80.37%), Postives = 99/107 (92.52%), Query Frame = 0 

Query: 568 LSPELKTTIDKVVTSEKVVLFMKGSKDFPQCGFSNTVVQILKSFNVPFETINILENELLR 627
           L+PE++ T+DKVV S KVVLFMKG+KDFPQCGFS+TVVQIL+S +VPFET+++L NE LR
Sbjct: 62  LAPEMRATLDKVVGSHKVVLFMKGTKDFPQCGFSHTVVQILRSLDVPFETLDVLANEALR 121

Query: 628 QGLKEYSSWPTFPQLYIDGEFFGGCDITVEAYRSGELQEVLEKAMCS 675
           QGLKEYSSWPTFPQLYIDGEFFGGCDITV+AY+SGELQE LEKAM S
Sbjct: 122 QGLKEYSSWPTFPQLYIDGEFFGGCDITVDAYKSGELQETLEKAMLS 168

[Close]
BLAST of Spg017103 vs. ExPASy Swiss-Prot
Match: P73056 (Uncharacterized monothiol glutaredoxin ycf64-like OS=Synechocystis sp. (strain PCC 6803 / Kazusa) OX=1111708 GN=slr1846 PE=3 SV=1)

HSP 1 Score: 144.8 bits (364), Expect = 3.5e-33
Identity = 62/107 (57.94%), Postives = 86/107 (80.37%), Query Frame = 0 

Query: 568 LSPELKTTIDKVVTSEKVVLFMKGSKDFPQCGFSNTVVQILKSFNVPFETINILENELLR 627
           ++PE K  ID++VT+ KV++FMKG+K  PQCGFSN VVQIL    +PFET+++L +  +R
Sbjct: 1   MNPETKARIDQLVTANKVMVFMKGTKLMPQCGFSNNVVQILNMLGIPFETLDVLADAEIR 60

Query: 628 QGLKEYSSWPTFPQLYIDGEFFGGCDITVEAYRSGELQEVLEKAMCS 675
           QG+KEYS+WPT PQ+Y++GEF GG DI +E Y++GELQE+LE A+ S
Sbjct: 61  QGIKEYSNWPTIPQVYVNGEFVGGSDIMIELYQNGELQEMLEVALAS 107

[Close]
BLAST of Spg017103 vs. ExPASy Swiss-Prot
Match: Q1XDA3 (Uncharacterized monothiol glutaredoxin ycf64 OS=Pyropia yezoensis OX=2788 GN=ycf64 PE=3 SV=1)

HSP 1 Score: 123.6 bits (309), Expect = 8.3e-27
Identity = 54/107 (50.47%), Postives = 75/107 (70.09%), Query Frame = 0 

Query: 568 LSPELKTTIDKVVTSEKVVLFMKGSKDFPQCGFSNTVVQILKSFNVPFETINILENELLR 627
           +  E K  ID+++   K+VLFMKG+K  P CGFSNT  QIL + N+ + T +ILE+E +R
Sbjct: 1   MDTETKKRIDQLLNDHKIVLFMKGNKTMPMCGFSNTATQILNTLNIKYFTYDILEDENIR 60

Query: 628 QGLKEYSSWPTFPQLYIDGEFFGGCDITVEAYRSGELQEVLEKAMCS 675
           + +KEYSSWPT PQLYI+ EF GG DI +E + +GELQ  +E  + +
Sbjct: 61  KAIKEYSSWPTIPQLYINREFIGGADIMLELFETGELQAQVEALLAT 107

[Close]
BLAST of Spg017103 vs. ExPASy Swiss-Prot
Match: P51384 (Uncharacterized monothiol glutaredoxin ycf64 OS=Porphyra purpurea OX=2787 GN=ycf64 PE=3 SV=1)

HSP 1 Score: 123.2 bits (308), Expect = 1.1e-26
Identity = 55/104 (52.88%), Postives = 74/104 (71.15%), Query Frame = 0 

Query: 571 ELKTTIDKVVTSEKVVLFMKGSKDFPQCGFSNTVVQILKSFNVPFETINILENELLRQGL 630
           E K  I++++ + K+VLFMKGSK  P CGFSNT +QIL + N  + T +ILENE +RQ +
Sbjct: 4   ETKKVIEQILDNNKIVLFMKGSKLMPMCGFSNTAIQILNTLNTDYFTYDILENENIRQAI 63

Query: 631 KEYSSWPTFPQLYIDGEFFGGCDITVEAYRSGELQEVLEKAMCS 675
           KE+SSWPT PQLYI+ EF GG DI +E +  GELQ  +E  + +
Sbjct: 64  KEHSSWPTIPQLYINREFVGGADIMLELFEQGELQAQVETLLAA 107

[Close]
BLAST of Spg017103 vs. ExPASy TrEMBL
Match: A0A6J1D7S5 (monothiol glutaredoxin-S7, chloroplastic isoform X2 OS=Momordica charantia OX=3673 GN=LOC111018159 PE=3 SV=1)

HSP 1 Score: 214.9 bits (546), Expect = 1.0e-51
Identity = 103/108 (95.37%), Postives = 106/108 (98.15%), Query Frame = 0 

Query: 567 SLSPELKTTIDKVVTSEKVVLFMKGSKDFPQCGFSNTVVQILKSFNVPFETINILENELL 626
           +LSPELKTTIDKVVTSEKVVLFMKGSKDFPQCGFSNTVVQILKS NV FETINILENE+L
Sbjct: 74  ALSPELKTTIDKVVTSEKVVLFMKGSKDFPQCGFSNTVVQILKSLNVTFETINILENEVL 133

Query: 627 RQGLKEYSSWPTFPQLYIDGEFFGGCDITVEAYRSGELQEVLEKAMCS 675
           RQGLKEYSSWPTFPQLYIDGEFFGGCDITVEAY+SGELQEVLEKAMCS
Sbjct: 134 RQGLKEYSSWPTFPQLYIDGEFFGGCDITVEAYKSGELQEVLEKAMCS 181

[Close]
BLAST of Spg017103 vs. ExPASy TrEMBL
Match: A0A6J1D7S5 (monothiol glutaredoxin-S7, chloroplastic isoform X2 OS=Momordica charantia OX=3673 GN=LOC111018159 PE=3 SV=1)

HSP 1 Score: 96.7 bits (239), Expect = 4.0e-16
Identity = 53/73 (72.60%), Postives = 56/73 (76.71%), Query Frame = 0 

Query: 1  MSSVGAFQLVLPPFP-SSSSFSKTTPSLRLLPFTTLPLQRHAHLNRNSQHLDAISLGYSS 60
          MSSVGAFQL  PPFP SSSSFSKTTPSLRLLPF    LQRHA LNRN Q  DA+S+G  S
Sbjct: 1  MSSVGAFQLAAPPFPSSSSSFSKTTPSLRLLPFPISSLQRHAILNRNFQRRDAVSIGQIS 60

Query: 61 KYGRKLGFFRCFS 73
          + GRK G  RCFS
Sbjct: 61 RSGRKFGSLRCFS 73


HSP 2 Score: 214.5 bits (545), Expect = 1.3e-51
Identity = 103/108 (95.37%), Postives = 106/108 (98.15%), Query Frame = 0 

Query: 567 SLSPELKTTIDKVVTSEKVVLFMKGSKDFPQCGFSNTVVQILKSFNVPFETINILENELL 626
           +LSPELKTTIDKVVTSEKVVLFMKGSKDFPQCGFS+TVVQILKS NVPFETINILENELL
Sbjct: 75  ALSPELKTTIDKVVTSEKVVLFMKGSKDFPQCGFSHTVVQILKSLNVPFETINILENELL 134

Query: 627 RQGLKEYSSWPTFPQLYIDGEFFGGCDITVEAYRSGELQEVLEKAMCS 675
           RQGLKEYSSWPTFPQLYIDGEFFGGCDITVEAY+SGEL EVLEKAMCS
Sbjct: 135 RQGLKEYSSWPTFPQLYIDGEFFGGCDITVEAYKSGELLEVLEKAMCS 182

[Close]
BLAST of Spg017103 vs. ExPASy TrEMBL
Match: A0A6J1K9E2 (uncharacterized protein LOC111492306 OS=Cucurbita maxima OX=3661 GN=LOC111492306 PE=3 SV=1)

HSP 1 Score: 88.2 bits (217), Expect = 1.4e-13
Identity = 49/74 (66.22%), Postives = 54/74 (72.97%), Query Frame = 0 

Query: 1  MSSVGAFQLVLPPFP--SSSSFSKTTPSLRLLPFTTLPLQRHAHLNRNSQHLDAISLGYS 60
          MSS+  FQL+LPPFP  SSSS +KTT SL LLP  T PLQR A+LNRNSQH   I L + 
Sbjct: 1  MSSLATFQLLLPPFPSFSSSSSTKTTSSLCLLPLPTSPLQRRAYLNRNSQHFHGIPLEHR 60

Query: 61 SKYGRKLGFFRCFS 73
          SK GRK G FRCFS
Sbjct: 61 SKSGRKFGSFRCFS 74


HSP 2 Score: 214.5 bits (545), Expect = 1.3e-51
Identity = 103/108 (95.37%), Postives = 106/108 (98.15%), Query Frame = 0 

Query: 567 SLSPELKTTIDKVVTSEKVVLFMKGSKDFPQCGFSNTVVQILKSFNVPFETINILENELL 626
           +LSPELKTTIDKVVTSEKVVLFMKGSKDFPQCGFS+TVVQILKS NVPFETINILENELL
Sbjct: 75  ALSPELKTTIDKVVTSEKVVLFMKGSKDFPQCGFSHTVVQILKSLNVPFETINILENELL 134

Query: 627 RQGLKEYSSWPTFPQLYIDGEFFGGCDITVEAYRSGELQEVLEKAMCS 675
           RQGLKEYSSWPTFPQLYIDGEFFGGCDITVEAY+SGEL EVLEKAMCS
Sbjct: 135 RQGLKEYSSWPTFPQLYIDGEFFGGCDITVEAYKSGELLEVLEKAMCS 182

[Close]
BLAST of Spg017103 vs. ExPASy TrEMBL
Match: A0A6J1EPE9 (monothiol glutaredoxin-S7, chloroplastic OS=Cucurbita moschata OX=3662 GN=LOC111436177 PE=3 SV=1)

HSP 1 Score: 89.4 bits (220), Expect = 6.4e-14
Identity = 49/74 (66.22%), Postives = 53/74 (71.62%), Query Frame = 0 

Query: 1  MSSVGAFQLVLPPFPSSSSFSKTTPS--LRLLPFTTLPLQRHAHLNRNSQHLDAISLGYS 60
          MSS+  FQL+LPPFPSSSS S T P+  L LLP  T PLQR AHLNRNSQH   I L + 
Sbjct: 1  MSSLATFQLLLPPFPSSSSSSSTKPTSFLCLLPLLTSPLQRRAHLNRNSQHFHGIPLEHR 60

Query: 61 SKYGRKLGFFRCFS 73
          SK GRK G FRCFS
Sbjct: 61 SKSGRKFGSFRCFS 74


HSP 2 Score: 214.2 bits (544), Expect = 1.7e-51
Identity = 99/108 (91.67%), Postives = 108/108 (100.00%), Query Frame = 0 

Query: 567 SLSPELKTTIDKVVTSEKVVLFMKGSKDFPQCGFSNTVVQILKSFNVPFETINILENELL 626
           +L+PELKTT+DKVVTS+KVVLFMKG+KDFPQCGFSNT+VQILKSFNVPFETINILENELL
Sbjct: 75  ALTPELKTTLDKVVTSQKVVLFMKGTKDFPQCGFSNTIVQILKSFNVPFETINILENELL 134

Query: 627 RQGLKEYSSWPTFPQLYIDGEFFGGCDITVEAYRSGELQEVLEKAMCS 675
           RQGLKEYSSWPTFPQLYI+GEFFGGCDITVEAY+SGELQE+LEKAMCS
Sbjct: 135 RQGLKEYSSWPTFPQLYIEGEFFGGCDITVEAYKSGELQELLEKAMCS 182

[Close]
BLAST of Spg017103 vs. ExPASy TrEMBL
Match: A0A2P5B9N6 (Monothiol glutaredoxin-related OS=Parasponia andersonii OX=3476 GN=PanWU01x14_258620 PE=3 SV=1)

HSP 1 Score: 213.0 bits (541), Expect = 3.9e-51
Identity = 100/108 (92.59%), Postives = 107/108 (99.07%), Query Frame = 0 

Query: 567 SLSPELKTTIDKVVTSEKVVLFMKGSKDFPQCGFSNTVVQILKSFNVPFETINILENELL 626
           +L+PELKTT+DKVVTS+KVVLFMKG+KDFPQCGFSNTVVQILKSFNVPFETINILENELL
Sbjct: 75  ALTPELKTTLDKVVTSQKVVLFMKGTKDFPQCGFSNTVVQILKSFNVPFETINILENELL 134

Query: 627 RQGLKEYSSWPTFPQLYIDGEFFGGCDITVEAYRSGELQEVLEKAMCS 675
           RQGLKEYSSWPTFPQLYI GEFFGGCDITVEAY+SGELQE+LEKAMCS
Sbjct: 135 RQGLKEYSSWPTFPQLYIAGEFFGGCDITVEAYKSGELQELLEKAMCS 182

[Close]
BLAST of Spg017103 vs. TAIR 10
Match: AT3G54900.1 (CAX interacting protein 1 )

HSP 1 Score: 189.1 bits (479), Expect = 1.1e-47
Identity = 84/108 (77.78%), Postives = 101/108 (93.52%), Query Frame = 0 

Query: 567 SLSPELKTTIDKVVTSEKVVLFMKGSKDFPQCGFSNTVVQILKSFNVPFETINILENELL 626
           +L+P+LK T++K+V SEKVVLFMKG++DFP CGFSNTVVQILK+ NVPFE +NILENE+L
Sbjct: 66  ALTPQLKDTLEKLVNSEKVVLFMKGTRDFPMCGFSNTVVQILKNLNVPFEDVNILENEML 125

Query: 627 RQGLKEYSSWPTFPQLYIDGEFFGGCDITVEAYRSGELQEVLEKAMCS 675
           RQGLKEYS+WPTFPQLYI GEFFGGCDIT+EA+++GELQE +EKAMCS
Sbjct: 126 RQGLKEYSNWPTFPQLYIGGEFFGGCDITLEAFKTGELQEEVEKAMCS 173

[Close]
BLAST of Spg017103 vs. TAIR 10
Match: AT2G38270.1 (CAX-interacting protein 2 )

HSP 1 Score: 113.2 bits (282), Expect = 8.0e-25
Identity = 52/104 (50.00%), Postives = 72/104 (69.23%), Query Frame = 0 

Query: 568 LSPELKTTIDKVVTSEKVVLFMKGSKDFPQCGFSNTVVQILKSFNVPFETINILENEL-- 627
           L+  L+  ID++V   KVV F+KGS+  PQCGFS  VV IL+S  V +ET+++L++E   
Sbjct: 189 LTVPLEELIDRLVKESKVVAFIKGSRSAPQCGFSQRVVGILESQGVDYETVDVLDDEYNH 248

Query: 628 -LRQGLKEYSSWPTFPQLYIDGEFFGGCDITVEAYRSGELQEVL 669
            LR+ LK YS+WPTFPQ+++ GE  GGCDI    Y +GEL  +L
Sbjct: 249 GLRETLKNYSNWPTFPQIFVKGELVGGCDILTSMYENGELANIL 292

[Close]
BLAST of Spg017103 vs. TAIR 10
Match: AT4G04950.1 (thioredoxin family protein )

HSP 1 Score: 110.9 bits (276), Expect = 4.0e-24
Identity = 49/103 (47.57%), Postives = 71/103 (68.93%), Query Frame = 0 

Query: 567 SLSPELKTTIDKVVTSEKVVLFMKGSKDFPQCGFSNTVVQILKSFNVPFETINILENELL 626
           S +  LK+ ++K+  S  V+LFMKG  + P+CGFS  VV ILK  NV F + +IL +  +
Sbjct: 148 STADALKSRLEKLTNSHPVMLFMKGIPEEPRCGFSRKVVDILKEVNVDFGSFDILSDNEV 207

Query: 627 RQGLKEYSSWPTFPQLYIDGEFFGGCDITVEAYRSGELQEVLE 670
           R+GLK++S+WPTFPQLY +GE  GG DI +  + SGEL++  +
Sbjct: 208 REGLKKFSNWPTFPQLYCNGELLGGADIAIAMHESGELKDAFK 250

[Close]
BLAST of Spg017103 vs. TAIR 10
Match: AT3G15660.1 (glutaredoxin 4 )

HSP 1 Score: 104.4 bits (259), Expect = 3.7e-22
Identity = 43/98 (43.88%), Postives = 68/98 (69.39%), Query Frame = 0 

Query: 572 LKTTIDKVVTSEKVVLFMKGSKDFPQCGFSNTVVQILKSFNVPFETINILENELLRQGLK 631
           LK  ++  V    V+++MKG  + PQCGFS+  V++L+ +NVP  + NILE++ L+  +K
Sbjct: 65  LKDIVENDVKDNPVMIYMKGVPESPQCGFSSLAVRVLQQYNVPISSRNILEDQELKNAVK 124

Query: 632 EYSSWPTFPQLYIDGEFFGGCDITVEAYRSGELQEVLE 670
            +S WPTFPQ++I GEF GG DI +  ++ GEL++ L+
Sbjct: 125 SFSHWPTFPQIFIKGEFIGGSDIILNMHKEGELEQKLK 162

[Close]
BLAST of Spg017103 vs. TAIR 10
Match: AT3G15660.2 (glutaredoxin 4 )

HSP 1 Score: 104.4 bits (259), Expect = 3.7e-22
Identity = 43/98 (43.88%), Postives = 68/98 (69.39%), Query Frame = 0 

Query: 572 LKTTIDKVVTSEKVVLFMKGSKDFPQCGFSNTVVQILKSFNVPFETINILENELLRQGLK 631
           LK  ++  V    V+++MKG  + PQCGFS+  V++L+ +NVP  + NILE++ L+  +K
Sbjct: 65  LKDIVENDVKDNPVMIYMKGVPESPQCGFSSLAVRVLQQYNVPISSRNILEDQELKNAVK 124

Query: 632 EYSSWPTFPQLYIDGEFFGGCDITVEAYRSGELQEVLE 670
            +S WPTFPQ++I GEF GG DI +  ++ GEL++ L+
Sbjct: 125 SFSHWPTFPQIFIKGEFIGGSDIILNMHKEGELEQKLK 162

The following BLAST results are available for this feature:
BLAST of Spg017103 vs. NCBI nr
Match NameE-valueIdentityDescription
XP_022149818.12.1e-5195.37monothiol glutaredoxin-S7, chloroplastic isoform X2 [Momordica charantia][more]
XP_022149818.18.3e-1672.60monothiol glutaredoxin-S7, chloroplastic isoform X2 [Momordica charantia][more]
KAG6598930.11.3e-1366.22putative inactive serine/threonine-protein kinase scy1, partial [Cucurbita argyr... [more]
XP_022997370.13.0e-1366.22uncharacterized protein LOC111492306 [Cucurbita maxima][more]
KAG7029884.11.3e-1366.22Monothiol glutaredoxin-S14, chloroplastic [Cucurbita argyrosperma subsp. argyros... [more]

Pages

BLAST of Spg017103 vs. ExPASy Swiss-Prot
Match NameE-valueIdentityDescription
Q84Y951.6e-4677.78Monothiol glutaredoxin-S14, chloroplastic OS=Arabidopsis thaliana OX=3702 GN=GRX... [more]
Q851Y72.8e-4680.37Monothiol glutaredoxin-S7, chloroplastic OS=Oryza sativa subsp. japonica OX=3994... [more]
P730563.5e-3357.94Uncharacterized monothiol glutaredoxin ycf64-like OS=Synechocystis sp. (strain P... [more]
Q1XDA38.3e-2750.47Uncharacterized monothiol glutaredoxin ycf64 OS=Pyropia yezoensis OX=2788 GN=ycf... [more]
P513841.1e-2652.88Uncharacterized monothiol glutaredoxin ycf64 OS=Porphyra purpurea OX=2787 GN=ycf... [more]
BLAST of Spg017103 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
A0A6J1D7S51.0e-5195.37monothiol glutaredoxin-S7, chloroplastic isoform X2 OS=Momordica charantia OX=36... [more]
A0A6J1D7S54.0e-1672.60monothiol glutaredoxin-S7, chloroplastic isoform X2 OS=Momordica charantia OX=36... [more]
A0A6J1K9E21.4e-1366.22uncharacterized protein LOC111492306 OS=Cucurbita maxima OX=3661 GN=LOC111492306... [more]
A0A6J1EPE96.4e-1466.22monothiol glutaredoxin-S7, chloroplastic OS=Cucurbita moschata OX=3662 GN=LOC111... [more]
A0A2P5B9N63.9e-5192.59Monothiol glutaredoxin-related OS=Parasponia andersonii OX=3476 GN=PanWU01x14_25... [more]
BLAST of Spg017103 vs. TAIR 10
Match NameE-valueIdentityDescription
AT3G54900.11.1e-4777.78CAX interacting protein 1 [more]
AT2G38270.18.0e-2550.00CAX-interacting protein 2 [more]
AT4G04950.14.0e-2447.57thioredoxin family protein [more]
AT3G15660.13.7e-2243.88glutaredoxin 4 [more]
AT3G15660.23.7e-2243.88glutaredoxin 4 [more]
InterPro
Analysis Name: InterPro Annotations of Sponge gourd (cylindrica) v1
Date Performed: 2022-08-01
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
IPR002109GlutaredoxinPFAMPF00462Glutaredoxincoord: 585..648
e-value: 5.4E-20
score: 71.4
IPR004480Monothiol glutaredoxin-relatedTIGRFAMTIGR00365TIGR00365coord: 574..669
e-value: 1.5E-40
score: 135.3
IPR004480Monothiol glutaredoxin-relatedPANTHERPTHR10293GLUTAREDOXIN FAMILY MEMBERcoord: 558..668
NoneNo IPR availableGENE3D3.40.30.10Glutaredoxincoord: 575..673
e-value: 5.6E-36
score: 124.5
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 104..131
NoneNo IPR availablePANTHERPTHR10293:SF16GLUTAREDOXIN-RELATED PROTEIN 5, MITOCHONDRIALcoord: 558..668
NoneNo IPR availablePROSITEPS51354GLUTAREDOXIN_2coord: 573..674
score: 26.085285
IPR033658Glutaredoxin, PICOT-likeCDDcd03028GRX_PICOT_likecoord: 576..665
e-value: 3.88005E-53
score: 175.374
IPR036691Endonuclease/exonuclease/phosphatase superfamilySUPERFAMILY56219DNase I-likecoord: 313..513
IPR036249Thioredoxin-like superfamilySUPERFAMILY52833Thioredoxin-likecoord: 571..670

Relationships

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

Feature NameUnique NameType
Spg017103.1Spg017103.1mRNA


GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
cellular_component GO:0005759 mitochondrial matrix
molecular_function GO:0051537 2 iron, 2 sulfur cluster binding
molecular_function GO:0097573 glutathione oxidoreductase activity
molecular_function GO:0046872 metal ion binding