Spo20160 (gene)

Overview
NameSpo20160
Typegene
OrganismSpinacia oleracea (Spinach)
DescriptionAlpha-glucan water dikinase
LocationSpoScf_01184 : 95818 .. 110930 (-)
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

AACCTCCTTGTACTACGCAGATGTAGATCGATCGAATTCCAGAAAAAAAATCCAGTGAAACCTTCGAATCTCCATGGCCAATTTCTGCCCTAATCTACACAGATCTTACCCCCATTAACTCCCTTCTTCATCTTCGGTTTGCTCCGCCGCGCGGCCATCGGAAAACGTTTCACCGGCGGTAACTAAAGCTTTTCAACTCCCACCGCATATCTCACCGACGGTAACTTGCTCTCTCCTCCGCGCAAGGTTTTCTGTTCTTTTTCAACTCCCATCGCCTATAACACCGAGAAGGGTGGATTTATCTGGGATTTCCTTGCAATTATCCGAAAATGAGAGAGAAAGACGATCAACTCCACTTTCGCTCATTGTTCTACCTTTGCCTCGTCGATTTCGAATCTCCCATTGTTGCGGATATTGCAAATATTTCTTGAACTGCAATACTGGAAAAGGTACGGAGTATCACCATTCTGCGTTTTTTTGATGGGATTGCAAACCCCAAGAATGTGTCTGTTCAAGCATGAGGCAAAGACTCAGTAGTGCTTACTACAACAAAGACCAGGAAGAAGAATAAGCCTGCAAGTACGCAACACAAGTATGCGAAGAAGAAAGATTTCAGTTGGATTATGCAGGCAATTCATTCAGGAGCAGATCTGGAGGCTGCTATTTCAAATTGCATGGGATACAAAACTGAGGGTCAAGGCTTCATGGTTGGCGTGAATATCGATCCTCTTCCTGGATTGCCAGCCGCATTTCCGGATTTGCTTCAGTTTATTTCGGTACATGTGGAAGATAAGAATGTGGAGCCACTGCTTGAGGCATTACTAGAGGCATGA

Coding sequence (CDS)

ATGCAGGCAATTCATTCAGGAGCAGATCTGGAGGCTGCTATTTCAAATTGCATGGGATACAAAACTGAGGGTCAAGGCTTCATGGTTGGCGTGAATATCGATCCTCTTCCTGGATTGCCAGCCGCATTTCCGGATTTGCTTCAGTTTATTTCGGTACATGTGGAAGATAAGAATGTGGAGCCACTGCTTGAGGCATTACTAGAGGCATGA

Protein sequence

MQAIHSGADLEAAISNCMGYKTEGQGFMVGVNIDPLPGLPAAFPDLLQFISVHVEDKNVEPLLEALLEA
Relationships

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

Feature NameUnique NameType
Spo20160.1Spo20160.1mRNA


Homology
[Close]
BLAST of Spo20160.1 vs. NCBI nr
Match: gi|902188087|gb|KNA11066.1| (hypothetical protein SOVF_138570 [Spinacia oleracea])

HSP 1 Score: 135.2 bits (339), Expect = 4.400e-29
Identity = 64/69 (92.75%), Postives = 67/69 (97.10%), Query Frame = 1 

		  

Query: 1   MQAIHSGADLEAAISNCMGYKTEGQGFMVGVNIDPLPGLPAAFPDLLQFISVHVEDKNVE 60
           ++A+HSGADLEAAISNCMGYKTEGQGFMVGVNIDPLPGLPA FPDLLQFI VHVEDKNVE
Sbjct: 765 LKAVHSGADLEAAISNCMGYKTEGQGFMVGVNIDPLPGLPAGFPDLLQFILVHVEDKNVE 824

Query: 61  PLLEALLEA 70
           PLLEALLEA
Sbjct: 825 PLLEALLEA 833
[Close]
BLAST of Spo20160.1 vs. NCBI nr
Match: gi|731367921|ref|XP_010695868.1| (PREDICTED: alpha-glucan water dikinase, chloroplastic isoform X1 [Beta vulgaris subsp. vulgaris])

HSP 1 Score: 127.1 bits (318), Expect = 1.200e-26
Identity = 58/69 (84.06%), Postives = 65/69 (94.20%), Query Frame = 1 

		  

Query: 1   MQAIHSGADLEAAISNCMGYKTEGQGFMVGVNIDPLPGLPAAFPDLLQFISVHVEDKNVE 60
           ++A+HSGADLEAAISNCMGYKTEGQGFMVGVNIDP+PGLPA FP+LLQF+  HVEDKNVE
Sbjct: 774 LKAVHSGADLEAAISNCMGYKTEGQGFMVGVNIDPIPGLPAGFPNLLQFVLEHVEDKNVE 833

Query: 61  PLLEALLEA 70
           PL+E LLEA
Sbjct: 834 PLVEGLLEA 842
[Close]
BLAST of Spo20160.1 vs. NCBI nr
Match: gi|731367923|ref|XP_010695869.1| (PREDICTED: alpha-glucan water dikinase, chloroplastic isoform X2 [Beta vulgaris subsp. vulgaris])

HSP 1 Score: 127.1 bits (318), Expect = 1.200e-26
Identity = 58/69 (84.06%), Postives = 65/69 (94.20%), Query Frame = 1 

		  

Query: 1   MQAIHSGADLEAAISNCMGYKTEGQGFMVGVNIDPLPGLPAAFPDLLQFISVHVEDKNVE 60
           ++A+HSGADLEAAISNCMGYKTEGQGFMVGVNIDP+PGLPA FP+LLQF+  HVEDKNVE
Sbjct: 772 LKAVHSGADLEAAISNCMGYKTEGQGFMVGVNIDPIPGLPAGFPNLLQFVLEHVEDKNVE 831

Query: 61  PLLEALLEA 70
           PL+E LLEA
Sbjct: 832 PLVEGLLEA 840
[Close]
BLAST of Spo20160.1 vs. NCBI nr
Match: gi|225425619|ref|XP_002270485.1| (PREDICTED: alpha-glucan water dikinase, chloroplastic isoform X2 [Vitis vinifera])

HSP 1 Score: 119.4 bits (298), Expect = 2.500e-24
Identity = 53/69 (76.81%), Postives = 64/69 (92.75%), Query Frame = 1 

		  

Query: 1   MQAIHSGADLEAAISNCMGYKTEGQGFMVGVNIDPLPGLPAAFPDLLQFISVHVEDKNVE 60
           ++A+HSGADLE+AISNCMGY++EGQGFMVGV I+P+PGLP+ FP+LLQF+  HVEDKNVE
Sbjct: 774 LKAVHSGADLESAISNCMGYRSEGQGFMVGVKINPIPGLPSGFPELLQFVLEHVEDKNVE 833

Query: 61  PLLEALLEA 70
           PLLE LLEA
Sbjct: 834 PLLEGLLEA 842
[Close]
BLAST of Spo20160.1 vs. NCBI nr
Match: gi|731373430|ref|XP_010651715.1| (PREDICTED: alpha-glucan water dikinase, chloroplastic isoform X1 [Vitis vinifera])

HSP 1 Score: 119.4 bits (298), Expect = 2.500e-24
Identity = 53/69 (76.81%), Postives = 64/69 (92.75%), Query Frame = 1 

		  

Query: 1   MQAIHSGADLEAAISNCMGYKTEGQGFMVGVNIDPLPGLPAAFPDLLQFISVHVEDKNVE 60
           ++A+HSGADLE+AISNCMGY++EGQGFMVGV I+P+PGLP+ FP+LLQF+  HVEDKNVE
Sbjct: 775 LKAVHSGADLESAISNCMGYRSEGQGFMVGVKINPIPGLPSGFPELLQFVLEHVEDKNVE 834

Query: 61  PLLEALLEA 70
           PLLE LLEA
Sbjct: 835 PLLEGLLEA 843
[Close]
BLAST of Spo20160.1 vs. UniProtKB/TrEMBL
Match: A0A0K9QX18_SPIOL (Uncharacterized protein OS=Spinacia oleracea GN=SOVF_138570 PE=4 SV=1)

HSP 1 Score: 135.2 bits (339), Expect = 3.000e-29
Identity = 64/69 (92.75%), Postives = 67/69 (97.10%), Query Frame = 1 

		  

Query: 1   MQAIHSGADLEAAISNCMGYKTEGQGFMVGVNIDPLPGLPAAFPDLLQFISVHVEDKNVE 60
           ++A+HSGADLEAAISNCMGYKTEGQGFMVGVNIDPLPGLPA FPDLLQFI VHVEDKNVE
Sbjct: 765 LKAVHSGADLEAAISNCMGYKTEGQGFMVGVNIDPLPGLPAGFPDLLQFILVHVEDKNVE 824

Query: 61  PLLEALLEA 70
           PLLEALLEA
Sbjct: 825 PLLEALLEA 833
[Close]
BLAST of Spo20160.1 vs. UniProtKB/TrEMBL
Match: A0A0J8E2K8_BETVU (Uncharacterized protein OS=Beta vulgaris subsp. vulgaris GN=BVRB_6g155850 PE=4 SV=1)

HSP 1 Score: 127.1 bits (318), Expect = 8.300e-27
Identity = 58/69 (84.06%), Postives = 65/69 (94.20%), Query Frame = 1 

		  

Query: 1   MQAIHSGADLEAAISNCMGYKTEGQGFMVGVNIDPLPGLPAAFPDLLQFISVHVEDKNVE 60
           ++A+HSGADLEAAISNCMGYKTEGQGFMVGVNIDP+PGLPA FP+LLQF+  HVEDKNVE
Sbjct: 774 LKAVHSGADLEAAISNCMGYKTEGQGFMVGVNIDPIPGLPAGFPNLLQFVLEHVEDKNVE 833

Query: 61  PLLEALLEA 70
           PL+E LLEA
Sbjct: 834 PLVEGLLEA 842
[Close]
BLAST of Spo20160.1 vs. UniProtKB/TrEMBL
Match: A0A0J8B7U2_BETVU (Uncharacterized protein OS=Beta vulgaris subsp. vulgaris GN=BVRB_6g155850 PE=4 SV=1)

HSP 1 Score: 127.1 bits (318), Expect = 8.300e-27
Identity = 58/69 (84.06%), Postives = 65/69 (94.20%), Query Frame = 1 

		  

Query: 1   MQAIHSGADLEAAISNCMGYKTEGQGFMVGVNIDPLPGLPAAFPDLLQFISVHVEDKNVE 60
           ++A+HSGADLEAAISNCMGYKTEGQGFMVGVNIDP+PGLPA FP+LLQF+  HVEDKNVE
Sbjct: 772 LKAVHSGADLEAAISNCMGYKTEGQGFMVGVNIDPIPGLPAGFPNLLQFVLEHVEDKNVE 831

Query: 61  PLLEALLEA 70
           PL+E LLEA
Sbjct: 832 PLVEGLLEA 840
[Close]
BLAST of Spo20160.1 vs. UniProtKB/TrEMBL
Match: D7TDL2_VITVI (Putative uncharacterized protein OS=Vitis vinifera GN=VIT_01s0127g00060 PE=4 SV=1)

HSP 1 Score: 119.4 bits (298), Expect = 1.700e-24
Identity = 53/69 (76.81%), Postives = 64/69 (92.75%), Query Frame = 1 

		  

Query: 1   MQAIHSGADLEAAISNCMGYKTEGQGFMVGVNIDPLPGLPAAFPDLLQFISVHVEDKNVE 60
           ++A+HSGADLE+AISNCMGY++EGQGFMVGV I+P+PGLP+ FP+LLQF+  HVEDKNVE
Sbjct: 774 LKAVHSGADLESAISNCMGYRSEGQGFMVGVKINPIPGLPSGFPELLQFVLEHVEDKNVE 833

Query: 61  PLLEALLEA 70
           PLLE LLEA
Sbjct: 834 PLLEGLLEA 842
[Close]
BLAST of Spo20160.1 vs. UniProtKB/TrEMBL
Match: A0A0L9TMK8_PHAAN (Uncharacterized protein OS=Phaseolus angularis GN=LR48_Vigan01g123200 PE=4 SV=1)

HSP 1 Score: 118.2 bits (295), Expect = 3.900e-24
Identity = 53/69 (76.81%), Postives = 63/69 (91.30%), Query Frame = 1 

		  

Query: 1   MQAIHSGADLEAAISNCMGYKTEGQGFMVGVNIDPLPGLPAAFPDLLQFISVHVEDKNVE 60
           ++A+HSGADLE+AI+NCMGYK+EGQGFMVGV I+P+PGLPA FP LL+F+  HVEDKNVE
Sbjct: 760 LKAVHSGADLESAIANCMGYKSEGQGFMVGVQINPVPGLPAGFPGLLEFVMEHVEDKNVE 819

Query: 61  PLLEALLEA 70
           PLLE LLEA
Sbjct: 820 PLLEGLLEA 828
[Close]
BLAST of Spo20160.1 vs. ExPASy Swiss-Prot
Match: GWD1_CITRE (Alpha-glucan water dikinase, chloroplastic OS=Citrus reticulata GN=R1 PE=2 SV=1)

HSP 1 Score: 112.8 bits (281), Expect = 1.500e-24
Identity = 49/69 (71.01%), Postives = 63/69 (91.30%), Query Frame = 1 

		  

Query: 1   MQAIHSGADLEAAISNCMGYKTEGQGFMVGVNIDPLPGLPAAFPDLLQFISVHVEDKNVE 60
           ++A+HSGADLE+AI+NC+GY++EGQGFMVGV I+P+P LP+ FP+LLQF+S HVED+NVE
Sbjct: 778 LKAVHSGADLESAITNCLGYRSEGQGFMVGVQINPIPNLPSGFPELLQFVSEHVEDRNVE 837

Query: 61  PLLEALLEA 70
            LLE LLEA
Sbjct: 838 ALLEGLLEA 846
[Close]
BLAST of Spo20160.1 vs. ExPASy Swiss-Prot
Match: GWD1_SOLTU (Alpha-glucan water dikinase, chloroplastic OS=Solanum tuberosum GN=R1 PE=1 SV=2)

HSP 1 Score: 109.0 bits (271), Expect = 2.100e-23
Identity = 50/69 (72.46%), Postives = 60/69 (86.96%), Query Frame = 1 

		  

Query: 1   MQAIHSGADLEAAISNCMGYKTEGQGFMVGVNIDPLPGLPAAFPDLLQFISVHVEDKNVE 60
           ++A+HSGADLE+AI+NCMGYKTEG+GFMVGV I+P+ GLP+ F DLL F+  HVEDKNVE
Sbjct: 770 LKAVHSGADLESAIANCMGYKTEGEGFMVGVQINPVSGLPSGFQDLLHFVLDHVEDKNVE 829

Query: 61  PLLEALLEA 70
            LLE LLEA
Sbjct: 830 TLLERLLEA 838
[Close]
BLAST of Spo20160.1 vs. ExPASy Swiss-Prot
Match: GWD1_ARATH (Alpha-glucan water dikinase 1, chloroplastic OS=Arabidopsis thaliana GN=GWD1 PE=1 SV=2)

HSP 1 Score: 108.2 bits (269), Expect = 3.600e-23
Identity = 47/69 (68.12%), Postives = 61/69 (88.41%), Query Frame = 1 

		  

Query: 1   MQAIHSGADLEAAISNCMGYKTEGQGFMVGVNIDPLPGLPAAFPDLLQFISVHVEDKNVE 60
           ++A+HSGADLE+AI NCMGY+ +G+GFMVGV I+P+ GLP+ +PDLL+F+  HVE+KNVE
Sbjct: 705 LKAVHSGADLESAIQNCMGYQDDGEGFMVGVQINPVSGLPSGYPDLLRFVLEHVEEKNVE 764

Query: 61  PLLEALLEA 70
           PLLE LLEA
Sbjct: 765 PLLEGLLEA 773
[Close]
BLAST of Spo20160.1 vs. TAIR (Arabidopsis)
Match: AT1G10760.1 (Pyruvate phosphate dikinase, PEP/pyruvate binding domain)

HSP 1 Score: 108.2 bits (269), Expect = 2.000e-24
Identity = 47/69 (68.12%), Postives = 61/69 (88.41%), Query Frame = 1 

		  

Query: 1   MQAIHSGADLEAAISNCMGYKTEGQGFMVGVNIDPLPGLPAAFPDLLQFISVHVEDKNVE 60
           ++A+HSGADLE+AI NCMGY+ +G+GFMVGV I+P+ GLP+ +PDLL+F+  HVE+KNVE
Sbjct: 705 LKAVHSGADLESAIQNCMGYQDDGEGFMVGVQINPVSGLPSGYPDLLRFVLEHVEEKNVE 764

Query: 61  PLLEALLEA 70
           PLLE LLEA
Sbjct: 765 PLLEGLLEA 773
The following BLAST results are available for this feature:
BLAST of Spo20160.1 vs. NCBI nr
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. NCBI nr)
Total hits: 5
Match NameE-valueIdentityDescription
gi|902188087|gb|KNA11066.1|4.4e-2992.7hypothetical protein SOVF_1385... [more]
gi|731367921|ref|XP_010695868.1|1.2e-2684.0PREDICTED: alpha-glucan water ... [more]
gi|731367923|ref|XP_010695869.1|1.2e-2684.0PREDICTED: alpha-glucan water ... [more]
gi|225425619|ref|XP_002270485.1|2.5e-2476.8PREDICTED: alpha-glucan water ... [more]
gi|731373430|ref|XP_010651715.1|2.5e-2476.8PREDICTED: alpha-glucan water ... [more]
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BLAST of Spo20160.1 vs. UniProtKB/TrEMBL
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. UniprotKB/TrEMBL)
Total hits: 5
Match NameE-valueIdentityDescription
A0A0K9QX18_SPIOL3.0e-2992.7Uncharacterized protein OS=Spi... [more]
A0A0J8E2K8_BETVU8.3e-2784.0Uncharacterized protein OS=Bet... [more]
A0A0J8B7U2_BETVU8.3e-2784.0Uncharacterized protein OS=Bet... [more]
D7TDL2_VITVI1.7e-2476.8Putative uncharacterized prote... [more]
A0A0L9TMK8_PHAAN3.9e-2476.8Uncharacterized protein OS=Pha... [more]
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BLAST of Spo20160.1 vs. ExPASy Swiss-Prot
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. ExPASy SwissProt)
Total hits: 3
Match NameE-valueIdentityDescription
GWD1_CITRE1.5e-2471.0Alpha-glucan water dikinase, c... [more]
GWD1_SOLTU2.1e-2372.4Alpha-glucan water dikinase, c... [more]
GWD1_ARATH3.6e-2368.1Alpha-glucan water dikinase 1,... [more]
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BLAST of Spo20160.1 vs. TAIR (Arabidopsis)
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. TAIR)
Total hits: 1
Match NameE-valueIdentityDescription
AT1G10760.12.0e-2468.1Pyruvate phosphate dikinase, P... [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 availablePANTHERPTHR22931PHOSPHOENOLPYRUVATE DIKINASE-RELATEDcoord: 1..69
score: 1.7
NoneNo IPR availablePANTHERPTHR22931:SF1ALPHA-GLUCAN WATER DIKINASE 1, CHLOROPLASTICcoord: 1..69
score: 1.7

GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0007623 circadian rhythm
biological_process GO:0009631 cold acclimation
biological_process GO:0016310 phosphorylation
biological_process GO:0019252 starch biosynthetic process
biological_process GO:0005983 starch catabolic process
cellular_component GO:0009941 chloroplast envelope
cellular_component GO:0009570 chloroplast stroma
cellular_component GO:0005739 mitochondrion
molecular_function GO:0050521 alpha-glucan, water dikinase activity
molecular_function GO:0005524 ATP binding
molecular_function GO:0046872 metal ion binding
RNA-Seq Expression
   



Co-expression
Gener valueExpression
Spo118900.67Barchart | Table
Spo138250.66Barchart | Table
Spo138260.65Barchart | Table