Spo14592 (gene)

Overview
NameSpo14592
Typegene
OrganismSpinacia oleracea (Spinach)
DescriptionVascular plant one zinc finger transcription factor protein
Locationchr6 : 3528735 .. 3545099 (-)
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

ATGATCCAAAATGGGTTAAATCACTTTGCACATGACTTTATAATTGTTTTCCACATCTACATAGATTTTTCTCGAACTTTGAGATTTGCAATGAGGAAGGGTTTGAAAAGAAATGGCTGCAAGTCAGCATCACACCAGCTCTTTAAGGATAGAGCAAAGAATCGAGTCGATGATCTTCAGATGATATTTTCAGATCTGCAATCGGCAAGGAAGGACAGTCGTACAGTTGATGCTGCAGTTCTTGAAGAGCAGAACGATAGTCTTGGTACATTCTCTTCGGACATCTATCGGCTGTTGCATCTTTGTGATGAAGAAGATGATGCTACAAGCCCATTTGAGCTTCCTCTGCCAAAGTCTGAGCCTGACGTTCAGAAATTCCAAGCTGTAGATGCTATTGGCTTCCAAGAGGGCCCTGAAGTGAAGCCTGGATCACAGGAGCCGAATTTCTCATCAGTTGATCAATGCAAAGGATCTCCTGGATTTCGCAGTTTGACAACAACTAATATGGAAATGGCCAACCAGCTTGATTATAATCAATTTAATCTGCATGTTGACCTTGAACATCACTATTTTGGTGGTTATAGTGGTGTTGATGTTGGTGCTCTGTACGCACACCCCATTTCAGGATTTCTGCCCAATGTATGCCCACCACCTTCGGCTTTTCTGGGACCAAAATGTGCACTCTGGGATTGTCCTAGGCCTGCTCAAGGATCAGACTGGTGGCAAGATTACTGCAGTAGTTTCCATGCTACACTTGCATTAAATGAGGGCCCACCTGGAATGACTCCGGTCCTACGTCCCGGAGGCATCGGCCTGAAGGATGGTTTGCTTTTTGCTGCTTTGAGCGCGAAGGTACAAGGAAAAGATGTTGGGATTCCAGCATGCGAGGGGGCAGCAACTGCAAAGTCCCCTTGGAATGCCCCTGAGCTTTTTGACCTCTTGGTTCTTGAGGGTGAAACTATTAGGGAGTGGCTCTTCTTTGACAAACCTCGAAGAGCATTTGAGAGTGGAAACAGAAAGCAGAGATCATTGCCAGATTACAGTGGCCGAGGGTGGCATGAGTCGAGAAAACAAGTTATGGATGAGTTCAATGGGCTGAAAAGATCTTATTATATGGATCCTCAGCCACTGAATAACTATGAATGGCATCTGTACGAGTACGAGATTAATAAGTGTGATGTGTGTGCACTGTATAGATTGGAACTCAAGCTGGTAGATCGTAAGAAAACTCCCAGAGGGAAATCAGGAAATGATTCTGTTTCTGAGCTACAGAAGCAGATGGGTAGACTTACTGCTGAGTTTCCGCTCGATAACAGACGTCCACTGAAAGGAAGGACTAAGTTCAACAGCAAAGACGGTGTTGGAAATCTCCAATCTGATCCCAATGAATTAATCAATGGAGATAAAACATTTGATCATGGGGTTGGTGCACCATATGGGTATCTTGTGGAGAATATAGGTGATTACTACCTCAAGTAGAGATATAATGGTCCAGTTGGCGGATTTTGTTCATCTACTGACAGTTCTGTTTTCAGGGTTTGATCATCTTCAATAACATAGATAAGACCCTCGTTTGTTTTTAATCCGAGGATCTTGTATATAGATTATCCTGGTTTTTATCCAAGATAATGGCTTTTGTCATTTCTGGATTATATCTGACAAATGAAGAGGGGTTAAAATTGCCAGTATTTACTTATATAGTGAAGGTCAGCAAATTTGGTAGGGGATGTACATTCTAACGCTGGTTTCTACATGGTTTGGAGACTGCAAAGTGGGATGCTTTCTTTTTCTTCTGGAAATGTCAACAAAAATTTATGTAACGGCTGCTGTTGCACTTTAGTTTCTGCTACAAGATGAGATACATGTCAACTCTCTCTGTCTCTTGTTGTCATCTTCTCCCAAAGTTACGTAAACCAATCTGTATCATGTATGACGAGAAATCTTTAACATTGTGCTGTAATGTTAGAAACTAGAAGATGCTTAGTATTACCTCTGAACGTGTTCTTCATAATATATGTCACAGTGAATTGAACATGCACGACCTTTTGTCATTATCAGTGACAGGAAATAATTAAATTCTCATTATCTGGTTACTTTTTATTTGTGGTTGTGGTGAAAATGATATTATAATCTTACAATGGATTGACTATGCGC

Coding sequence (CDS)

ATGATCCAAAATGGGTTAAATCACTTTGCACATGACTTTATAATTGTTTTCCACATCTACATAGATTTTTCTCGAACTTTGAGATTTGCAATGAGGAAGGGTTTGAAAAGAAATGGCTGCAAGTCAGCATCACACCAGCTCTTTAAGGATAGAGCAAAGAATCGAGTCGATGATCTTCAGATGATATTTTCAGATCTGCAATCGGCAAGGAAGGACAGTCGTACAGTTGATGCTGCAGTTCTTGAAGAGCAGAACGATAGTCTTGGTACATTCTCTTCGGACATCTATCGGCTGTTGCATCTTTGTGATGAAGAAGATGATGCTACAAGCCCATTTGAGCTTCCTCTGCCAAAGTCTGAGCCTGACGTTCAGAAATTCCAAGCTGTAGATGCTATTGGCTTCCAAGAGGGCCCTGAAGTGAAGCCTGGATCACAGGAGCCGAATTTCTCATCAGTTGATCAATGCAAAGGATCTCCTGGATTTCGCAGTTTGACAACAACTAATATGGAAATGGCCAACCAGCTTGATTATAATCAATTTAATCTGCATGTTGACCTTGAACATCACTATTTTGGTGGTTATAGTGGTGTTGATGTTGGTGCTCTGTACGCACACCCCATTTCAGGATTTCTGCCCAATGTATGCCCACCACCTTCGGCTTTTCTGGGACCAAAATGTGCACTCTGGGATTGTCCTAGGCCTGCTCAAGGATCAGACTGGTGGCAAGATTACTGCAGTAGTTTCCATGCTACACTTGCATTAAATGAGGGCCCACCTGGAATGACTCCGGTCCTACGTCCCGGAGGCATCGGCCTGAAGGATGGTTTGCTTTTTGCTGCTTTGAGCGCGAAGGTACAAGGAAAAGATGTTGGGATTCCAGCATGCGAGGGGGCAGCAACTGCAAAGTCCCCTTGGAATGCCCCTGAGCTTTTTGACCTCTTGGTTCTTGAGGGTGAAACTATTAGGGAGTGGCTCTTCTTTGACAAACCTCGAAGAGCATTTGAGAGTGGAAACAGAAAGCAGAGATCATTGCCAGATTACAGTGGCCGAGGGTGGCATGAGTCGAGAAAACAAGTTATGGATGAGTTCAATGGGCTGAAAAGATCTTATTATATGGATCCTCAGCCACTGAATAACTATGAATGGCATCTGTACGAGTACGAGATTAATAAGTGTGATGTGTGTGCACTGTATAGATTGGAACTCAAGCTGGTAGATCGTAAGAAAACTCCCAGAGGGAAATCAGGAAATGATTCTGTTTCTGAGCTACAGAAGCAGATGGGTAGACTTACTGCTGAGTTTCCGCTCGATAACAGACGTCCACTGAAAGGAAGGACTAAGTTCAACAGCAAAGACGGTGTTGGAAATCTCCAATCTGATCCCAATGAATTAATCAATGGAGATAAAACATTTGATCATGGGGTTGGTGCACCATATGGGTATCTTGTGGAGAATATAGGTGATTACTACCTCAAGTAG

Protein sequence

MIQNGLNHFAHDFIIVFHIYIDFSRTLRFAMRKGLKRNGCKSASHQLFKDRAKNRVDDLQMIFSDLQSARKDSRTVDAAVLEEQNDSLGTFSSDIYRLLHLCDEEDDATSPFELPLPKSEPDVQKFQAVDAIGFQEGPEVKPGSQEPNFSSVDQCKGSPGFRSLTTTNMEMANQLDYNQFNLHVDLEHHYFGGYSGVDVGALYAHPISGFLPNVCPPPSAFLGPKCALWDCPRPAQGSDWWQDYCSSFHATLALNEGPPGMTPVLRPGGIGLKDGLLFAALSAKVQGKDVGIPACEGAATAKSPWNAPELFDLLVLEGETIREWLFFDKPRRAFESGNRKQRSLPDYSGRGWHESRKQVMDEFNGLKRSYYMDPQPLNNYEWHLYEYEINKCDVCALYRLELKLVDRKKTPRGKSGNDSVSELQKQMGRLTAEFPLDNRRPLKGRTKFNSKDGVGNLQSDPNELINGDKTFDHGVGAPYGYLVENIGDYYLK
Relationships

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

Feature NameUnique NameType
Spo14592.1Spo14592.1mRNA


Homology
[Close]
BLAST of Spo14592.1 vs. NCBI nr
Match: gi|902165774|gb|KNA07150.1| (hypothetical protein SOVF_174540 [Spinacia oleracea])

HSP 1 Score: 948.7 bits (2451), Expect = 3.900e-273
Identity = 462/484 (95.45%), Postives = 462/484 (95.45%), Query Frame = 1 

		  

Query: 31  MRKGLKRNGCKSASHQLFKDRAKNRVDDLQMIFSDLQSARKDSRTVDAAVLEE------- 90
           MRKGLKRNGCKSASHQLFKDRAKNRVDDLQMIFSDLQSARKDSRTVDAAVLEE       
Sbjct: 1   MRKGLKRNGCKSASHQLFKDRAKNRVDDLQMIFSDLQSARKDSRTVDAAVLEEQVYLMLR 60

Query: 91  ---------------QNDSLGTFSSDIYRLLHLCDEEDDATSPFELPLPKSEPDVQKFQA 150
                          QNDSLGTFSSDIYRLLHLCDEEDDATSPFELPLPKSEPDVQKFQA
Sbjct: 61  EWKSELNEPSPAPSVQNDSLGTFSSDIYRLLHLCDEEDDATSPFELPLPKSEPDVQKFQA 120

Query: 151 VDAIGFQEGPEVKPGSQEPNFSSVDQCKGSPGFRSLTTTNMEMANQLDYNQFNLHVDLEH 210
           VDAIGFQEGPEVKPGSQEPNFSSVDQCKGSPGFRSLTTTNMEMANQLDYNQFNLHVDLEH
Sbjct: 121 VDAIGFQEGPEVKPGSQEPNFSSVDQCKGSPGFRSLTTTNMEMANQLDYNQFNLHVDLEH 180

Query: 211 HYFGGYSGVDVGALYAHPISGFLPNVCPPPSAFLGPKCALWDCPRPAQGSDWWQDYCSSF 270
           HYFGGYSGVDVGALYAHPISGFLPNVCPPPSAFLGPKCALWDCPRPAQGSDWWQDYCSSF
Sbjct: 181 HYFGGYSGVDVGALYAHPISGFLPNVCPPPSAFLGPKCALWDCPRPAQGSDWWQDYCSSF 240

Query: 271 HATLALNEGPPGMTPVLRPGGIGLKDGLLFAALSAKVQGKDVGIPACEGAATAKSPWNAP 330
           HATLALNEGPPGMTPVLRPGGIGLKDGLLFAALSAKVQGKDVGIPACEGAATAKSPWNAP
Sbjct: 241 HATLALNEGPPGMTPVLRPGGIGLKDGLLFAALSAKVQGKDVGIPACEGAATAKSPWNAP 300

Query: 331 ELFDLLVLEGETIREWLFFDKPRRAFESGNRKQRSLPDYSGRGWHESRKQVMDEFNGLKR 390
           ELFDLLVLEGETIREWLFFDKPRRAFESGNRKQRSLPDYSGRGWHESRKQVMDEFNGLKR
Sbjct: 301 ELFDLLVLEGETIREWLFFDKPRRAFESGNRKQRSLPDYSGRGWHESRKQVMDEFNGLKR 360

Query: 391 SYYMDPQPLNNYEWHLYEYEINKCDVCALYRLELKLVDRKKTPRGKSGNDSVSELQKQMG 450
           SYYMDPQPLNNYEWHLYEYEINKCDVCALYRLELKLVDRKKTPRGKSGNDSVSELQKQMG
Sbjct: 361 SYYMDPQPLNNYEWHLYEYEINKCDVCALYRLELKLVDRKKTPRGKSGNDSVSELQKQMG 420

Query: 451 RLTAEFPLDNRRPLKGRTKFNSKDGVGNLQSDPNELINGDKTFDHGVGAPYGYLVENIGD 493
           RLTAEFPLDNRRPLKGRTKFNSKDGVGNLQSDPNELINGDKTFDHGVGAPYGYLVENIGD
Sbjct: 421 RLTAEFPLDNRRPLKGRTKFNSKDGVGNLQSDPNELINGDKTFDHGVGAPYGYLVENIGD 480
[Close]
BLAST of Spo14592.1 vs. NCBI nr
Match: gi|731350206|ref|XP_010686387.1| (PREDICTED: transcription factor VOZ1 [Beta vulgaris subsp. vulgaris])

HSP 1 Score: 879.4 bits (2271), Expect = 2.900e-252
Identity = 426/485 (87.84%), Postives = 444/485 (91.55%), Query Frame = 1 

		  

Query: 31  MRKGLKRNGCKSASHQLFKDRAKNRVDDLQMIFSDLQSARKDSRTVDAAVLEE------- 90
           MRKGLKRNGCKS SHQLFKDRAKNRVDDLQMIFSDLQSARKDSRTVDAAVLEE       
Sbjct: 1   MRKGLKRNGCKSVSHQLFKDRAKNRVDDLQMIFSDLQSARKDSRTVDAAVLEEQVYLMLR 60

Query: 91  ---------------QNDSLGTFSSDIYRLLHLCDEEDDATSPFELPLPKSEPDVQKFQA 150
                          QNDSLGTFSSDIYRLLHLCDEEDDATSPFELPLPK EPDVQK Q 
Sbjct: 61  EWKSELNEPSPASSLQNDSLGTFSSDIYRLLHLCDEEDDATSPFELPLPKPEPDVQKCQV 120

Query: 151 VDAIGFQEGPEVKPGSQEPNFSSVDQCKGSPGFRSLTTTNMEMANQLDYNQFNLHVDLEH 210
            DAIGF EGP++KPGSQE NFS VDQCKG+PGFRS T TN+EMANQLDYNQ+NLH+DLE+
Sbjct: 121 GDAIGFLEGPDIKPGSQEQNFSPVDQCKGAPGFRSSTATNLEMANQLDYNQYNLHLDLEN 180

Query: 211 HYFGGYSGVDVGALYAHPISGFLPNVCPPPSAFLGPKCALWDCPRPAQGSDWWQDYCSSF 270
           HYFGGY+GVDVGALYA+PISGF+PNVCPPP+AFLGPKCALWDCPRPAQGSDWWQDYCSSF
Sbjct: 181 HYFGGYNGVDVGALYANPISGFMPNVCPPPAAFLGPKCALWDCPRPAQGSDWWQDYCSSF 240

Query: 271 HATLALNEGPPGMTPVLRPGGIGLKDGLLFAALSAKVQGKDVGIPACEGAATAKSPWNAP 330
           HA+LALNEGPPGM+PVLRPGGIGLKDGLLFAALSAKVQGKDVGIP CEGAATAKSPWNAP
Sbjct: 241 HASLALNEGPPGMSPVLRPGGIGLKDGLLFAALSAKVQGKDVGIPECEGAATAKSPWNAP 300

Query: 331 ELFDLLVLEGETIREWLFFDKPRRAFESGNRKQRSLPDYSGRGWHESRKQVMDEFNGLKR 390
           ELFDL VLEGETIREWLFFDKPRRAFESGNRKQRSLPDYSGRGWHESRKQVMDEF+GLKR
Sbjct: 301 ELFDLSVLEGETIREWLFFDKPRRAFESGNRKQRSLPDYSGRGWHESRKQVMDEFSGLKR 360

Query: 391 SYYMDPQPLNNYEWHLYEYEINKCDVCALYRLELKLVDRKKTPRGKSGNDSVSELQKQMG 450
           SYYMDPQPLNNYEWHLYEYEINKCDVCALYRLELKLVDRKKTPRGK+ NDSVSELQKQMG
Sbjct: 361 SYYMDPQPLNNYEWHLYEYEINKCDVCALYRLELKLVDRKKTPRGKTANDSVSELQKQMG 420

Query: 451 RLTAEFPLDNRRPLKGRTKFNSKDGVGNLQSDPNELINGDKT-FDHGVGAPYGYLVENIG 493
           RL+AEFPLD RRPLKGRTKFNSKDGVGNL SDP +LI  DKT FDHGVGAPYGYLVEN+G
Sbjct: 421 RLSAEFPLDGRRPLKGRTKFNSKDGVGNLHSDPTQLITADKTSFDHGVGAPYGYLVENLG 480
[Close]
BLAST of Spo14592.1 vs. NCBI nr
Match: gi|297740447|emb|CBI30629.3| (unnamed protein product [Vitis vinifera])

HSP 1 Score: 654.1 bits (1686), Expect = 2.000e-184
Identity = 337/486 (69.34%), Postives = 380/486 (78.19%), Query Frame = 1 

		  

Query: 31  MRKGLKRNGCKSASHQLFKDRAKNRVDDLQMIFSDLQSARKDSRTVDAAVLEEQ------ 90
           M KG K N CKSASH++FKD+AKNRVDDLQ +F+DLQSARK+SR+VD AVLEEQ      
Sbjct: 1   MGKGSKSN-CKSASHKMFKDKAKNRVDDLQGMFTDLQSARKESRSVDVAVLEEQLHQMLR 60

Query: 91  ----------------NDSLGTFSSDIYRLLHLCDEEDDATSPF-ELPLPKSEPDVQKFQ 150
                             SLG+FSSDI RLL LC+EEDDATS   +  +PK EPD Q  Q
Sbjct: 61  EWKAELNEPSPASSLQGGSLGSFSSDICRLLQLCEEEDDATSALADGAVPKPEPDAQGHQ 120

Query: 151 AVDAIGFQEGPEVKPGSQEPNFSSVDQCKGSP-GFRSLTTTNMEMANQLDYNQFNLHVDL 210
              ++ FQE      G QE  F  VDQCK SP G  ++   N+E A QLDY QF+L  D 
Sbjct: 121 IGASVLFQE--RYNKGPQEHGFQLVDQCKISPSGAHNMGVHNLEGATQLDYRQFDLQQDF 180

Query: 211 EHHYFGGYSGVDVGALYAHP-ISGFLPNVCPPPSAFLGPKCALWDCPRPAQGSDWWQDYC 270
           E ++F GY G  +    A P IS FLP++C PPSAFLGPKCALWDCPRPAQG DW Q+YC
Sbjct: 181 EQNFFAGYDGTGLCGEDAMPHISSFLPSICLPPSAFLGPKCALWDCPRPAQGMDWCQNYC 240

Query: 271 SSFHATLALNEGPPGMTPVLRPGGIGLKDGLLFAALSAKVQGKDVGIPACEGAATAKSPW 330
           SSFHATLAL+EGPPGMTPVLRPGGIGLKDGLLFAALSAKVQGKDVGIP CEGAATAKSPW
Sbjct: 241 SSFHATLALSEGPPGMTPVLRPGGIGLKDGLLFAALSAKVQGKDVGIPECEGAATAKSPW 300

Query: 331 NAPELFDLLVLEGETIREWLFFDKPRRAFESGNRKQRSLPDYSGRGWHESRKQVMDEFNG 390
           NAPELFDL VLEGETIREWLFFDKPRRAFESGNRKQRSLPDYSGRGWHESRKQVM+E+ G
Sbjct: 301 NAPELFDLSVLEGETIREWLFFDKPRRAFESGNRKQRSLPDYSGRGWHESRKQVMNEYGG 360

Query: 391 LKRSYYMDPQPLNNYEWHLYEYEINKCDVCALYRLELKLVDRKKTPRGKSGNDSVSELQK 450
           LKRSYYMDPQPLN++EWHLYEYEI+KCD CALYRLELKLVD KK+ + K+  DSV++LQK
Sbjct: 361 LKRSYYMDPQPLNHFEWHLYEYEISKCDACALYRLELKLVDGKKSSKAKATTDSVADLQK 420

Query: 451 QMGRLTAEFPLDNRRPLKGRTKFNSKDGVGNLQSDPNELINGDKTFDHGVGAPYGYLVEN 492
           QMGRLTAEFPLDN+R +KGRTK N KDGVG++ S PN +   ++  D+GVG PY YLVEN
Sbjct: 421 QMGRLTAEFPLDNKRSVKGRTKINMKDGVGDVYSTPNRVGPPNQQGDYGVGGPYDYLVEN 480
[Close]
BLAST of Spo14592.1 vs. NCBI nr
Match: gi|225443564|ref|XP_002273268.1| (PREDICTED: transcription factor VOZ1 [Vitis vinifera])

HSP 1 Score: 654.1 bits (1686), Expect = 2.000e-184
Identity = 337/486 (69.34%), Postives = 380/486 (78.19%), Query Frame = 1 

		  

Query: 31  MRKGLKRNGCKSASHQLFKDRAKNRVDDLQMIFSDLQSARKDSRTVDAAVLEEQ------ 90
           M KG K N CKSASH++FKD+AKNRVDDLQ +F+DLQSARK+SR+VD AVLEEQ      
Sbjct: 2   MGKGSKSN-CKSASHKMFKDKAKNRVDDLQGMFTDLQSARKESRSVDVAVLEEQLHQMLR 61

Query: 91  ----------------NDSLGTFSSDIYRLLHLCDEEDDATSPF-ELPLPKSEPDVQKFQ 150
                             SLG+FSSDI RLL LC+EEDDATS   +  +PK EPD Q  Q
Sbjct: 62  EWKAELNEPSPASSLQGGSLGSFSSDICRLLQLCEEEDDATSALADGAVPKPEPDAQGHQ 121

Query: 151 AVDAIGFQEGPEVKPGSQEPNFSSVDQCKGSP-GFRSLTTTNMEMANQLDYNQFNLHVDL 210
              ++ FQE      G QE  F  VDQCK SP G  ++   N+E A QLDY QF+L  D 
Sbjct: 122 IGASVLFQE--RYNKGPQEHGFQLVDQCKISPSGAHNMGVHNLEGATQLDYRQFDLQQDF 181

Query: 211 EHHYFGGYSGVDVGALYAHP-ISGFLPNVCPPPSAFLGPKCALWDCPRPAQGSDWWQDYC 270
           E ++F GY G  +    A P IS FLP++C PPSAFLGPKCALWDCPRPAQG DW Q+YC
Sbjct: 182 EQNFFAGYDGTGLCGEDAMPHISSFLPSICLPPSAFLGPKCALWDCPRPAQGMDWCQNYC 241

Query: 271 SSFHATLALNEGPPGMTPVLRPGGIGLKDGLLFAALSAKVQGKDVGIPACEGAATAKSPW 330
           SSFHATLAL+EGPPGMTPVLRPGGIGLKDGLLFAALSAKVQGKDVGIP CEGAATAKSPW
Sbjct: 242 SSFHATLALSEGPPGMTPVLRPGGIGLKDGLLFAALSAKVQGKDVGIPECEGAATAKSPW 301

Query: 331 NAPELFDLLVLEGETIREWLFFDKPRRAFESGNRKQRSLPDYSGRGWHESRKQVMDEFNG 390
           NAPELFDL VLEGETIREWLFFDKPRRAFESGNRKQRSLPDYSGRGWHESRKQVM+E+ G
Sbjct: 302 NAPELFDLSVLEGETIREWLFFDKPRRAFESGNRKQRSLPDYSGRGWHESRKQVMNEYGG 361

Query: 391 LKRSYYMDPQPLNNYEWHLYEYEINKCDVCALYRLELKLVDRKKTPRGKSGNDSVSELQK 450
           LKRSYYMDPQPLN++EWHLYEYEI+KCD CALYRLELKLVD KK+ + K+  DSV++LQK
Sbjct: 362 LKRSYYMDPQPLNHFEWHLYEYEISKCDACALYRLELKLVDGKKSSKAKATTDSVADLQK 421

Query: 451 QMGRLTAEFPLDNRRPLKGRTKFNSKDGVGNLQSDPNELINGDKTFDHGVGAPYGYLVEN 492
           QMGRLTAEFPLDN+R +KGRTK N KDGVG++ S PN +   ++  D+GVG PY YLVEN
Sbjct: 422 QMGRLTAEFPLDNKRSVKGRTKINMKDGVGDVYSTPNRVGPPNQQGDYGVGGPYDYLVEN 481
[Close]
BLAST of Spo14592.1 vs. NCBI nr
Match: gi|645280853|ref|XP_008245366.1| (PREDICTED: transcription factor VOZ1 [Prunus mume])

HSP 1 Score: 649.0 bits (1673), Expect = 6.400e-183
Identity = 328/486 (67.49%), Postives = 371/486 (76.34%), Query Frame = 1 

		  

Query: 31  MRKGLKRNGCKSASHQLFKDRAKNRVDDLQMIFSDLQSARKDSRTVDAAVLEEQ------ 90
           MRKG K N CKSASH+LFKD+AKNRVDDLQ +F DL  ARK+SR+ DA +LEEQ      
Sbjct: 1   MRKGSKSN-CKSASHKLFKDKAKNRVDDLQGMFMDLLFARKESRSTDAILLEEQVHQMLR 60

Query: 91  -----------------NDSLGTFSSDIYRLLHLCDEEDDATSPFELPLPKSEPDVQKFQ 150
                              SLG+FSSDI RLL LC+EEDDATSP  L  PK EP+ Q  Q
Sbjct: 61  EWKAELNEPSPASSLQQGGSLGSFSSDICRLLQLCEEEDDATSP--LAAPKPEPNDQNLQ 120

Query: 151 AVDAIGFQEGPEVKPGSQEPNFSSVDQCKGSP-GFRSLTTTNMEMANQLDYNQFNLHVDL 210
             +++ F EG  V  G  E  F   DQCK SP G  +    N+E AN LDY+Q+ LH + 
Sbjct: 121 VGESLVFHEGFTVNQGQHELGFPLADQCKSSPSGVHNAAANNLEGANHLDYHQYELHQEF 180

Query: 211 EHHYFGGYSGVDVGALYAHP-ISGFLPNVCPPPSAFLGPKCALWDCPRPAQGSDWWQDYC 270
           EH+++  ++   +    A P +S +LP++CPPPSAFLGPKCALWDCPRPAQG DWWQDYC
Sbjct: 181 EHNFYTCFNSTALSGEDALPHVSTYLPSICPPPSAFLGPKCALWDCPRPAQGLDWWQDYC 240

Query: 271 SSFHATLALNEGPPGMTPVLRPGGIGLKDGLLFAALSAKVQGKDVGIPACEGAATAKSPW 330
           SSFHA LALNEGPPGM PVLRPGGIGLKDGLLFAALSAK QGKDVGIP CEGAATAKSPW
Sbjct: 241 SSFHAALALNEGPPGMGPVLRPGGIGLKDGLLFAALSAKAQGKDVGIPECEGAATAKSPW 300

Query: 331 NAPELFDLLVLEGETIREWLFFDKPRRAFESGNRKQRSLPDYSGRGWHESRKQVMDEFNG 390
           NAPELFDLLVLEGE IREWLFFDKPRRAFESGNRKQRSLPDY+GRGWHESRKQVM+EF G
Sbjct: 301 NAPELFDLLVLEGEIIREWLFFDKPRRAFESGNRKQRSLPDYNGRGWHESRKQVMNEFGG 360

Query: 391 LKRSYYMDPQPLNNYEWHLYEYEINKCDVCALYRLELKLVDRKKTPRGKSGNDSVSELQK 450
           LKRSYYMDPQPLN++EWHLYEYEINKCD CALYRLELKLVD KK  +GK  N+SV++LQK
Sbjct: 361 LKRSYYMDPQPLNHFEWHLYEYEINKCDACALYRLELKLVDGKKNSKGKLTNESVADLQK 420

Query: 451 QMGRLTAEFPLDNRRPLKGRTKFNSKDGVGNLQSDPNELINGDKTFDHGVGAPYGYLVEN 492
           QMGRL+AEFP DN+R +KGR K N K GVGN+   PN     + TFD+G+GAPY YLVEN
Sbjct: 421 QMGRLSAEFPSDNKRCVKGRAKANEKVGVGNVYYTPNRGATTNGTFDYGIGAPYDYLVEN 480
[Close]
BLAST of Spo14592.1 vs. UniProtKB/TrEMBL
Match: A0A0K9QIS6_SPIOL (Uncharacterized protein OS=Spinacia oleracea GN=SOVF_174540 PE=4 SV=1)

HSP 1 Score: 948.7 bits (2451), Expect = 2.700e-273
Identity = 462/484 (95.45%), Postives = 462/484 (95.45%), Query Frame = 1 

		  

Query: 31  MRKGLKRNGCKSASHQLFKDRAKNRVDDLQMIFSDLQSARKDSRTVDAAVLEE------- 90
           MRKGLKRNGCKSASHQLFKDRAKNRVDDLQMIFSDLQSARKDSRTVDAAVLEE       
Sbjct: 1   MRKGLKRNGCKSASHQLFKDRAKNRVDDLQMIFSDLQSARKDSRTVDAAVLEEQVYLMLR 60

Query: 91  ---------------QNDSLGTFSSDIYRLLHLCDEEDDATSPFELPLPKSEPDVQKFQA 150
                          QNDSLGTFSSDIYRLLHLCDEEDDATSPFELPLPKSEPDVQKFQA
Sbjct: 61  EWKSELNEPSPAPSVQNDSLGTFSSDIYRLLHLCDEEDDATSPFELPLPKSEPDVQKFQA 120

Query: 151 VDAIGFQEGPEVKPGSQEPNFSSVDQCKGSPGFRSLTTTNMEMANQLDYNQFNLHVDLEH 210
           VDAIGFQEGPEVKPGSQEPNFSSVDQCKGSPGFRSLTTTNMEMANQLDYNQFNLHVDLEH
Sbjct: 121 VDAIGFQEGPEVKPGSQEPNFSSVDQCKGSPGFRSLTTTNMEMANQLDYNQFNLHVDLEH 180

Query: 211 HYFGGYSGVDVGALYAHPISGFLPNVCPPPSAFLGPKCALWDCPRPAQGSDWWQDYCSSF 270
           HYFGGYSGVDVGALYAHPISGFLPNVCPPPSAFLGPKCALWDCPRPAQGSDWWQDYCSSF
Sbjct: 181 HYFGGYSGVDVGALYAHPISGFLPNVCPPPSAFLGPKCALWDCPRPAQGSDWWQDYCSSF 240

Query: 271 HATLALNEGPPGMTPVLRPGGIGLKDGLLFAALSAKVQGKDVGIPACEGAATAKSPWNAP 330
           HATLALNEGPPGMTPVLRPGGIGLKDGLLFAALSAKVQGKDVGIPACEGAATAKSPWNAP
Sbjct: 241 HATLALNEGPPGMTPVLRPGGIGLKDGLLFAALSAKVQGKDVGIPACEGAATAKSPWNAP 300

Query: 331 ELFDLLVLEGETIREWLFFDKPRRAFESGNRKQRSLPDYSGRGWHESRKQVMDEFNGLKR 390
           ELFDLLVLEGETIREWLFFDKPRRAFESGNRKQRSLPDYSGRGWHESRKQVMDEFNGLKR
Sbjct: 301 ELFDLLVLEGETIREWLFFDKPRRAFESGNRKQRSLPDYSGRGWHESRKQVMDEFNGLKR 360

Query: 391 SYYMDPQPLNNYEWHLYEYEINKCDVCALYRLELKLVDRKKTPRGKSGNDSVSELQKQMG 450
           SYYMDPQPLNNYEWHLYEYEINKCDVCALYRLELKLVDRKKTPRGKSGNDSVSELQKQMG
Sbjct: 361 SYYMDPQPLNNYEWHLYEYEINKCDVCALYRLELKLVDRKKTPRGKSGNDSVSELQKQMG 420

Query: 451 RLTAEFPLDNRRPLKGRTKFNSKDGVGNLQSDPNELINGDKTFDHGVGAPYGYLVENIGD 493
           RLTAEFPLDNRRPLKGRTKFNSKDGVGNLQSDPNELINGDKTFDHGVGAPYGYLVENIGD
Sbjct: 421 RLTAEFPLDNRRPLKGRTKFNSKDGVGNLQSDPNELINGDKTFDHGVGAPYGYLVENIGD 480
[Close]
BLAST of Spo14592.1 vs. UniProtKB/TrEMBL
Match: A0A0J8BTX5_BETVU (Uncharacterized protein OS=Beta vulgaris subsp. vulgaris GN=BVRB_8g182380 PE=4 SV=1)

HSP 1 Score: 879.4 bits (2271), Expect = 2.000e-252
Identity = 426/485 (87.84%), Postives = 444/485 (91.55%), Query Frame = 1 

		  

Query: 31  MRKGLKRNGCKSASHQLFKDRAKNRVDDLQMIFSDLQSARKDSRTVDAAVLEE------- 90
           MRKGLKRNGCKS SHQLFKDRAKNRVDDLQMIFSDLQSARKDSRTVDAAVLEE       
Sbjct: 1   MRKGLKRNGCKSVSHQLFKDRAKNRVDDLQMIFSDLQSARKDSRTVDAAVLEEQVYLMLR 60

Query: 91  ---------------QNDSLGTFSSDIYRLLHLCDEEDDATSPFELPLPKSEPDVQKFQA 150
                          QNDSLGTFSSDIYRLLHLCDEEDDATSPFELPLPK EPDVQK Q 
Sbjct: 61  EWKSELNEPSPASSLQNDSLGTFSSDIYRLLHLCDEEDDATSPFELPLPKPEPDVQKCQV 120

Query: 151 VDAIGFQEGPEVKPGSQEPNFSSVDQCKGSPGFRSLTTTNMEMANQLDYNQFNLHVDLEH 210
            DAIGF EGP++KPGSQE NFS VDQCKG+PGFRS T TN+EMANQLDYNQ+NLH+DLE+
Sbjct: 121 GDAIGFLEGPDIKPGSQEQNFSPVDQCKGAPGFRSSTATNLEMANQLDYNQYNLHLDLEN 180

Query: 211 HYFGGYSGVDVGALYAHPISGFLPNVCPPPSAFLGPKCALWDCPRPAQGSDWWQDYCSSF 270
           HYFGGY+GVDVGALYA+PISGF+PNVCPPP+AFLGPKCALWDCPRPAQGSDWWQDYCSSF
Sbjct: 181 HYFGGYNGVDVGALYANPISGFMPNVCPPPAAFLGPKCALWDCPRPAQGSDWWQDYCSSF 240

Query: 271 HATLALNEGPPGMTPVLRPGGIGLKDGLLFAALSAKVQGKDVGIPACEGAATAKSPWNAP 330
           HA+LALNEGPPGM+PVLRPGGIGLKDGLLFAALSAKVQGKDVGIP CEGAATAKSPWNAP
Sbjct: 241 HASLALNEGPPGMSPVLRPGGIGLKDGLLFAALSAKVQGKDVGIPECEGAATAKSPWNAP 300

Query: 331 ELFDLLVLEGETIREWLFFDKPRRAFESGNRKQRSLPDYSGRGWHESRKQVMDEFNGLKR 390
           ELFDL VLEGETIREWLFFDKPRRAFESGNRKQRSLPDYSGRGWHESRKQVMDEF+GLKR
Sbjct: 301 ELFDLSVLEGETIREWLFFDKPRRAFESGNRKQRSLPDYSGRGWHESRKQVMDEFSGLKR 360

Query: 391 SYYMDPQPLNNYEWHLYEYEINKCDVCALYRLELKLVDRKKTPRGKSGNDSVSELQKQMG 450
           SYYMDPQPLNNYEWHLYEYEINKCDVCALYRLELKLVDRKKTPRGK+ NDSVSELQKQMG
Sbjct: 361 SYYMDPQPLNNYEWHLYEYEINKCDVCALYRLELKLVDRKKTPRGKTANDSVSELQKQMG 420

Query: 451 RLTAEFPLDNRRPLKGRTKFNSKDGVGNLQSDPNELINGDKT-FDHGVGAPYGYLVENIG 493
           RL+AEFPLD RRPLKGRTKFNSKDGVGNL SDP +LI  DKT FDHGVGAPYGYLVEN+G
Sbjct: 421 RLSAEFPLDGRRPLKGRTKFNSKDGVGNLHSDPTQLITADKTSFDHGVGAPYGYLVENLG 480
[Close]
BLAST of Spo14592.1 vs. UniProtKB/TrEMBL
Match: F6HM51_VITVI (Putative uncharacterized protein OS=Vitis vinifera GN=VIT_10s0003g00500 PE=4 SV=1)

HSP 1 Score: 654.1 bits (1686), Expect = 1.400e-184
Identity = 337/486 (69.34%), Postives = 380/486 (78.19%), Query Frame = 1 

		  

Query: 31  MRKGLKRNGCKSASHQLFKDRAKNRVDDLQMIFSDLQSARKDSRTVDAAVLEEQ------ 90
           M KG K N CKSASH++FKD+AKNRVDDLQ +F+DLQSARK+SR+VD AVLEEQ      
Sbjct: 2   MGKGSKSN-CKSASHKMFKDKAKNRVDDLQGMFTDLQSARKESRSVDVAVLEEQLHQMLR 61

Query: 91  ----------------NDSLGTFSSDIYRLLHLCDEEDDATSPF-ELPLPKSEPDVQKFQ 150
                             SLG+FSSDI RLL LC+EEDDATS   +  +PK EPD Q  Q
Sbjct: 62  EWKAELNEPSPASSLQGGSLGSFSSDICRLLQLCEEEDDATSALADGAVPKPEPDAQGHQ 121

Query: 151 AVDAIGFQEGPEVKPGSQEPNFSSVDQCKGSP-GFRSLTTTNMEMANQLDYNQFNLHVDL 210
              ++ FQE      G QE  F  VDQCK SP G  ++   N+E A QLDY QF+L  D 
Sbjct: 122 IGASVLFQE--RYNKGPQEHGFQLVDQCKISPSGAHNMGVHNLEGATQLDYRQFDLQQDF 181

Query: 211 EHHYFGGYSGVDVGALYAHP-ISGFLPNVCPPPSAFLGPKCALWDCPRPAQGSDWWQDYC 270
           E ++F GY G  +    A P IS FLP++C PPSAFLGPKCALWDCPRPAQG DW Q+YC
Sbjct: 182 EQNFFAGYDGTGLCGEDAMPHISSFLPSICLPPSAFLGPKCALWDCPRPAQGMDWCQNYC 241

Query: 271 SSFHATLALNEGPPGMTPVLRPGGIGLKDGLLFAALSAKVQGKDVGIPACEGAATAKSPW 330
           SSFHATLAL+EGPPGMTPVLRPGGIGLKDGLLFAALSAKVQGKDVGIP CEGAATAKSPW
Sbjct: 242 SSFHATLALSEGPPGMTPVLRPGGIGLKDGLLFAALSAKVQGKDVGIPECEGAATAKSPW 301

Query: 331 NAPELFDLLVLEGETIREWLFFDKPRRAFESGNRKQRSLPDYSGRGWHESRKQVMDEFNG 390
           NAPELFDL VLEGETIREWLFFDKPRRAFESGNRKQRSLPDYSGRGWHESRKQVM+E+ G
Sbjct: 302 NAPELFDLSVLEGETIREWLFFDKPRRAFESGNRKQRSLPDYSGRGWHESRKQVMNEYGG 361

Query: 391 LKRSYYMDPQPLNNYEWHLYEYEINKCDVCALYRLELKLVDRKKTPRGKSGNDSVSELQK 450
           LKRSYYMDPQPLN++EWHLYEYEI+KCD CALYRLELKLVD KK+ + K+  DSV++LQK
Sbjct: 362 LKRSYYMDPQPLNHFEWHLYEYEISKCDACALYRLELKLVDGKKSSKAKATTDSVADLQK 421

Query: 451 QMGRLTAEFPLDNRRPLKGRTKFNSKDGVGNLQSDPNELINGDKTFDHGVGAPYGYLVEN 492
           QMGRLTAEFPLDN+R +KGRTK N KDGVG++ S PN +   ++  D+GVG PY YLVEN
Sbjct: 422 QMGRLTAEFPLDNKRSVKGRTKINMKDGVGDVYSTPNRVGPPNQQGDYGVGGPYDYLVEN 481
[Close]
BLAST of Spo14592.1 vs. UniProtKB/TrEMBL
Match: M5WN78_PRUPE (Uncharacterized protein OS=Prunus persica GN=PRUPE_ppa004946mg PE=4 SV=1)

HSP 1 Score: 642.1 bits (1655), Expect = 5.500e-181
Identity = 326/486 (67.08%), Postives = 369/486 (75.93%), Query Frame = 1 

		  

Query: 31  MRKGLKRNGCKSASHQLFKDRAKNRVDDLQMIFSDLQSARKDSRTVDAAVLEEQ------ 90
           MRKG K N CKSASH+LFKD+AKNRVDDLQ +F DL  ARK+SR+ DA +LEEQ      
Sbjct: 1   MRKGSKSN-CKSASHKLFKDKAKNRVDDLQGMFMDLLFARKESRSTDAVLLEEQVHQMLR 60

Query: 91  -----------------NDSLGTFSSDIYRLLHLCDEEDDATSPFELPLPKSEPDVQKFQ 150
                              SLG+FSSDI RLL LC+EEDDATSP  L  PK EP+ Q  Q
Sbjct: 61  EWKAELNEPSPASSLQQGGSLGSFSSDICRLLQLCEEEDDATSP--LAAPKPEPNDQNLQ 120

Query: 151 AVDAIGFQEGPEVKPGSQEPNFSSVDQCKGSP-GFRSLTTTNMEMANQLDYNQFNLHVDL 210
             ++  F+EG  V  G  E  F   DQCK SP G  +    N+E  N LDY+Q+ LH + 
Sbjct: 121 VGESFVFREGFTVNQGQHELGFPLADQCKSSPSGVHNAAANNLEGNNHLDYHQYELHQEF 180

Query: 211 EHHYFGGYSGVDVGALYAHP-ISGFLPNVCPPPSAFLGPKCALWDCPRPAQGSDWWQDYC 270
           EH+++  ++   +    A P +S +LP++CPPPSAFLGPKCALWDCPRPAQG DWWQ YC
Sbjct: 181 EHNFYTCFNSTALSGEDALPHVSTYLPSICPPPSAFLGPKCALWDCPRPAQGLDWWQYYC 240

Query: 271 SSFHATLALNEGPPGMTPVLRPGGIGLKDGLLFAALSAKVQGKDVGIPACEGAATAKSPW 330
           SSFHA LALNEGPPGM PVLRPGGIGLKDGLLFAALSAK QGKDVGIP CEGAATAKSPW
Sbjct: 241 SSFHAALALNEGPPGMGPVLRPGGIGLKDGLLFAALSAKAQGKDVGIPECEGAATAKSPW 300

Query: 331 NAPELFDLLVLEGETIREWLFFDKPRRAFESGNRKQRSLPDYSGRGWHESRKQVMDEFNG 390
           NAPELFDLLVLEGE IREWLFFDKPRRAFESGNRKQRSLPDY+GRGWHESRKQVM+EF G
Sbjct: 301 NAPELFDLLVLEGEIIREWLFFDKPRRAFESGNRKQRSLPDYNGRGWHESRKQVMNEFGG 360

Query: 391 LKRSYYMDPQPLNNYEWHLYEYEINKCDVCALYRLELKLVDRKKTPRGKSGNDSVSELQK 450
           LKRSYYMDPQPLN++EWHLYEYEINKCD CALYRLELKLVD KK  +GK  N+SV++LQK
Sbjct: 361 LKRSYYMDPQPLNHFEWHLYEYEINKCDACALYRLELKLVDGKKNSKGKLTNESVADLQK 420

Query: 451 QMGRLTAEFPLDNRRPLKGRTKFNSKDGVGNLQSDPNELINGDKTFDHGVGAPYGYLVEN 492
           QMGRL+AEFP DN+R +KGR K N K GVGN+   PN     + TFD+G+GAPY YLVEN
Sbjct: 421 QMGRLSAEFPSDNKRCVKGRAKANEKVGVGNVYYTPNRGGTTNGTFDYGIGAPYDYLVEN 480
[Close]
BLAST of Spo14592.1 vs. UniProtKB/TrEMBL
Match: A0A061GFE2_THECC (Vascular plant one zinc finger protein isoform 1 OS=Theobroma cacao GN=TCM_029785 PE=4 SV=1)

HSP 1 Score: 641.3 bits (1653), Expect = 9.300e-181
Identity = 329/485 (67.84%), Postives = 371/485 (76.49%), Query Frame = 1 

		  

Query: 31  MRKGLKRNGCKSASHQLFKDRAKNRVDDLQMIFSDLQSARKDSRTVDAAVLEEQ------ 90
           M KG K N CKSASH+LFKDRAKNRVDDLQ +F DLQ ARK+SR++D AVLEEQ      
Sbjct: 1   MGKGSKSN-CKSASHKLFKDRAKNRVDDLQGMFLDLQFARKESRSIDVAVLEEQVHQMLR 60

Query: 91  -----------------NDSLGTFSSDIYRLLHLCDEEDDATSPFELPLPKSEPDVQKFQ 150
                              SLG+FSSDI RLL LC+EEDDATS   L  PK EP+ Q  Q
Sbjct: 61  EWKAELNEPSPASSLQQGGSLGSFSSDICRLLQLCEEEDDATSA--LAAPKPEPNDQSLQ 120

Query: 151 AVDAIGFQEGPEVKPGSQEPNFSSVDQCKGSP-GFRSLTTTNMEMANQLDYNQFNLHVDL 210
             DA  FQEG  V     E  F  VD+C+ SP G R+++  N+E A QL+Y QF+L  D 
Sbjct: 121 VEDAAAFQEGYGVNQRHHERGFPLVDRCRDSPSGVRAMSINNLEGATQLEYRQFDLLQDF 180

Query: 211 EHHYFGGYSGVDVGALYAHPISGFLPNVCPPPSAFLGPKCALWDCPRPAQGSDWWQDYCS 270
           EH Y G    V+    +    S +LP++CPPPSAFLGPKCALWDCPRPAQG DW QDYCS
Sbjct: 181 EHFYTGTSFCVEDAMPHT---SSYLPSICPPPSAFLGPKCALWDCPRPAQGLDWCQDYCS 240

Query: 271 SFHATLALNEGPPGMTPVLRPGGIGLKDGLLFAALSAKVQGKDVGIPACEGAATAKSPWN 330
           SFHA LA+NEGPPGM PVLRPGGIGLKDGLLFAALSAK QGKDVGIP CEGAATAKSPWN
Sbjct: 241 SFHAALAMNEGPPGMGPVLRPGGIGLKDGLLFAALSAKAQGKDVGIPECEGAATAKSPWN 300

Query: 331 APELFDLLVLEGETIREWLFFDKPRRAFESGNRKQRSLPDYSGRGWHESRKQVMDEFNGL 390
           APELFDL VL+GETIREWLFFDKPRRAFESGNRKQRSLPDYSGRGWHESRKQ+M+EF GL
Sbjct: 301 APELFDLSVLDGETIREWLFFDKPRRAFESGNRKQRSLPDYSGRGWHESRKQIMNEFGGL 360

Query: 391 KRSYYMDPQPLNNYEWHLYEYEINKCDVCALYRLELKLVDRKKTPRGKSGNDSVSELQKQ 450
           KRSYYMDPQPLN++EWHLYEYEINKCDVCALYRLELKLVD KK+ +GKS ND+V++LQKQ
Sbjct: 361 KRSYYMDPQPLNHFEWHLYEYEINKCDVCALYRLELKLVDGKKSAKGKSANDTVADLQKQ 420

Query: 451 MGRLTAEFPLDNRRPLKGRTKFNSKDGVGNLQSDPNELINGDKTFDHGVGAPYGYLVENI 492
           MGRLTAEFP DN+R +KGR K N+K GVGNL + PN +    + FD+G+G  Y YLV+N+
Sbjct: 421 MGRLTAEFPSDNKRYVKGRGKINAKVGVGNLYATPNVVAPTSEKFDYGLGVQYDYLVDNL 479
[Close]
BLAST of Spo14592.1 vs. ExPASy Swiss-Prot
Match: VOZ1_ARATH (Transcription factor VOZ1 OS=Arabidopsis thaliana GN=VOZ1 PE=1 SV=1)

HSP 1 Score: 566.6 bits (1459), Expect = 2.600e-160
Identity = 296/490 (60.41%), Postives = 345/490 (70.41%), Query Frame = 1 

		  

Query: 37  RNGCKSASHQLFKDRAKNRVDDLQMIFSDLQSARKDSRTVDAAVLEEQ------------ 96
           +  C+SASH+LFKD+AKNRVDDLQ +  DLQ ARK+SR  D  +LEEQ            
Sbjct: 7   KTNCRSASHKLFKDKAKNRVDDLQGMLLDLQFARKESRPTDVTLLEEQVNQMLREWKSEL 66

Query: 97  -----------NDSLGTFSSDIYRLLHLCDEEDDATSPFELPLPKSEPDVQKFQAVDAIG 156
                        +LG+FSSDI RLL LCDEEDDATS  +L  PK EP  Q  +A  A  
Sbjct: 67  NEPSPASSLQQGGTLGSFSSDICRLLQLCDEEDDATS--KLAAPKPEPADQNLEAGKAAV 126

Query: 157 FQEGPEVKPGSQEPNFSSVDQCKGSPGFRSLTTTNMEMANQLDYNQ-FNLHVDLEHHYFG 216
           FQ G  +  G  E     VD CK           N +    L+Y+Q ++L  + E ++ G
Sbjct: 127 FQRGYNLVQGKSEHGLPLVDNCKD---LSLAAGNNFDGTAPLEYHQQYDLQQEFEPNFNG 186

Query: 217 GYSGVDVGALYAHPI--SGFLPNVCPPPSAFLGPKCALWDCPRPAQGSDWWQDYCSSFHA 276
           G++      +   PI  S F+P +CPPPSAFLGPKCALWDCPRPAQG DW+QDYCSSFHA
Sbjct: 187 GFNNCPSYGVVEGPIHISNFIPTICPPPSAFLGPKCALWDCPRPAQGFDWFQDYCSSFHA 246

Query: 277 TLALNEGPPGMTPVLRPGGIGLKDGLLFAALSAKVQGKDVGIPACEGAATAKSPWNAPEL 336
            LA NEGPPGM PV+RPGGIGLKDGLLFAALSAK  GKDVGIP CEGAATAKSPWNAPEL
Sbjct: 247 ALAFNEGPPGMNPVVRPGGIGLKDGLLFAALSAKAGGKDVGIPECEGAATAKSPWNAPEL 306

Query: 337 FDLLVLEGETIREWLFFDKPRRAFESGNRKQRSLPDYSGRGWHESRKQVMDEFNGLKRSY 396
           FDL VLE ET+REWLFFDKPRRAFESGNRKQRSLPDY+GRGWHESRKQ+M EF GLKRSY
Sbjct: 307 FDLTVLESETLREWLFFDKPRRAFESGNRKQRSLPDYNGRGWHESRKQIMVEFGGLKRSY 366

Query: 397 YMDPQPLNNYEWHLYEYEINKCDVCALYRLELKLVDRKKTPRGKSGNDSVSELQKQMGRL 456
           YMDPQPL+++EWHLYEYEINKCD CALYRLELKLVD KKT +GK  NDSV++LQKQMGRL
Sbjct: 367 YMDPQPLHHFEWHLYEYEINKCDACALYRLELKLVDGKKTSKGKVSNDSVADLQKQMGRL 426

Query: 457 TAEFPLD---------NRRPLKGRTKFNSKDGVGNLQSDPNELINGDKTFDHGVGAPYGY 492
           TAEFP +         N+R +KGR K ++K   GN+Q+        ++  D+GVG  + Y
Sbjct: 427 TAEFPPENNTTNTTNNNKRCIKGRPKVSTKVATGNVQN------TVEQANDYGVGEEFNY 485
[Close]
BLAST of Spo14592.1 vs. ExPASy Swiss-Prot
Match: VOZ2_ARATH (Transcription factor VOZ2 OS=Arabidopsis thaliana GN=VOZ2 PE=1 SV=2)

HSP 1 Score: 347.1 bits (889), Expect = 3.300e-94
Identity = 209/460 (45.43%), Postives = 274/460 (59.57%), Query Frame = 1 

		  

Query: 42  SASHQLFKDRAKNRVDDLQMIFSDLQSARKDSRTVDAAVLEEQ----------------- 101
           +++HQ  +++ +    +LQ  F  LQ+ARK+ R  D A+LE Q                 
Sbjct: 8   TSAHQNVEEKLR----ELQERFCHLQAARKEGRHGDLALLEAQISQNIREWQAELTAPSP 67

Query: 102 -----NDSLGTFSSDIYRLLHLCDEEDDATSPF-ELPLPKSEPD---------------- 161
                 + +  F  +   LL L DEEDDATS   E    K +P+                
Sbjct: 68  ESSLLGEGISQFLEEFAPLLKL-DEEDDATSTLKEHAGAKPDPEGFSQSLCPPEWTSENF 127

Query: 162 -VQKFQAVDAIGFQE--------GPEVKPGSQ--EPNFSSVDQCKGSPGFRSLT-TTNME 221
               F    + GF++        G ++  G +  +P+ +S      +P F     ++N++
Sbjct: 128 SQSPFNGNFSCGFEDALNSTETHGQQLHYGYEGFDPSINS------APDFHDQKLSSNLD 187

Query: 222 MANQLDYNQFNLHVDLEHH---YFGGYSGVDVGALYAHPISGFLPNVCPPPSAFLGPKCA 281
           + +Q DY    +  +L++           +D  A ++ P S     V  PPSAFLGPKCA
Sbjct: 188 ITSQYDYIFSEVRQELDNSPSTKLDSSEEIDNFAEFSTPSS-----VRVPPSAFLGPKCA 247

Query: 282 LWDCPRPAQGSDWWQDYCSSFHATLALNEGPPGMTPVLRPGGIGLKDGLLFAALSAKVQG 341
           LWDC RPAQGS+W+ DYCS++H TLALNE  PG  PVLRPGGI LKD LL  AL AK QG
Sbjct: 248 LWDCTRPAQGSEWYLDYCSNYHGTLALNEDSPGTAPVLRPGGISLKDNLLIDALRAKTQG 307

Query: 342 KDVGIPACEGAATAKSPWNAPELFDLLVLEGETIREWLFFDKPRRAFESGNRKQRSLPDY 401
           K+VGIP CEGA   K PWNA ELF L ++EGETIREWLFFDKPRRA++SGNRKQRSLPDY
Sbjct: 308 KNVGIPVCEGAVNTKCPWNAAELFHLELVEGETIREWLFFDKPRRAYDSGNRKQRSLPDY 367

Query: 402 SGRGWHESRKQVMDEFNGLKRSYYMDPQPLNNYEWHLYEYEINKCDVCALYRLELKLVDR 446
           SGRGWHESRKQ+M E  G KRSYYMDPQP   +EWHL+EY+IN+ D CALYRLELK+ + 
Sbjct: 368 SGRGWHESRKQLMKEQEGQKRSYYMDPQPPGPFEWHLFEYQINESDACALYRLELKVGNG 427
[Close]
BLAST of Spo14592.1 vs. TAIR (Arabidopsis)
Match: AT1G28520.1 (vascular plant one zinc finger protein)

HSP 1 Score: 566.6 bits (1459), Expect = 1.500e-161
Identity = 296/490 (60.41%), Postives = 345/490 (70.41%), Query Frame = 1 

		  

Query: 37  RNGCKSASHQLFKDRAKNRVDDLQMIFSDLQSARKDSRTVDAAVLEEQ------------ 96
           +  C+SASH+LFKD+AKNRVDDLQ +  DLQ ARK+SR  D  +LEEQ            
Sbjct: 7   KTNCRSASHKLFKDKAKNRVDDLQGMLLDLQFARKESRPTDVTLLEEQVNQMLREWKSEL 66

Query: 97  -----------NDSLGTFSSDIYRLLHLCDEEDDATSPFELPLPKSEPDVQKFQAVDAIG 156
                        +LG+FSSDI RLL LCDEEDDATS  +L  PK EP  Q  +A  A  
Sbjct: 67  NEPSPASSLQQGGTLGSFSSDICRLLQLCDEEDDATS--KLAAPKPEPADQNLEAGKAAV 126

Query: 157 FQEGPEVKPGSQEPNFSSVDQCKGSPGFRSLTTTNMEMANQLDYNQ-FNLHVDLEHHYFG 216
           FQ G  +  G  E     VD CK           N +    L+Y+Q ++L  + E ++ G
Sbjct: 127 FQRGYNLVQGKSEHGLPLVDNCKD---LSLAAGNNFDGTAPLEYHQQYDLQQEFEPNFNG 186

Query: 217 GYSGVDVGALYAHPI--SGFLPNVCPPPSAFLGPKCALWDCPRPAQGSDWWQDYCSSFHA 276
           G++      +   PI  S F+P +CPPPSAFLGPKCALWDCPRPAQG DW+QDYCSSFHA
Sbjct: 187 GFNNCPSYGVVEGPIHISNFIPTICPPPSAFLGPKCALWDCPRPAQGFDWFQDYCSSFHA 246

Query: 277 TLALNEGPPGMTPVLRPGGIGLKDGLLFAALSAKVQGKDVGIPACEGAATAKSPWNAPEL 336
            LA NEGPPGM PV+RPGGIGLKDGLLFAALSAK  GKDVGIP CEGAATAKSPWNAPEL
Sbjct: 247 ALAFNEGPPGMNPVVRPGGIGLKDGLLFAALSAKAGGKDVGIPECEGAATAKSPWNAPEL 306

Query: 337 FDLLVLEGETIREWLFFDKPRRAFESGNRKQRSLPDYSGRGWHESRKQVMDEFNGLKRSY 396
           FDL VLE ET+REWLFFDKPRRAFESGNRKQRSLPDY+GRGWHESRKQ+M EF GLKRSY
Sbjct: 307 FDLTVLESETLREWLFFDKPRRAFESGNRKQRSLPDYNGRGWHESRKQIMVEFGGLKRSY 366

Query: 397 YMDPQPLNNYEWHLYEYEINKCDVCALYRLELKLVDRKKTPRGKSGNDSVSELQKQMGRL 456
           YMDPQPL+++EWHLYEYEINKCD CALYRLELKLVD KKT +GK  NDSV++LQKQMGRL
Sbjct: 367 YMDPQPLHHFEWHLYEYEINKCDACALYRLELKLVDGKKTSKGKVSNDSVADLQKQMGRL 426

Query: 457 TAEFPLD---------NRRPLKGRTKFNSKDGVGNLQSDPNELINGDKTFDHGVGAPYGY 492
           TAEFP +         N+R +KGR K ++K   GN+Q+        ++  D+GVG  + Y
Sbjct: 427 TAEFPPENNTTNTTNNNKRCIKGRPKVSTKVATGNVQN------TVEQANDYGVGEEFNY 485
[Close]
BLAST of Spo14592.1 vs. TAIR (Arabidopsis)
Match: AT2G42400.1 (vascular plant one zinc finger protein 2)

HSP 1 Score: 347.1 bits (889), Expect = 1.800e-95
Identity = 209/460 (45.43%), Postives = 274/460 (59.57%), Query Frame = 1 

		  

Query: 42  SASHQLFKDRAKNRVDDLQMIFSDLQSARKDSRTVDAAVLEEQ----------------- 101
           +++HQ  +++ +    +LQ  F  LQ+ARK+ R  D A+LE Q                 
Sbjct: 8   TSAHQNVEEKLR----ELQERFCHLQAARKEGRHGDLALLEAQISQNIREWQAELTAPSP 67

Query: 102 -----NDSLGTFSSDIYRLLHLCDEEDDATSPF-ELPLPKSEPD---------------- 161
                 + +  F  +   LL L DEEDDATS   E    K +P+                
Sbjct: 68  ESSLLGEGISQFLEEFAPLLKL-DEEDDATSTLKEHAGAKPDPEGFSQSLCPPEWTSENF 127

Query: 162 -VQKFQAVDAIGFQE--------GPEVKPGSQ--EPNFSSVDQCKGSPGFRSLT-TTNME 221
               F    + GF++        G ++  G +  +P+ +S      +P F     ++N++
Sbjct: 128 SQSPFNGNFSCGFEDALNSTETHGQQLHYGYEGFDPSINS------APDFHDQKLSSNLD 187

Query: 222 MANQLDYNQFNLHVDLEHH---YFGGYSGVDVGALYAHPISGFLPNVCPPPSAFLGPKCA 281
           + +Q DY    +  +L++           +D  A ++ P S     V  PPSAFLGPKCA
Sbjct: 188 ITSQYDYIFSEVRQELDNSPSTKLDSSEEIDNFAEFSTPSS-----VRVPPSAFLGPKCA 247

Query: 282 LWDCPRPAQGSDWWQDYCSSFHATLALNEGPPGMTPVLRPGGIGLKDGLLFAALSAKVQG 341
           LWDC RPAQGS+W+ DYCS++H TLALNE  PG  PVLRPGGI LKD LL  AL AK QG
Sbjct: 248 LWDCTRPAQGSEWYLDYCSNYHGTLALNEDSPGTAPVLRPGGISLKDNLLIDALRAKTQG 307

Query: 342 KDVGIPACEGAATAKSPWNAPELFDLLVLEGETIREWLFFDKPRRAFESGNRKQRSLPDY 401
           K+VGIP CEGA   K PWNA ELF L ++EGETIREWLFFDKPRRA++SGNRKQRSLPDY
Sbjct: 308 KNVGIPVCEGAVNTKCPWNAAELFHLELVEGETIREWLFFDKPRRAYDSGNRKQRSLPDY 367

Query: 402 SGRGWHESRKQVMDEFNGLKRSYYMDPQPLNNYEWHLYEYEINKCDVCALYRLELKLVDR 446
           SGRGWHESRKQ+M E  G KRSYYMDPQP   +EWHL+EY+IN+ D CALYRLELK+ + 
Sbjct: 368 SGRGWHESRKQLMKEQEGQKRSYYMDPQPPGPFEWHLFEYQINESDACALYRLELKVGNG 427
The following BLAST results are available for this feature:
BLAST of Spo14592.1 vs. NCBI nr
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. NCBI nr)
Total hits: 5
Match NameE-valueIdentityDescription
gi|902165774|gb|KNA07150.1|3.9e-27395.4hypothetical protein SOVF_1745... [more]
gi|731350206|ref|XP_010686387.1|2.9e-25287.8PREDICTED: transcription facto... [more]
gi|297740447|emb|CBI30629.3|2.0e-18469.3unnamed protein product [Vitis... [more]
gi|225443564|ref|XP_002273268.1|2.0e-18469.3PREDICTED: transcription facto... [more]
gi|645280853|ref|XP_008245366.1|6.4e-18367.4PREDICTED: transcription facto... [more]
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BLAST of Spo14592.1 vs. UniProtKB/TrEMBL
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. UniprotKB/TrEMBL)
Total hits: 5
Match NameE-valueIdentityDescription
A0A0K9QIS6_SPIOL2.7e-27395.4Uncharacterized protein OS=Spi... [more]
A0A0J8BTX5_BETVU2.0e-25287.8Uncharacterized protein OS=Bet... [more]
F6HM51_VITVI1.4e-18469.3Putative uncharacterized prote... [more]
M5WN78_PRUPE5.5e-18167.0Uncharacterized protein OS=Pru... [more]
A0A061GFE2_THECC9.3e-18167.8Vascular plant one zinc finger... [more]
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BLAST of Spo14592.1 vs. ExPASy Swiss-Prot
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. ExPASy SwissProt)
Total hits: 2
Match NameE-valueIdentityDescription
VOZ1_ARATH2.6e-16060.4Transcription factor VOZ1 OS=A... [more]
VOZ2_ARATH3.3e-9445.4Transcription factor VOZ2 OS=A... [more]
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BLAST of Spo14592.1 vs. TAIR (Arabidopsis)
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. TAIR)
Total hits: 2
Match NameE-valueIdentityDescription
AT1G28520.11.5e-16160.4vascular plant one zinc finger... [more]
AT2G42400.11.8e-9545.4vascular plant one zinc finger... [more]
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InterPro
Analysis Name: InterPro Annotations of S. oleracea
Date Performed: 2018-06-29
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
NoneNo IPR availableunknownCoilCoilcoord: 49..69
scor
NoneNo IPR availablePANTHERPTHR33873FAMILY NOT NAMEDcoord: 32..491
score: 9.0E
NoneNo IPR availablePANTHERPTHR33873:SF1TRANSCRIPTION FACTOR VOZ1coord: 32..491
score: 9.0E

GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0048574 long-day photoperiodism, flowering
biological_process GO:0048312 intracellular distribution of mitochondria
biological_process GO:0045595 regulation of cell differentiation
biological_process GO:0010564 regulation of cell cycle process
biological_process GO:0000209 protein polyubiquitination
biological_process GO:0010072 primary shoot apical meristem specification
biological_process GO:0010100 negative regulation of photomorphogenesis
biological_process GO:0000278 mitotic cell cycle
biological_process GO:0019915 lipid storage
biological_process GO:0009880 embryonic pattern specification
biological_process GO:0006281 DNA repair
biological_process GO:0048825 cotyledon development
biological_process GO:0051301 cell division
biological_process GO:0009738 abscisic acid-activated signaling pathway
biological_process GO:0030036 actin cytoskeleton organization
biological_process GO:0006810 transport
biological_process GO:0050826 response to freezing
biological_process GO:0002143 tRNA wobble position uridine thiolation
biological_process GO:0006777 Mo-molybdopterin cofactor biosynthetic process
biological_process GO:0018192 enzyme active site formation via cysteine modification to L-cysteine persulfide
biological_process GO:0035194 posttranscriptional gene silencing by RNA
biological_process GO:0048364 root development
biological_process GO:0048518 positive regulation of biological process
biological_process GO:0055071 manganese ion homeostasis
biological_process GO:0006891 intra-Golgi vesicle-mediated transport
biological_process GO:0070588 calcium ion transmembrane transport
biological_process GO:0016070 RNA metabolic process
biological_process GO:0042254 ribosome biogenesis
biological_process GO:1901575 organic substance catabolic process
biological_process GO:0009987 cellular process
biological_process GO:0044248 cellular catabolic process
biological_process GO:0009909 regulation of flower development
biological_process GO:0006396 RNA processing
biological_process GO:0006888 ER to Golgi vesicle-mediated transport
biological_process GO:0006996 organelle organization
biological_process GO:0005982 starch metabolic process
biological_process GO:0042542 response to hydrogen peroxide
biological_process GO:0010218 response to far red light
biological_process GO:0009409 response to cold
biological_process GO:0009637 response to blue light
biological_process GO:0009585 red, far-red light phototransduction
biological_process GO:0048578 positive regulation of long-day photoperiodism, flowering
biological_process GO:0009908 flower development
biological_process GO:0030154 cell differentiation
biological_process GO:0000381 regulation of alternative mRNA splicing, via spliceosome
biological_process GO:0009846 pollen germination
biological_process GO:0000398 mRNA splicing, via spliceosome
biological_process GO:0043933 protein-containing complex subunit organization
biological_process GO:0090558 plant epidermis development
biological_process GO:0007017 microtubule-based process
biological_process GO:0010162 seed dormancy process
biological_process GO:0007010 cytoskeleton organization
biological_process GO:0048468 cell development
biological_process GO:0009653 anatomical structure morphogenesis
biological_process GO:0055085 transmembrane transport
biological_process GO:0044070 regulation of anion transport
biological_process GO:0055114 oxidation-reduction process
biological_process GO:0019852 L-ascorbic acid metabolic process
biological_process GO:0009069 serine family amino acid metabolic process
biological_process GO:0010467 gene expression
biological_process GO:0006511 ubiquitin-dependent protein catabolic process
biological_process GO:0010182 sugar mediated signaling pathway
biological_process GO:0007062 sister chromatid cohesion
biological_process GO:0048575 short-day photoperiodism, flowering
biological_process GO:0009845 seed germination
biological_process GO:0006886 intracellular protein transport
biological_process GO:0071421 manganese ion transmembrane transport
biological_process GO:0040029 regulation of gene expression, epigenetic
biological_process GO:0008361 regulation of cell size
biological_process GO:0000463 maturation of LSU-rRNA from tricistronic rRNA transcript (SSU-rRNA, 5.8S rRNA, LSU-rRNA)
biological_process GO:0000466 maturation of 5.8S rRNA from tricistronic rRNA transcript (SSU-rRNA, 5.8S rRNA, LSU-rRNA)
biological_process GO:0008152 metabolic process
biological_process GO:0080147 root hair cell development
biological_process GO:0009553 embryo sac development
biological_process GO:0006446 regulation of translational initiation
biological_process GO:0006448 regulation of translational elongation
biological_process GO:0016126 sterol biosynthetic process
biological_process GO:0010015 root morphogenesis
biological_process GO:0010075 regulation of meristem growth
biological_process GO:0006468 protein phosphorylation
biological_process GO:0051604 protein maturation
biological_process GO:0009664 plant-type cell wall organization
biological_process GO:0007389 pattern specification process
biological_process GO:0007020 microtubule nucleation
biological_process GO:0042545 cell wall modification
biological_process GO:0016132 brassinosteroid biosynthetic process
biological_process GO:0009926 auxin polar transport
biological_process GO:0006084 acetyl-CoA metabolic process
biological_process GO:0009605 response to external stimulus
biological_process GO:0006355 regulation of transcription, DNA-templated
biological_process GO:0010017 red or far-red light signaling pathway
biological_process GO:0006606 protein import into nucleus
biological_process GO:0010378 temperature compensation of the circadian clock
biological_process GO:0009816 defense response to bacterium, incompatible interaction
biological_process GO:0010199 organ boundary specification between lateral organs and the meristem
biological_process GO:0009395 phospholipid catabolic process
biological_process GO:0046686 response to cadmium ion
biological_process GO:0043044 ATP-dependent chromatin remodeling
cellular_component GO:0016442 RISC complex
cellular_component GO:0000785 chromatin
cellular_component GO:0005681 spliceosomal complex
cellular_component GO:0009507 chloroplast
cellular_component GO:0016020 membrane
cellular_component GO:0005737 cytoplasm
cellular_component GO:0005840 ribosome
cellular_component GO:0043231 intracellular membrane-bounded organelle
cellular_component GO:0005634 nucleus
cellular_component GO:0080008 Cul4-RING E3 ubiquitin ligase complex
cellular_component GO:0016021 integral component of membrane
cellular_component GO:0009505 plant-type cell wall
cellular_component GO:0005741 mitochondrial outer membrane
cellular_component GO:0005886 plasma membrane
cellular_component GO:0031902 late endosome membrane
cellular_component GO:0033017 sarcoplasmic reticulum membrane
cellular_component GO:0005667 transcription factor complex
cellular_component GO:0005856 cytoskeleton
cellular_component GO:0005654 nucleoplasm
cellular_component GO:0005730 nucleolus
cellular_component GO:0030687 preribosome, large subunit precursor
cellular_component GO:0019008 molybdopterin synthase complex
cellular_component GO:0005829 cytosol
cellular_component GO:0044424 intracellular part
cellular_component GO:0005622 intracellular
cellular_component GO:0009506 plasmodesma
cellular_component GO:0030127 COPII vesicle coat
cellular_component GO:0005802 trans-Golgi network
cellular_component GO:0000932 P-body
molecular_function GO:0008447 L-ascorbate oxidase activity
molecular_function GO:0004630 phospholipase D activity
molecular_function GO:0016740 transferase activity
molecular_function GO:0003682 chromatin binding
molecular_function GO:0097157 pre-mRNA intronic binding
molecular_function GO:0070290 N-acylphosphatidylethanolamine-specific phospholipase D activity
molecular_function GO:0000166 nucleotide binding
molecular_function GO:0008308 voltage-gated anion channel activity
molecular_function GO:0005546 phosphatidylinositol-4,5-bisphosphate binding
molecular_function GO:0003677 DNA binding
molecular_function GO:0004672 protein kinase activity
molecular_function GO:0005507 copper ion binding
molecular_function GO:0004386 helicase activity
molecular_function GO:0008265 Mo-molybdopterin cofactor sulfurase activity
molecular_function GO:0004792 thiosulfate sulfurtransferase activity
molecular_function GO:0008641 ubiquitin-like modifier activating enzyme activity
molecular_function GO:0046872 metal ion binding
molecular_function GO:0005215 transporter activity
molecular_function GO:0015410 manganese-transporting ATPase activity
molecular_function GO:0005388 calcium-transporting ATPase activity
molecular_function GO:0003676 nucleic acid binding
molecular_function GO:0008026 ATP-dependent helicase activity
molecular_function GO:0046983 protein dimerization activity
molecular_function GO:0003700 DNA-binding transcription factor activity
molecular_function GO:0005488 binding
molecular_function GO:0004523 RNA-DNA hybrid ribonuclease activity
molecular_function GO:0043021 ribonucleoprotein complex binding
molecular_function GO:0005524 ATP binding
molecular_function GO:0016779 nucleotidyltransferase activity
molecular_function GO:0003746 translation elongation factor activity
molecular_function GO:0005525 GTP binding
molecular_function GO:0003924 GTPase activity
molecular_function GO:0008270 zinc ion binding
molecular_function GO:0003723 RNA binding
molecular_function GO:0031625 ubiquitin protein ligase binding
molecular_function GO:0003712 transcription coregulator activity
molecular_function GO:0005515 protein binding
molecular_function GO:0004674 protein serine/threonine kinase activity
molecular_function GO:0005544 calcium-dependent phospholipid binding
molecular_function GO:0005509 calcium ion binding
molecular_function GO:0016491 oxidoreductase activity
molecular_function GO:0003743 translation initiation factor activity
RNA-Seq Expression
   



Co-expression
Gener valueExpression
Spo142670.79Barchart | Table
Spo175230.78Barchart | Table
Spo064970.78Barchart | Table
Spo043600.75Barchart | Table
Spo099640.75Barchart | Table
Spo168350.73Barchart | Table
Spo049520.73Barchart | Table
Spo084890.73Barchart | Table
Spo095730.73Barchart | Table
Spo163780.73Barchart | Table
Spo256610.72Barchart | Table
Spo098550.72Barchart | Table
Spo135900.72Barchart | Table
Spo089310.72Barchart | Table
Spo239660.71Barchart | Table
Spo024700.71Barchart | Table
Spo225350.71Barchart | Table
Spo011280.71Barchart | Table
Spo014780.71Barchart | Table
Spo067720.71Barchart | Table
Spo242660.71Barchart | Table
Spo159260.70Barchart | Table
Spo118350.70Barchart | Table
Spo123620.70Barchart | Table
Spo249160.70Barchart | Table
Spo138180.70Barchart | Table
Spo191780.70Barchart | Table
Spo251000.69Barchart | Table
Spo102110.69Barchart | Table
Spo077820.69Barchart | Table
Spo049140.69Barchart | Table
Spo273140.69Barchart | Table
Spo141580.69Barchart | Table
Spo210770.69Barchart | Table
Spo159040.69Barchart | Table
Spo014200.69Barchart | Table
Spo029930.69Barchart | Table
Spo230920.68Barchart | Table
Spo074490.68Barchart | Table
Spo082170.68Barchart | Table
Spo255070.68Barchart | Table
Spo015870.68Barchart | Table
Spo070070.68Barchart | Table
Spo129180.68Barchart | Table
Spo137970.68Barchart | Table
Spo193940.68Barchart | Table
Spo166470.68Barchart | Table
Spo085270.67Barchart | Table
Spo004180.67Barchart | Table
Spo030540.67Barchart | Table
Spo041780.67Barchart | Table
Spo045380.67Barchart | Table
Spo052840.67Barchart | Table
Spo201540.67Barchart | Table
Spo211810.67Barchart | Table
Spo029880.66Barchart | Table
Spo173420.66Barchart | Table
Spo240640.66Barchart | Table
Spo240940.66Barchart | Table
Spo127350.66Barchart | Table
Spo001250.66Barchart | Table
Spo060970.66Barchart | Table
Spo253730.66Barchart | Table
Spo268020.66Barchart | Table
Spo178500.66Barchart | Table
Spo041140.66Barchart | Table
Spo058830.65Barchart | Table
Spo271250.65Barchart | Table