Spo24339.1 (mRNA) | SpinachBase

Overview


Name	Spo24339.1
Type	mRNA
Organism	Spinacia oleracea (Spinach)
Description	Hexokinase
Location	SpoScf_01702 : 23922 .. 39330 (-)
Sequence length	1011

Sequences

The following sequences are available for this feature:

Gene sequence (with intron)

Legend: polypeptideCDSexon

Hold the cursor over a type above to highlight its positions in the sequence below.

ATGTACAAGTGTTATAGAATTGTCATTGTCAACCCACCCTCAGAGATTCCTTGTTTTTACATTTACTTATTGTCGTCCGATCATCGAACGTCATATAATAGGCTACCGGCTACGTGCTTTCTCTTTACTTCTACCGCAAGTTCGTCACTTTAATTTGTATCGTATGGTTGATGTAACAAGAATGCAATAAGAATTGCTGCAATTATAAGAATTACAACAAGCTGTAAACAAAATTCAAACACTTTGAGGTATTAATGGTCTCCCATGTTCTGAATTTGTTGAATATATTAGGTTTTTTCCTCAAGTTAAATTTTTTGTTCCATATCTTGTTCTAGTTAATGAATTTTTGTTCCAGAATCTAACAAAACAAAATTCTTTGCCGAAAATTCCATCTTGATTTTAAGGTATGAAATTTCTCTCAAGTTCAGAATTCTTTGGTTTTATGCGTTAGTTTTTATATTCTCTCTTGTGTCAATTGCTAAAATGATAAATCTTCTATACTTTGTCAATTCTCTTTACTTCGCTACCGGTTTGGCATCCACTTTTAATTGAGTTTCAGATTTTGAACACCCCTAATTATATGTCAATTGGGAATTTTTGGTCTATAACTTAGATTTTGATTCAGGGTTTTCATAATGGAATTTTATTTTGTTTTTGGTCGAATGTCCATATTTAATTCGTTAGATAGTTTGAGCATTGGACATCTGATTTAGGTTTTCGGTGTAATATCTAATGTAGTGAATCCAGTTTAAGGGTATCATGGGAATTGATGGCATCCTTTCTCTTAGATTTTTTGACTATTTTTGCTGGATACAAACTTAATGATGATTTTTCATGTATTTTAGCATACATGTGTGGCTGTGAAGTTATGAAATAAGTTAGGTCATAAAAATATACTTCTCAGGGATCATTTTGACTTTTGAGTACATAAAAATATCAAATGCAGATGTTACATGGAGTATTTTCATTGTATACTTGAATTTTAATATTTTTCGTTTGGGTTTTACATGTTATGCTACAAAATCTTTTGTGGCTTGATCCTTCATTTTTTTCTGGGATCACATTCTTTGTTTTACTAGTTAGCTAAATTTCATATTCCCGCTTGAATAATTACATGTCTGTCTTTCTCAATCATATCTCTTAAGCCCTTTATATAGGATTCAAGTGGTCATGTTTACGTGCTTATTGTAGATAGATACAGGCAGACCTGTCATTTGTCATTTTCATTTTGCAAATTTCAGGTATAGCTAGAGATATAGGCTTTAACCATCGTATCAAGGGTATTGAGCTTCATGCCCTCTTTTAGACGGTACTTTTGAGTTTTTAGAATTACATATATTTCATTAGTGTGTGAAAATGCGTATGAATGACCAGTACTTGGCAACATTTGAGACTTTTTTGGCGAGATTTGCTATTGTGTGGCAATCAGGTACATTATCTCTTCCTCTTGTCTCTTTAGTTTCTGTTTTGTTAAAAATGCAGGTATTATCTTATAAGCCTAATATCCGAAAATACATAATAATATGAAGTATCCTTGTCATCAACTATTGCTAATACTTCATTGGTTATAAAACAGATTACTACTAAGCAACTTTGCCTCTTCTAGTTCGATCGATAACCATATTTCCCTTAAAGGCTAATAATGTTGCAATCCATGTCCCTATTATTTTAGTAGATGATCAATATACTGGTTTCTATGAGGTTGGATCTTCTCATAAGGATATAGGTATTTGTCTCCGTGTGTCTGGTGCTGCCGGAAAGGTGATTTTCTTACTACTTCGTGTTAGCCTGTTACTAGTCCATATTTCTGTCAAACTTCTTAAATCATTAGGCCATCAGTAAACAAACATTACCATAGGAGTTTTTGTAGTCTGTTTGAACTACTCAGCCATTCTATGAAACAATGTATGGGAAGAGATAGTCTATTCCATGCAATAAAACACCATACCTGAGTTATATAAATCTCACAAAGTTGCACTCTTTTTGTAAATTTTGAGTAGCTAATTTATGTAGGCCTTATTATCATCTATCTATATATTATACTAAAAGAGAGGAAATCAATGTGGAGCTGACAAATGTCGCTCTCTGATTTGCCTCTCTTTTAGTTATATAATATATTTTTTTAATTATAAAAATATGAAAGATATTATTGTCTTTGTTTTATTTTTGTTAAAAAATATATTGTAATATATAAACATATGGCGTATAAATCATAGACCTTTTTTACTCTTTAAACTGAAATCTTATTAAAGAAGATAAAGAGCTAGAGAATTAACTATAGGAGGTATATAAGGAAAATATATTACAGATACATTTTTATCATTTATAACTAACTGCATTCATTGTAAATGATAAAAATGTACTATGGATAATGCCATAAAATTTCATCAATATTTTAACTAACAATCTTTTACTAAAAATTTTACAACATTCCTAACATATACGGAATATATGTATAACGAATCCCCTCAAAAAAAAAATTATGTTTACTGAATATGAAAACTATATCTTACTAATATGCAAGCATAACAACGAACTTTGACTTATTGAGATATATAATCTCTGAGTTCTATAAAAAAAATATGCATTTTGCATCAGATGCTATCTAAATTATGTTGATATATGTCTAAGTATTTAGGGTTTTTTTTTTATAATATTGCACATATTTGAAAATATCGATTTATGCATATCATATTGGATGTTACGGAGTATTGTCTAACCCAAATATTTCAAGAAATCGGGTGTAATATTGAATGTCGGTTCTCTTTTTTCTTTTTCACTCCTCTATTTTAGCTTTCACCTCTCACATTCTCCATTTCCACTCTAATATAGGATTATGAACTGAAAACTAAACTTAAACACTTGCGCCATCGACATAGTGAGAAAATTCAAGCTTGAACTTCGTCGTAGTCTCATAATATAAGAGTACTTAACTTTGTAATTTTATTAGGAAAACTTTATAATTTTTAATTTTCTTAGGGAAACTTTATAATTTTTTAGGAGAGGAAATCTATATCTATATATCTATATAATATACTAAAAGAGAGGAAATCAATGTGGTGATGACAAGTGTCACTCATTGATTCGCCTCTCTTTTTAATTAAAAAAATAATTTTTTTTGAGGGAATTAGAATATTTTATTTAAGGAATTGTATTATTTATTTTGATTACAAATCCTAAAGATTCTGTTTATAATATACATTCTAAAAATATTTTCCGGCAAACAAATCAATTATACGGAATATATATTTCAGTTTATTATCATATTTCGAAATATGTTTTAGCTTATAGTTCAATATCATATTACGAAGTATGTTTTCAAAGTACGGTTTATGAAATTTTTCTCTACAATTTAAAAAAACAATTCCCAAACTCTTCCCAATGTAAGACCACCAGTCCACCACCCAAACCAATGCAAACCGATCTATAACATAAAAAACAAAAAAAGTAATTCAATACCAACAATGTCAATAATCCATAAAAGAGCTTCATTGTTCAACATTAAACAACACGAGTAACAACCGAACAAGGTTGAAAGAAAAGTTTGTTATTTTTATTAATAGCGGCATAACGCCTGTTTGATAGAATCAAACAACTAAGACACTATTTCTTTTTAATAGAATTTGTTAATAGAATCAAACAACAAAAAGTATTGCATACTAAATATTTACGTTCAAGTAAATTTGAACTATCTAAGCTATTGTGCAAATAGTTTGTCGTATCTAAATAGATTAAAAAACACGAGGAACAACCGAACAAGGTTCAAAGAGAAGTTGGTTATTTTAAGTTATCTTATTTAAGGAAAAATATGAACTAAAGAAAATATTATTGTTTTCCAATATAAATCTTAAAGATTCTGTTGATAATAAACATCCTAAAAATACTAAGTAAAAATAGAAAATAGAAAAAATAGACAAGTTAATATTCTAAATATGTTTTAGCTTATAGTTCATTATCATATTTCGAAATATGTTTTAGCTTATAGTTCAATATCATATTACGAAGTATGTTTTCAAAGTACGGTTTATGAAATTTTTCTCTACAATTTAAAAAAACAATTCCCAAACTCTTCCCAATGTAAGACCACCAGTCCACCACCCAAACCAATGCAAACCGATCTATAACATAAAAAACAAAAAAAGTAATTCAATACCAACAATGTCAATAATCCATAAAAGAGCTTCATTGTTTAACATTAAACAACACGAGTAACAACCGAACAAGGTTGAAAGAAAAGTTTGTTATTTTTTATTAATAGCGGCATAACGCCTGTTTGATAGAATCAAACAACTAAGACACTATTTCTTTTTAATAGAATTTGTTTAATAGAATCAAATAACAAAAAGTATTGCATACTAAATATTTACGTTCAAGTAAATTTGAACTATCTAAGCTATTGTGCAAATAGTTTGTCGTATCTAAATAGATTAAAAAGAGAGCAATTGTCTGATAAATATCAATTTAATGTATAGGCAATTTAACCATGCTTATGTTAAGCACTCTTACGATTAGACAATAGAGTTTAATACTCTTACCATATAATTTAATTAAACTACAATCGTTTAATAAAGTGTTTATTAACATAAGGGATGTTTGAATATGTATTTACTTAAATCAATAAATGACATTCTTAATCTCCTTGATCTAATTATTTCACACTTTTAACATATTTCATAGTTTTGTTGTAATTATTTCACACTTAGAACATGCTTCATAGTATCGCCTTGATTTAAGTATGTACTATAGTAGTATTTTTTTNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNTGTCACTATCTAATTGTATTGCTTTATTGTTGAACATTCAAAAAAAGAAGAAAATAGGAGTGCTAAATAGAATTTCATAGTCCATATTTATTAGGACAAAGTGTTTTTTAGCACCTAAAAAATCAAAAATTTGTTTTTTACCACCTAAAAAAAATCTTGTATTTTACCACCCAAAAAAAATATATTTTTTACCACCTAAAAACGAAAAAATTGAATAAGATGTTATGTGGGGCGACTACTTGTGAGTTACTTCGACTTGAAATCTCCTATTGTTCGATTGCTACCGCTTTGCATTTGCTACGCTATTATTTCCAACAAGGGTTGTAGTTTATTAATTAAAATGTAAACATCTTCACTATTACTCAATAAGTAGATTGATTTTAAATTAGTGCCTAAATTGATGTTAAAATTTTATCGTGAATCATGAAAGTGATAATGAACTATTTCATATATATGTAACTTAGTTATCTAACGCAGGAATGAAGGAAAGTTTTTGACCCTCAACATGATTGACCCCATCATTGATCCTAGGTGGCTAGGGATGGAGATAAGTTTTGTGGGTTATGGGAATGAAAAGTTTATCTGATGCGGGTGATGAGGTTATCTGCCGTAGGTAGTACCTGACAGCTTCAATTATCCTTTATCTAATTGATTATAAGTATATCAATATTTTTTTTAATACTAACCTACATATTATAATTTCGCACATTTACTCAATCACCTAATCAGATAACTAAGTTGCCAAACACTCTAGAACAATGTTTTAAAATTCAAAACATTCATACCAAAAAAAAATTGTCGGACCAAGGGTGAGCTTGAGGCGGGTGTAGATTTTAGGGTGGGTGAAGGAGCGGGATGAGTTTTATTTTGTGCCCCGCGAGGGTGGGATCGAGATTGTGTTGGCGATGAGGATGAATATCATATTTATCGTGGGTGGAAAGGATAGGAACAAGATAAGCAAGTACAGTTATGGAGTGACCAATCCTCCGCACTCGCCCCGCGTTGAAGTCATCTGTAGCTAAATAAACTAGATTGTGTAGGTGGGTGTTAAGTGATCGTGTATAAAGATACATGGTTTGTTGAGTATTAGGTGGATATGATTATCTAAGTAAATGATGGATGTAAATGACTTTAATTTTTGACACGGGTGATGAACATGGTGAAAATAATTTTATATACGTACCGTTTGTGTTTTTTTTTTCTTAAATAAAATAAGAGATTGGACGGAGCCATAACATATCTATCCAATAATAATTTTAGTTAGAAGAGCATCTATAAACACTATTGATGACAGTTGTCAATAACTATAATTTAATTTTCATTCGAAATTAATCTAAACCGTGCATCGCACGGGTATTATACTAGTTAACTATCTAGATTGGTATTGGTAATTTATCTAGGCCTTCAGATTTATATTTGGCATTTTTATCGTTAACTGTCTAGTTGAATGTTATAATGGAATCAAAAGGGGTTAAAGAAGATTCCAGTAGTAGTAATAGTAAATCATTGTTATACAAATTTATATTGGATTGAAGTTTGTTTTTCTTTTTCTTAAATAAATAACTCACTTTTCTTCCTGAGGATAAGCTAGCAACCTAACAAATACTCATCATAATGAGAATTGGTCACTATGTAATAAAAAACTGCAATAACCGATATGTTAACTTCTCGGAAATTTGTCATCTTCCAGATTACAGTATTCTTTGCATTTTATTTTATTATACATTTGCTTTGCTTTGCCGTGAGGAAAGGCTCACTACTACAAAAGTTAGAATAAGTGACACTGGATAGAGAACACTTAAGTGTGGTAGGCGTTTCTCAGGAGAATATAGAACGCCTTTCCCAGATAACTGTTCCGTGGAAAAAGAATATAGAGCGCTTGCCTTACTTAACAGTTTCGTATTTTTTACCACGATAAAAAAAAAAAATTAAAATAAATAAATACATATATACGACTCATAACATATAAAGCGGTAATGATATATGCGTACTATTAACCTTGACGGCAGAATGAAATTAAAACCAAATCTAATTAACTGAACAAAAATTTAAATTTTAGGGTTAACCCAAAACCAAATACAAATGAAACTCTAATCAGTAAAACTCAACTACTCGTATTACTAGTGTTTCACAGAATATAAACCCCAAAATCCATCTCCCGCAAAACCAAATCCCAAAACCGCGCACCACTACCCGTTCTCCCTCGCTGTGCCGTTGTACTGCCGTACTGCAATACCGCCGCCGCTCCTTTTCAACATCCGGTGAACGCCGATCGACTCCCCACCACTCCAAATTTCAAGGTTGGTATCCTTAATTTTGTTCTGCATATTTATCCTTCAACTAATAACCCTAGGGATTATGAATATTGTTAATTATCAAATTACAATGTCAAAGTATGGAATTTTATATGTGGAAGAAACTTTCATTCAAGTTTTAGATCGAATCATTGATGCTTGATTAATAATTAAGCCGAACAATTCATGATTTTTTACCGAATGAATCTGATAAACTAAGTCCTTTAAACTGATTTAGTTTTAAGTTTATATGATTTAAGTCGAGTTATATTGAAATTCCCAGTTAAAGAAAGAAAGAGGAGGAGGGGGAAATACTTTTTAAGAATAAATTTTATATTAGATCAGATGATTTGTTTATCTGAAGTTTTAGGCATTAACGAAGAAATTTGTGTAATTCTAGCAACATATTACGAAAATTAGTTTGTGTAGATGATGATGATGATGAAAGCTTGTCATTTTCCCATAACTATGCTTATAGATGAAACTGTAGCCTTGAGGTTCACAAGGGATTTTGAATCTGCATTTTTCATTTTACAAACTCCTGTCAAATTAGTTCTGTAAACCTAAAGGTGGGATTTCTTTGTCTTTTGTTTTCATCTGTTTCAATTAAGGCACCTAGTTGTTTTCATCTGTTTCAATTAAGACACCTGGTTATTATACAAAATGTGTTAGGGGGGAAAGTAACCAGTTTGGTTGATGAAAGGGAATGCACGTATCCAATCCTCATAACCCTTTTTCTGCCCTTGCCTTGAGTTGAGGTGGTCTGTTATAAAGGTGGTTGTCTTGTTGAGGTTAATATGATGTTTACAAATTACAATGTTGGTTGCTCCCAGGTTCTAATACTGCAATGTGCTAGGATCATTGTAATTTGCATTCTTGCTATTTACAGTGATGAGAATAATGTGCTCGGAGAGAACATTGCTGGTCCAGAGAAGAAAAACGCAGATGTTTCCGAGGAGACGAAGCATTTAGTAGCATATCATGGTGGGTTAAGATAAAATGATCAAGCCTAGTAAACTTCTCGCCTGATAGTGCTAACCTATAGGTTGTAACTGTTTTAAGCTTTCCTTTTTGTGTAGAGGCCGGCCATGCCTTAGTGGGCGCTCTCATGCCTGAATATGATCGTGTGCCCAAAATTTCAATCTGATTTTTCTTTCTTAAATTTACAGCAAGTGATATTTTCTGCTGATAAAACAAAACTCGCATTGGTAAATCACGACCTCCTTTGTTTTTTGCGCTTCTCCAATGGTTAGTTGCCTTAAATTTTCTATTATTGTGAATTATTTGGGTTCAGGTTAACATTTACAAATAACAGATAAGTTATGGTAAATTCATGTTATGATTATTGTACTTATTCAAGTTGTGCTTTGAGATGTCTTTGGAGGCATGGTTGCCTGTAGTGGACTAATACGAGTACTTGCTATGTTCTTTCTGGTGATTAGATTATATCCTAGCAATCAATCATTGTAGTCTTGTTCTTTTTGTAAAGAGTTCTTTGCTTGAACAAAATTGTGATGGTCCTTTCTCTTTTAGTTTTTACTTTCTCCTCTATAAGTAGATGTTTTTAACTTACAGTATATTTGATATCTTTTTACCTTCTATAATGGTTCAGGTCAACGATACAGTTGGAACCCTAGCTAGAGGTAGGTACCATAAAGATGTAATTGCTGCTGTTATATTGGGTACTGGAATAAACGCAGCTTATGTCGAACGTGCTAGTGAAATTCACAAGTGGCATATTGGCATGGTCCTTTTCCCAAATCAGGGGAGATGGTGAGTCTTTTCTGCTATCCTTGATTCTTTGTTTCCCCCTCAACGTTCCAAATTTATCCTCTTCTTTTTCTGTCCTCTTTATTTCTCTCGTGACCCTCAAATCTGCGTATTCCTTTTATCTTACAAACTCTAAACAATATCCACATATTGTGACAGATATTTGAGAAAATGATATCAGGAATGTACTTGGGTGAGATTGTGCGAAGAGTCTTGTATAGGATGGCAGATGAGGCCAGCCTTTTTGGTGATACAGTCCCATCAAAATTGAAAACTCCATTCATCTTAAGGTGCATTTTCTATCTTATGTTAGGTTTAGTAATTACTAATTAGTATATTTGATATCCTTTTTGACGATGATCTAGTGTGACTTAAGCTAGCTCAAGGAGATGGTTAATTACCTCAGTTCAGTCCTGCAGACGAACTGCCAAGCTAGTCTACCACCAGTAGACAATTGCACCGATATTGTCCCTACTGTTGCTGTAGAAGTTGATGTTGCTGCAGAAGTTGTTCTTGCTTCAGAAGCTGCTATTGTTGCTGCTACACCATCCCCAGTTGCTGCTGCTATACAATCCCCAATACGTTGTTGCTGCTACCATTCTACCAAAGCTCTTCCGCTACAATTTTTTTATTTTTTTTTATTGATATTGGATTTTGTTTTTGCCGTACTTGGGTAGATCATTTATATTTTGTCAATGAATAATAGGATCTTGTTATTGAATGAACAATATTATTTTATTATTGAATGAAATTATTTTCAGAAAGATCGCGTGGATATCATTTCTATTTTATCTATTAAGATTTGGTTTACATATAGGACCTAGAATCGTAATATCCTATTTTAGGGACGCGTGTGCAACTATAATATATAAAAAAAAGGGTAGAATATAGAACGGTTGTGTAAGGAAACTGCTTTCTATTTTTATATTAAACAGGAAGTATATAATACGCCTATGTACGCAAGGTGTTATGTATCTCAATATTTAACAGGAAGAATAGAGGACGGTTATGTACGGAAGGCGCGCATTATTATAGAGTAAAGAGACGGCTATGTACGTTAACCGTTCTATATTTCTTCTTTATTTTCTGATTTTAGGAAGGGAATAGAGGACGCTTATCTCTTATCACTGTACTTTATGACTATCTATATAAAACGCTTCTTTTACCCGTTTTATAAACTTTATAGCGCGTTAAGTTGGAGAACGCCTCTAAGGCGTCCTATAAAGTGTATTTCAACAGTACTCTATGCCCTTTTTTGTATTAGTGGCTATAAACTTCGTTCTATATATCTCTCTATAAGGGCTTAGCAGTTTTGGTGTTCTAAGCTTATAAGGTTATTTGTTCGTGTTATAATGGAACCAAGGGCTTATAAGGTTATTTTCTCTATGTTTTAGTGGAGCATGGTAATACTTTTACAAACCAAAATCCAGAATGGGTTTAGAGTGGTCCCTTGTAAAGCTAATTACCTAGGGTGTCAAAAAAAATCGATGAACAAGAGAGAAATACAGAACAATTGAGGTTGGGGTTCATGTGAATATGTGATATCTTGGTGACTTGTCTCCCTAAAGTTCTCCACCATATTGCACAAAAAGTTCAGAAAAGTGAGACAAGGTAATACAATCCTTGTGTAAATACTTTCTATGCACTCTAGAATCTTGGTGTTCTTATTTTTTACGTGAACTTCTTGGTGTTAAAATGATGTGGGGAGTTTGTCACTTTGTCCTACACATGCACTACTACAAAACACATTGTTTCTAGGCGCGGTTAGCTCAATGCCTGGGTGTAAGCGCTGGGTGAAAAATCATTCCGTTGAGAATTTTCTAGACTGATCAGTTTATAGCTGTTTCTTTGTTATTCCTGATCAGTTTTGTTGGGTCCTATTACTGAGTGTACTTGATTAACCTCTGAAAACAAAGCAATCTAATATTTTGAGACCATTTCCAAACCCATTCTATGCTGGTTTTGTTTTAGTGTTCTGGTTTCACTATTTGCTTCTTGTTGTATTTAGTAGGTGATTCTAAAACAAGGTCTTTCTCTGAATTGTGTTGTTTTTAATCATTCGTGCAAACCGTTTTGCATAGCTTCAATATGATATGAAGTGAATTCATGCTCATGATGCTCTAAAAGCTATGAGCTTAAAGTGCCAGTGAAACTCACAATCATGAACGAATGATAGGAACTGTCTGGGATGGAGTCATAGCCCCTCACAGGACTACAGGAATATAGGACAGCAAGAATAGATTAGCTACTGCCTCACTGTGTCATAGCTTTGTTATTTGTGTTAGAAGAATTACTGCTTAAGAAAGAGAAACCTGTCAATTTCATTTATGTAGTCAGGTCAAATATGGAACAAGGGATGAGAACAAAGGATAGTTTCTGATGCCGAGGCAGCCACTTTAAATAAAGTTTCTTGCTTTGTGTCTTCAGGTTGTTGTTACTTTCTAGCTAGTCCTAATTTCCTAGATATAACCATTCAGAACCCCTTATTATAATAATGCATGCACTCGTCTAATGATAAGACAGTTGCCTTTTTTATTTAAAGCCTAAAAGATTTTCCCTACTGCAGGTTAGTAGTTGCCTTAGGCAGCCAAGATCAATTACTAACACATTCCAGAGAAAGAATGCATTTACACTTTCTTTGGAGTCCCGTAAACTAGTTAGAATAACTGGTTTATGTTATGTTAGGTGAGTTGTGGAGGCAGCTTCAAGAATTTTAGAATTTTTCTGTTATTCATGAATGTTAGTGGTAATCTAGTGAGTTTCTCCAACAACCAATGCACGAGGGTGGCAGAATGTGTCTTCAACTCTTGATAGGTTCACTTTTTCTATACTAACGAAGGCTGGAAGTTCAGTAGAACTTTCCAAACAGATTTCACACCCAAGTTGTGATCACACTCAACACTCAACACTCAAGTTATAGCTGGAAGTTCTGCATTTTGTTTAATTTGTACTCCAGTCAATGAAATAAGAGCTTTGTTGTATTCTTTATTTGCACTATTAGTTTTGAAGTTCTTACATTGTCCAAAGGAGTAATAATCGGTGACTTGAACTTGTGTATTTAGTATTGTACTATAGTATTTAGTGTACAATGGTTAGTACTGCTTACCAGATAGCTTCATGCAAATACTAGATAACCGACTCATTCCCACCTTGTACAGAATTTAGTTATCTTATTTTTTTAATGCATTGCTATATATATATATATATAGTGATCACAATGACTAGCTTGATTACTTTCATAGTAAATATATATAGTGTACTTGTTACATTTTTTATTTTTCTTTGAAGGTCGTCCAACTTGATAAGGTGCAAGACGAGAATGAAGGCAAGGACACTTAGCTTCTAAGCTACTATCATAATATATATAGTTAGATCCTAGTTTTTCTAGGCTTTAGTTCTTTGGTTTAGTAGATATGATTTCTATATCTGATGATGTTTTGGTTAGGATTTTGGTTAGTGACATTTATGTACTATGGATTTTGGCTAGTAACATGTATGTACTATAGATATTAACTAGCTATATCTAAATTTTTATAGTTAAGCTAATTTTATTGAAGACCAATTATTCAAAATTCAGGTTCCATTATTGATCTTGTTGCTTTAATTTTATAATTATAAATTTATTCTTGTGCATGTACGTAGGTGGAAAAAAAAGCTTATACAAATAAATTTGAATGCTTTTTGATTTCGTGATATAGTGCTCATTTATATATAGATTTAAAATTTCTGCCATAATTCTCTTAGCCGACTACCAAAAGCGTCTAGAAGTTAATTAGGATGTTGCTAAGTATGGCGGGATAAGTAGATATTATCGACGCCAATGTATACATTTCTCGACGCCCTAAAGCGTCGCGATTTTCGACGCTTGAATCAACACCTAGTCGGAAAAAAGCGTTGACCTTTGAGGATGCCTATAAGCGTTGAGAAATTCTCGACTAACATTTTGTCGCCGCTTTTGGAAGGCGTCGAGGCCAGAATTCTCGACGCTTTTAGGCGTCGAAAACAGGCTTAAAAAGTGTCTCTAAATGACGGGATTTGTAGTAGTGATCGCTTCAATTTCGTTAATTTTTTGGCTACATTCACTACTACAAATCATCACTTGTGAACCACGGGAATTTTAAATTCGTGGCAATTTTACATCTTTCCACGGAAAAAATAACATTTAGTAATAAACTAAGAATAACAACAAAATTTATGCCACGAGAAAAATACATTCGTGGCGAACATACACTTGTGCCACGAAATTTGCCACAAAATTATTTTCGTGGCTAATAAAAATCACTTTTTTTTATCTAAAAAAAAAAAAACAAAAGCGGGAAAAATATGGTGAATCCAACGCGAATTCCCTAAAACTGTTCTCTCTCTCTATTCTGACCGAACTCCTAATTCTCAAACTGTCAAAGAACTCTTCAAGGCGGCACCGCTACGAAACCTTCAAGCTTCTTGCTGCTGATCAAGAACGAGGGCAAAATCAACAACGATTCTCCGCCGAGGTAATTCCCCTGAATTAGCTTCAATTTATAGGAGGTAATTCCCCCAATTTATCGCCTCTTTCTCTTGCCTCTTTCACCCTCCTGTTGCTTCCCCTTTCATGCTTATTTATCAACAATTCTATACTCCTTGCTTCTATCAGACATTAATATTGAATCTAAATCATATGATATTTAAATTATGCGATTTTTTGTAAGTTCCATATACGAGTTTGAATTTCAATCACACCATATTTTAATTTTGCGATTGATTTCTTGTTTTCGTAAAATATTTTTACTTATTTTGTTTGATTGATTTGGTTATTATTAATTAATTAATCGAAATTTGTATTGCTGATGATACTAGAAATTGTCTGATGATGAAATTTGACTGAATTTGCTTCTATTGGGTGTTAAAATTTTGTGGAATATTGTCAATTGATTAGAAACTGAGCAATGGTTACATCATATGAAAGTGACGATTCATCATCTTGAGAATCAGTATTCTCAATTAAGTACATGATTAACTCTTTTGGTGAACTAGTTTATATGTTTGAAATTTTTAATAAGTGTAATGACTAATTGGGTGTTGTTATAGGCTTTGAAAGAAGAGGCAGAGGACAGGAGAGAACAAGGAGGTGATCTGTAGTTTTCTATTGCAGTTTCTTAGGGAGGTAATTAGAGAAGAAGGTAATTTTCATCATTATTTTTCCAGTTCTATGTTTTATTGCGTTTTTTTTTGTAATTTTGACGATTTGGCTCTTTTTTTTTCCTGTTTTGGATGACATAAGTTTGAACTTAATGTTTGTTTTCTATTTGATTTTATTGAGATTATCCGAATTTTGTTGATGGATATTTGTTTATGATTCTTTAACAGATTTGATTATGATTTTTTAGCAGATTTGATTATGATTGCTTTTTGGATGATATAAGTCTGATTTTAGTTAATATAATAGCTAGACAAATTAGTTTGAACTATGTTGGCACTAAGCCACTGTTGTGGGTTCAGCAGAGTTGATGGCGTGTTCATCTTTTATATGGGTTTGGGGCCTTCAGTTCTGGTAACGAGTGTAGTTGATTTGGGCTCTCGGACTTAGGCTATAGTGAGTCTGGGTATGGGTTCGGGTTATCTTAGATATTTATACAATATCTAGTGGCACCAATTAACATTGTATGAAGTAGTTGGCTTGAACATCTGTATCTTAGCAAAGTAGGAAAGGTGATATTTTGGTTTACCCTGACAATAAATCTTGCCACTTTGGTTTAGCTAGAAAGTTTCCTATTGCCTCCTCTCTCCCTCCCCCTAACACTTGACATGTTGAAAGGGCCCAACTTCTTCTTTGTTTATTGTGTTTTTATAAACTGAAAATTGTTTATTTTTTTACTCTATGATGTAGATGCACGTGATGTGAATGCTGAGCAATTTAGTGGGAATAATCAAGATATGGAATTGGAAAGAGGTAAACATATTATGCTTTTGCAACTGGAAAAGAGTTATGTAAATAATATTTTGATGTGTTACATGTACTTTCATGTGACTTATTAA

mRNA sequence

ATGTACAAGTGTTATAGAATTGTCATTGTCAACCCACCCTCAGAGATTCCTTGTTTTTACATTTACTTATTGTCGTCCGATCATCGAACGTCATATAATAGGCTACCGGCTACGTGCTTTCTCTTTACTTCTACCGCAATAGATGATCAATATACTGGTTTCTATGAGGTTGGATCTTCTCATAAGGATATAGGTATTTGTCTCCGTGTGTCTGGTGCTGCCGGAAAGGTTCTAATACTGCAATGTGCTAGGATCATTGTAATTTGCATTCTTGCTATTTACAGTGATGAGAATAATGTGCTCGGAGAGAACATTGCTGGTCCAGAGAAGAAAAACGCAGATGTTTCCGAGGAGACGAAGCATTTAGTAGCATATCATGAGGCCGGCCATGCCTTAGTGGGCGCTCTCATGCCTGAATATGATCGTGTCAACGATACAGTTGGAACCCTAGCTAGAGGTAGGTACCATAAAGATGTAATTGCTGCTGTTATATTGGGTACTGGAATAAACGCAGCTTATGTCGAACGTGCTAGTGAAATTCACAAGTGGCATATTGGCATGGTCCTTTTCCCAAATCAGGGGAGATGTTCAGTCCTGCAGACGAACTGCCAAGCTAGTCTACCACCAGTAGACAATTGCACCGATATTGTCCCTACTGTTGCTGTAGAAGTTGATGTTGCTGCAGAAGTTGTTCTTGCTTCAGAAGCTGCTATTGTTGCTGCTACACCATCCCCAGTTGCTGCTGCTATACAATCCCCAATACGCGGCACCGCTACGAAACCTTCAAGCTTCTTGCTGCTGATCAAGAACGAGGGCAAAATCAACAACGATTCTCCGCCGAGGGAGGTAATTAGAGAAGAAGATGCACGTGATGTGAATGCTGAGCAATTTAGTGGGAATAATCAAGATATGGAATTGGAAAGAGGTAAACATATTATGCTTTTGCAACTGGAAAAGAGTTATGTAAATAATATTTTGATGTGTTACATGTACTTTCATGTGACTTATTAA

Coding sequence (CDS)

ATGTACAAGTGTTATAGAATTGTCATTGTCAACCCACCCTCAGAGATTCCTTGTTTTTACATTTACTTATTGTCGTCCGATCATCGAACGTCATATAATAGGCTACCGGCTACGTGCTTTCTCTTTACTTCTACCGCAATAGATGATCAATATACTGGTTTCTATGAGGTTGGATCTTCTCATAAGGATATAGGTATTTGTCTCCGTGTGTCTGGTGCTGCCGGAAAGGTTCTAATACTGCAATGTGCTAGGATCATTGTAATTTGCATTCTTGCTATTTACAGTGATGAGAATAATGTGCTCGGAGAGAACATTGCTGGTCCAGAGAAGAAAAACGCAGATGTTTCCGAGGAGACGAAGCATTTAGTAGCATATCATGAGGCCGGCCATGCCTTAGTGGGCGCTCTCATGCCTGAATATGATCGTGTCAACGATACAGTTGGAACCCTAGCTAGAGGTAGGTACCATAAAGATGTAATTGCTGCTGTTATATTGGGTACTGGAATAAACGCAGCTTATGTCGAACGTGCTAGTGAAATTCACAAGTGGCATATTGGCATGGTCCTTTTCCCAAATCAGGGGAGATGTTCAGTCCTGCAGACGAACTGCCAAGCTAGTCTACCACCAGTAGACAATTGCACCGATATTGTCCCTACTGTTGCTGTAGAAGTTGATGTTGCTGCAGAAGTTGTTCTTGCTTCAGAAGCTGCTATTGTTGCTGCTACACCATCCCCAGTTGCTGCTGCTATACAATCCCCAATACGCGGCACCGCTACGAAACCTTCAAGCTTCTTGCTGCTGATCAAGAACGAGGGCAAAATCAACAACGATTCTCCGCCGAGGGAGGTAATTAGAGAAGAAGATGCACGTGATGTGAATGCTGAGCAATTTAGTGGGAATAATCAAGATATGGAATTGGAAAGAGGTAAACATATTATGCTTTTGCAACTGGAAAAGAGTTATGTAAATAATATTTTGATGTGTTACATGTACTTTCATGTGACTTATTAA

Protein sequence

MYKCYRIVIVNPPSEIPCFYIYLLSSDHRTSYNRLPATCFLFTSTAIDDQYTGFYEVGSSHKDIGICLRVSGAAGKVLILQCARIIVICILAIYSDENNVLGENIAGPEKKNADVSEETKHLVAYHEAGHALVGALMPEYDRVNDTVGTLARGRYHKDVIAAVILGTGINAAYVERASEIHKWHIGMVLFPNQGRCSVLQTNCQASLPPVDNCTDIVPTVAVEVDVAAEVVLASEAAIVAATPSPVAAAIQSPIRGTATKPSSFLLLIKNEGKINNDSPPREVIREEDARDVNAEQFSGNNQDMELERGKHIMLLQLEKSYVNNILMCYMYFHVTY

Relationships

This mRNA is a part of the following gene feature(s):


Feature Name	Unique Name	Type
Spo24339	Spo24339	gene

The following polypeptide feature(s) derives from this mRNA:


Feature Name	Unique Name	Type
Spo24339.1	Spo24339.1-protein	polypeptide

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


Feature Name	Unique Name	Type
Spo24339.1.CDS.9	Spo24339.1.CDS.9	CDS
Spo24339.1.CDS.8	Spo24339.1.CDS.8	CDS
Spo24339.1.CDS.7	Spo24339.1.CDS.7	CDS
Spo24339.1.CDS.6	Spo24339.1.CDS.6	CDS
Spo24339.1.CDS.5	Spo24339.1.CDS.5	CDS
Spo24339.1.CDS.4	Spo24339.1.CDS.4	CDS
Spo24339.1.CDS.3	Spo24339.1.CDS.3	CDS
Spo24339.1.CDS.2	Spo24339.1.CDS.2	CDS
Spo24339.1.CDS.1	Spo24339.1.CDS.1	CDS

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


Feature Name	Unique Name	Type
Spo24339.1.exon.9	Spo24339.1.exon.9	exon
Spo24339.1.exon.8	Spo24339.1.exon.8	exon
Spo24339.1.exon.7	Spo24339.1.exon.7	exon
Spo24339.1.exon.6	Spo24339.1.exon.6	exon
Spo24339.1.exon.5	Spo24339.1.exon.5	exon
Spo24339.1.exon.4	Spo24339.1.exon.4	exon
Spo24339.1.exon.3	Spo24339.1.exon.3	exon
Spo24339.1.exon.2	Spo24339.1.exon.2	exon
Spo24339.1.exon.1	Spo24339.1.exon.1	exon

Homology

[Close]

BLAST of Spo24339.1 vs. NCBI nr
Match: gi|11386886|sp|Q9SEK3.1|HXK1_SPIOL (RecName: Full=Hexokinase-1; AltName: Full=SoHxK1)

HSP 1 Score: 75.9 bits (185), Expect = 1.500e-10
Identity = 38/43 (88.37%), Postives = 39/43 (90.70%), Query Frame = 1


		  
Query: 143 VNDTVGTLARGRYHK-DVIAAVILGTGINAAYVERASEIHKWH 185
           VNDTVGTLA GRY+K DVIAAVILGTG NAAYVERAS IHKWH
Sbjct: 228 VNDTVGTLAGGRYYKEDVIAAVILGTGTNAAYVERASAIHKWH 270

[Close]

BLAST of Spo24339.1 vs. NCBI nr
Match: gi|1021560514|ref|XP_016171511.1| (PREDICTED: uncharacterized protein LOC107613853 [Arachis ipaensis])

HSP 1 Score: 75.5 bits (184), Expect = 2.000e-10
Identity = 38/64 (59.38%), Postives = 49/64 (76.56%), Query Frame = 1


		  
Query: 133 VGALMPEYDRVNDTVGTLARGR-YHKDVIAAVILGTGINAAYVERASEIHKWHIGMVLFP 192
           +G  + ++  VNDT+GTLARGR Y++DVIAAVILGTG NAAYVERA+ I KWH  +    
Sbjct: 105 LGEWLKDHGTVNDTIGTLARGRFYNQDVIAAVILGTGTNAAYVERANAIPKWHGPLPKSG 164

Query: 193 NQGR 196
           ++GR
Sbjct: 165 DRGR 168

[Close]

BLAST of Spo24339.1 vs. NCBI nr
Match: gi|567207490|ref|XP_006409314.1| (hypothetical protein EUTSA_v10022579mg [Eutrema salsugineum])

HSP 1 Score: 73.2 bits (178), Expect = 9.900e-10
Identity = 42/63 (66.67%), Postives = 46/63 (73.02%), Query Frame = 1


		  
Query: 93  IYSDE-NNVLGENIAGPEKKNADVSEETKHLVAYHEAGHALVGALMPEYDRVNDTVGTLA 152
           I  DE ++ L   IAGPEKKNA VSEE K LVAYHEAGHALVGALMPEYD V   +  L 
Sbjct: 480 ISKDEISDALERIIAGPEKKNAVVSEEKKRLVAYHEAGHALVGALMPEYDPV-AKISILP 539

Query: 153 RGR 155
           RG+
Sbjct: 540 RGQ 541

[Close]

BLAST of Spo24339.1 vs. NCBI nr
Match: gi|1000977169|ref|XP_015571808.1| (PREDICTED: hexokinase-1 isoform X2 [Ricinus communis])

HSP 1 Score: 73.2 bits (178), Expect = 9.900e-10
Identity = 42/82 (51.22%), Postives = 49/82 (59.76%), Query Frame = 1


		  
Query: 114 DVSEETKHLVAYHEAGHALVGALMPEYDRV----------NDTVGTLARGRYH-KDVIAA 173
           +VS     ++   + G  +VG L    DRV          NDT+GTLA GRYH +DVIA 
Sbjct: 128 EVSIPPHLMIGSSDVGEDVVGELTKAMDRVGLDMRVAALVNDTIGTLAGGRYHSQDVIAG 187

Query: 174 VILGTGINAAYVERASEIHKWH 185
           VILGTG NAAYVERA  I KWH
Sbjct: 188 VILGTGTNAAYVERAQAIPKWH 209

[Close]

BLAST of Spo24339.1 vs. NCBI nr
Match: gi|992156984|gb|KXG20934.1| (hypothetical protein SORBI_010G272800 [Sorghum bicolor])

HSP 1 Score: 72.4 bits (176), Expect = 1.700e-9
Identity = 39/52 (75.00%), Postives = 41/52 (78.85%), Query Frame = 1


		  
Query: 93  IYSDE-NNVLGENIAGPEKKNADVSEETKHLVAYHEAGHALVGALMPEYDRV 144
           I  DE ++ L   IAGPEKKNA VSEE K LVAYHEAGHALVGALMPEYD V
Sbjct: 520 ISKDEISDALERIIAGPEKKNAVVSEEKKRLVAYHEAGHALVGALMPEYDPV 571

[Close]

BLAST of Spo24339.1 vs. UniProtKB/TrEMBL
Match: A0A0K9QK15_SPIOL (Phosphotransferase OS=Spinacia oleracea GN=SOVF_169560 PE=3 SV=1)

HSP 1 Score: 75.9 bits (185), Expect = 1.100e-10
Identity = 38/43 (88.37%), Postives = 39/43 (90.70%), Query Frame = 1


		  
Query: 143 VNDTVGTLARGRYHK-DVIAAVILGTGINAAYVERASEIHKWH 185
           VNDTVGTLA GRY+K DVIAAVILGTG NAAYVERAS IHKWH
Sbjct: 228 VNDTVGTLAGGRYYKEDVIAAVILGTGTNAAYVERASAIHKWH 270

[Close]

BLAST of Spo24339.1 vs. UniProtKB/TrEMBL
Match: V4M6W0_EUTSA (Uncharacterized protein OS=Eutrema salsugineum GN=EUTSA_v10022579mg PE=3 SV=1)

HSP 1 Score: 73.2 bits (178), Expect = 6.900e-10
Identity = 42/63 (66.67%), Postives = 46/63 (73.02%), Query Frame = 1


		  
Query: 93  IYSDE-NNVLGENIAGPEKKNADVSEETKHLVAYHEAGHALVGALMPEYDRVNDTVGTLA 152
           I  DE ++ L   IAGPEKKNA VSEE K LVAYHEAGHALVGALMPEYD V   +  L 
Sbjct: 480 ISKDEISDALERIIAGPEKKNAVVSEEKKRLVAYHEAGHALVGALMPEYDPV-AKISILP 539

Query: 153 RGR 155
           RG+
Sbjct: 540 RGQ 541

[Close]

BLAST of Spo24339.1 vs. UniProtKB/TrEMBL
Match: V4WDG9_9ROSI (Phosphotransferase OS=Citrus clementina GN=CICLE_v10008086mg PE=3 SV=1)

HSP 1 Score: 72.4 bits (176), Expect = 1.200e-9
Identity = 43/84 (51.19%), Postives = 49/84 (58.33%), Query Frame = 1


		  
Query: 112 NADVSEETKHLVAYHEAGHALVGALMPEYDR----------VNDTVGTLARGRYH-KDVI 171
           + D+ + TK        G  +VG L    +R          VNDT+GTLA GRYH KD I
Sbjct: 187 SGDLIKWTKGFSIEDTVGEDVVGELTKAMERIGLDMRVAALVNDTIGTLAGGRYHNKDAI 246

Query: 172 AAVILGTGINAAYVERASEIHKWH 185
           AAVILGTG NAAYVERA  I KWH
Sbjct: 247 AAVILGTGTNAAYVERAHAIPKWH 270

[Close]

BLAST of Spo24339.1 vs. UniProtKB/TrEMBL
Match: B9DHN3_ARATH (AT5G42270 protein (Fragment) OS=Arabidopsis thaliana GN=At5g42270 PE=2 SV=1)

HSP 1 Score: 72.4 bits (176), Expect = 1.200e-9
Identity = 39/52 (75.00%), Postives = 41/52 (78.85%), Query Frame = 1


		  
Query: 93  IYSDE-NNVLGENIAGPEKKNADVSEETKHLVAYHEAGHALVGALMPEYDRV 144
           I  DE ++ L   IAGPEKKNA VSEE K LVAYHEAGHALVGALMPEYD V
Sbjct: 42  ISKDEISDALERIIAGPEKKNAVVSEEKKRLVAYHEAGHALVGALMPEYDPV 93

[Close]

BLAST of Spo24339.1 vs. UniProtKB/TrEMBL
Match: C0Z226_ARATH (AT5G42270 protein OS=Arabidopsis thaliana GN=At5g42270 PE=2 SV=1)

HSP 1 Score: 72.4 bits (176), Expect = 1.200e-9
Identity = 39/52 (75.00%), Postives = 41/52 (78.85%), Query Frame = 1


		  
Query: 93  IYSDE-NNVLGENIAGPEKKNADVSEETKHLVAYHEAGHALVGALMPEYDRV 144
           I  DE ++ L   IAGPEKKNA VSEE K LVAYHEAGHALVGALMPEYD V
Sbjct: 478 ISKDEISDALERIIAGPEKKNAVVSEEKKRLVAYHEAGHALVGALMPEYDPV 529

[Close]

BLAST of Spo24339.1 vs. ExPASy Swiss-Prot
Match: HXK1_SPIOL (Hexokinase-1 OS=Spinacia oleracea GN=HXK1 PE=2 SV=1)

HSP 1 Score: 75.9 bits (185), Expect = 9.600e-13
Identity = 38/43 (88.37%), Postives = 39/43 (90.70%), Query Frame = 1


		  
Query: 143 VNDTVGTLARGRYHK-DVIAAVILGTGINAAYVERASEIHKWH 185
           VNDTVGTLA GRY+K DVIAAVILGTG NAAYVERAS IHKWH
Sbjct: 228 VNDTVGTLAGGRYYKEDVIAAVILGTGTNAAYVERASAIHKWH 270

[Close]

BLAST of Spo24339.1 vs. ExPASy Swiss-Prot
Match: FTSH1_ARATH (ATP-dependent zinc metalloprotease FTSH 1, chloroplastic OS=Arabidopsis thaliana GN=FTSH1 PE=1 SV=2)

HSP 1 Score: 72.4 bits (176), Expect = 1.100e-11
Identity = 39/52 (75.00%), Postives = 41/52 (78.85%), Query Frame = 1


		  
Query: 93  IYSDE-NNVLGENIAGPEKKNADVSEETKHLVAYHEAGHALVGALMPEYDRV 144
           I  DE ++ L   IAGPEKKNA VSEE K LVAYHEAGHALVGALMPEYD V
Sbjct: 490 ISKDEISDALERIIAGPEKKNAVVSEEKKRLVAYHEAGHALVGALMPEYDPV 541

[Close]

BLAST of Spo24339.1 vs. ExPASy Swiss-Prot
Match: FTSH5_ARATH (ATP-dependent zinc metalloprotease FTSH 5, chloroplastic OS=Arabidopsis thaliana GN=FTSH5 PE=1 SV=1)

HSP 1 Score: 72.4 bits (176), Expect = 1.100e-11
Identity = 39/52 (75.00%), Postives = 41/52 (78.85%), Query Frame = 1


		  
Query: 93  IYSDE-NNVLGENIAGPEKKNADVSEETKHLVAYHEAGHALVGALMPEYDRV 144
           I  DE ++ L   IAGPEKKNA VSEE K LVAYHEAGHALVGALMPEYD V
Sbjct: 478 ISKDEISDALERIIAGPEKKNAVVSEEKKRLVAYHEAGHALVGALMPEYDPV 529

[Close]

BLAST of Spo24339.1 vs. ExPASy Swiss-Prot
Match: FTSH1_ORYSJ (ATP-dependent zinc metalloprotease FTSH 1, chloroplastic OS=Oryza sativa subsp. japonica GN=FTSH1 PE=2 SV=1)

HSP 1 Score: 71.2 bits (173), Expect = 2.400e-11
Identity = 38/52 (73.08%), Postives = 41/52 (78.85%), Query Frame = 1


		  
Query: 93  IYSDE-NNVLGENIAGPEKKNADVSEETKHLVAYHEAGHALVGALMPEYDRV 144
           I  DE ++ L   IAGPEKKNA VSEE + LVAYHEAGHALVGALMPEYD V
Sbjct: 460 ISKDEISDALERIIAGPEKKNAVVSEEKRRLVAYHEAGHALVGALMPEYDPV 511

[Close]

BLAST of Spo24339.1 vs. ExPASy Swiss-Prot
Match: HXK1_ARATH (Hexokinase-1 OS=Arabidopsis thaliana GN=HXK1 PE=1 SV=2)

HSP 1 Score: 71.2 bits (173), Expect = 2.400e-11
Identity = 42/77 (54.55%), Postives = 47/77 (61.04%), Query Frame = 1


		  
Query: 119 TKHLVAYHEAGHALVGALMPEYDRV----------NDTVGTLARGRYHK-DVIAAVILGT 178
           TK        G  +VGAL    +RV          NDTVGTLA GRY+  DV+AAVILGT
Sbjct: 194 TKGFSIEEAVGQDVVGALNKALERVGLDMRIAALVNDTVGTLAGGRYYNPDVVAAVILGT 253

Query: 179 GINAAYVERASEIHKWH 185
           G NAAYVERA+ I KWH
Sbjct: 254 GTNAAYVERATAIPKWH 270

[Close]

BLAST of Spo24339.1 vs. TAIR (Arabidopsis)
Match: AT1G50250.1 (FTSH protease 1)

HSP 1 Score: 72.4 bits (176), Expect = 6.000e-13
Identity = 39/52 (75.00%), Postives = 41/52 (78.85%), Query Frame = 1


		  
Query: 93  IYSDE-NNVLGENIAGPEKKNADVSEETKHLVAYHEAGHALVGALMPEYDRV 144
           I  DE ++ L   IAGPEKKNA VSEE K LVAYHEAGHALVGALMPEYD V
Sbjct: 490 ISKDEISDALERIIAGPEKKNAVVSEEKKRLVAYHEAGHALVGALMPEYDPV 541

[Close]

BLAST of Spo24339.1 vs. TAIR (Arabidopsis)
Match: AT5G42270.1 (FtsH extracellular protease family)

HSP 1 Score: 72.4 bits (176), Expect = 6.000e-13
Identity = 39/52 (75.00%), Postives = 41/52 (78.85%), Query Frame = 1


		  
Query: 93  IYSDE-NNVLGENIAGPEKKNADVSEETKHLVAYHEAGHALVGALMPEYDRV 144
           I  DE ++ L   IAGPEKKNA VSEE K LVAYHEAGHALVGALMPEYD V
Sbjct: 478 ISKDEISDALERIIAGPEKKNAVVSEEKKRLVAYHEAGHALVGALMPEYDPV 529

[Close]

BLAST of Spo24339.1 vs. TAIR (Arabidopsis)
Match: AT4G29130.1 (hexokinase 1)

HSP 1 Score: 71.2 bits (173), Expect = 1.300e-12
Identity = 42/77 (54.55%), Postives = 47/77 (61.04%), Query Frame = 1


		  
Query: 119 TKHLVAYHEAGHALVGALMPEYDRV----------NDTVGTLARGRYHK-DVIAAVILGT 178
           TK        G  +VGAL    +RV          NDTVGTLA GRY+  DV+AAVILGT
Sbjct: 194 TKGFSIEEAVGQDVVGALNKALERVGLDMRIAALVNDTVGTLAGGRYYNPDVVAAVILGT 253

Query: 179 GINAAYVERASEIHKWH 185
           G NAAYVERA+ I KWH
Sbjct: 254 GTNAAYVERATAIPKWH 270

[Close]

BLAST of Spo24339.1 vs. TAIR (Arabidopsis)
Match: AT2G19860.1 (hexokinase 2)

HSP 1 Score: 65.1 bits (157), Expect = 9.500e-11
Identity = 32/43 (74.42%), Postives = 35/43 (81.40%), Query Frame = 1


		  
Query: 143 VNDTVGTLARGRY-HKDVIAAVILGTGINAAYVERASEIHKWH 185
           VNDT+GTLA GRY + DV+ AVILGTG NAAYVERA  I KWH
Sbjct: 228 VNDTIGTLAGGRYTNPDVVVAVILGTGTNAAYVERAHAIPKWH 270

[Close]

BLAST of Spo24339.1 vs. TAIR (Arabidopsis)
Match: AT4G37840.1 (hexokinase-like 3)

HSP 1 Score: 56.2 bits (134), Expect = 4.400e-8
Identity = 26/42 (61.90%), Postives = 33/42 (78.57%), Query Frame = 1


		  
Query: 143 VNDTVGTLARGRY-HKDVIAAVILGTGINAAYVERASEIHKW 184
           V++T+G LA GRY HKD +AAV LG G NAAY+E+A EI +W
Sbjct: 228 VDNTIGELAGGRYYHKDTVAAVSLGMGTNAAYIEQAQEISRW 269

The following BLAST results are available for this feature:

BLAST of Spo24339.1 vs. NCBI nr
BLAST of Spo24339.1 vs. UniProtKB/TrEMBL
BLAST of Spo24339.1 vs. ExPASy Swiss-Prot
BLAST of Spo24339.1 vs. TAIR (Arabidopsis)

BLAST of Spo24339.1 vs. NCBI nr
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. NCBI nr)
Total hits: 5


Match Name	E-value	Identity	Description
gi\|11386886\|sp\|Q9SEK3.1\|HXK1_SPIOL	1.5e-10	88.3	RecName: Full=Hexokinase-1; Al...	[more]
gi\|1021560514\|ref\|XP_016171511.1\|	2.0e-10	59.3	PREDICTED: uncharacterized pro...	[more]
gi\|567207490\|ref\|XP_006409314.1\|	9.9e-10	66.6	hypothetical protein EUTSA_v10...	[more]
gi\|1000977169\|ref\|XP_015571808.1\|	9.9e-10	51.2	PREDICTED: hexokinase-1 isofor...	[more]
gi\|992156984\|gb\|KXG20934.1\|	1.7e-9	75.0	hypothetical protein SORBI_010...	[more]

BLAST of Spo24339.1 vs. UniProtKB/TrEMBL
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. UniprotKB/TrEMBL)
Total hits: 5


Match Name	E-value	Identity	Description
A0A0K9QK15_SPIOL	1.1e-10	88.3	Phosphotransferase OS=Spinacia...	[more]
V4M6W0_EUTSA	6.9e-10	66.6	Uncharacterized protein OS=Eut...	[more]
V4WDG9_9ROSI	1.2e-9	51.1	Phosphotransferase OS=Citrus c...	[more]
B9DHN3_ARATH	1.2e-9	75.0	AT5G42270 protein (Fragment) O...	[more]
C0Z226_ARATH	1.2e-9	75.0	AT5G42270 protein OS=Arabidops...	[more]

BLAST of Spo24339.1 vs. ExPASy Swiss-Prot
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. ExPASy SwissProt)
Total hits: 5


Match Name	E-value	Identity	Description
HXK1_SPIOL	9.6e-13	88.3	Hexokinase-1 OS=Spinacia olera...	[more]
FTSH1_ARATH	1.1e-11	75.0	ATP-dependent zinc metalloprot...	[more]
FTSH5_ARATH	1.1e-11	75.0	ATP-dependent zinc metalloprot...	[more]
FTSH1_ORYSJ	2.4e-11	73.0	ATP-dependent zinc metalloprot...	[more]
HXK1_ARATH	2.4e-11	54.5	Hexokinase-1 OS=Arabidopsis th...	[more]

BLAST of Spo24339.1 vs. TAIR (Arabidopsis)
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. TAIR)
Total hits: 5


Match Name	E-value	Identity	Description
AT1G50250.1	6.0e-13	75.0	FTSH protease 1	[more]
AT5G42270.1	6.0e-13	75.0	FtsH extracellular protease fa...	[more]
AT4G29130.1	1.3e-12	54.5	hexokinase 1	[more]
AT2G19860.1	9.5e-11	74.4	hexokinase 2	[more]
AT4G37840.1	4.4e-8	61.9	hexokinase-like 3	[more]

InterPro

Analysis Name: InterPro Annotations of S. oleracea
Date Performed: 2018-06-29


IPR Term	IPR Description	Source	Source Term	Source Description	Alignment
IPR000642	Peptidase M41	PFAM	PF01434	Peptidase_M41	coord: 105..154 score: 7.6
IPR022673	Hexokinase, C-terminal	PFAM	PF03727	Hexokinase_2	coord: 161..188 score: 1.
None	No IPR available	GENE3D	3.40.367.20		coord: 143..191 score: 5.3
None	No IPR available	PANTHER	PTHR23076	METALLOPROTEASE M41 FTSH	coord: 105..143 score: 4.2
None	No IPR available	PANTHER	PTHR23076:SF33	ATP-DEPENDENT ZINC METALLOPROTEASE FTSH 1, CHLOROPLASTIC-RELATED	coord: 105..143 score: 4.2
None	No IPR available	unknown	SSF140990	FtsH protease domain-like	coord: 115..144 score: 7.0
None	No IPR available	unknown	SSF53067	Actin-like ATPase domain	coord: 158..184 score: 3.5

GO Annotation

GO Assignments

This mRNA is annotated with the following GO terms.

Category	Term Accession	Term Name
biological_process	GO:0005975	carbohydrate metabolic process
biological_process	GO:0006096	glycolytic process
biological_process	GO:0005985	sucrose metabolic process
biological_process	GO:0019872	streptomycin biosynthetic process
biological_process	GO:0005982	starch metabolic process
biological_process	GO:0030163	protein catabolic process
biological_process	GO:0009767	photosynthetic electron transport chain
biological_process	GO:0006508	proteolysis
biological_process	GO:0006013	mannose metabolic process
biological_process	GO:0006094	gluconeogenesis
biological_process	GO:0006012	galactose metabolic process
biological_process	GO:0006000	fructose metabolic process
biological_process	GO:0046835	carbohydrate phosphorylation
biological_process	GO:0006040	amino sugar metabolic process
cellular_component	GO:0009707	chloroplast outer membrane
cellular_component	GO:0009534	chloroplast thylakoid
cellular_component	GO:0016021	integral component of membrane
molecular_function	GO:0016773	phosphotransferase activity, alcohol group as acceptor
molecular_function	GO:0004222	metalloendopeptidase activity
molecular_function	GO:0005524	ATP binding
molecular_function	GO:0004396	hexokinase activity
molecular_function	GO:0017111	nucleoside-triphosphatase activity