Spo08700 (gene) | SpinachBase

Overview


Name	Spo08700
Type	gene
Organism	Spinacia oleracea (Spinach)
Description	F12M16.11
Location	SpoScf_01699 : 63392 .. 80991 (+)

Sequences

The following sequences are available for this feature:

Gene sequence (with intron)

Legend: polypeptideexonCDSthree_prime_UTR

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

ATGTATAAGGTATATGTTTGAGTATTAAACCCATGGGTTTAGAATCAACGATACATAGAAACTCATACCTTATTCCACCTGTTTGATAAAATGAATTTAGAATTTAATCATACCGATAATATACTCTTGTACTCCTCATTCCCATCTTCTTTTTTTCTACACCTTCCTCTCCTCCTTCTGCTTAAAAATATAAGAAAAAAAAAACTAAAATTCAATAAAATATAAAAGGCAGACATTATATTTTGATATATGGCACCATCTCCACCACCACAATCGCTCGCTTTGCTTTAGCTCTAACCATCACATCCTTCTGTCACTGGACAAAATTTGATTTTTGGTGGTTTTTTTTTTTTTTACAATTGAAGCTACAAATCTAGACTTCAATGTCCAAATTTCGACAACTAACATTATATCTAGGTATTTTATTGAAAGATATGTTTAGTTAAATTATTTTTCAGTATTCTAATTTCGTCCTTTTGGGTTCTTACGGGGTGCTGATGGTGACGTTAGGTAGCATTGGCGATTTGATGGCTAATCAATGGGGTAGTAACTTTGTAGTGTAAGTTTTAGTGGTATTGATTTTTTTGGTAAGTTTGGCGGCGACGGTGGTGGAGTAACATTAGCTAGGCTGTCATAGTGTTGGTTTGCTCGAGTTTGCAGTGTCGATTTTATTTTCAGTTAAGATGATTCCATATCAAAAGTTCTTGCGCGCACAAGGTGTACAATAAATTTATTGTACACCAAGATAACTTTTACCTATTTTTTTGTAACTTTAACTTAGTTTTGATTAACTTTTATATTAGTAAAAAAAAGTTGATAGATAAATATTTTAAAGAGTTCAATGATTAATTTTATACATTATTAGTGATTTTGAAGAAATGAGTTTTATTAAAATGAAAAAAATTATCACTAAAAAATAGATAACTTTTACATATATAAGCTTAACTTTTACGCATTTTTAGTTAACTTTTACTCCGGTGTACAATATTTATTGTACAACCCTTGTAAATAAGAATTTGTGATTCCATATACCCACCTTCCCTTGGGTATGATAACTCGATATCAGAGGGGTTTTGGAGGTGGGTCCCAAAGTATTAAATTTTATAAAAATAGTTAACCAAACATCAAATATAGGGTTGGATAATTTCAAACCCATACCTGATTCCGAAATATGATAAACCAAATACACCCTTAATGATTTAATTCCATTTGTCTGCTTGGGCCAGGCCCAAATTTGTAGCACGGTTTCGGATATAGGCTATGCAAGTATGAAATACAGAGTAACTGATATCTTCTTCAACCTAATTTCAGTTTTCTGGCAGAAAAACTTTCATACAATTAGCAAGTTTGCTTGGGAAACGTGAATATTAGATTGAAATCTCGTTTCCCATTCGTTTCCGGGATGAATTCAGTTTCAAACACGTCTCTATTTTTCTGAAACGGTTTTGGCGCGTTCCGAAACGCGTTTCCCGGTTTCCCCCGTTCCAGGACGTTTCGGAAACGGTACGTCGTGATTTTTTTGGCGTTTCCGTGCACCGTAGATAGTATGTTGCAAATTTCAGAATGAAGGAAAAAAAAACAAGGAATTATTAAGTTTTAAGTATTACTGAGTATTAAATTGTAATGTGAAATTTGAGACATTAGAATGATTTTTTGTGAATGATTTTTTGGAGATGTTAATTTTTTTAATAGTTGTGGTCAAACGGGTCGGTACTCGATAGTTCCCGACCAATCTTCCATTATTATAATACTGGGTCCCAGTGGATGGATGCTGAGATCAAGGTTTTGATGTAGAAGTAGATGCCATTTAGATTAGCTTGAGGACTTGGAATTCTGTTTTTCAGTTTGGTTTTGGCTGAAGAAAATGAAAAACTCTTTTTATTGAATGTATGAGTTTACCTCAGCGCCTGATATGTGTTTTATGACTTTTATCTGTGTGCTCATAGCTCAAAATAATGTTGTGTGTTTTTTCTGTTTGCTCATATTTAGAGTTGGAGATTGTTAAATGAGCATATTAAACATGTCATTTTCATCTCAAAGCCTAATTAAAATTTTGATGTGGGAGGTTTCAGGAACTTATGAAATCCTTATTAAATTTTTAAAAAAAGTTGACGTAAAAGCTCGAGCTTATCTCTTTCATTACATCTTTGCAAAACCAGGAATTAATAAGGTGGGTCACATGATGGAAGCAATTGAAGGTGATTATGTGCATACATCAGACGGAGTTGATATTTCAGATGCAAATAGAGACTTTGACAAAAAAGAGAGACCAATCCATCTAGCAAAAAGTAATCAACCTCTAAGGGGAAGGAGATCTTTCAAGAGAGTAGCAATGTTATTGACCATACCTTCTTATACCCTGAGGGTAGGTTCAATGAATGTATACCGTGAAAATCGCATGAGGTTGCAGTACCTCCTCCGTAAGCTTGTGGTACAACATAATTGGGTGGACGCTAGTGGAGTGCTAAGTGCATTGTTAAAAGGGACTTGCAGAGAAACAACACCTCAGAACAACCGTATCAAGTATTGGGTATGCATTTAAAATAACTTTTAGTTTCCATTATCCTGTTCTCTTCTGTACTAGTATGGCTTGACTAATGACTATCGGTGCTAATTGGGAGTAAGATATCTGACAGAGGTGGCCATTCAGCTCTTGTGACTTGCCATTTCTGGATAATTTTATGTTTTGGCTTGAACTATCTTTTTTTTCAAAAAACACATACCTGTATTGCTGCCTTTTGGATTTCAAATGATCACATTTTTTGTGACATAGCAGTCTCTCTCGCATGTAAAATCTTTGTTAAATAATGACTCAGAAATTCCTCAGAAATCCCACAAATTAAGTAAACCATGAGCAGTGGCTTCTGAACATTTGATAGTAGGAATTAGTTTACAAAGAACCAATGAATGTGGTGGCTTTAGTGGCGGTATTGTTGGGTGATGTGTTTTAGACCAAGGCATTGAAATCTTGAAAAGAACGCAGGCCTGAAATACCCTCTATTTGTACTTAAGAAATGTGGGAAATTTGCTTTTCTAATGAAAATGTATTGTACCGTAAATAACCATGTGATGTGACTAATAGATTCATGAAAGTTTCGTTCTTTGTAGGATGAAATGGAACATTATAATAAGATACAAACAATCATATCCTAGAACTACCTATTAATTTCATAACAAACATCCTTTTTCTCTTCTAGTTCCTCTTGCCCTTCCACCTTTCCCTCCTACCATTCCTATTTATCCGGGGGTCTTTATGTACTGGAATAAACTAGAATTTGGGAAGAAAATTAGAGAAGGAAGAAGAAGAATTTTAATTGAATAACTAGAAAATCATAGAAACAAAAGGATGTCCAAGCTTTTGACGGGCTTGATGCTCTCCCAACTATTAATAAAGGTCGTACCCAATGCAAAATCTCTAGCTATTTAGAGCATGGTCTGCGGAAGTTCTAAATCTAAGCAACCTTACCCTTATAAAGAGGTTGTTTCCAAGGATCATCGAACCTATGATCTAGCGATAGCAAGTAGACACTTGACCAAGGCACCACCTTGCTCTCCCAACTGTTAAGGGTAAATAAAACTTGTAATTTTCTTCATAATTTGTCTCCCTCTGAAGTCTGAACTCCTCTGTTCATAGTATATGATTCCATTCTCACTATTTTCCATCTTCTTTTTGCACAGGAAATCCTTAACTGAAATATAACGACCATAACCAAATTTGCCAATCCTATATGTCCTATGGACGGTATCTTTAACTTGCAACCCCTATTATTCTCATATTTGTTTATACTTTATTTTTTCTTGCATTGGTTTTAATCTGTCTCTTTTGTTAACTATACTATTTGTATTTTTTGATTTATGCTCCATATAGGTTGTTGTATTGCTTTTATTTTTAATGCTTGCATTCTTCTTCTACTTTTTCCTTCCATTACTTCTCTTGGAAATATTAATCCTCGGGTTTCATAGTGACTACTGTTCAGCTAGTTTAAATCTTCTACAGGGAGGTCTATATAGTACTCTTTAACTCTTTAACCATAGCTTTTGTTGGCAAAAGGTGTTATTCCTTGTGTTATAGACTCCAGATAATATAATTGTTCACTGCTAATATAATACATCTTCGTTCTTTTACAGTTGATACAGTTTGACTGTTGACACTATTCATATAATATACTAAGAAAAAATATAGTCATGTGGGGTTTTGTTATAATCGTCTCATTGTATAGAACTTATTATAACTTCCGCATCGCTTTTTATTTTTTACTTAGAAATTATGAAATCTAAATCTAAGAATAATCAACTTTTTATAATTTTTACTCATTGTTAATTAAAGATATTAATGATTGAAATAATATACAAACGTGATAAAATAAATTTGTCAACTAAAATAGAACGAAAGCACTATGCAACTTCTTTGACAAGCATTCTATATCTTTGTTATCTTAGGTCGCAATGGAGCTTCTTCGACATATGAAATGTGATCCAGACTCATCAAGGATTGAGCACTTGTACGATACGTGGAAGGAAAAGATAAAGTCTGCCAAGAAGCAGCCATTGAAGGTATAGATTTAAATCATGTCATATAAAGTGTGAAGAGTGAAATAAGACACCTTTAAAAAATCACTTAACCTATTCTAATTTCTCTTAGAGCATCACCAATGGTGAGCCTCTAATTGAGGCTCAAAATTCTTTCATAAGCTGTTCTATTTCTCCAATGGTTAGTCATAATAACTTTTTGAAGAAGTTCACACCGTGTTACTTGCAATTCATTACATTTATCCGTTACAAGCCGCTTTCGCGACAATGCCACCGTTACCGGGATCAAAACCACATCCGCGATTTTTTCCATTCTGGCGTAATACAGAAGCATTTTTAAAAGATTGAAATTTGCACTCTTGCTTTTTGAAGAATTTTGTATAGCTTGGTATTTAATTGGTTTTCTTTTTTTTACTTTTTATTTTACTTTTAGGAAAGGTATTAATTGGTTTTGAGCTCTACAATAGTAACTAATAGCTTTCTGTTCTCGTTTAATATAATGCGTCTCAGAAGAAAGTTGTGTCTTTGTGTAGCTTTTCCTGTCAGGTAAAAAAAAACGCATACGTAGTTTCTTATTTTTGGACGGGGCTTCTGCTATCTTATGTGATCTGTCTTGTTCATGCTTTGTTTTTACTTTATACATGTGTAGATTCTTACTGTGTAATATTTTGACAGGACAGGTCCGTTCTGTTGGAGTACATACTTTTATGTCTTGCACGAAATAACCATGACTTTGCCCGTGTTAATTTGCACAGGTACATTTTACTTTATTCACAACAGCTACTGAATACAATTTGCATCCAAAACAAACAAAAATTACATTTGTTAAGTACAAGTTCAATTAAATGGTTGTTTTCGTGATACAATTTCATAATTGGGTCTAATGTATTGTTGTTGTTGCTATTTCTGTTTCTGTGTAATAGTGGCTCTAAAACCTTGTCGTTCGACCTTCTCCTTTACCAATTACTAACTTACCGTTGTTGTTGTTGTTTACCCCACAAGCTCATCCACCAACAATTATGCCTCGTCAAGTCGTCGGACCCTTAAAGGGGAAGGGTTTGCCGACTTGAAGGAAAGAAGGAAAAGGAAAAAAAAGGAGGAAGGGAAAAAAATTTAGACGAAAAAGAGAGAGACACGTGTCAAGGTAACCTGCTACAACGGATTGGTTACATATTACGACCATTACAAGAGAATAGGTCCAAAAGATTGGACTATTAAAATAAAACTCATATGTGGGATTAATAAAAAAGATAACCGTCCAAAGGTAGGATTATTAGAATAAATTTTTCCTATAATAATTCTTAGGTTACTTCCAGTTTAGTTTTTCCTAACTTTTTATTTTTATTTTTATTTTTACTAATGGATAATTAAGGAAATTAATCGTAAAACTGGTGTGTTGGCAACTTGAAAGTCAAAGTGGTGCAATTATTTTGAGATGGAGATAGTATACACTAACAACAAACGTAATGCATGTCATGATTTGAATCCACAACCCCCTTGAATATGGAGTTGTGATCCCCACCAATCCACCATGAATATGTTGGTAGAATTGATGCTTTTTTTATTAGATGTATTATGAATAAGTAGTAAACCAATTTCAGGACTTGTTAAGAAATTATGAGAGAAGTATTACCAATCTTTCATGATTTTACAATTTAAATTAATTTTTAAATGTAAACCCCAAAGAAGAAAAATAATCTCAGAGTCTCTTTCTTATACGAAGAACAATTGAAGTTGAGTTTTCTCCATCTCTCTTATTATTTCTCTTTTGTCAACATGACTCCTTATGCATAGCACGGAATCATAAGCTAATTTATATTTTTGGCTGAGAAATGATATCGAAAATGTATCCGCCTTTCCTTTGGATGTTGAAGCTTGAGTGTATATAAGATGTGTAATTGTTGATATTTTATTAATTGAATTATGATGCTTATGGCTATGTAGTATCCTCTAGCAGACCATATGAAGGTTTAATATGACTGCTATTGCCATTTGTACTTCTCTTCGAGCTTTATGCAGAAGGATACAATTTTTCATACATCTGTTAAATTAACTTTATTTTTATTTTTATTTTTATTCCGTGTTATTTTATTGGTTATTCCTGTAGTCTTCAGCAGGAATATGAATCCGCAAGAGACCAAAAGTCTAATCTGGTAATAGGTTTGACCAATTATGAGTTGTGGTATTCCGAGCTACCAAATGAGATGCGGCTGGGAAACGTAGAAGAGTCTTGCATGCCTATGGAGTCGGAGACAATGAAAACCAACTCCTCTGAGGAAATAGATAACCTGAAGGGAGAGGAAGCAGCCAGTGTTTATGAGACATTTTCAAACTTGCACTATTTTTCAGAGACATCTGTTGTGAATGACAAGGACACTTGTGCAAATGCCAATATAAAGCTAGATGGGGAAGTATCTGGGATAAAGCCAGTTGAGAATATCAAGAAATCCCAGTCACGAGATTTTTATATGAAATCTGAAGAGTTAAGTGTAGAAATTGATAGCTCAAGTCAACATGGTTATGATCAATTTCATTGTTCTTCTGCCTATAATGTACACAGTGAGTTTTATTCTAGTTTCTTTGTTTCATCTTTCCTCACCTTTCAGTTTTCCACCCCTCTCCTGGATTTCTTTCTTAAGAAAGGTTGTTTCTCGTTGTGTTTCTCATAAATTTATGGTCTCCAATAGTTCAGTCCATAATTACTGCTGGATCCTGGAAGATTATTTATTTGGTCTATCATGATTTTTAATATTAAGTGGTAAATCGACGAAGTCTTGAATTTCTTGCTATTTCTGTTAAAAAGCTCTAGCTTGCAAATCACAATTGCAAGATTTTTGATAGTTTGTTCTGCCCTTTGTGTATTAGCTGATGCATTGACCTGTGCTAAAAAAGATTAACACCTTGCTATTTGTAATTTTATTTCTCAACAACAATTAAGCAGCTGAAATGCAGTGCTTGTCTAGTTCTATTGTTCTTCTATTGTGGTTAAGCATTAATGCTTACATGCTGGAACAGTGTACAAATTGCTTGCAGCTCCGAGGATTAAGCATGTTCATATTCCTAGATAACTTTGTGCATATGAAAGGTTTATCTACACATAGGTTTCATGTAATGTTTATGCTCACCGGCTATGTAGTATGTATGCTTGAAAACAAAACTAGCAAAGTTTTTAAAACTTGGGAAACTAGGCAATGATGATCTGAAATAGATGTTAACAGAGGGGTTGGAGCTAAGGATGTGTTTATGTTCTTTTCTTATGATAGGTGGTGTAGGCAGTTACAATTGCCGGGGGATAAGGAGGAGAGGGAATTAGAAGTTAACAGAGTTTGGGGCTAAGGATGTGTTATGTTCATTTTTTAGCATATTTTTATGACTTTTTAATTCGAAACTATTAGTCAGGTGATTTTGGTTGCTTAATCACCAGTTCTGATTTTGATTAACTGTTGGCCTCTCTTAAGAACCAACTGTTTTATTTTAGCGTTTTATTTTACCATTTGGTTTATGAAATGTGCCCTTTCATTGTGAGTTTATTATGGAGTAGCAAGCCCTAATAACTTGCTGGTGCAGTCTCTCACTTAAAACTCTTGTACTGAACCCTATTTTGTTAAAACAGGCATGCAATCATTGTTGCCCGTAAGAGTGCCTTCTTCAGATAATTTTATGGACATCCTTTCTTCTCGTAGACAGCTTTTTGGTGATCATTACAAGGAAGCTTTAAAGTTTCTAAAGCTTACTCTTCAGTCCCCGCCTCCAATCTCAGAGGCAGCATTACTTCCTTCAGTACAGGTACTTCATTGTTTAATCTTTAGACTTAAGAAATGTGTAGAATTTGTTTACGATAATTTGAATTCTCTCTCTACATTCCTTGAATCCTCTATACAATATCTGAGTTCATCATTAGTGAAGTTGGATAATTATGTTAGTCAACAGTAAAATGAGCTCGACAATGGAAGTGAAAGTAGTAAATTCTATTTTTATTTTTAGAAGCTCCAATATTAATTACATTCCTATGATATTAAAATTGTTTCATCAAGAATTTTACAGCTCATTGTGGTGGTGATTGAGGCAACAAATTGTTATCAACAGATGAGTTCAAAAATTAGGTTGCTTGAGCTTTGAAATGACCAGTCCCGTAACCATACTGGCAGCATAAGCCTGTTGGTTATGGTCTGGTGTGTGCAGAATGTTTTGATATTTGTGATTAGTAAATGGCGTTGGCATGACATAGCTGCATATTTTTTTGTTACTGAGAAGCATTGGCGTGGTCTCACCAAAAATCTATTTTCCGTTATTCTTCTTTTGCTTTCTGTTTCGGCTAATGTGCTATCCGCAATCTCTGTTTTGTTGATAGAAATTGCTGGGTATCTTGTGTTCGTTTATTGCAATTGTTTTAAGAAAATTTAAATTCCTTTTGGCAGTTGTTGCTCCTTGGTGGCCATGGTAAGGAAGCCTTAGCTATTGTTGAGCAGTCATGCAATGAGTCAAGCTCAGTTCTTTCTTTTAGGTAACGATCTTGCCTCTTGAATAAGATGTGTAGCATACAAATGCTTGTTGATAAAATATACAATGAAACAGAAATGTGAAACGAGAATATTGGAAATAGAAATAGGGAAAAGGCAGTGTGGTTTGGTAGGGGGATATTGGTGAAAAAAAAGGAAGATAAAGGAAAGAGACACGTCCCATGATTGGTGTTAAAAGCCACATTGGATTTGGTAGAAATAGAAGGGAAGCGGAAAGGAAGCTCCTATGTAAAATGGTCTCTTTTCTTTCCTCGCAAAACAGAAGGAATTGAGTGGATAGCATCACTAAAATGTTGTCAGTTGTCACCCTCAATGTGGCGTCAAAATTTTCTTTAGATGTATTTCTTTCAGTTCCTTGATTTCCTTCCAATTCATTATACCAAACTTGAAAGTATAGTTCCTTTCTTTTCCCTTCTCTCCTCGTGTTTTCCCATCACTTTGTTTTCCTTTCTTTAACAAAAAATATACCAAAAAAGCTGTAAAGTCCATGTTAACTTTTAAGCACTTTTCATCATACTGTTTCTCTGTTTTGCATTTCTTCACCGCTCTTCTTTTTCTCTAGTATTAGGTACAGTTTCCTTGTACTGATCCAGTAATCCATAGAACGGTGGTTGACAAAAGTTAGGTTTTGGGACGATTCATTGTTTAATACAAGCACATTGAGCTTGTGTCTGAGATGCTGATTTATCATGTACTCTTGAGAAACATTGCCTTCTACTCATAATCTCTTCAACAAGTATGCTTGTGAGTTTTAGGAATGTTGTCTTTCTGCATGCTTCACTACTTTGTGGTTAGAAAGGAATGGATTCATGTTTAAAAGTGGGGGATCCTACTGCTAGGGTAGGAATAGTAAAAGATGATACGTTGAAATTGTACTAAAGTTGTGGTTTGGAAGAAACTATGAGACTGTTTTAGTGAGTCCTTTTGACACTAACTTTAGCTATTGTATGTTCTGGTACAATTTAAATTTAACAGATCAAATCAAGAAATCAAAATGTGTCCATAAACAATTGTGCACAAGTATCAATTATCAGTAGATGTACATGGTTGATTCCCTGAAACATTATCAAACTGTGAGGTGATCAATATAAATTAATTAATGCAAACTTTTGTTTTTTATACTTTGGCAGATTAAAAGCTCGTCTTTGGGAGTGCTTTGATGCGAATAATTATGATGAACTCTTTGCATGTTTTGAGGATGTTATGAAGAAGGATCCCACATGTAGGCGTTCTCTAGCAAGACTCATGGCCTTGCATCAAAAAGGTGTTGAATTTTTGGAACTTGATATTTGCTCTTACATATCTTCAAATCTTATCTATGCTTAAAATTTATTGTCGAAATCTATGTTACTCAGACACGAGTGTCGGTGTCGTGTCCGACACGGTGTCGGAGTATCTGGCACTCCGATTTAAATTTTCGAAGACACTCCGACCATGGTGTAAAAACTCGCCCGAGTTAACTCGTATCGCCCGAGTTAACAAGGTTTTGGAGGCTGGCGGTAGTGCGGTACGAGATATCCCGAGTAGTAAAAGTGTTTTTAAAAACGGCGAGATCTCGGCCTGTTCAACCGATCCGAACGAATTTTGTCCGCATTAAACGTTATTAACCTCACATCTACTCGGTTTTCAGCCGAATTCCCCATGTTTTCGACAAAAAGAAAGGGAAAAAGGAAAGAAATGGAGAAACTCCACTGAAATAGAGTAGAGAACTCCAATTTTCAAATCAAAACAAGAGAGGAGAGAGAAGGCGGACAAAGGAATTCATTTTAATTATGTCACGTGTACGGTTTAGAGGAGGGGGACTAGGGTAGGTAGTGAGTGGGGCTGACATGGGGATTCTTTTTCAAATTTCAAATTCCTACGCGACAACCGCGATACGGTCCTCGACTAACGCATCATTTCCGTTACCGAGACTCCGCGACCGATACCATTTTTTTATCTATGACTCCGACACGGTCAAAGGAGTGTCTTGACTAGTTTTTTAGACACGGCGGTAAAAAGTGTCGGAAAAAAAAATTGACACTTAAAGAAAATAAAAATATATTTTCTTAAAGTAAACATAAAAAGAAATTAAAAAATAAACACAAATTCTTATATGAGACTGCCCTCACCATCAACTGATGGTGAGACCAGTTCACACTTGCGAATTTGGCTATGTTACTTCTATAGTTTAGACATGTTACTTTTTTTTATAATTTTAGAGGAGTTACTTTTTTAGTTTAGGTATGTTACTTCTATAGTTTATACATGTTACTTTTTTTATACGGATTAATTTTAGGGGAGATACCTTCTTAGTTTAGGTATGTTACTTCTATAGTTTAGACATGTTACTTTTTTTTTTATAATTTTAGAGGAAGTACTTTTTTTAGTTTAGGTATGTTAATTCTATAGTTTATACATGTTACTTTTTTTTATACGGAGTAGTTTTAGGGGAGATACCTTCTTAGTTTAGGTATGTTACTTCTATAGTTTAGACATGTTACTTTTTTTTTAATAATTTTAGAGGAGGTATTTTTTTTAGTTTAGGTATGTTACTTCTATAATTTAGACATGTTACTTTTTTTTATAATTTTAGATGAGGTACATTTTTAGTTTAGGTATGTTACTTCTATAGTTTAGACATGTTACTTTTTTTTTTATACGGAATAGTTTTAGGGGAGGTACATTTTTAGTTTAGGTATGTTACTTCTATAGGTTAGACATGTTACTTTTTTTTTTATATAATTTTAGAGGTACTTTTTTAGTTTAGGTATGTTACTTCTATAGTTTAGATCTGTTACTTTTTTTTTTATAGTTTTAGAGGAGGTACGCTATTGGTTTCGCGCTTGTCACACCATCAAGTTGATGGTGTGACTGGTCTCACAGGAGACGCGCTGAAAAATAAATCACATTGATTTATTACTGGAAAAAATAGTAAGAATTAAATACTTTAAAAAAATGAAAAAATATACATAAAAAATAAATAAATGAGTAAATAGAATGTCAAAGGAGTAGTCAAGTGGGTTGTCAGATACTCAGATGTCACCACTTCCCAATATCCCACCCTAATTATTTAAAAGAAATAAAGTAAAAACAAATGATAAAAACATGCAGGCCCAGCACCTCCTACAATCCTACTGCAGCAATTCAACACCAAAAATAAGAATCGCCCGATCAGGGTTTGAAGCAACCATGGCCGAGTATGAAGAAGGCCTTTCAACAACAAAAATAAGAATTGGCGAGTGCCTTTATCTCAATTTTCCCTGTACAACAAAAGCCCCGACACATTTTTCCTTCTCTCACCTTCCACGACCTTCAATCTCCAGATCTAGGGTTTGAATTCGGGACGGCAATTGGTTCCGGGTAAGACTAAGTATTCAACTATGAAGCTTTATCTTCATCTTGGTTACCAAAAATAGAGTTTTTTTTACTCGTTTTCTCTTCTCTTCCCGATCTCGACACCGGATTTCAGATACTTTTTCGACACCGGTGTCGACACTTCTCCGGACACGTGTCGAGTGTCGTGTCGCGGGTTGGGTCGTGTCAACACCGACACCCACCGTCGGAGGAAGTGTCGGAGTAACATAGGTCGAAATTCAAAAGGTGTTAAAAATTTTGGAACTTGATATTTGCTCGTCCATACTTCTACTTGTTGATAATATGTGTCTCTTATATCATTGGTATTTTGTAGTCATACTACATCCATTTCACAATAGATGCCCTGTTTTTATTTTCACGCTTATCAATACCAACCTTTGACCATTACTAATTATTTATTACAGAAATTTTATATTTTGAAAATATACATAAAAAATAAGGGATTTTCTCAATGGTATCCTTGAGTTTCTTAAATTTCTTAAACGTGACATTAATTATGATTTTTTGTTAAAAAATCTGTTTAAGCTATCTTTTAATACCCACGGTTAATCTCTTCACTCTCCTCTTCATCCCCCACAACTTTTCAAAACTCAACTTCTCCACCATTAACAATCCTTCACTTTTTGTCTCCCATGCGGGACCGCACCCATCTCCTCCAGTAACAAACCTTCAAAATAGAAGCGAAAACTCAAAAACCAACAAAAGTAAAGTATCCATTATCCTTGTAAAACAATAAAAAATACCCTCACTCATCCACTTGCAACTTAGCTTATTCATTTCCTTGAATCAACTCTCCTCGTAAACTATGTGCCTGGTCAATTGTTGCGACTTGCGAGTATTGTGGAACGAAGGGAGTAAGAAGTACGGGGATCTTTTTTTTTAAAACAGAAGTTTAATAATTTAAACTAAATAAGCAATGTCTACAAACTGCATACACGCAGGGGCCTAATCTGGTCAGCAGATCAGAAGCAGCACCAAACACAACAAAAAGGCAAGAGCCACGAACAAAACATGTTAAGGCACTAGACAACTAAGTTTCTTATGCTGCAGGAGTAGTGCGTTATTCATGTTCGCTTATTGAACTTTTATTGAACTTGGAACAAATTAAAAGCATTAGTCGAGCTATAGTTGTTCGTTCTAGGCTTCAATCACTGGTCTCTTATAACGGGTACATTTTGGGCTTTGTTTGCACTTTCACAGGCTTTAATTAATTCTGAATGTATTTTCACCAATACAGTTAAATGATAAGAGAGTATGAAATAGGAATTATGTTGAAAAAACTGTGTTACAATACTTATCCAGGATCGAAAAATTCTACTAGTTGAATTGCATGGAGAGCAGACACCTGGAGTAAAACATGATATTTATATGTAAAACTTTTATGCATGGTAATATAGTATTAGTCAATCCATGAACATAACGAGTTGGACAGAATTGATACTCTGATGTTTGAGTTCGAGGTTTTTTTTTAATCTGAGTTAAGAAAAGTTTAATCGTTTTCTTTTGAATTCTTAACGACTGAAAATTTGTTTAGTTTTGACCAAGCTTGTTGGTGTTCTTAAGTAGATAAGTTTATATTTAGTCACCTGGAGGAACACAAAATATCGATATGTAAGTTTTTTATGCATTAGTATGTAGTCGACCCATGAATATAATTGAGTTGGACACTGTATGTTTGAGCTCGAGGTTTTTTTAATCTGAGTTAAAAAGTTCATTGGTTTTCTTTTGAATTCTTAACCACTGAAATTTGTTTAGTTCTGACCGAGCTTTCTGGTTGTTCCTATGTAAACTAGTTCATATTTCAGTCCTATTCGCCTGCTCTGATTGTGTTGCCTTTCTTCACAAGTATAGTGAAATCACAATGGTTACGGAGTGTATTCATAAAAAGAAAGTCAATTGGGAAGTTAGGGTGCATCAGTAGATTCAGTTCAGTTAAGTTACTAGTGAGCTTTGATTAGTTACATTGAGGCTCGGGTTCAAGGTTAAGAAGTTCAGATATGTTAAGTGCGTGGAATAAGTTAAGATAAATAAATAGTGATTGGATGAGTTTAGGTTGCTAGAATAAGTTGTGGAGGGAGTAATTGAGCTGAATCAAACCCTTTGTTTTCTCTTCTTTGCACTACAGAAAGTCAGAAACCAATGTTTTAGGCTTCAGTCTACATCTCTCCCCCTACTTGGTTTCTTGTTGATGTTGTGATTAGGGGTGTAAATTGGATGGACTGGATTGGACTTTGCCAAGTCCAAATCCAATCAAAAAAAATTTTGGACTCGGATATTTGAGTCTGAGTCCTATCCAAACCTTTTTTAGTCCGATCCATAAAAATTATTTGAGTCCGTATCCGGTCCAATCCGATCCGATTTTTTTTTTAATATTTTAAAAAAAGAGTTAAACTCAAATGAATCGAACATAAATGCAAATAATACGGTTACCAACTAATTTTTCTGACACTTAAAATAAAATGTACGAGTATTAAAAATTGGGTATAAAATATTTTAACACCTATAACTACAAGTCACTCTTCCATACAGGGAAAATAAATAGCCATTAACTATAGATATATTGGAAATAACAATATGTCCTACGCATCTAAATACTTAGACAAAAAAGGTTTCAGTTCTTACGAAAAAACAAAGTTCTAAAATAATAAAGCTCAATAATCAACCATCACAACCAACGAGAGAAAACGAAAGAGAAAAAGGTTGATAGAATATTTTTGGGTTATGGGCTTTATATGGAGTGTAATATTTGATAGTTTTTCGTTGGACATAGTAAATAAAAGCACAAAAATCACATATTTCACAATAGTTTTCAAATTACATATGTTTATCTGTAAATAAAATCTTAAAACTTTGGACTTAATTGGATTTTTGGACTCCAAAAGGTTGAGTCCAAGTCCAGTCCAAAAATAATTGGACTTGGTAATTTGAGTCGGAGTCCGATCCAAAACATTTCATGTCCGATCCAGTCCGACAAGTTTGGATTGGACTGGACTGGACTTTGGATTTTTCTCAATCCACTTACACCCCTAGCTGTGATCATAGAGTATTAATTACTTTCTCTGGCCCATTTTACTTCCAACAATTTGACCGGCACTGGGTTTTAGGCAATTTAACTGATTTCTTACTTTATTGTGTGATGGGTATGGGGTAGTGGGGTATATTTTATCATTGTTAGTGGATTGTGGGCCATTTTCTTTTAAAAGAGTGTGAGTGGGGGGTCTCATTTTACCCTCCCTGATTTTATTGTGTGATTTTTGGGAAAAGGCCCAGTATGATACTCAAAACAGTTTGGATTCAGCTCCATGTTTCTTTATTGGTATTGGAGTAGATGAATATTTCATCAATCATATGGGTTTGAATATAGAGATAGGTTGTATGCTATATTTCATCTTTGTGAGAAAGAATAGTATGCGAGGTGTGCAATTCTTGTCAGCAGCTCTCTTGTGAGTTGGACAGGTGTGCAGTTATTGGTCAGTTTTCATTCCTCTGATTCTTCAACTGGCTCTTCAAAGCTAGTTTTGAGTGTTTCTACTAATAGGAGAATCGTTCAGTAGAAATATGTGGCTCGGTCTTCAAATATAATGGATTAAGGGGAAAAAACTCATTTGACTAGTTGGGACTTGGGGATTTTGTTGAAAGTCCAACAGTTCTACCGGGCTTACAAAATTTTAAACATGTTGCTGCATTATGTTCTGTTGTATTGTGGGAATGGCTGATTCGGCTTGATTTGCATTGCTTTCCAGCTTACGGTTTTCAATCCCTAGCCTAACAATTAAGATCTTGTTTTCTTTCCCTTTCTTTTTCCTTTTTGAGGTATACAATTGTCATAGTAGTGCTTGGATTTCAAATGCCATTCTAGGCAGGTGAACCAGATTTAATTGGACCGATGGTGATTGATTACAAGCTGCTCATATTCTGATTGATTAAGAAATTACTATTTGCCTTGTATATTTGTGTTTTCGTCTTTTTTCTTCTCTGTTTACTCTCACCGACCCTTATTTTTCTAAAGCCAGTTTAACACCAATCCAAATGGAAGCTAGTAAACTGGAAAATTCTAGTGAAGCTTTGATAATTGAATGAAACTTGATGTCTGTTGCAGTTTTCTAGTATACTTTGGGAAGTTTGTCATTGGGTTTCATCTTTTAATTTTTTCAGGAGAATATGCTACTGAGCGTCTAGTGGAGATGATTGCTCTTCACTTGGAAGCAACATATGGAGATCACACTTCATGGAGGGAATTTGCGTTGTGTTTGCCTAAACTTTCACATTGTGAAGAAGACAGAATGTCAATGTGTGGGGATGTGGAGCAAGTTAAGAGTGGGAATTTGCATACTACTCGGTTCTGTAGGACACCTGCCTCATTGGTGGAGGGAATGTCTGGGAAGGCTTGGAAATTTCGATGTAAATGGTGGTTGAACCGACATTTTAGCAAGCAGATACTGGCATCTGAAATGGAAGAAGGTATCGCCTAAAATATCCTTAGGTGTCTGTGAAATTTATGTGTCACATTTCATAAAAGCAGAGTCATTTTGTGGAAGGTGGAACTTTCTTAACCATCAATAGGAAGGGTGGATTTTGCAACATTTATTAATGTGTGAAATGGATTTTGAGAACCCGTCTTAGTGAAATAATTTGCCCATACTAGTTAATTTTGCCTCTCTGTGATATCGCCTTTTGTTAATGGTTTTATTCATAGTAAAGTGTGCAATTTTGCTATGTTTGTCTACTCAATGTTTTAGGCAATGATATGAAACTTCTGATTTCTCAGGTGACTTGCAGCTGATGACATACAAGGCAGCTTGCGCATCCCATTTTTACGGGCAAGAGATGGAATATGTTGGGAAGGTTTATACATACTTGAAAGAGCAGGAACCCAAGAGGCCGAGCCTGATAAGATGCTGTTGTCATTTTTGTATACGCACATGAAAAATTCTGTAGGTTTTTTCTCTAATTTTGTTAGGAAATGAAGGTAACTTGTTATCATAAGAAAGTATATTTATTAGTCAAGGCTTTCTGCACTTCATTCCTTTATACTTTAAACTCCCATCATAACTCAAATAACAGTGAAGGAACAACCTCAAGTTTCCTAGAGGTGGTCTCCTTTGCTGATATGTGCATGGTACGATTGAAATTTTTTAGAGTTGTAGATGGGAAGGAAAGATGGTTAATGGGAATGTCCTGGATTACAAATCG

mRNA sequence

ATGTATAAGTTTCAAACACGTCTCTATTTTTCTGAAACGGTTTTGGCGCGTTCCGAAACGCGTTTCCCGGTTTCCCCCGTTCCAGGACGTTTCGGAAACGGAATTAATAAGGTGGGTCACATGATGGAAGCAATTGAAGGTGATTATGTGCATACATCAGACGGAGTTGATATTTCAGATGCAAATAGAGACTTTGACAAAAAAGAGAGACCAATCCATCTAGCAAAAAGTAATCAACCTCTAAGGGGAAGGAGATCTTTCAAGAGAGTAGCAATGTTATTGACCATACCTTCTTATACCCTGAGGGTAGGTTCAATGAATGTATACCGTGAAAATCGCATGAGGTTGCAGTACCTCCTCCGTAAGCTTGTGGTACAACATAATTGGGTGGACGCTAGTGGAGTGCTAAGTGCATTGTTAAAAGGGACTTGCAGAGAAACAACACCTCAGAACAACCGTATCAAGTATTGGGTCGCAATGGAGCTTCTTCGACATATGAAATGTGATCCAGACTCATCAAGGATTGAGCACTTGTACGATACGTGGAAGGAAAAGATAAAGTCTGCCAAGAAGCAGCCATTGAAGGACAGGTCCGTTCTGTTGGAGTACATACTTTTATGTCTTGCACGAAATAACCATGACTTTGCCCGTGTTAATTTGCACAGTCTTCAGCAGGAATATGAATCCGCAAGAGACCAAAAGTCTAATCTGGTAATAGGTTTGACCAATTATGAGTTGTGGTATTCCGAGCTACCAAATGAGATGCGGCTGGGAAACGTAGAAGAGTCTTGCATGCCTATGGAGTCGGAGACAATGAAAACCAACTCCTCTGAGGAAATAGATAACCTGAAGGGAGAGGAAGCAGCCAGTGTTTATGAGACATTTTCAAACTTGCACTATTTTTCAGAGACATCTGTTGTGAATGACAAGGACACTTGTGCAAATGCCAATATAAAGCTAGATGGGGAAGTATCTGGGATAAAGCCAGTTGAGAATATCAAGAAATCCCAGTCACGAGATTTTTATATGAAATCTGAAGAGTTAAGTGTAGAAATTGATAGCTCAAGTCAACATGGTTATGATCAATTTCATTGTTCTTCTGCCTATAATGTACACAGCATGCAATCATTGTTGCCCGTAAGAGTGCCTTCTTCAGATAATTTTATGGACATCCTTTCTTCTCGTAGACAGCTTTTTGGTGATCATTACAAGGAAGCTTTAAAGTTTCTAAAGCTTACTCTTCAGTCCCCGCCTCCAATCTCAGAGGCAGCATTACTTCCTTCAGTACAGTTGTTGCTCCTTGGTGGCCATGGTAAGGAAGCCTTAGCTATTGTTGAGCAGTCATGCAATGAGTCAAGCTCAGTTCTTTCTTTTAGATTAAAAGCTCGTCTTTGGGAGTGCTTTGATGCGAATAATTATGATGAACTCTTTGCATGTTTTGAGGATGTTATGAAGAAGGATCCCACATGTAGGCGTTCTCTAGCAAGACTCATGGCCTTGCATCAAAAAGGAGAATATGCTACTGAGCGTCTAGTGGAGATGATTGCTCTTCACTTGGAAGCAACATATGGAGATCACACTTCATGGAGGGAATTTGCGTTGTGTTTGCCTAAACTTTCACATTGTGAAGAAGACAGAATGTCAATGTGTGGGGATGTGGAGCAAGTTAAGAGTGGGAATTTGCATACTACTCGGTTCTGTAGGACACCTGCCTCATTGGTGGAGGGAATGTCTGGGAAGGCTTGGAAATTTCGATGTAAATGGTGGTTGAACCGACATTTTAGCAAGCAGATACTGGCATCTGAAATGGAAGAAGGTGACTTGCAGCTGATGACATACAAGGCAGCTTGCGCATCCCATTTTTACGGGCAAGAGATGGAATATGTTGGGAAGGTTTATACATACTTGAAAGAGCAGGAACCCAAGAGGCCGAGCCTGATAAGATGCTGTTGTCATTTTTGTATACGCACATGAAAAATTCTGTAGGTTTTTTCTCTAATTTTGTTAGGAAATGAAGGTAACTTGTTATCATAAGAAAGTATATTTATTAGTCAAGGCTTTCTGCACTTCATTCCTTTATACTTTAAACTCCCATCATAACTCAAATAACAGTGAAGGAACAACCTCAAGTTTCCTAGAGGTGGTCTCCTTTGCTGATATGTGCATGGTACGATTGAAATTTTTTAGAGTTGTAGATGGGAAGGAAAGATGGTTAATGGGAATGTCCTGGATTACAAATCG

Coding sequence (CDS)

ATGTATAAGTTTCAAACACGTCTCTATTTTTCTGAAACGGTTTTGGCGCGTTCCGAAACGCGTTTCCCGGTTTCCCCCGTTCCAGGACGTTTCGGAAACGGAATTAATAAGGTGGGTCACATGATGGAAGCAATTGAAGGTGATTATGTGCATACATCAGACGGAGTTGATATTTCAGATGCAAATAGAGACTTTGACAAAAAAGAGAGACCAATCCATCTAGCAAAAAGTAATCAACCTCTAAGGGGAAGGAGATCTTTCAAGAGAGTAGCAATGTTATTGACCATACCTTCTTATACCCTGAGGGTAGGTTCAATGAATGTATACCGTGAAAATCGCATGAGGTTGCAGTACCTCCTCCGTAAGCTTGTGGTACAACATAATTGGGTGGACGCTAGTGGAGTGCTAAGTGCATTGTTAAAAGGGACTTGCAGAGAAACAACACCTCAGAACAACCGTATCAAGTATTGGGTCGCAATGGAGCTTCTTCGACATATGAAATGTGATCCAGACTCATCAAGGATTGAGCACTTGTACGATACGTGGAAGGAAAAGATAAAGTCTGCCAAGAAGCAGCCATTGAAGGACAGGTCCGTTCTGTTGGAGTACATACTTTTATGTCTTGCACGAAATAACCATGACTTTGCCCGTGTTAATTTGCACAGTCTTCAGCAGGAATATGAATCCGCAAGAGACCAAAAGTCTAATCTGGTAATAGGTTTGACCAATTATGAGTTGTGGTATTCCGAGCTACCAAATGAGATGCGGCTGGGAAACGTAGAAGAGTCTTGCATGCCTATGGAGTCGGAGACAATGAAAACCAACTCCTCTGAGGAAATAGATAACCTGAAGGGAGAGGAAGCAGCCAGTGTTTATGAGACATTTTCAAACTTGCACTATTTTTCAGAGACATCTGTTGTGAATGACAAGGACACTTGTGCAAATGCCAATATAAAGCTAGATGGGGAAGTATCTGGGATAAAGCCAGTTGAGAATATCAAGAAATCCCAGTCACGAGATTTTTATATGAAATCTGAAGAGTTAAGTGTAGAAATTGATAGCTCAAGTCAACATGGTTATGATCAATTTCATTGTTCTTCTGCCTATAATGTACACAGCATGCAATCATTGTTGCCCGTAAGAGTGCCTTCTTCAGATAATTTTATGGACATCCTTTCTTCTCGTAGACAGCTTTTTGGTGATCATTACAAGGAAGCTTTAAAGTTTCTAAAGCTTACTCTTCAGTCCCCGCCTCCAATCTCAGAGGCAGCATTACTTCCTTCAGTACAGTTGTTGCTCCTTGGTGGCCATGGTAAGGAAGCCTTAGCTATTGTTGAGCAGTCATGCAATGAGTCAAGCTCAGTTCTTTCTTTTAGATTAAAAGCTCGTCTTTGGGAGTGCTTTGATGCGAATAATTATGATGAACTCTTTGCATGTTTTGAGGATGTTATGAAGAAGGATCCCACATGTAGGCGTTCTCTAGCAAGACTCATGGCCTTGCATCAAAAAGGAGAATATGCTACTGAGCGTCTAGTGGAGATGATTGCTCTTCACTTGGAAGCAACATATGGAGATCACACTTCATGGAGGGAATTTGCGTTGTGTTTGCCTAAACTTTCACATTGTGAAGAAGACAGAATGTCAATGTGTGGGGATGTGGAGCAAGTTAAGAGTGGGAATTTGCATACTACTCGGTTCTGTAGGACACCTGCCTCATTGGTGGAGGGAATGTCTGGGAAGGCTTGGAAATTTCGATGTAAATGGTGGTTGAACCGACATTTTAGCAAGCAGATACTGGCATCTGAAATGGAAGAAGGTGACTTGCAGCTGATGACATACAAGGCAGCTTGCGCATCCCATTTTTACGGGCAAGAGATGGAATATGTTGGGAAGGTTTATACATACTTGAAAGAGCAGGAACCCAAGAGGCCGAGCCTGATAAGATGCTGTTGTCATTTTTGTATACGCACATGA

Protein sequence

MYKFQTRLYFSETVLARSETRFPVSPVPGRFGNGINKVGHMMEAIEGDYVHTSDGVDISDANRDFDKKERPIHLAKSNQPLRGRRSFKRVAMLLTIPSYTLRVGSMNVYRENRMRLQYLLRKLVVQHNWVDASGVLSALLKGTCRETTPQNNRIKYWVAMELLRHMKCDPDSSRIEHLYDTWKEKIKSAKKQPLKDRSVLLEYILLCLARNNHDFARVNLHSLQQEYESARDQKSNLVIGLTNYELWYSELPNEMRLGNVEESCMPMESETMKTNSSEEIDNLKGEEAASVYETFSNLHYFSETSVVNDKDTCANANIKLDGEVSGIKPVENIKKSQSRDFYMKSEELSVEIDSSSQHGYDQFHCSSAYNVHSMQSLLPVRVPSSDNFMDILSSRRQLFGDHYKEALKFLKLTLQSPPPISEAALLPSVQLLLLGGHGKEALAIVEQSCNESSSVLSFRLKARLWECFDANNYDELFACFEDVMKKDPTCRRSLARLMALHQKGEYATERLVEMIALHLEATYGDHTSWREFALCLPKLSHCEEDRMSMCGDVEQVKSGNLHTTRFCRTPASLVEGMSGKAWKFRCKWWLNRHFSKQILASEMEEGDLQLMTYKAACASHFYGQEMEYVGKVYTYLKEQEPKRPSLIRCCCHFCIRT

Relationships

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


Feature Name	Unique Name	Type
Spo08700.1	Spo08700.1	mRNA

Homology

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BLAST of Spo08700.1 vs. NCBI nr
Match: gi|902230361|gb|KNA21834.1| (hypothetical protein SOVF_039690 isoform A [Spinacia oleracea])

HSP 1 Score: 1135.2 bits (2935), Expect = 0.000e+0
Identity = 572/617 (92.71%), Postives = 577/617 (93.52%), Query Frame = 1


		  
Query: 41  MMEAIEGDYVHTSDGVDISDANRDFDKKERPIHLAKSNQPLRGRRSFKRVAMLLTIPSYT 100
           MMEAIEGDYVHTSDGVDISDANRDFDKKERPIHLAKSNQPLRGRRSFKRVAMLLTIPSYT
Sbjct: 1   MMEAIEGDYVHTSDGVDISDANRDFDKKERPIHLAKSNQPLRGRRSFKRVAMLLTIPSYT 60

Query: 101 LRVGSMNVYRENRMRLQYLLRKLVVQHNWVDASGVLSALLKGTCRETTPQNNRIKYWVAM 160
           LRVGSMNVYRENRMRLQYLLRKLVVQHNWVDASGVLSALLKGTCRET             
Sbjct: 61  LRVGSMNVYRENRMRLQYLLRKLVVQHNWVDASGVLSALLKGTCRET------------- 120

Query: 161 ELLRHMKCDPDSSRIEHLYDTWKEKIKSAKKQPLKDRSVLLEYILLCLARNNHDFARVNL 220
                    P ++RI++    W             DRSVLLEYILLCLARNNHDFARVNL
Sbjct: 121 --------TPQNNRIKY----W-------------DRSVLLEYILLCLARNNHDFARVNL 180

Query: 221 HSLQQEYESARDQKSNLVIGLTNYELWYSELPNEMRLGNVEESCMPMESETMKTNSSEEI 280
           HSLQQEYESARDQKSNLV+GLTNYELWYSELPNEMRLGNVEESCMPMESETMKTNSSEEI
Sbjct: 181 HSLQQEYESARDQKSNLVMGLTNYELWYSELPNEMRLGNVEESCMPMESETMKTNSSEEI 240

Query: 281 DNLKGEEAASVYETFSNLHYFSETSVVNDKDTCANANIKLDGEVSGIKPVENIKKSQSRD 340
           DNLKGEEAASVYETFSNLHYFSETSVVNDKDTCANANIKLDGEVSGIKPVENIKKSQSRD
Sbjct: 241 DNLKGEEAASVYETFSNLHYFSETSVVNDKDTCANANIKLDGEVSGIKPVENIKKSQSRD 300

Query: 341 FYMKSEELSVEIDSSSQHGYDQFHCSSAYNVHSMQSLLPVRVPSSDNFMDILSSRRQLFG 400
           FYMKSEELSVEIDSSSQHGYDQFHCSSAYNVHSMQSLLPVRVPSSDNFMDILSSRRQLFG
Sbjct: 301 FYMKSEELSVEIDSSSQHGYDQFHCSSAYNVHSMQSLLPVRVPSSDNFMDILSSRRQLFG 360

Query: 401 DHYKEALKFLKLTLQSPPPISEAALLPSVQLLLLGGHGKEALAIVEQSCNESSSVLSFRL 460
           DHYKEALKFLKLTLQSPPPISEAALLPSVQLLLLGGHGKEALAIVEQSCNESSSVLSFRL
Sbjct: 361 DHYKEALKFLKLTLQSPPPISEAALLPSVQLLLLGGHGKEALAIVEQSCNESSSVLSFRL 420

Query: 461 KARLWECFDANNYDELFACFEDVMKKDPTCRRSLARLMALHQKGEYATERLVEMIALHLE 520
           KARLWECFDANNYDELFACFEDVMKKDPTCRRSLARLMALHQKGEYATERLVEMIALHLE
Sbjct: 421 KARLWECFDANNYDELFACFEDVMKKDPTCRRSLARLMALHQKGEYATERLVEMIALHLE 480

Query: 521 ATYGDHTSWREFALCLPKLSHCEEDRMSMCGDVEQVKSGNLHTTRFCRTPASLVEGMSGK 580
           ATYGDHTSWREFALCLPKLSHCEEDRMSMCGDVEQVKSGNLHTTRFCRTPASLVEGMSGK
Sbjct: 481 ATYGDHTSWREFALCLPKLSHCEEDRMSMCGDVEQVKSGNLHTTRFCRTPASLVEGMSGK 540

Query: 581 AWKFRCKWWLNRHFSKQILASEMEEGDLQLMTYKAACASHFYGQEMEYVGKVYTYLKEQE 640
           AWKFRCKWWLNRHFSKQILASEMEEGDLQLMTYKAACASHFYGQEMEYVGKVYTYLKEQE
Sbjct: 541 AWKFRCKWWLNRHFSKQILASEMEEGDLQLMTYKAACASHFYGQEMEYVGKVYTYLKEQE 579

Query: 641 PKRPSLIRCCCHFCIRT 658
           PKRPSLIRCCCHFCIRT
Sbjct: 601 PKRPSLIRCCCHFCIRT 579

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BLAST of Spo08700.1 vs. NCBI nr
Match: gi|731329152|ref|XP_010675442.1| (PREDICTED: uncharacterized protein LOC104891444 [Beta vulgaris subsp. vulgaris])

HSP 1 Score: 893.3 bits (2307), Expect = 2.600e-256
Identity = 440/593 (74.20%), Postives = 498/593 (83.98%), Query Frame = 1


		  
Query: 50  VHTSDGVDISDANRDFDKKERPIHLAKSNQPLRGRRSFKRVAMLLTIPSYTLRVGSMNVY 109
           VHTSD   +SD N+D D K+R  H   SN PL+GRRS KRVAM LT PSYTLRVGSMNV 
Sbjct: 23  VHTSDQAHVSDDNKDTDTKQRASHDGTSNHPLKGRRSSKRVAMFLTKPSYTLRVGSMNVC 82

Query: 110 RENRMRLQYLLRKLVVQHNWVDASGVLSALLKGTCRETTPQNNRIKYWVAMELLRHMKCD 169
           R+NR+RL+ LLRKLVVQHNWVDASGVLS LLKGTCRE +P NNR+KYW AMELL+HMK D
Sbjct: 83  RDNRIRLRCLLRKLVVQHNWVDASGVLSTLLKGTCREKSPHNNRMKYWAAMELLQHMKID 142

Query: 170 PD--SSRIEHLYDTWKEKIKSAKKQPLKDRSVLLEYILLCLARNNHDFARVNLHSLQQEY 229
           P+  SSRI+HLYDTWKEKIKS +K PLKDRSV+LEYIL CLARN+HD+AR+NL SLQQE 
Sbjct: 143 PNAYSSRIQHLYDTWKEKIKSKRKWPLKDRSVMLEYILSCLARNSHDYARINLQSLQQED 202

Query: 230 ESARDQKSNLVIGLTNYELWYSELPNEMRLGNVEESCMPMESETMKTNSSEEIDNLKGEE 289
           E ARD+KS+L++GLTNYELWYS+LPNEMRLGN+EE+C+ +ES+ +K NSSE+  NLK E+
Sbjct: 203 EHARDEKSDLIMGLTNYELWYSDLPNEMRLGNLEETCLHLESDIVKNNSSEDTYNLKEED 262

Query: 290 AASVYETFSNLHYFSETSVVNDKDTCANANIKLDGEVSGIKPVENIKKSQSRDFYMKSEE 349
           AAS+YETFSNLHY SETSV+NDK T AN N +LD EV   KP+E  KK QS+DFYM S E
Sbjct: 263 AASIYETFSNLHYHSETSVMNDKYTDANVNQRLDVEVYRAKPIEQNKKFQSQDFYMNSAE 322

Query: 350 LSVEIDSSSQHGYDQFHCSSAYNVHSMQSLLPVRVPSSDNFMDILSSRRQLFGDHYKEAL 409
            S E D S Q  YDQFHCSS YN+HS+QSLLPVRVPSS+N MDI+S RR  FGDHYKEAL
Sbjct: 323 SSGETDGSMQDDYDQFHCSSPYNIHSLQSLLPVRVPSSENLMDIISFRRLFFGDHYKEAL 382

Query: 410 KFLKLTLQSPPPISEAALLPSVQLLLLGGHGKEALAIVEQSCNESSSVLSFRLKARLWEC 469
           KFLKL LQSP PISEAALLP +QLLLLGGH  EA+ ++EQ CNESSSVLS RLKARLWEC
Sbjct: 383 KFLKLALQSPRPISEAALLPLIQLLLLGGHANEAIVVLEQFCNESSSVLSLRLKARLWEC 442

Query: 470 FDANNYDELFACFEDVMKKDPTCRRSLARLMALHQKGEYATERLVEMIALHLEATYGDHT 529
           FD++  D +  CFEDVMKKDPTCR SLARL+ LH+KGEY++ERLVEMIALHLEATYGDHT
Sbjct: 443 FDSDKCDNISVCFEDVMKKDPTCRHSLARLLDLHKKGEYSSERLVEMIALHLEATYGDHT 502

Query: 530 SWREFALCLPKLSHCEEDRMSMCGDVEQVKSGNLHTTRFCRTPASLVEGMSGKAWKFRCK 589
           SWREFALCL  LS CEEDRMS+C D EQVKS  +HT RFC+TP S VEGMSGK WKFRCK
Sbjct: 503 SWREFALCLLNLSQCEEDRMSVCIDGEQVKSEQMHTVRFCKTPPSFVEGMSGKTWKFRCK 562

Query: 590 WWLNRHFSKQILASEMEEGDLQLMTYKAACASHFYGQEMEYVGKVYTYLKEQE 641
           WWLNRHFSK +LASEM EGDLQLM+YKAACASH YGQEMEYV +V +Y+ E E
Sbjct: 563 WWLNRHFSKHVLASEMAEGDLQLMSYKAACASHLYGQEMEYVVRVCSYVNEHE 615

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BLAST of Spo08700.1 vs. NCBI nr
Match: gi|870861823|gb|KMT13082.1| (hypothetical protein BVRB_4g086240 [Beta vulgaris subsp. vulgaris])

HSP 1 Score: 847.0 bits (2187), Expect = 2.100e-242
Identity = 415/551 (75.32%), Postives = 469/551 (85.12%), Query Frame = 1


		  
Query: 92  MLLTIPSYTLRVGSMNVYRENRMRLQYLLRKLVVQHNWVDASGVLSALLKGTCRETTPQN 151
           M LT PSYTLRVGSMNV R+NR+RL+ LLRKLVVQHNWVDASGVLS LLKGTCRE +P N
Sbjct: 1   MFLTKPSYTLRVGSMNVCRDNRIRLRCLLRKLVVQHNWVDASGVLSTLLKGTCREKSPHN 60

Query: 152 NRIKYWVAMELLRHMKCDPD--SSRIEHLYDTWKEKIKSAKKQPLKDRSVLLEYILLCLA 211
           NR+KYW AMELL+HMK DP+  SSRI+HLYDTWKEKIKS +K PLKDRSV+LEYIL CLA
Sbjct: 61  NRMKYWAAMELLQHMKIDPNAYSSRIQHLYDTWKEKIKSKRKWPLKDRSVMLEYILSCLA 120

Query: 212 RNNHDFARVNLHSLQQEYESARDQKSNLVIGLTNYELWYSELPNEMRLGNVEESCMPMES 271
           RN+HD+AR+NL SLQQE E ARD+KS+L++GLTNYELWYS+LPNEMRLGN+EE+C+ +ES
Sbjct: 121 RNSHDYARINLQSLQQEDEHARDEKSDLIMGLTNYELWYSDLPNEMRLGNLEETCLHLES 180

Query: 272 ETMKTNSSEEIDNLKGEEAASVYETFSNLHYFSETSVVNDKDTCANANIKLDGEVSGIKP 331
           + +K NSSE+  NLK E+AAS+YETFSNLHY SETSV+NDK T AN N +LD EV   KP
Sbjct: 181 DIVKNNSSEDTYNLKEEDAASIYETFSNLHYHSETSVMNDKYTDANVNQRLDVEVYRAKP 240

Query: 332 VENIKKSQSRDFYMKSEELSVEIDSSSQHGYDQFHCSSAYNVHSMQSLLPVRVPSSDNFM 391
           +E  KK QS+DFYM S E S E D S Q  YDQFHCSS YN+HS+QSLLPVRVPSS+N M
Sbjct: 241 IEQNKKFQSQDFYMNSAESSGETDGSMQDDYDQFHCSSPYNIHSLQSLLPVRVPSSENLM 300

Query: 392 DILSSRRQLFGDHYKEALKFLKLTLQSPPPISEAALLPSVQLLLLGGHGKEALAIVEQSC 451
           DI+S RR  FGDHYKEALKFLKL LQSP PISEAALLP +QLLLLGGH  EA+ ++EQ C
Sbjct: 301 DIISFRRLFFGDHYKEALKFLKLALQSPRPISEAALLPLIQLLLLGGHANEAIVVLEQFC 360

Query: 452 NESSSVLSFRLKARLWECFDANNYDELFACFEDVMKKDPTCRRSLARLMALHQKGEYATE 511
           NESSSVLS RLKARLWECFD++  D +  CFEDVMKKDPTCR SLARL+ LH+KGEY++E
Sbjct: 361 NESSSVLSLRLKARLWECFDSDKCDNISVCFEDVMKKDPTCRHSLARLLDLHKKGEYSSE 420

Query: 512 RLVEMIALHLEATYGDHTSWREFALCLPKLSHCEEDRMSMCGDVEQVKSGNLHTTRFCRT 571
           RLVEMIALHLEATYGDHTSWREFALCL  LS CEEDRMS+C D EQVKS  +HT RFC+T
Sbjct: 421 RLVEMIALHLEATYGDHTSWREFALCLLNLSQCEEDRMSVCIDGEQVKSEQMHTVRFCKT 480

Query: 572 PASLVEGMSGKAWKFRCKWWLNRHFSKQILASEMEEGDLQLMTYKAACASHFYGQEMEYV 631
           P S VEGMSGK WKFRCKWWLNRHFSK +LASEM EGDLQLM+YKAACASH YGQEMEYV
Sbjct: 481 PPSFVEGMSGKTWKFRCKWWLNRHFSKHVLASEMAEGDLQLMSYKAACASHLYGQEMEYV 540

Query: 632 GKVYTYLKEQE 641
            +V +Y+ E E
Sbjct: 541 VRVCSYVNEHE 551

[Close]

BLAST of Spo08700.1 vs. NCBI nr
Match: gi|902152924|gb|KNA05646.1| (hypothetical protein SOVF_188420 [Spinacia oleracea])

HSP 1 Score: 547.0 bits (1408), Expect = 4.600e-152
Identity = 270/282 (95.74%), Postives = 279/282 (98.94%), Query Frame = 1


		  
Query: 92  MLLTIPSYTLRVGSMNVYRENRMRLQYLLRKLVVQHNWVDASGVLSALLKGTCRETTPQN 151
           MLLTIPSYTLRVGSMNVYRENRMRLQYLLRKLV QHNWVDASGVLSALLKGTCRE TPQN
Sbjct: 1   MLLTIPSYTLRVGSMNVYRENRMRLQYLLRKLVAQHNWVDASGVLSALLKGTCREKTPQN 60

Query: 152 NRIKYWVAMELLRHMKCDPDSSRIEHLYDTWKEKIKSAKKQPLKDRSVLLEYILLCLARN 211
           NR+KYWVAMELL+HMKCDPDSSRIEHLYDTWKEKIKSAKK+PLKDRSVLLEYILLCLARN
Sbjct: 61  NRMKYWVAMELLQHMKCDPDSSRIEHLYDTWKEKIKSAKKRPLKDRSVLLEYILLCLARN 120

Query: 212 NHDFARVNLHSLQQEYESARDQKSNLVIGLTNYELWYSELPNEMRLGNVEESCMPMESET 271
           NHDFARVNLHSLQQEYESARDQKSNLV+GLTNYELWYSELPNEMRLGNVEESCMPMESET
Sbjct: 121 NHDFARVNLHSLQQEYESARDQKSNLVMGLTNYELWYSELPNEMRLGNVEESCMPMESET 180

Query: 272 MKTNSSEEIDNLKGEEAASVYETFSNLHYFSETSVVNDKDTCANANIKLDGEVSGIKPVE 331
           MKTNSS+EIDNLKGEEAASVYETFSNLHY+SETSVVNDKDTCANANI+LDGEVSGIKPV+
Sbjct: 181 MKTNSSKEIDNLKGEEAASVYETFSNLHYYSETSVVNDKDTCANANIRLDGEVSGIKPVK 240

Query: 332 NIKKSQSRDFYMKSEELSVEIDSSSQHGYDQFHCSSAYNVHS 374
           NIKKSQS+DFYMKSEELSVEID SSQHGYDQFHCSSAYNVHS
Sbjct: 241 NIKKSQSQDFYMKSEELSVEIDGSSQHGYDQFHCSSAYNVHS 282

[Close]

BLAST of Spo08700.1 vs. NCBI nr
Match: gi|902211775|gb|KNA16809.1| (hypothetical protein SOVF_085840 isoform A, partial [Spinacia oleracea])

HSP 1 Score: 527.3 bits (1357), Expect = 3.800e-146
Identity = 255/267 (95.51%), Postives = 259/267 (97.00%), Query Frame = 1


		  
Query: 374 MQSLLPVRVPSSDNFMDILSSRRQLFGDHYKEALKFLKLTLQSPPPISEAALLPSVQLLL 433
           MQSLLPVRVPSSDNFMDILSSRRQLFGDHYKEALKFLKL LQSPPPISEAALLPSVQLLL
Sbjct: 1   MQSLLPVRVPSSDNFMDILSSRRQLFGDHYKEALKFLKLALQSPPPISEAALLPSVQLLL 60

Query: 434 LGGHGKEALAIVEQSCNESSSVLSFRLKARLWECFDANNYDELFACFEDVMKKDPTCRRS 493
           LGGHGKEALAIVEQSCNESSS+LSFRLKARLWECFDANNYDEL ACFEDVMKKDPTCR S
Sbjct: 61  LGGHGKEALAIVEQSCNESSSILSFRLKARLWECFDANNYDELSACFEDVMKKDPTCRHS 120

Query: 494 LARLMALHQKGEYATERLVEMIALHLEATYGDHTSWREFALCLPKLSHCEEDRMSMCGDV 553
           LARLM LHQKGEYATERLVEMIALHL+ATYGDHTSWREFALCLPKLSHCEEDRMSMC D 
Sbjct: 121 LARLMDLHQKGEYATERLVEMIALHLDATYGDHTSWREFALCLPKLSHCEEDRMSMCVDG 180

Query: 554 EQVKSGNLHTTRFCRTPASLVEGMSGKAWKFRCKWWLNRHFSKQILASEMEEGDLQLMTY 613
           EQVKSGNLHTTRFCRTPASLVEGMSGKAWKFRCKWWLNRHFSK ILASEMEEGDLQLMTY
Sbjct: 181 EQVKSGNLHTTRFCRTPASLVEGMSGKAWKFRCKWWLNRHFSKHILASEMEEGDLQLMTY 240

Query: 614 KAACASHFYGQEMEYVGKVYTYLKEQE 641
           KAACASHFYGQEM+YV KV+TYLKEQE
Sbjct: 241 KAACASHFYGQEMQYVRKVHTYLKEQE 267

[Close]

BLAST of Spo08700.1 vs. UniProtKB/TrEMBL
Match: A0A0K9RSE3_SPIOL (Uncharacterized protein OS=Spinacia oleracea GN=SOVF_039690 PE=4 SV=1)

HSP 1 Score: 1135.2 bits (2935), Expect = 0.000e+0
Identity = 572/617 (92.71%), Postives = 577/617 (93.52%), Query Frame = 1


		  
Query: 41  MMEAIEGDYVHTSDGVDISDANRDFDKKERPIHLAKSNQPLRGRRSFKRVAMLLTIPSYT 100
           MMEAIEGDYVHTSDGVDISDANRDFDKKERPIHLAKSNQPLRGRRSFKRVAMLLTIPSYT
Sbjct: 1   MMEAIEGDYVHTSDGVDISDANRDFDKKERPIHLAKSNQPLRGRRSFKRVAMLLTIPSYT 60

Query: 101 LRVGSMNVYRENRMRLQYLLRKLVVQHNWVDASGVLSALLKGTCRETTPQNNRIKYWVAM 160
           LRVGSMNVYRENRMRLQYLLRKLVVQHNWVDASGVLSALLKGTCRET             
Sbjct: 61  LRVGSMNVYRENRMRLQYLLRKLVVQHNWVDASGVLSALLKGTCRET------------- 120

Query: 161 ELLRHMKCDPDSSRIEHLYDTWKEKIKSAKKQPLKDRSVLLEYILLCLARNNHDFARVNL 220
                    P ++RI++    W             DRSVLLEYILLCLARNNHDFARVNL
Sbjct: 121 --------TPQNNRIKY----W-------------DRSVLLEYILLCLARNNHDFARVNL 180

Query: 221 HSLQQEYESARDQKSNLVIGLTNYELWYSELPNEMRLGNVEESCMPMESETMKTNSSEEI 280
           HSLQQEYESARDQKSNLV+GLTNYELWYSELPNEMRLGNVEESCMPMESETMKTNSSEEI
Sbjct: 181 HSLQQEYESARDQKSNLVMGLTNYELWYSELPNEMRLGNVEESCMPMESETMKTNSSEEI 240

Query: 281 DNLKGEEAASVYETFSNLHYFSETSVVNDKDTCANANIKLDGEVSGIKPVENIKKSQSRD 340
           DNLKGEEAASVYETFSNLHYFSETSVVNDKDTCANANIKLDGEVSGIKPVENIKKSQSRD
Sbjct: 241 DNLKGEEAASVYETFSNLHYFSETSVVNDKDTCANANIKLDGEVSGIKPVENIKKSQSRD 300

Query: 341 FYMKSEELSVEIDSSSQHGYDQFHCSSAYNVHSMQSLLPVRVPSSDNFMDILSSRRQLFG 400
           FYMKSEELSVEIDSSSQHGYDQFHCSSAYNVHSMQSLLPVRVPSSDNFMDILSSRRQLFG
Sbjct: 301 FYMKSEELSVEIDSSSQHGYDQFHCSSAYNVHSMQSLLPVRVPSSDNFMDILSSRRQLFG 360

Query: 401 DHYKEALKFLKLTLQSPPPISEAALLPSVQLLLLGGHGKEALAIVEQSCNESSSVLSFRL 460
           DHYKEALKFLKLTLQSPPPISEAALLPSVQLLLLGGHGKEALAIVEQSCNESSSVLSFRL
Sbjct: 361 DHYKEALKFLKLTLQSPPPISEAALLPSVQLLLLGGHGKEALAIVEQSCNESSSVLSFRL 420

Query: 461 KARLWECFDANNYDELFACFEDVMKKDPTCRRSLARLMALHQKGEYATERLVEMIALHLE 520
           KARLWECFDANNYDELFACFEDVMKKDPTCRRSLARLMALHQKGEYATERLVEMIALHLE
Sbjct: 421 KARLWECFDANNYDELFACFEDVMKKDPTCRRSLARLMALHQKGEYATERLVEMIALHLE 480

Query: 521 ATYGDHTSWREFALCLPKLSHCEEDRMSMCGDVEQVKSGNLHTTRFCRTPASLVEGMSGK 580
           ATYGDHTSWREFALCLPKLSHCEEDRMSMCGDVEQVKSGNLHTTRFCRTPASLVEGMSGK
Sbjct: 481 ATYGDHTSWREFALCLPKLSHCEEDRMSMCGDVEQVKSGNLHTTRFCRTPASLVEGMSGK 540

Query: 581 AWKFRCKWWLNRHFSKQILASEMEEGDLQLMTYKAACASHFYGQEMEYVGKVYTYLKEQE 640
           AWKFRCKWWLNRHFSKQILASEMEEGDLQLMTYKAACASHFYGQEMEYVGKVYTYLKEQE
Sbjct: 541 AWKFRCKWWLNRHFSKQILASEMEEGDLQLMTYKAACASHFYGQEMEYVGKVYTYLKEQE 579

Query: 641 PKRPSLIRCCCHFCIRT 658
           PKRPSLIRCCCHFCIRT
Sbjct: 601 PKRPSLIRCCCHFCIRT 579

[Close]

BLAST of Spo08700.1 vs. UniProtKB/TrEMBL
Match: A0A0J8CHQ8_BETVU (Uncharacterized protein OS=Beta vulgaris subsp. vulgaris GN=BVRB_4g086240 PE=4 SV=1)

HSP 1 Score: 847.0 bits (2187), Expect = 1.500e-242
Identity = 415/551 (75.32%), Postives = 469/551 (85.12%), Query Frame = 1


		  
Query: 92  MLLTIPSYTLRVGSMNVYRENRMRLQYLLRKLVVQHNWVDASGVLSALLKGTCRETTPQN 151
           M LT PSYTLRVGSMNV R+NR+RL+ LLRKLVVQHNWVDASGVLS LLKGTCRE +P N
Sbjct: 1   MFLTKPSYTLRVGSMNVCRDNRIRLRCLLRKLVVQHNWVDASGVLSTLLKGTCREKSPHN 60

Query: 152 NRIKYWVAMELLRHMKCDPD--SSRIEHLYDTWKEKIKSAKKQPLKDRSVLLEYILLCLA 211
           NR+KYW AMELL+HMK DP+  SSRI+HLYDTWKEKIKS +K PLKDRSV+LEYIL CLA
Sbjct: 61  NRMKYWAAMELLQHMKIDPNAYSSRIQHLYDTWKEKIKSKRKWPLKDRSVMLEYILSCLA 120

Query: 212 RNNHDFARVNLHSLQQEYESARDQKSNLVIGLTNYELWYSELPNEMRLGNVEESCMPMES 271
           RN+HD+AR+NL SLQQE E ARD+KS+L++GLTNYELWYS+LPNEMRLGN+EE+C+ +ES
Sbjct: 121 RNSHDYARINLQSLQQEDEHARDEKSDLIMGLTNYELWYSDLPNEMRLGNLEETCLHLES 180

Query: 272 ETMKTNSSEEIDNLKGEEAASVYETFSNLHYFSETSVVNDKDTCANANIKLDGEVSGIKP 331
           + +K NSSE+  NLK E+AAS+YETFSNLHY SETSV+NDK T AN N +LD EV   KP
Sbjct: 181 DIVKNNSSEDTYNLKEEDAASIYETFSNLHYHSETSVMNDKYTDANVNQRLDVEVYRAKP 240

Query: 332 VENIKKSQSRDFYMKSEELSVEIDSSSQHGYDQFHCSSAYNVHSMQSLLPVRVPSSDNFM 391
           +E  KK QS+DFYM S E S E D S Q  YDQFHCSS YN+HS+QSLLPVRVPSS+N M
Sbjct: 241 IEQNKKFQSQDFYMNSAESSGETDGSMQDDYDQFHCSSPYNIHSLQSLLPVRVPSSENLM 300

Query: 392 DILSSRRQLFGDHYKEALKFLKLTLQSPPPISEAALLPSVQLLLLGGHGKEALAIVEQSC 451
           DI+S RR  FGDHYKEALKFLKL LQSP PISEAALLP +QLLLLGGH  EA+ ++EQ C
Sbjct: 301 DIISFRRLFFGDHYKEALKFLKLALQSPRPISEAALLPLIQLLLLGGHANEAIVVLEQFC 360

Query: 452 NESSSVLSFRLKARLWECFDANNYDELFACFEDVMKKDPTCRRSLARLMALHQKGEYATE 511
           NESSSVLS RLKARLWECFD++  D +  CFEDVMKKDPTCR SLARL+ LH+KGEY++E
Sbjct: 361 NESSSVLSLRLKARLWECFDSDKCDNISVCFEDVMKKDPTCRHSLARLLDLHKKGEYSSE 420

Query: 512 RLVEMIALHLEATYGDHTSWREFALCLPKLSHCEEDRMSMCGDVEQVKSGNLHTTRFCRT 571
           RLVEMIALHLEATYGDHTSWREFALCL  LS CEEDRMS+C D EQVKS  +HT RFC+T
Sbjct: 421 RLVEMIALHLEATYGDHTSWREFALCLLNLSQCEEDRMSVCIDGEQVKSEQMHTVRFCKT 480

Query: 572 PASLVEGMSGKAWKFRCKWWLNRHFSKQILASEMEEGDLQLMTYKAACASHFYGQEMEYV 631
           P S VEGMSGK WKFRCKWWLNRHFSK +LASEM EGDLQLM+YKAACASH YGQEMEYV
Sbjct: 481 PPSFVEGMSGKTWKFRCKWWLNRHFSKHVLASEMAEGDLQLMSYKAACASHLYGQEMEYV 540

Query: 632 GKVYTYLKEQE 641
            +V +Y+ E E
Sbjct: 541 VRVCSYVNEHE 551

[Close]

BLAST of Spo08700.1 vs. UniProtKB/TrEMBL
Match: A0A0K9QGG7_SPIOL (Uncharacterized protein OS=Spinacia oleracea GN=SOVF_188420 PE=4 SV=1)

HSP 1 Score: 547.0 bits (1408), Expect = 3.200e-152
Identity = 270/282 (95.74%), Postives = 279/282 (98.94%), Query Frame = 1


		  
Query: 92  MLLTIPSYTLRVGSMNVYRENRMRLQYLLRKLVVQHNWVDASGVLSALLKGTCRETTPQN 151
           MLLTIPSYTLRVGSMNVYRENRMRLQYLLRKLV QHNWVDASGVLSALLKGTCRE TPQN
Sbjct: 1   MLLTIPSYTLRVGSMNVYRENRMRLQYLLRKLVAQHNWVDASGVLSALLKGTCREKTPQN 60

Query: 152 NRIKYWVAMELLRHMKCDPDSSRIEHLYDTWKEKIKSAKKQPLKDRSVLLEYILLCLARN 211
           NR+KYWVAMELL+HMKCDPDSSRIEHLYDTWKEKIKSAKK+PLKDRSVLLEYILLCLARN
Sbjct: 61  NRMKYWVAMELLQHMKCDPDSSRIEHLYDTWKEKIKSAKKRPLKDRSVLLEYILLCLARN 120

Query: 212 NHDFARVNLHSLQQEYESARDQKSNLVIGLTNYELWYSELPNEMRLGNVEESCMPMESET 271
           NHDFARVNLHSLQQEYESARDQKSNLV+GLTNYELWYSELPNEMRLGNVEESCMPMESET
Sbjct: 121 NHDFARVNLHSLQQEYESARDQKSNLVMGLTNYELWYSELPNEMRLGNVEESCMPMESET 180

Query: 272 MKTNSSEEIDNLKGEEAASVYETFSNLHYFSETSVVNDKDTCANANIKLDGEVSGIKPVE 331
           MKTNSS+EIDNLKGEEAASVYETFSNLHY+SETSVVNDKDTCANANI+LDGEVSGIKPV+
Sbjct: 181 MKTNSSKEIDNLKGEEAASVYETFSNLHYYSETSVVNDKDTCANANIRLDGEVSGIKPVK 240

Query: 332 NIKKSQSRDFYMKSEELSVEIDSSSQHGYDQFHCSSAYNVHS 374
           NIKKSQS+DFYMKSEELSVEID SSQHGYDQFHCSSAYNVHS
Sbjct: 241 NIKKSQSQDFYMKSEELSVEIDGSSQHGYDQFHCSSAYNVHS 282

[Close]

BLAST of Spo08700.1 vs. UniProtKB/TrEMBL
Match: A0A0K9RCT7_SPIOL (Uncharacterized protein (Fragment) OS=Spinacia oleracea GN=SOVF_085840 PE=4 SV=1)

HSP 1 Score: 527.3 bits (1357), Expect = 2.600e-146
Identity = 255/267 (95.51%), Postives = 259/267 (97.00%), Query Frame = 1


		  
Query: 374 MQSLLPVRVPSSDNFMDILSSRRQLFGDHYKEALKFLKLTLQSPPPISEAALLPSVQLLL 433
           MQSLLPVRVPSSDNFMDILSSRRQLFGDHYKEALKFLKL LQSPPPISEAALLPSVQLLL
Sbjct: 1   MQSLLPVRVPSSDNFMDILSSRRQLFGDHYKEALKFLKLALQSPPPISEAALLPSVQLLL 60

Query: 434 LGGHGKEALAIVEQSCNESSSVLSFRLKARLWECFDANNYDELFACFEDVMKKDPTCRRS 493
           LGGHGKEALAIVEQSCNESSS+LSFRLKARLWECFDANNYDEL ACFEDVMKKDPTCR S
Sbjct: 61  LGGHGKEALAIVEQSCNESSSILSFRLKARLWECFDANNYDELSACFEDVMKKDPTCRHS 120

Query: 494 LARLMALHQKGEYATERLVEMIALHLEATYGDHTSWREFALCLPKLSHCEEDRMSMCGDV 553
           LARLM LHQKGEYATERLVEMIALHL+ATYGDHTSWREFALCLPKLSHCEEDRMSMC D 
Sbjct: 121 LARLMDLHQKGEYATERLVEMIALHLDATYGDHTSWREFALCLPKLSHCEEDRMSMCVDG 180

Query: 554 EQVKSGNLHTTRFCRTPASLVEGMSGKAWKFRCKWWLNRHFSKQILASEMEEGDLQLMTY 613
           EQVKSGNLHTTRFCRTPASLVEGMSGKAWKFRCKWWLNRHFSK ILASEMEEGDLQLMTY
Sbjct: 181 EQVKSGNLHTTRFCRTPASLVEGMSGKAWKFRCKWWLNRHFSKHILASEMEEGDLQLMTY 240

Query: 614 KAACASHFYGQEMEYVGKVYTYLKEQE 641
           KAACASHFYGQEM+YV KV+TYLKEQE
Sbjct: 241 KAACASHFYGQEMQYVRKVHTYLKEQE 267

[Close]

BLAST of Spo08700.1 vs. UniProtKB/TrEMBL
Match: A0A0K9RBE6_SPIOL (Uncharacterized protein (Fragment) OS=Spinacia oleracea GN=SOVF_085840 PE=4 SV=1)

HSP 1 Score: 463.8 bits (1192), Expect = 3.600e-127
Identity = 224/234 (95.73%), Postives = 226/234 (96.58%), Query Frame = 1


		  
Query: 374 MQSLLPVRVPSSDNFMDILSSRRQLFGDHYKEALKFLKLTLQSPPPISEAALLPSVQLLL 433
           MQSLLPVRVPSSDNFMDILSSRRQLFGDHYKEALKFLKL LQSPPPISEAALLPSVQLLL
Sbjct: 1   MQSLLPVRVPSSDNFMDILSSRRQLFGDHYKEALKFLKLALQSPPPISEAALLPSVQLLL 60

Query: 434 LGGHGKEALAIVEQSCNESSSVLSFRLKARLWECFDANNYDELFACFEDVMKKDPTCRRS 493
           LGGHGKEALAIVEQSCNESSS+LSFRLKARLWECFDANNYDEL ACFEDVMKKDPTCR S
Sbjct: 61  LGGHGKEALAIVEQSCNESSSILSFRLKARLWECFDANNYDELSACFEDVMKKDPTCRHS 120

Query: 494 LARLMALHQKGEYATERLVEMIALHLEATYGDHTSWREFALCLPKLSHCEEDRMSMCGDV 553
           LARLM LHQKGEYATERLVEMIALHL+ATYGDHTSWREFALCLPKLSHCEEDRMSMC D 
Sbjct: 121 LARLMDLHQKGEYATERLVEMIALHLDATYGDHTSWREFALCLPKLSHCEEDRMSMCVDG 180

Query: 554 EQVKSGNLHTTRFCRTPASLVEGMSGKAWKFRCKWWLNRHFSKQILASEMEEGD 608
           EQVKSGNLHTTRFCRTPASLVEGMSGKAWKFRCKWWLNRHFSK ILASEMEE D
Sbjct: 181 EQVKSGNLHTTRFCRTPASLVEGMSGKAWKFRCKWWLNRHFSKHILASEMEEAD 234

[Close]

BLAST of Spo08700.1 vs. TAIR (Arabidopsis)
Match: AT1G53200.1 (unknown protein)

HSP 1 Score: 276.6 bits (706), Expect = 4.100e-74
Identity = 187/572 (32.69%), Postives = 310/572 (54.20%), Query Frame = 1


		  
Query: 85  RSFKRVAMLLTIPSYTLRVGSMNVYRENRMRLQYLLRKLVVQHNWVDASGVLSALLKGTC 144
           + +KR+      PSY L +G  +   E   RL  LLR+L+   +W DAS VLS L+KGT 
Sbjct: 45  QKYKRIQRCRAKPSYLLCIGPKSSRSEYLNRLPGLLRELLRNRHWNDASRVLSVLMKGTI 104

Query: 145 RETTPQNNRIKYWVAMELLRHMKCDPDSS-RIEHLYDTWKEKIKSAKKQPLKDRSVLLEY 204
            +  P+ NR+KY   ++++ H + + + +  I  +YDTW  +I    K+      +L+ Y
Sbjct: 105 NDPCPKMNRLKYEAHIQIVSHSETNKNKADEIGRIYDTWIGQIGKQHKE----ERLLVWY 164

Query: 205 ILLC--LARNNHDFARVNLHSLQQEYESARDQKSNLVIGLTNYELWYSELPNEMRLGNVE 264
             +C  +    ++ A   + SL Q  + A   ++NL IG++ Y++W ++   E++  + +
Sbjct: 165 EQICHFIEHEMNNEAYSTVISLMQNRDFAMLPRANLFIGISFYKMWCNKFLKELQPEDAD 224

Query: 265 ESCMPMESETMKTNSSEEIDNLKGEEAASVYETFSNLHYFSETSVVNDKD----TCANAN 324
           ++     S   ++ S   ++    +E+     +  +    SETSV+ +K     + +++ 
Sbjct: 225 DN--GSVSNISESGSGSLVECSGRDESVCSLASEVSARKDSETSVMKNKKVSHLSISDSE 284

Query: 325 IKLDGEVSGIKPVENIKKSQSRDFYMKSEELSVEIDSSSQHGYDQFHCSSAYNVHSMQS- 384
            ++D +V   K +     +     Y  SEE     ++S   G  +F  +    +  M   
Sbjct: 285 TRMDTKV---KVMSTPYVTPPPQLYAISEEN----EASLGDGIVEFDPTVINILGDMDPW 344

Query: 385 LLPVRVPSSDNFMDILSSRRQLFGDHYKEALKFLKLTLQSPPPISEAALLPSVQLLLLGG 444
           LLP + P   +       R+ +   +YKEA+K+++ TLQSPP +S AAL P VQ+LL+GG
Sbjct: 345 LLPFKPPEDPDCY-----RKIVNDSYYKEAVKYMRQTLQSPPHVSLAALHPLVQILLIGG 404

Query: 445 HGKEALAIVEQSCNESSSVLSFRLKARLWECFDANNYDELFACFEDVMKKDPTCRRSLAR 504
           H  EA+ +VE+ CN+   V  FR+KA + E F  N+ D L  C+ED++K DP C  +L +
Sbjct: 405 HVDEAMKVVEEMCNKIHDVKPFRIKALMMEKFHRNS-DMLAKCYEDILKIDPCCITTLKK 464

Query: 505 LMALHQKGEYATERLVEMIALHLEATYGDHTSWREFALCLPK-LSHCEEDRMSMCGD-VE 564
           L+ +  + EY+ E L EMIALH+EA++ +   W+E A C      + +EDR+S+C D  E
Sbjct: 465 LIGMCLEDEYSRESLTEMIALHVEASFPEPEIWKELASCFSNFFENLDEDRLSVCLDGSE 524

Query: 565 QVKSGNLHTTRFCRTPASLVEGMSGKAWKFRCKWWLNRHFSKQILASEMEE----GDLQL 624
             ++   ++ R+  TP +  +     +W  R KWWLNRHFS Q+L +E++     GD ++
Sbjct: 525 DKRNPQTYSVRYNPTPKTFTK----TSWTLRAKWWLNRHFSPQMLETEIKNVTLTGDWEM 584

Query: 625 MTYKAACASHFYGQEMEYVGKVYTYLKEQEPK 643
           MTYKAACAS+ YG+E  YV KVY  LK    +
Sbjct: 585 MTYKAACASYIYGREFGYVTKVYELLKSSNKR 593

The following BLAST results are available for this feature:

BLAST of Spo08700.1 vs. NCBI nr
BLAST of Spo08700.1 vs. UniProtKB/TrEMBL
BLAST of Spo08700.1 vs. ExPASy Swiss-Prot
BLAST of Spo08700.1 vs. TAIR (Arabidopsis)

BLAST of Spo08700.1 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\|902230361\|gb\|KNA21834.1\|	0.0e+0	92.7	hypothetical protein SOVF_0396...	[more]
gi\|731329152\|ref\|XP_010675442.1\|	2.6e-256	74.2	PREDICTED: uncharacterized pro...	[more]
gi\|870861823\|gb\|KMT13082.1\|	2.1e-242	75.3	hypothetical protein BVRB_4g08...	[more]
gi\|902152924\|gb\|KNA05646.1\|	4.6e-152	95.7	hypothetical protein SOVF_1884...	[more]
gi\|902211775\|gb\|KNA16809.1\|	3.8e-146	95.5	hypothetical protein SOVF_0858...	[more]

BLAST of Spo08700.1 vs. UniProtKB/TrEMBL
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. UniprotKB/TrEMBL)
Total hits: 5


Match Name	E-value	Identity	Description
A0A0K9RSE3_SPIOL	0.0e+0	92.7	Uncharacterized protein OS=Spi...	[more]
A0A0J8CHQ8_BETVU	1.5e-242	75.3	Uncharacterized protein OS=Bet...	[more]
A0A0K9QGG7_SPIOL	3.2e-152	95.7	Uncharacterized protein OS=Spi...	[more]
A0A0K9RCT7_SPIOL	2.6e-146	95.5	Uncharacterized protein (Fragm...	[more]
A0A0K9RBE6_SPIOL	3.6e-127	95.7	Uncharacterized protein (Fragm...	[more]

BLAST of Spo08700.1 vs. ExPASy Swiss-Prot
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. ExPASy SwissProt)
Total hits: 0


Match Name	E-value	Identity	Description

BLAST of Spo08700.1 vs. TAIR (Arabidopsis)
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. TAIR)
Total hits: 1


Match Name	E-value	Identity	Description
AT1G53200.1	4.1e-74	32.6	unknown protein	[more]

InterPro

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


IPR Term	IPR Description	Source	Source Term	Source Description	Alignment
None	No IPR available	unknown	Coil	Coil	coord: 213..233 scor
None	No IPR available	PANTHER	PTHR36720	FAMILY NOT NAMED	coord: 24..640 score: 1.1E
None	No IPR available	PANTHER	PTHR36720:SF1	SUBFAMILY NOT NAMED	coord: 24..640 score: 1.1E
None	No IPR available	PFAM	PF14929	TAF1_subA	coord: 122..633 score: 4.5

GO Annotation

GO Assignments

This gene is annotated with the following GO terms.

Category	Term Accession	Term Name
biological_process	GO:0007267	cell-cell signaling
biological_process	GO:0006412	translation
biological_process	GO:0048364	root development
biological_process	GO:0009628	response to abiotic stimulus
biological_process	GO:0040029	regulation of gene expression, epigenetic
biological_process	GO:0050794	regulation of cellular process
biological_process	GO:0044238	primary metabolic process
biological_process	GO:0048366	leaf development
biological_process	GO:0016458	gene silencing
biological_process	GO:0009908	flower development
biological_process	GO:0044260	cellular macromolecule metabolic process
biological_process	GO:0006400	tRNA modification
biological_process	GO:0008618	7-methylguanosine metabolic process
biological_process	GO:0009657	plastid organization
biological_process	GO:0006396	RNA processing
biological_process	GO:0010207	photosystem II assembly
biological_process	GO:0000911	cytokinesis by cell plate formation
biological_process	GO:0019288	isopentenyl diphosphate biosynthetic process, methylerythritol 4-phosphate pathway
biological_process	GO:0006354	DNA-templated transcription, elongation
biological_process	GO:0009069	serine family amino acid metabolic process
biological_process	GO:0006468	protein phosphorylation
biological_process	GO:0006487	protein N-linked glycosylation
biological_process	GO:0006364	rRNA processing
biological_process	GO:0009220	pyrimidine ribonucleotide biosynthetic process
biological_process	GO:0002100	tRNA wobble adenosine to inosine editing
biological_process	GO:0000741	karyogamy
biological_process	GO:0010051	xylem and phloem pattern formation
biological_process	GO:0051083	'de novo' cotranslational protein folding
biological_process	GO:0006626	protein targeting to mitochondrion
biological_process	GO:0009098	leucine biosynthetic process
biological_process	GO:0007205	protein kinase C-activating G-protein coupled receptor signaling pathway
biological_process	GO:0016310	phosphorylation
biological_process	GO:0009395	phospholipid catabolic process
biological_process	GO:0046497	nicotinate nucleotide metabolic process
biological_process	GO:0006769	nicotinamide metabolic process
biological_process	GO:0046486	glycerolipid metabolic process
biological_process	GO:0030163	protein catabolic process
biological_process	GO:0009099	valine biosynthetic process
biological_process	GO:0009651	response to salt stress
biological_process	GO:0006450	regulation of translational fidelity
biological_process	GO:0010498	proteasomal protein catabolic process
biological_process	GO:0006428	isoleucyl-tRNA aminoacylation
biological_process	GO:0043488	regulation of mRNA stability
biological_process	GO:0009097	isoleucine biosynthetic process
biological_process	GO:0006096	glycolytic process
biological_process	GO:0006094	gluconeogenesis
biological_process	GO:0007010	cytoskeleton organization
biological_process	GO:0000478	endonucleolytic cleavage involved in rRNA processing
biological_process	GO:0006432	phenylalanyl-tRNA aminoacylation
biological_process	GO:0006437	tyrosyl-tRNA aminoacylation
biological_process	GO:0006571	tyrosine biosynthetic process
biological_process	GO:0000162	tryptophan biosynthetic process
biological_process	GO:0009094	L-phenylalanine biosynthetic process
biological_process	GO:0006449	regulation of translational termination
biological_process	GO:0001510	RNA methylation
biological_process	GO:0006098	pentose-phosphate shunt
biological_process	GO:0051604	protein maturation
biological_process	GO:0045132	meiotic chromosome segregation
biological_process	GO:0006606	protein import into nucleus
biological_process	GO:0000398	mRNA splicing, via spliceosome
biological_process	GO:0009909	regulation of flower development
biological_process	GO:0007346	regulation of mitotic cell cycle
biological_process	GO:0050826	response to freezing
biological_process	GO:0007062	sister chromatid cohesion
biological_process	GO:0009630	gravitropism
biological_process	GO:0035196	production of miRNAs involved in gene silencing by miRNA
biological_process	GO:0031048	chromatin silencing by small RNA
biological_process	GO:0010162	seed dormancy process
biological_process	GO:0009845	seed germination
biological_process	GO:0010182	sugar mediated signaling pathway
biological_process	GO:0016233	telomere capping
biological_process	GO:0010228	vegetative to reproductive phase transition of meristem
biological_process	GO:0010048	vernalization response
biological_process	GO:0010267	production of ta-siRNAs involved in RNA interference
biological_process	GO:0016567	protein ubiquitination
biological_process	GO:0009640	photomorphogenesis
biological_process	GO:0033036	macromolecule localization
biological_process	GO:0006302	double-strand break repair
biological_process	GO:0009793	embryo development ending in seed dormancy
biological_process	GO:0008152	metabolic process
biological_process	GO:0009560	embryo sac egg cell differentiation
biological_process	GO:0019915	lipid storage
biological_process	GO:0009058	biosynthetic process
biological_process	GO:0051321	meiotic cell cycle
biological_process	GO:0009933	meristem structural organization
biological_process	GO:0009616	virus induced gene silencing
biological_process	GO:0000226	microtubule cytoskeleton organization
biological_process	GO:0006351	transcription, DNA-templated
biological_process	GO:0006312	mitotic recombination
biological_process	GO:0090305	nucleic acid phosphodiester bond hydrolysis
biological_process	GO:0071702	organic substance transport
biological_process	GO:0006913	nucleocytoplasmic transport
cellular_component	GO:0015030	Cajal body
cellular_component	GO:0016363	nuclear matrix
cellular_component	GO:0005730	nucleolus
cellular_component	GO:0005732	small nucleolar ribonucleoprotein complex
cellular_component	GO:0009328	phenylalanine-tRNA ligase complex
cellular_component	GO:0080008	Cul4-RING E3 ubiquitin ligase complex
cellular_component	GO:0018444	translation release factor complex
cellular_component	GO:0000502	proteasome complex
cellular_component	GO:0005737	cytoplasm
cellular_component	GO:0000781	chromosome, telomeric region
cellular_component	GO:0009536	plastid
cellular_component	GO:0009570	chloroplast stroma
cellular_component	GO:0016020	membrane
cellular_component	GO:1990904	ribonucleoprotein complex
cellular_component	GO:0005829	cytosol
cellular_component	GO:0009507	chloroplast
cellular_component	GO:0019013	viral nucleocapsid
cellular_component	GO:0032040	small-subunit processome
cellular_component	GO:0009295	nucleoid
cellular_component	GO:0005794	Golgi apparatus
cellular_component	GO:0005634	nucleus
cellular_component	GO:0005840	ribosome
cellular_component	GO:0030870	Mre11 complex
cellular_component	GO:0000176	nuclear exosome (RNase complex)
cellular_component	GO:0009941	chloroplast envelope
molecular_function	GO:0008251	tRNA-specific adenosine deaminase activity
molecular_function	GO:0016787	hydrolase activity
molecular_function	GO:0008146	sulfotransferase activity
molecular_function	GO:0004822	isoleucine-tRNA ligase activity
molecular_function	GO:0002161	aminoacyl-tRNA editing activity
molecular_function	GO:0004674	protein serine/threonine kinase activity
molecular_function	GO:0003723	RNA binding
molecular_function	GO:0005515	protein binding
molecular_function	GO:0004386	helicase activity
molecular_function	GO:0004143	diacylglycerol kinase activity
molecular_function	GO:0003735	structural constituent of ribosome
molecular_function	GO:0019843	rRNA binding
molecular_function	GO:0003676	nucleic acid binding
molecular_function	GO:0016740	transferase activity
molecular_function	GO:0005488	binding
molecular_function	GO:0000166	nucleotide binding
molecular_function	GO:0008270	zinc ion binding
molecular_function	GO:0000049	tRNA binding
molecular_function	GO:0004826	phenylalanine-tRNA ligase activity
molecular_function	GO:0004518	nuclease activity
molecular_function	GO:0005524	ATP binding
molecular_function	GO:0016887	ATPase activity
molecular_function	GO:0004831	tyrosine-tRNA ligase activity
molecular_function	GO:0003677	DNA binding
molecular_function	GO:0003747	translation release factor activity
molecular_function	GO:0008408	3'-5' exonuclease activity
molecular_function	GO:0003951	NAD+ kinase activity

RNA-Seq Expression

Co-expression


Gene	r value	Expression
Spo06755	0.74	Barchart \| Table
Spo19388	0.73	Barchart \| Table
Spo01970	0.73	Barchart \| Table
Spo00554	0.72	Barchart \| Table
Spo01831	0.72	Barchart \| Table
Spo09493	0.72	Barchart \| Table
Spo26068	0.71	Barchart \| Table
Spo06522	0.71	Barchart \| Table
Spo26978	0.71	Barchart \| Table
Spo04988	0.70	Barchart \| Table
Spo22525	0.70	Barchart \| Table
Spo18479	0.70	Barchart \| Table
Spo17547	0.69	Barchart \| Table
Spo16355	0.69	Barchart \| Table
Spo27104	0.69	Barchart \| Table
Spo15407	0.69	Barchart \| Table
Spo03627	0.69	Barchart \| Table
Spo06137	0.69	Barchart \| Table
Spo00034	0.69	Barchart \| Table
Spo02242	0.69	Barchart \| Table
Spo23479	0.69	Barchart \| Table
Spo23127	0.69	Barchart \| Table
Spo16394	0.68	Barchart \| Table
Spo26452	0.68	Barchart \| Table
Spo12217	0.68	Barchart \| Table
Spo11015	0.68	Barchart \| Table
Spo10072	0.68	Barchart \| Table
Spo03053	0.68	Barchart \| Table
Spo23898	0.68	Barchart \| Table
Spo03609	0.68	Barchart \| Table
Spo00129	0.68	Barchart \| Table
Spo00137	0.68	Barchart \| Table
Spo23889	0.68	Barchart \| Table
Spo21646	0.68	Barchart \| Table
Spo27231	0.68	Barchart \| Table
Spo06789	0.68	Barchart \| Table
Spo23978	0.67	Barchart \| Table
Spo03835	0.67	Barchart \| Table
Spo03914	0.67	Barchart \| Table
Spo05318	0.67	Barchart \| Table
Spo05352	0.67	Barchart \| Table
Spo06300	0.67	Barchart \| Table
Spo07697	0.67	Barchart \| Table
Spo07884	0.67	Barchart \| Table
Spo08335	0.67	Barchart \| Table
Spo12143	0.67	Barchart \| Table
Spo13355	0.67	Barchart \| Table
Spo13695	0.67	Barchart \| Table
Spo15431	0.67	Barchart \| Table
Spo16421	0.67	Barchart \| Table
Spo16831	0.67	Barchart \| Table
Spo17085	0.67	Barchart \| Table
Spo18646	0.67	Barchart \| Table
Spo19776	0.67	Barchart \| Table
Spo22804	0.67	Barchart \| Table
Spo24407	0.66	Barchart \| Table
Spo01828	0.66	Barchart \| Table
Spo15656	0.66	Barchart \| Table
Spo07353	0.66	Barchart \| Table
Spo07209	0.66	Barchart \| Table
Spo26276	0.66	Barchart \| Table
Spo00391	0.66	Barchart \| Table
Spo23165	0.66	Barchart \| Table
Spo23866	0.66	Barchart \| Table
Spo04453	0.66	Barchart \| Table
Spo03589	0.66	Barchart \| Table
Spo08224	0.66	Barchart \| Table
Spo10856	0.66	Barchart \| Table
Spo11756	0.66	Barchart \| Table
Spo24841	0.66	Barchart \| Table
Spo08849	0.66	Barchart \| Table
Spo24939	0.66	Barchart \| Table
Spo25476	0.66	Barchart \| Table
Spo01612	0.66	Barchart \| Table
Spo17081	0.66	Barchart \| Table
Spo26803	0.66	Barchart \| Table
Spo17235	0.66	Barchart \| Table
Spo06635	0.66	Barchart \| Table
Spo18393	0.66	Barchart \| Table
Spo06591	0.66	Barchart \| Table
Spo01606	0.66	Barchart \| Table
Spo05941	0.66	Barchart \| Table
Spo19506	0.66	Barchart \| Table
Spo00670	0.66	Barchart \| Table
Spo20749	0.66	Barchart \| Table
Spo05208	0.66	Barchart \| Table
Spo21648	0.66	Barchart \| Table
Spo21910	0.66	Barchart \| Table
Spo05190	0.66	Barchart \| Table
Spo16482	0.65	Barchart \| Table
Spo16733	0.65	Barchart \| Table
Spo14085	0.65	Barchart \| Table
Spo20243	0.65	Barchart \| Table
Spo04669	0.65	Barchart \| Table
Spo21613	0.65	Barchart \| Table
Spo13238	0.65	Barchart \| Table
Spo09959	0.65	Barchart \| Table
Spo11093	0.65	Barchart \| Table
Spo02855	0.65	Barchart \| Table
Spo24366	0.65	Barchart \| Table
Spo05076	0.65	Barchart \| Table