Sgr018170 (gene) Monk fruit (Qingpiguo) v1

Overview


Name	Sgr018170
Type	gene
Organism	Siraitia grosvenorii (Monk fruit (Qingpiguo) v1)
Description	Vesicle-associated protein 1-1
Location	tig00153113: 738486 .. 753350 (-)
RNA-Seq Expression	Sgr018170
Synteny	Sgr018170

Sequences

The following sequences are available for this feature:

Gene sequence (with intron)

Legend: polypeptideexonCDS

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

AATTTGAAATCTGCTAGGATCAGGGGCGACAAAATGAATACTGGGGATTATATCAATATCCAACCGACCGAGCTCAAATTCCCATGTGAGTATCCTTTCGACTCGCCCCTTTTATTTCCTCCCAATTTTCTCATTTGGTTCTCTGGAAAATTTGCTGAAAAGGGAAATAATGTCCCGTTGAACTTTGCAATTCGAGAATTGGTGAATCTTTGGTGGAAACTTTTATTTCCTGCGATTACGTCTTCGTTTTTTTGCTTTATTGCCGTATTTTTTACTCTTCTTTTATTAGTGGTCATCATGGTTTGGCCTGTTCGTGTCTTGAAAAAACATTGTTAGATGTTGGGTTTTCGTTGAAAATTTTCATCTAGTAATCCTCGGATGTCGTGATGATCGAAACTTGAGAAAGGATAGGATGTAGACAAAGGACTGAGAGAGGGCCATAGGGGGACCGTGACTATCCAGTTGAAAGGCCAAGGCTAATGTAAAAACTTAGACTTAAATTTGGAGGATCTAGTCCTTAGAATTTTTTGTGTGGAGACTGGAGAGACACCCGCCAGGAAAAGCCCTTCATTTATCGAGTGCATTTATTATTATTATCATTGTATTTTTGCTTCACATCATTAGCTATTAAGGTTCAAGAAGTTACTGGAAAGAGTTGCATTGTTGTTCATCACGAATTGCTAACGTCAGGTTGAATTGATTGAAGGAGTTGGACTAATTTTTTGGGGGTTCCTTCTATTTTCAATATCGTTTCTGCTTAGTTTTTAGAAGAAATGTTTATTCCCTACATTCCTCTATGATTTCTCAAATTCTTGAAGCTTGACTATGACTACAAATTTCATCTAATTTTGATTTACAGATATCTGCGAGGCACTTTTATTTGTGTGTTTGTGTTTTCCTTTACTTTTCTAATTTTTAAAAAATCTACTTGGTGCATATTTGTCATATGATGGAGAAGTTGAATTGAGGAAGCAAAGTTCTTGTTCCTTGCAATTGACCAACAAAACGGACAAATATGTTGCCTTCAAGGTATGCCTTTATCGTTCATTCTTGGCATGTTAGTTTTGGTCTATTTTGATGGTTATAAATTGACAATTCGTACATTTTCTACATTCAATCATCCTAATTTAACAGGTTAAAACCACCAATCCCAAGAAGTATTGTGTTCGTCCAAATGCTGGAATCATTCTGCCTAGTAGTGCAAGCAATATTACAGGTAAATCATTATGTGAAATTAGTCATTCATTTTTTCTATCACTATTTAAAAATTACAAGTCACACCATGATTTTTAACTTCATTGTGTATCCTGGATTAGTCAATGTATTTTTATTGTAGTTTGCTTTCCTGGTCTCTACTATTGCATGATGGATATTTGATTTGTTATTGGTATTTTTAGTTACCATGCAAGCTCCGAAGGAGGCACCTTGTGATATGCAGTGCAAGGATAAATTCTTAATTCAAAGTGTTGTAGCACCAGATGGGGTAGCATCAAAGGACATTAGTCCAGAATTGGTGGGAATGTCTTGTTGCTGCTTTCATTGGTTTTGTAATTTTTGATCTATAATGATTTTCCTTTTTTACTTACGTTTGGCATCTATAAAATTGTAGTTTAACAAGGGAGATGGTAAAGTAGTAGATGAGTTTAAGATGAGGGTTGTTTACATTTTTGCAAATCCTCCGTCGCCTGTCCCAGAAGGATCTGAAGAAGGATCTCCTCCCAGGACCACTGCGCTTGAAGAGGGAAACCAAAATTTTGCATTGTTTGATGCTGTAAATGTTTTCCAAGTTTCTTTTGTAGATTGTTTCCCCTTGTCCTTTCTTTTCCACCAGTGATTGGAGACAAAGCAGTTGCTTTTGCATATTTTAATGCAATTTGTTGTTAAACTTTAGGTTTCAAGATCTCTGGAGGAGCCTAAAGAGAAATCATCACAGGTAAGATATTTTTCTCTTGCTTCTATATGAACATCTAAGTGTTTCATCTGCTTTATCACTTGAATTTGCTCTTTGCTCTTTCTCTTTCATTTATTTCTTTTACTGCACACAATTTTCAAAATTTTCTGTATAATGAAATTAAAATTTGATTTTTCTGAATATCTACAAAAAGTTCTCTTTTTAATGTCTTAGTGCTTCATTTTTAAGTTATTTAAATGTTGATTGCCAGTGAAAAGCCTGTACAAAATGCATGGGTATGTGATTTACATATTAAGGAGGATTATCTTTTAGGCACAACTCTGTTAACTCAATTGGATGTAGCAAAGAAGGGATGGTGAGATATCCTCCTAAAAAGGCAAATGCAAGTATAAAATATTTTTACTAGAATTAAGGGAAAAATTAGGTAGTTACTAACTATAAATTTTTGGGGTAGAGCCAAACAAGATACGTGAGAAGAGATTAGGTCCCTTGTTTCCCTATATTCCCTTTTTCTATCTTCAAAGAAATACGATAGTTTCTTTCTTTCCAAATATCCCAAAAGATAGACAGAAGAAACTAACTTAAAAAATTGACAGGCCTTTCTGTGACAAGGTATCTATTAGCAAGGTCGGAGCTGCATCAAGAAAAGTTGAAAATTTAAAAATATTTTGTTCATAACAGCAAAGAGGTAAAAAATAAAGAGATATTGATTGTCTTATCTGAAATTTCCAGAAACATACACCACTAAGATCTTAGACAAATGCTCGGATTCCTTTTTGAATTCTGGCTAAGGTGTTAAGCTTTCTATGACTAGTACGACCAGGCAAACGTGCACTTCTTCTTAAAGACCATACTCCTTAGACTTCCATATGAAACTGGAGACGGTATCTGAGATGAAGGACAATCGTTAATCAAGAACTTGGGGAGAGATTTACTTGAGGCATGAAGGGAACTTTTCAACGTCAGGAATCTGTGATCCATATACTTGTTAGGAGGAAAATTTGCAACTCTAAGAGATGCAATCACCATTCTTTTGTCTTTTGATTATTGAGATTTTTTCTGAGTTCTAGTTCTTAGGAAGAGCAAGCTTCTAAACAATGTGACAGTACTTTTTCCTTGACTAATGAGGGCACAAGGATGAGAAAAATTCAAATTAAAGCAGGCCATAGGATCTGGTTGAGATCCCTTGCTTTATCCAAAGGCTTTCACATACATGAACAAGGGCCTTAAAATTTCAGCCTTTGTACTACTTCTGGACCCATGGTTTTGATATAAATTGAAAATTATATGATTAGAAGGAGCTTTGCATGGTGACAGGGGTTTGGGTGGGGGCCATTCAGCTATGACTTTATGGATTTTTGTTTTTCGAGAGGTGTTCTGTCACAAGAAACTGTCCTGTCCTATTCAGGTTAGGAAGTTTTTATGTTTTTTTTCTTTTTATAATTTTTTTAATATGGTTTTTTCCTTTCTCCGTAAATAATGCAGGGTTAGGATGTGGCCGATTGCCCAATCCTTTTCCTGTCCAATTTCGAATATTGCAAAACTAGGGCAAGGTCAGAATTTTTTTTCCCCTTTGGGGGGGCCTTTTAGGGGGGGGGGGGGGTAGGATGGCAACGACTCCCTGTAGTTCGCTACCTGCTTGCCATCCATAATTGGGATGACATGGGGGCTAGGAGAGAGCTGTTGTTGTGGAGTTCAAATTTTAAACAGTCATGGCTAATCGTAAGAGTGAACACGATGGAGATTTTTGCTATACCTTTTGAAACTTTAGAAGCTTTCAGCTGACTTGTTAAGATATCTCTGAACAGTATGAATCAGCACAAAGAAAATTTGCAGATAGGCTTGAAAAAATGTGCAATATAACGTGATTTTATTTGGAGCAGATAACAGCTAGTGATAGATTACCTCCGTCACTGCCATAAACTTGTGTATTTGTTTATTGGAATTTTCAAAAATTAGTTCTTGGTGCTTGGATGTTAGGATGATCCTAATGGTACAGACTGTTTGCAGTGCCAATCATTTACAGAACCAGTTAGTGTGCTGTGTTGTAAACTGGGTGTTCACGGTGTTGTTTAAACTTCATGCGTAATGCTAATTCTTGAATGGTAAACCAGTGGATATAATATTGAAGTGATTGATGGGATATTAGTTGTTATATTACATATTTGGGAGCTGTACCAGAAAAGGGCAGCACAATGCATTTCTGGATTAGTGGAGGTTGAAAATTTCTCCTAGCAAGCCAATTTTTCCTCGCATTTATTTTGGACAGTATTATTTGTTGACTTATAATTTTATGTTGCTTTATTGCTAGTTCATAATGCAAATATTGATGCAGGCATGGTCTGCCGTTTCTAAGTTGACCGAGGAGAAAGCTGCTGCTTTGCAACAGAATCAGAAACTACGCCAGGAGCTGGTATCTGGTTTAGGATTGCATTTTATTGTCTTCATATTTTCAAGCTTCGTGTATTTCTTTAAAGTTTAGTGCTTTGATCGCTTGCTATAATCGTGTTTGGGAGGAGGTATTGCCGTGTTGGAATGGAGAAAGTGGAAATGTGAGAAGGTAATGTCTTTACTAATATTTGGGTGAACGGGCCCCCAAGGGGCGGCCCCGTTGGCAAAGGCATGCGGTCTCTGAGTAACACCTATCCAGAGGTTGCGTGTTCGAACCTTTGAGTGAGCTTAATACTAAAAACCCTAGATGTCTCCCTGGTCCAAGCCTTGGGGTGGGCTCGGTGCCCCCGGATTAGTGGGGCGAAGCCCTGAAACCGTGTTATCAAAAAAAATAATATGTGGGTGAACTGTCTAGAGGCCATGAAGTAAAATTTTCATCGATGTGTCAATATTATCATTGACATCTTGATATTTTTATTGAAATGTCAATGAATCGAGATAGTTGACATTAATATAAGGGAGCAATATCTTTTTCTTGAAATCATGTGAAATATTAAAAATGTTAAAAAAATGTCAACAAAATGCTGGAAATGTTGACAAATTCCGAGCATGGTGCGAAATAGATGGGATTTTTTAAAAAAAAAGTAATTAGGAAAAAAAATTATTAGAAAGAAGACAAAGAAAAAACAAAACTTTATTGAACTGTGCTGGTCACATTTGACACCATTTGTCTCTGTAAGTTGTGATTGCATGTGGTGAGGCTCATAGATGAATTTGTTATAAGTGAGATCAAATCATTTATCCGCGTCAATCTAGGTACCAAACTTTCTTTTCTTAACATGTCTCTATTATAGAAAATTATTTTGTTTTTATTCATCTCTATCTCTCTTGGTCTCTCTCTCGGCCTCCTTCCTTAGTCTATCTATTTTTAGATTCTTTGTTCTTCTTGTTGCAGCTTGTATATTTATATATATTATTGTAAATAGCTTAGTTCTAAGTACAATAATCATACTGTCCTTTATTGTTATTTTACGTTCTTTATTTTAAGGCACCTTATATACATGTATTGTATATATGAGTCTAGTAAATGGAAAACAGCAAGGTGTTTTTCTCCCTAAACTCTATGCTTTTTTCTCATGCATATCTATTGACATAGATAGTTTCATTAAAAAAGATTCTGTTAGCATTTTTTTAATGAAAGTTAGTTTTTTATGCAAAAAAATCATAAAAAATCAAGATCTTGACATTTTCTCCAGGATCCATATCTGACTCTATGGCTGAAGCTGTATAGGATTATTGTTATACCAGTACATGTGATTCTTTCCCTTTTTCGAGAATGAAAGGGAGGGATTTTATTGGGAATTCTATTCTAATCAGTTGAGTTGGATTTAGGTGGAATTTGGAAAATCTTTTTAGTATTATTATCTCCAAATTATTTTTTTCCCTTTCTAGATAAGAAATCAATCATTTTTTTTTTTCTGAGAAGCAATTATATTAAGAGCCCAAAAAAATTACAAAAAAGGAGGGATGAGCAATCCACTTTACATGCTGAGTGGAACACAAGAAAGGATCCTAGTTAGCAAAAATGCAAGCACCATTGTGGTTACAAAGTTCAGGATGAAGCATACACCAAGAAGAGGTCAACCATCTAGCAAAATCCCACGTCTCTTCCCTCCCTACCCTCGGCCCTACTTTCAAGAAAAGGGGGGAATTAGAAAAAGAAGGTAGTGAGTCCTTTAATCAGTCCAATGATGTTATAGAAAAGTGCACCTGGCATAAATAATAGTCGAGGATTAATGAAAAAACCATTTAGACAAGGAACACCAAGTTGAAACCACAAGACCCTTCCTAAACAGTATGAAAAGATCCTATCATTCTTCTATTCGAGCCAAAGGCATCAAAACAAAGCTTTAGAAGCATTTGACCATTACATGTTAGCCTTCTTTATAAATGGACATCTCAAATGAGTTCAGAAGATGAAACCCTTGGGAATGTATGGAGGGAGGGAGGTGAAGTATTAGTAAGGAGGGAGAGGGGGAGGGAGAGGGAGAGGGAGAGGGAGGAAGGAGGGAGGAGTGTGGAAGATAAAATCCCAGAGATTGTCTGGATGGATGGAGGGAGGTGGAGGGGGTAGGTGGAGGGACGTGAAGTATTGATTGTTGAGATTGTCTTGAGAAGGAAGGAGGTGAATTGTTCGCAAGGAGAGGGAGGGAGGGTGTTATGAAGTATAACACATTGCTATGGGGCAAACTTCACCAGTAAAATTTTCACTTGCTGTGATAGCATTAGACATCTGCCTAGTTAGCCAAATGCTTTCACCTGAATGCTTAGAATTCACAATGGAAGAGTTTACGAGGGGTTGGCATGCACACACTTGCAAAAGAGCTTCTTCATCTCTTTCACTAAATAATTATGAACATAACACAAATATAGCCACAAGTCGATTATATTAGCTCTCAACCCTTCACAAGCACAAGAGTTTACTCAACTTGTCCTGTCACTATGTTCTCGAGCACCATATGGAGTAGGATCAAGGAATCCTTGCACTTTTCCTCTTGTGATGAGTGTCGAGCTCCCTATTAATAGAGAGCTCCATTGGTTAACATCTTTAACCAATGAGAACAAGTGGCATACACGCTTTATAAGAAGATCGTGGAAATGCTCACCACCTTGGTCCAACTGCCATGATCCCCACCCCATTAGCTTAGGAAGTAACCACTCGCTTAGTAGTAAATAACTCCCCATGTGGTAATGATAGGAACTTTATTTATTACTACCACTTCCAGAGGAAGATTACAGTCCTAGCTGCTATGGCCAATTTGAGAGGGCCAAAATCTCTCCTTACAATACCAAGACACTTCAGAACAAAATGATCCACACCCATAATAGCCAAAAGCCTTCTTACTTATCCTGTCTCATAACCATAAGAAACTACCCAAGGAAGTTACATTTAATAACTATCCCAGATTATCCCTACAAAATTACAATGCATAAACTTATTTAATTACTAGTAGAAGGCTCCATCCATTTTCTTTTAACATAAGTCTTTATAATCAGTGACGTAGCATTACCCTGGGGCTGAAAGACACCTTGTCCCCAAGGTAAAATTATGGAAATTGGTCACGAATAGTCTTGGGCAGCTCCCAAGAGGCTTCACAATCTGCTAGCTCTTTCCATTTAATGAGGACTTTCCTACCATCAGTGGGGCAATCTTTCGAATACCTAAAACAGCTTCAGGTTCCACCGGCCAAGCATAAGTAGGGGAGAGGTTGCACTTGAGCGAGAAGCTAAGGTGGCTTTGAGCTGGGATACATGGAAGATGAATGAATCAAATAATTGGGTGAGAAATCCAATTTGTAAGCTGCCATCCCTATTTTTTGTATAATTTGATAAGGCTTGAACTATTTTGGGGAAAGCTTCTGATTATGCCTGTGAGCTAAAGAAATGAGCCGATAAGGACGGATCTTTAGGTAGACCCAATCACCAATAGAGAATTCCACATCCCTATGGCTTTGGTTAGCAATTCGTAGCATCCTCAATTGCGTGGTGATCCTTAAGATCTGCCAAAGCAGTCACGTTCCTTCCGTATTTGTTCTAGGGAAGAATTAGGTGTACTAGACTGTTTCTAGTGAATAAGAGGAGGGGTGCTCTGCCATAAACATGGAAAGGAGTAGTTCCCAAAAATGAGTGAAACGTTGTGTTATGCTAGTATTCAAGCCCATGATAACCACTGTTGCCAATGTTTGGGCTGATCATTACAAAAACAATGCAGATAGGTTTCCACAGCGGTTGACTACTTCCAACTGACCCATCTGTATGGGGATGATGTGTCATGCTCCTTTTTAGATGCGTCGCATGTAAATGAAAGAACTTAGTAAAAAAAATGACGTAGGAAAGCATTGTCTCTATTGGAAATTATTGAAAGTGGAAACCCATGAAGTCAGCTACCTTGTCAATAATGTTTAGAAATACCATTAGAGTAGAGGTAGAAATATTGTTAGGATACTAAGGATATCTTAATCATTAACTAAGAGGTTGGTTATAGGAGGTAGTTAGAAATAGAGTGAGCGGCAGAGGATGAAGGCAAGCAATGGTTTAATTGTTTAGGCTTTAGAGCACTCAAGTGGTAGTCTCCAAGTTCCTTGAATTACTTGGGATATTTTACTGTATTTTCTTCAAGTATTCAATATAGTTCTCTGGTTTCCATCACACACATGTTCTTAAAATCAAGGAACTGGTGGAAAACAAGACAACAGTCGCTCTATCTTGGTACCCATCCAATGCTCAATTGAATAGCATCACTGTCCCTATACTGCTTGACGCAAAGGCAGTGGAAGAGCAGGTAAATAACAATCCTTACCTGGCAAAATTTAAAAGCAATGTGGAAGTTGACCTGGATCCCCTACCTAAACATTCACTCCAACACGGCCAACTGCTTTATAAGGGATAGTTAAGTCATTCCTCAAGGCTCCTCTCGGATCCTTTCTCCATACATTCCATAATACTACTGTTGGAGGACATTATGGATTTTTGAGAACGTATACACGTATTACAGCTGAATAGTACTGAAAAGGGATGGAAAAAGACATAAAAAACTACATGGAGCAATGCCCAGTATGTCAACCAAATAAGAGCCTCACATTATCACGAACTGGTTTACTCAACCTTCTACCCATACATAATTTGATTTGGGATGATATTTACAATGCATTTCATCAAAGGCTAACCTAAGTCCAATTGGATATCATTTTTGTAGTAGTTGATTGCCTCAGCAAATATGCCCACTTCTTACCTCTTTTCCGCCCCGTTTACCATTTATAGCCAAAACAGTGGCCATATTATTTGATCTCCAACTATCTATTTGCTTTTGTGAAAAAAAGGAAAAAAACAGATTCCATTTCGATTACTAATAAGGTTGTGGATGATCTTAGAGCCTCAAACTGAAAAGCATGGATGCTGAAAATAGATTGGGAAAATGCCTATGACATGGTTGATTGGGTTTTTTTAGTGGCAGAAGTGGAGAAAAGGGTTTTGATAATTGGTGGAGTGATTGAGTCCATAGATGTATCCGTTACAAAATTCTCACTTTCCATCAATGGTAAAACTAGAGTAAGGATTTGGTTTTGAGATGCCTAAGGTTGTTTTGGGGGGGGGGGGCGCATGGGACCCTTTCCCGTTTGTTCTTAGTTATGGATGTTCTGAGAAAACTTCTTCATAAAGGGACTTATTCTAATTTTCTAAAGGGAGTTAAAGTTGGAAATAATGACTTTGTTTTGAAGCATCTTCAATTTGCAGATGATATCCTCTCCTCTTTAGGGCTTATGATTTAGAGAATTGGATGATCTCTTTGGTATTATGAATTTTTGAGCAATTGGCAAGCATGAAGACCAATTGGCAGAACTTAACATTGACCTCTAGAAGTTGCTGCTCAAGCAAACTTTTTTTTTTTAATGTAAATGGGAGGACGGCCCATGAACTAATTTAGACATGCCCTTGGGAGGAGCTTCTGTCTTTTGGAACCCGATGGTACAGAGAGATGCCAGAAAACTTGACAAATGGAGGAATGCTACTTCTTCAGAAGCTCATGGGCCGTCCATTTGTCAAGTTTTCTAGCATCTCTCTCTACCATCCGGTTCCAAAAGACTTAAGCTCCTCCCAAGGGCATGTCTAAGTTCGTTCATGGGCCGTCCTCCCATTTTAATCTGTGCTCACCAATATGCCTATCCACTTGATGTTTCTCTTAAAATGCCTCTTCAAAATGCCATCCAAGATTCTTAAAATTTTTGGAAAGATGATGTTAGATTGCTAATGGTCCCATGAAGGCATTGAAAAAGGAAGCTATTCAATAAACTGGAAGAAAGTGGTCAGCACAAAGATGGAGGAGATTTAGTCAGGAAAAAACACTGCTCTTGTTACTATCATCACTTTTGGTCTCTTAAGGTGTGAGGCTTCTGTCCATATGCATTAAGTGTAGCATCTTACACATTTAAACTGGGTTCTAAAATTTAACAGTGCATTGGGTTAAGAATTTAGCAATCACTTCAACGTACACACTTGTACTGCATTATGTTATATTGTAAACTGTGTGATGGTTGATATTTACTAATTACTTTTGACATCCCATCTGTTCTCTCGGGCTTATTTGCGAGTGAGTCTGTCTTTGTATATGCCTTTTGTCACTCTCCAATTAGTGTATGGTACTGCTAAAATCAGCTAATGTTACAATGATCCCGTTACTTGGACAAGCTATACTTTTTTGATATTTCTTTTGACAGGAACTTCTGAGGAAAGAATCAAGCAGAAGGCAGGGTGGTGGTTTCTCTGTATTGTTTGTGGTGCTAGTCGGTCTCATTGGAGTTCTGATCGGTTACTTGGTGAAAAAAACATAGACAACTCAGGCACTACCTTTTTTGTTTGCTGCATTTTGCTGTTATTATCTGTGTTTCGTCCAGAAATAACAACCCTTTTATGGCTTCAATCTTTAGCGCGTCAAAAGACAGAGTTGTTAATGTCAACCATTGATTTACCATGACTCTGGATAGTTGTTTTTTGAAGAATACTTTTTGAATGGATTCCAATTAGTTGCGTGCCTGTTCTTTCTTCTTCCAGTTTCCATCTCGTTTCCTTCTTGCTTTTGGTTTGTACAACGTGTAAATACTTCTCATGTCCTCCAAATTCAGTTCTTGTGATTTATTGAAGCATGTGGATGTATTATTGCACAAGTAAACTTACTATCCATTTTTCTTTTGGTACTTAAAAACCTCTAAAATTTTCAATTTACTCCTTTAACTTTATTTGGTGGTTGGTAGATTGTTTGTTTTTTTTTTTTAGGTTAATGAAAATGTGGTGCATTTTAGAAATGCTGACTATAGGAGAGTAATCGACTTTTTCCCCCCTTTCGATGTGTAGCCAATGACTTGCATAATTAAAAAATTAACCCGACCCATTAAAAGTCATGTGTGTTCTAGGTAGGGTTGGATCCATCGTCTAATTACGACCATTTAGATTGGACAAATTTATAAGTTGAATAACTGAGTTAGAACCAAAAAGTCTGTTAACCAATCCAACTTATGAAAAGTCTATGGTATGATGATTTGAATTCAAAATCTATTAGAAGCAATCAGATCTATCACATGGAAGAAGCAATTATAAACACTAAAACTATTTACAGAGGAGACTTGATCATTCCAGACTGTTGCCATCGCCTTTCTCGGCAGCGGGTTTTCGGTAATTTTCCTCGACGTGCTTTGCCATTGTGAAGCCAGAATCTGCAAGCTTTTTAACGTTGGGTATGTTGTAATTCTGGGCAATGTAGGCTCCAAGCAAAGTCCCCAGCATGAATGAGAATGAAATTCTCATCACACCCATTTCCCCAATCTCCCAAATATAACACACATACATACAGATGCTATGCTAGTATTTAAATGTTGTGGCTTCTTCAATTTTCGTATTGCCCAAGGCTGATCTGTCTGACCCCTTCTCCACGGCTTTTAACTTCAAATCCATATTTCAAATTAAGATTTTTTAAAGCTTCCTTGTTCAGTAAGAAAGGTATATGCCTGCAAAATTACCTCCTTGACTTTAATATTTAATAAGATGATTTGATTCGAATTCCGTCACAAGTGGTGAGAATAGAATATTAAAATAAATATACATCTACATGTCGACATTTCCCTATTTTTATTGAGTTGATGTTGGAATCCTGTGACGGATACTCACAAATAAGAATCAAACAAGACTTATATGAGAAGAAACAAATTCACTTGAATTGAAAATCTTCAAGGAATTACAAATTTGGTTCACAATTTTCTCTCAAACACGCTTTGTTTTGTTCTCCACACATTTGCTTCAAACACTTCAAAGACATCCTATATATAGGACTTGAATGGAAAATTCTAGATCCTCACAATAACTCTCATACATGAATCCATTCATTCATGAACCTATGATTAACCCACCTTAAAAAACTAAATACATGAATACATAATTAACTACTAATTCATGCATATGTATAATGTATCTATAATTAGTTACATGTTTAATTTCTAACAGTTGACATCGATATAAATGTTAAATCTATTTTCATTATACTGTAAAAATATTGATGAAATATTAAAAAAAAATTAACAAAATATCATTAATATGAACATAATTATTGATAATGAGAATTTTTAAATTATTTAAAAGTGTGTAATTCATATTTTGTTAATTTTTAAATATTTTTTTTTATGAATTTTATTTTTATTTTTATGATTTTTTTAGAAATGTGTTTCGATATTGATATTTTATTGATATTTTTAAAGAATTGAGACCTTGACATTTCCATCAACATCGATATTTAAATCCTTGGTTTGAGGTTTACTTTTTTTCCCAGACGTGGAAAAATTAATAGGAGGCTTTCGGTTTTGGTGGTTAAATATTTCTATTTAATTTTTTAAAATTATCATCCAATGTTTTCAATTAAGAGAAAATTCACAAATCACCACTCCTGAATTATAGTAGAGGTTGGAATACCATGACTGATAGTTTTACACTATTGGATGTATGAGAGAAAACTTACAAAATTTATTTTGAACTTGTATCCAAAGATTATTAAGGAACATATAGTTTTTAAATTTGCATCAAACAGTTATTGGAGGACAATCCCATTATAGCGGCTACATTCAATCATTTTTTGGAGTTGAGGGGCTGATCTAAGCTTCCAAAGGAGGTCTTAACATTTGAATGTGATATCACCAAGGCTGCTGGAAGGTCGGTGCGACGGTGAACAGAGAGGCAGAGCCAAAAGAAGAGAAGAATGAAAAGAGACAAAGAAAGAGACAGAGGGAGAGGATGAGGAAGGGGAAGAGAGAGAGAAACGTAAAGAAAAAAGAAAACTCTCTCATTAAACAAATAATAAAAATTTGGAAAAAAATCGATTTATACCCCTGAACTTTATAGGTTGAGTCAATTAAAATCTTAAACTAATAAATTCATCAATTAAAACTCTAAATTTTGCAAATTGAGTTAATTAAAATCCTAAACTAATAAATATTAATTAAAATCCTAAACTTATCTCAATTTATATCTATGTTAAATTCTGTTCTAAAACTATTAGTTAAATTGGGAGTGCACGTGTGAAGGTTGTCAGTTTATATTTTATATTACAAAAGAAGGAAAAAAGTGGTTAAATGCATGTTGCATTGACTTGTTTTCTTTCAATTAATATAGAAAATTATCGGAAGAAAACTAAAAAAAGTGTCGAAGCAATTTGAGAAATTAAATCTTAGAAGTGGAAAAGTCATGTCGGGTGTAACTCTTGTGGCGGCTCCACGAACAAAGCGAACAAAACTCTGCCGGCGAAGACAAAGTCATCGCCGTTGTAGAAATTCTTCCAGTGGCAAAAACAGGAATAGAACACTATACTCAAAAGAGTAATGTGATGAGATCTCTAAGCGGTAATTGAACTCCAACTTATTGCCTTAATCGTTTGACGTTCTCAACCAATGAACTTGTTACTCTTCTTGATCTTGTTTTTCCACTGTTTACGTCGGCGTATCTCTTGGTGCTAATGCGGTAGGTTGGTGTTCCATTAGCATGGCAATGTAGATCTTTTAGGGGAGTAAGACTTTTAGAATGTATGTGATGGTGGGGACAGTAGTGTGATTGTTCTTGCCGATGGCTTATGTGTTAGCCTGTTATGGGAGTTTGCTCGAGGCGACGAGTACGTCCTACTATGAGCACCTGTTCATGGTAGCATTTCAATTTTTGGTGAATAATATGATAAATTGGTTTTTGTTGTTTTTGCCACAAGTAAAGGTATTGGATTGTTGTTTTATATGATGCAAAAGATTTTCATTATCATGTATATCTCGCTACAATTTTTCCTCTTTTTTTAATATAAAATATAAAATGACAACCTTCACACGTGCACCCCAATAATTTAACTAAAAGTTTTCTAGTTAAATTAACAAATGGTATAAATTGACACAAATTTAAGATTTTAATTGATATTTATTAGTTTAAGATTTTAATTAATTCAATCCGTAAAGTTCAAATAAAAAAAAATAAAAAGCCCTCACTTTATTTTTATTGCAAACACAATACAAAAACCAAGATACAACAAACAACAATATTACAAAAAGCATAATTTTGAAGTCCCATTCACCACACTCACACACACCACTCTGCATGATTAAACTTCAACTAAACTAATCAACTTTCTTTTCTCCCCCAGTAATCTCCATACTCGGTTCCTTGGTCAAGCTCTTCTGCGCCGCCGCGTCTCGGCCATGGCAGCGGTGGCGGAAGTGGTGGCAGCGCCGAAAGCCTCGCGACACCATCGACCCGAAGATGGCTCCTCCAACAAATATAAGCGCCGAGTCCATATTTTGATGCTCCTAAATTGGTTTGCGTTGGCTGAGAAGACACCGAAGAGGCTTCTTATAGGAGTGGGCCGTGCTCATGAGGAGTCGTGTCGTGGCGCTCAAGTTCCATTAATGGGGCTCAAATTTCCCACCGACTTGCTTTCATTTATTCATAAAGTAGGTTTGGCCGACAGAGGGCTATGGAAACACTATTAA

mRNA sequence

AATTTGAAATCTGCTAGGATCAGGGGCGACAAAATGAATACTGGGGATTATATCAATATCCAACCGACCGAGCTCAAATTCCCATTTGAATTGAGGAAGCAAAGTTCTTGTTCCTTGCAATTGACCAACAAAACGGACAAATATGTTGCCTTCAAGGTTAAAACCACCAATCCCAAGAAGTATTGTGTTCGTCCAAATGCTGGAATCATTCTGCCTAGTAGTGCAAGCAATATTACAGTTACCATGCAAGCTCCGAAGGAGGCACCTTGTGATATGCAGTGCAAGGATAAATTCTTAATTCAAAGTGTTGTAGCACCAGATGGGGTAGCATCAAAGGACATTAGTCCAGAATTGTTTAACAAGGGAGATGGTAAAGTAGTAGATGAGTTTAAGATGAGGGTTGTTTACATTTTTGCAAATCCTCCGTCGCCTGTCCCAGAAGGATCTGAAGAAGGATCTCCTCCCAGGACCACTGCGCTTGAAGAGGGAAACCAAAATTTTGCATTGTTTGATGCTGTTTCAAGATCTCTGGAGGAGCCTAAAGAGAAATCATCACAGGCATGGTCTGCCGTTTCTAAGTTGACCGAGGAGAAAGCTGCTGCTTTGCAACAGAATCAGAAACTACGCCAGGAGCTGGAACTGGTGGAAAACAAGACAACAGTCGCTCTATCTTGGTACCCATCCAATGCTCAATTGAATAGCATCACTGTCCCTATACTGCTTGACGCAAAGGCAGTGGAAGAGCAGACTGTTGCCATCGCCTTTCTCGGCAGCGGGTTTTCGGTAATTTTCCTCGACGTGCTTTGCCATTGTGAAGCCAGAATCTGCAAGCTTTTTAACGTTGGTAATCTCCATACTCGGTTCCTTGGTCAAGCTCTTCTGCGCCGCCGCGTCTCGGCCATGGCAGCGGTGGCGGAAGTGGTGGCAGCGCCGAAAGCCTCGCGACACCATCGACCCGAAGATGGCTCCTCCAACAAATATAAGCGCCGAGTCCATATTTTGATGCTCCTAAATTGGTTTGCGTTGGCTGAGAAGACACCGAAGAGGCTTCTTATAGGAGTGGGCCGTGCTCATGAGGAGTCGTGTCGTGGCGCTCAAGTTCCATTAATGGGGCTCAAATTTCCCACCGACTTGCTTTCATTTATTCATAAAGTAGGTTTGGCCGACAGAGGGCTATGGAAACACTATTAA

Coding sequence (CDS)

AATTTGAAATCTGCTAGGATCAGGGGCGACAAAATGAATACTGGGGATTATATCAATATCCAACCGACCGAGCTCAAATTCCCATTTGAATTGAGGAAGCAAAGTTCTTGTTCCTTGCAATTGACCAACAAAACGGACAAATATGTTGCCTTCAAGGTTAAAACCACCAATCCCAAGAAGTATTGTGTTCGTCCAAATGCTGGAATCATTCTGCCTAGTAGTGCAAGCAATATTACAGTTACCATGCAAGCTCCGAAGGAGGCACCTTGTGATATGCAGTGCAAGGATAAATTCTTAATTCAAAGTGTTGTAGCACCAGATGGGGTAGCATCAAAGGACATTAGTCCAGAATTGTTTAACAAGGGAGATGGTAAAGTAGTAGATGAGTTTAAGATGAGGGTTGTTTACATTTTTGCAAATCCTCCGTCGCCTGTCCCAGAAGGATCTGAAGAAGGATCTCCTCCCAGGACCACTGCGCTTGAAGAGGGAAACCAAAATTTTGCATTGTTTGATGCTGTTTCAAGATCTCTGGAGGAGCCTAAAGAGAAATCATCACAGGCATGGTCTGCCGTTTCTAAGTTGACCGAGGAGAAAGCTGCTGCTTTGCAACAGAATCAGAAACTACGCCAGGAGCTGGAACTGGTGGAAAACAAGACAACAGTCGCTCTATCTTGGTACCCATCCAATGCTCAATTGAATAGCATCACTGTCCCTATACTGCTTGACGCAAAGGCAGTGGAAGAGCAGACTGTTGCCATCGCCTTTCTCGGCAGCGGGTTTTCGGTAATTTTCCTCGACGTGCTTTGCCATTGTGAAGCCAGAATCTGCAAGCTTTTTAACGTTGGTAATCTCCATACTCGGTTCCTTGGTCAAGCTCTTCTGCGCCGCCGCGTCTCGGCCATGGCAGCGGTGGCGGAAGTGGTGGCAGCGCCGAAAGCCTCGCGACACCATCGACCCGAAGATGGCTCCTCCAACAAATATAAGCGCCGAGTCCATATTTTGATGCTCCTAAATTGGTTTGCGTTGGCTGAGAAGACACCGAAGAGGCTTCTTATAGGAGTGGGCCGTGCTCATGAGGAGTCGTGTCGTGGCGCTCAAGTTCCATTAATGGGGCTCAAATTTCCCACCGACTTGCTTTCATTTATTCATAAAGTAGGTTTGGCCGACAGAGGGCTATGGAAACACTATTAA

Protein sequence

NLKSARIRGDKMNTGDYINIQPTELKFPFELRKQSSCSLQLTNKTDKYVAFKVKTTNPKKYCVRPNAGIILPSSASNITVTMQAPKEAPCDMQCKDKFLIQSVVAPDGVASKDISPELFNKGDGKVVDEFKMRVVYIFANPPSPVPEGSEEGSPPRTTALEEGNQNFALFDAVSRSLEEPKEKSSQAWSAVSKLTEEKAAALQQNQKLRQELELVENKTTVALSWYPSNAQLNSITVPILLDAKAVEEQTVAIAFLGSGFSVIFLDVLCHCEARICKLFNVGNLHTRFLGQALLRRRVSAMAAVAEVVAAPKASRHHRPEDGSSNKYKRRVHILMLLNWFALAEKTPKRLLIGVGRAHEESCRGAQVPLMGLKFPTDLLSFIHKVGLADRGLWKHY

Homology

[Close]

BLAST of Sgr018170 vs. NCBI nr
Match: XP_038874796.1 (vesicle-associated protein 1-3 [Benincasa hispida])

HSP 1 Score: 375.9 bits (964), Expect = 4.2e-100
Identity = 190/209 (90.91%), Postives = 198/209 (94.74%), Query Frame = 0


Query: 12  MNTGDYINIQPTELKFPFELRKQSSCSLQLTNKTDKYVAFKVKTTNPKKYCVRPNAGIIL 71
           MNTGDYINIQP+ELKFPFELRKQSSCSLQLTNKTDKYVAFKVKTTNPKKYCVRPNAGIIL
Sbjct: 1   MNTGDYINIQPSELKFPFELRKQSSCSLQLTNKTDKYVAFKVKTTNPKKYCVRPNAGIIL 60

Query: 72  PSSASNITVTMQAPKEAPCDMQCKDKFLIQSVVAPDGVASKDISPELFNKGDGKVVDEFK 131
           PSSASNITVTMQAPKE P DMQCKDKFLIQSVVAPDG  SKDIS ELFNKGDGKVVDEFK
Sbjct: 61  PSSASNITVTMQAPKETPPDMQCKDKFLIQSVVAPDGTTSKDISAELFNKGDGKVVDEFK 120

Query: 132 MRVVYIFANPPSPVPEGSEEGSPPRTTALEEGNQNFALFDAVSRSLEEPKEKSSQAWSAV 191
           MRVVYIFANPPSPVPEGSEEGSPPRTTA+++GNQNFALFDAVSRSLEEPKEKSSQ WS V
Sbjct: 121 MRVVYIFANPPSPVPEGSEEGSPPRTTAVDDGNQNFALFDAVSRSLEEPKEKSSQTWSNV 180

Query: 192 SKLTEEKAAALQQNQKLRQELELVENKTT 221
           SKLTEEK AALQ+NQKLRQELEL+  + +
Sbjct: 181 SKLTEEKDAALQKNQKLRQELELLRKEAS 209

[Close]

BLAST of Sgr018170 vs. NCBI nr
Match: XP_008458137.1 (PREDICTED: vesicle-associated protein 1-3 [Cucumis melo])

HSP 1 Score: 372.9 bits (956), Expect = 3.5e-99
Identity = 189/209 (90.43%), Postives = 197/209 (94.26%), Query Frame = 0


Query: 12  MNTGDYINIQPTELKFPFELRKQSSCSLQLTNKTDKYVAFKVKTTNPKKYCVRPNAGIIL 71
           MNTGDYINIQP+ELKFPFELRKQSSCSLQLTNKTDKYVAFKVKTTNPKKYCVRPNAGIIL
Sbjct: 1   MNTGDYINIQPSELKFPFELRKQSSCSLQLTNKTDKYVAFKVKTTNPKKYCVRPNAGIIL 60

Query: 72  PSSASNITVTMQAPKEAPCDMQCKDKFLIQSVVAPDGVASKDISPELFNKGDGKVVDEFK 131
           PSSASNITVTMQAPKEAP DMQCKDKFLIQSVVAPDG  SKDIS ELFNKGDGKVVDEFK
Sbjct: 61  PSSASNITVTMQAPKEAPPDMQCKDKFLIQSVVAPDGTTSKDISAELFNKGDGKVVDEFK 120

Query: 132 MRVVYIFANPPSPVPEGSEEGSPPRTTALEEGNQNFALFDAVSRSLEEPKEKSSQAWSAV 191
           MRVVYIFANPPSPVPEGSEEGSPPRTT +++GNQNFALFDAVSRSLEEPKEKSSQAWS V
Sbjct: 121 MRVVYIFANPPSPVPEGSEEGSPPRTTGVDDGNQNFALFDAVSRSLEEPKEKSSQAWSNV 180

Query: 192 SKLTEEKAAALQQNQKLRQELELVENKTT 221
           SKLTEEK AAL +N KLRQELEL+  + +
Sbjct: 181 SKLTEEKDAALLKNHKLRQELELLRKEAS 209

[Close]

BLAST of Sgr018170 vs. NCBI nr
Match: XP_022147169.1 (vesicle-associated protein 1-3 [Momordica charantia])

HSP 1 Score: 372.5 bits (955), Expect = 4.6e-99
Identity = 186/208 (89.42%), Postives = 201/208 (96.63%), Query Frame = 0


Query: 12  MNTGDYINIQPTELKFPFELRKQSSCSLQLTNKTDKYVAFKVKTTNPKKYCVRPNAGIIL 71
           MNTG+YINIQP+ELKFPFE++KQSSCSLQLTNKT+KYVAFKVKTTNPKKYCVRPNAG+IL
Sbjct: 1   MNTGEYINIQPSELKFPFEVKKQSSCSLQLTNKTEKYVAFKVKTTNPKKYCVRPNAGVIL 60

Query: 72  PSSASNITVTMQAPKEAPCDMQCKDKFLIQSVVAPDGVASKDISPELFNKGDGKVVDEFK 131
           P+S SNITVTMQAPKE+P DMQCKDKFLIQSVVAPDGVASKDISPELFNKGDGK VDE+K
Sbjct: 61  PNSTSNITVTMQAPKESPPDMQCKDKFLIQSVVAPDGVASKDISPELFNKGDGKAVDEYK 120

Query: 132 MRVVYIFANPPSPVPEGSEEGSPPRTTALEEGNQNFALFDAVSRSLEEPKEKSSQAWSAV 191
           MRVVYIFANPPSPVPEGSEEGSPPRTT LE+GNQNFALFDAVSRSLEEPKEKSSQA SA+
Sbjct: 121 MRVVYIFANPPSPVPEGSEEGSPPRTTGLEDGNQNFALFDAVSRSLEEPKEKSSQASSAI 180

Query: 192 SKLTEEKAAALQQNQKLRQELELVENKT 220
           SKLTEEKAAALQQ+QKLRQELEL+  ++
Sbjct: 181 SKLTEEKAAALQQSQKLRQELELLRKES 208

[Close]

BLAST of Sgr018170 vs. NCBI nr
Match: XP_023515012.1 (vesicle-associated protein 1-3-like [Cucurbita pepo subsp. pepo])

HSP 1 Score: 371.3 bits (952), Expect = 1.0e-98
Identity = 187/209 (89.47%), Postives = 198/209 (94.74%), Query Frame = 0


Query: 12  MNTGDYINIQPTELKFPFELRKQSSCSLQLTNKTDKYVAFKVKTTNPKKYCVRPNAGIIL 71
           MN+GDYINIQP+ELKF FEL+KQSSCSLQLTNKTDKYVAFKVKTTNPKKYCVRPNAGIIL
Sbjct: 1   MNSGDYINIQPSELKFAFELKKQSSCSLQLTNKTDKYVAFKVKTTNPKKYCVRPNAGIIL 60

Query: 72  PSSASNITVTMQAPKEAPCDMQCKDKFLIQSVVAPDGVASKDISPELFNKGDGKVVDEFK 131
           PSSASNITVTMQ PKEAP DMQCKDKFLIQSVVAPDG  SKDIS ELFNKGDGKVVDEFK
Sbjct: 61  PSSASNITVTMQGPKEAPPDMQCKDKFLIQSVVAPDGTTSKDISAELFNKGDGKVVDEFK 120

Query: 132 MRVVYIFANPPSPVPEGSEEGSPPRTTALEEGNQNFALFDAVSRSLEEPKEKSSQAWSAV 191
           MRVVY FANPPSPVPEGSEEGSPPRT A+++GNQNFALFDAVSRSLE+PKEKSSQ WSAV
Sbjct: 121 MRVVYTFANPPSPVPEGSEEGSPPRTAAVDDGNQNFALFDAVSRSLEDPKEKSSQMWSAV 180

Query: 192 SKLTEEKAAALQQNQKLRQELELVENKTT 221
           SKLTEEKAAALQQNQKLRQELEL+  +++
Sbjct: 181 SKLTEEKAAALQQNQKLRQELELLRKESS 209

[Close]

BLAST of Sgr018170 vs. NCBI nr
Match: XP_022964509.1 (vesicle-associated protein 1-3-like [Cucurbita moschata])

HSP 1 Score: 371.3 bits (952), Expect = 1.0e-98
Identity = 187/209 (89.47%), Postives = 198/209 (94.74%), Query Frame = 0


Query: 12  MNTGDYINIQPTELKFPFELRKQSSCSLQLTNKTDKYVAFKVKTTNPKKYCVRPNAGIIL 71
           MN+GDYINIQP+ELKF FEL+KQSSCSLQLTNKTDKYVAFKVKTTNPKKYCVRPNAGIIL
Sbjct: 1   MNSGDYINIQPSELKFAFELKKQSSCSLQLTNKTDKYVAFKVKTTNPKKYCVRPNAGIIL 60

Query: 72  PSSASNITVTMQAPKEAPCDMQCKDKFLIQSVVAPDGVASKDISPELFNKGDGKVVDEFK 131
           PSSASNITVTMQ PKEAP DMQCKDKFLIQSVVAPDG  SKDIS ELFNKGDGKVVDEFK
Sbjct: 61  PSSASNITVTMQGPKEAPPDMQCKDKFLIQSVVAPDGTTSKDISAELFNKGDGKVVDEFK 120

Query: 132 MRVVYIFANPPSPVPEGSEEGSPPRTTALEEGNQNFALFDAVSRSLEEPKEKSSQAWSAV 191
           MRVVY FANPPSPVPEGSEEGSPPRT A+++GNQNFALFDAVSRSLE+PKEKSSQ WSAV
Sbjct: 121 MRVVYSFANPPSPVPEGSEEGSPPRTAAVDDGNQNFALFDAVSRSLEDPKEKSSQTWSAV 180

Query: 192 SKLTEEKAAALQQNQKLRQELELVENKTT 221
           SKLTEEKAAALQQNQKLRQELEL+  +++
Sbjct: 181 SKLTEEKAAALQQNQKLRQELELLRKESS 209

[Close]

BLAST of Sgr018170 vs. ExPASy Swiss-Prot
Match: Q84WW5 (Vesicle-associated protein 1-3 OS=Arabidopsis thaliana OX=3702 GN=PVA13 PE=2 SV=1)

HSP 1 Score: 278.5 bits (711), Expect = 1.2e-73
Identity = 137/210 (65.24%), Postives = 171/210 (81.43%), Query Frame = 0


Query: 12  MNTGDYINIQPTELKFPFELRKQSSCSLQLTNK-TDKYVAFKVKTTNPKKYCVRPNAGII 71
           M TGD +NI PTELKFPFEL+KQSSCS+QLTNK T + VAFKVKTTNP+KYCVRPN G++
Sbjct: 1   MTTGDLVNIHPTELKFPFELKKQSSCSMQLTNKTTTQCVAFKVKTTNPRKYCVRPNTGVV 60

Query: 72  LPSSASNITVTMQAPKEAPCDMQCKDKFLIQSVVAPDGVASKDISPELFNKGDGKVVDEF 131
           LP  + N+TVTMQA KEAP DMQCKDKFL+Q+VV  DG  SK++  E+FNK  G+V+++F
Sbjct: 61  LPGDSCNVTVTMQAQKEAPLDMQCKDKFLVQTVVVSDGTTSKEVLAEMFNKEAGRVIEDF 120

Query: 132 KMRVVYIFANPPSPVPEGSEEGSPPRTTALEEGNQNFALFDAVSRSLEEPKEKSSQAWSA 191
           K+RVVYI ANPPSPVPEGSEEG+ P  +  +  +Q+ +LFD VSR+ EE  EKSS+AWS 
Sbjct: 121 KLRVVYIPANPPSPVPEGSEEGNSPMASLNDIASQSASLFDDVSRTFEETSEKSSEAWSM 180

Query: 192 VSKLTEEKAAALQQNQKLRQELELVENKTT 221
           +SKLTEEK +A QQ+QKLR ELE++  +T+
Sbjct: 181 ISKLTEEKTSATQQSQKLRLELEMLRKETS 210

[Close]

BLAST of Sgr018170 vs. ExPASy Swiss-Prot
Match: Q9SHC8 (Vesicle-associated protein 1-2 OS=Arabidopsis thaliana OX=3702 GN=PVA12 PE=1 SV=1)

HSP 1 Score: 214.9 bits (546), Expect = 1.6e-54
Identity = 112/208 (53.85%), Postives = 148/208 (71.15%), Query Frame = 0


Query: 14  TGDYINIQPTELKFPFELRKQSSCSLQLTNKTDKYVAFKVKTTNPKKYCVRPNAGIILPS 73
           + + + I P +L+FPFEL+KQ SCSL L NKTD YVAFKVKTTNPKKYCVRPN G++ P 
Sbjct: 2   SNELLTIDPVDLQFPFELKKQISCSLYLGNKTDNYVAFKVKTTNPKKYCVRPNTGVVHPR 61

Query: 74  SASNITVTMQAPKEAPCDMQCKDKFLIQSVVAPDGVASKDISPELFNKGDGKVVDEFKMR 133
           S+S + VTMQA KEAP D+QCKDKFL+Q VVA  G   KD++ E+F+K  G  V+E K+R
Sbjct: 62  SSSEVLVTMQAQKEAPADLQCKDKFLLQCVVASPGATPKDVTHEMFSKEAGHRVEETKLR 121

Query: 134 VVYIF-ANPPSPVPEGSEEGSPPRTTALEEGN-QNFALFDAVSRSLEEPKEKSSQAWSAV 193
           VVY+    PPSPV EGSEEGS PR +  + GN  +F      S    + ++ SS+A + V
Sbjct: 122 VVYVAPPRPPSPVREGSEEGSSPRASVSDNGNASDFTAAPRFSADRVDAQDNSSEARALV 181

Query: 194 SKLTEEKAAALQQNQKLRQELELVENKT 220
           +KLTEEK +A+Q N +L+QEL+ +  ++
Sbjct: 182 TKLTEEKNSAVQLNNRLQQELDQLRRES 209

[Close]

BLAST of Sgr018170 vs. ExPASy Swiss-Prot
Match: Q8VZ95 (Vesicle-associated protein 1-1 OS=Arabidopsis thaliana OX=3702 GN=PVA11 PE=1 SV=1)

HSP 1 Score: 213.8 bits (543), Expect = 3.6e-54
Identity = 108/210 (51.43%), Postives = 151/210 (71.90%), Query Frame = 0


Query: 12  MNTGDYINIQPTELKFPFELRKQSSCSLQLTNKTDKYVAFKVKTTNPKKYCVRPNAGIIL 71
           M+  + + ++P +L+FPFEL+KQ SCSL LTNKTD  VAFKVKTTNPKKYCVRPN G++L
Sbjct: 17  MSNSELLTVEPLDLQFPFELKKQISCSLYLTNKTDNNVAFKVKTTNPKKYCVRPNTGVVL 76

Query: 72  PSSASNITVTMQAPKEAPCDMQCKDKFLIQSVVAPDGVASKDISPELFNKGDGKVVDEFK 131
           P S   + VTMQA KEAP DMQCKDKFL+Q V+A  GV +K+++PE+F+K  G  V+E K
Sbjct: 77  PRSTCEVLVTMQAQKEAPSDMQCKDKFLLQGVIASPGVTAKEVTPEMFSKEAGHRVEETK 136

Query: 132 MRVVYIF-ANPPSPVPEGSEEGSPPRTTALEEGN-QNFALFDAVSRSLEEPKEKSSQAWS 191
           +RV Y+    PPSPV EGSEEGS PR +  + G+   F+    +  +    +E +S+A +
Sbjct: 137 LRVTYVAPPRPPSPVHEGSEEGSSPRASVSDNGHGSEFSFERFIVDNKAGHQENTSEARA 196

Query: 192 AVSKLTEEKAAALQQNQKLRQELELVENKT 220
            ++KLTEEK +A+Q N +L++EL+ +  ++
Sbjct: 197 LITKLTEEKQSAIQLNNRLQRELDQLRRES 226

[Close]

BLAST of Sgr018170 vs. ExPASy Swiss-Prot
Match: Q9SYC9 (Vesicle-associated protein 1-4 OS=Arabidopsis thaliana OX=3702 GN=PVA14 PE=2 SV=1)

HSP 1 Score: 161.4 bits (407), Expect = 2.1e-38
Identity = 99/253 (39.13%), Postives = 141/253 (55.73%), Query Frame = 0


Query: 20  IQPTELKFPFELRKQSSCSLQLTNKTDKYVAFKVKTTNPKKYCVRPNAGIILPSSASNIT 79
           I P +++FP EL K+ SCSL LTNKT+ YVAFK KTTN KKY VRPN G++LP S+  + 
Sbjct: 179 IDPVDVQFPIELNKKVSCSLNLTNKTENYVAFKAKTTNAKKYYVRPNVGVVLPRSSCEVL 238

Query: 80  VTMQAPKEAPCDMQCKDKFLIQSVVAPDGVASKDISPELFNKGDGKVVDEFKMRVVYIF- 139
           V MQA KEAP DMQC+DK L Q  V      +KD++ E+F+K  G   +E +++V+Y+  
Sbjct: 239 VIMQALKEAPADMQCRDKLLFQCKVVEPETTAKDVTSEMFSKEAGHPAEETRLKVMYVTP 298

Query: 140 ANPPSPVPEGSEEGSPPRTTALEEGNQNFALFDAVSRSLEEPKEKSSQAWSAVSKLTEEK 199
             PPSPV EG+EEGS PR +  + GN + A  D + RSL  P       +S  +  T++ 
Sbjct: 299 PQPPSPVQEGTEEGSSPRASVSDNGNASEAFVDML-RSLLVP------LFSNAASSTDDH 358

Query: 200 AAALQQNQ--------KLRQELE--LVENKTTVALSWYPSNAQLNSITVPILLDAKAVEE 259
              L Q Q        +LR      LV+      ++ +    +L    +  L   + +EE
Sbjct: 359 GITLPQYQVFINFRGDELRNSFVGFLVKAMRLEKINVFTDEVELRGTNLNYLF--RRIEE 418

Query: 260 QTVAIAFLGSGFS 262
             VA+A     ++
Sbjct: 419 SRVAVAIFSERYT 422

[Close]

BLAST of Sgr018170 vs. ExPASy Swiss-Prot
Match: O82213 (Vesicle-associated protein 3-1 OS=Arabidopsis thaliana OX=3702 GN=PVA31 PE=3 SV=1)

HSP 1 Score: 153.3 bits (386), Expect = 5.8e-36
Identity = 73/126 (57.94%), Postives = 93/126 (73.81%), Query Frame = 0


Query: 12  MNTGDYINIQPTELKFPFELRKQSSCSLQLTNKTDKYVAFKVKTTNPKKYCVRPNAGIIL 71
           M+  + + I+P  L+FPFEL+KQ SCSL LTNKTD  VAFKVKTTN   YCVRPN G+IL
Sbjct: 1   MSNNELLEIEPMYLQFPFELKKQMSCSLYLTNKTDNNVAFKVKTTNRNNYCVRPNYGLIL 60

Query: 72  PSSASNITVTMQAPKEAPCDMQCKDKFLIQSVVAPDGVASKDISPELFNKGDGKVVDEFK 131
           P S   + VTMQA KE P DMQ  +KF+IQSV+A  GV +K+++ E+F+K  G VV+E K
Sbjct: 61  PKSTCKVLVTMQAQKEVPSDMQSFEKFMIQSVLASPGVTAKEVTREMFSKESGHVVEETK 120

Query: 132 MRVVYI 138
           +RV Y+
Sbjct: 121 LRVTYV 126

[Close]

BLAST of Sgr018170 vs. ExPASy TrEMBL
Match: A0A1S3C7R5 (vesicle-associated protein 1-3 OS=Cucumis melo OX=3656 GN=LOC103497662 PE=4 SV=1)

HSP 1 Score: 372.9 bits (956), Expect = 1.7e-99
Identity = 189/209 (90.43%), Postives = 197/209 (94.26%), Query Frame = 0


Query: 12  MNTGDYINIQPTELKFPFELRKQSSCSLQLTNKTDKYVAFKVKTTNPKKYCVRPNAGIIL 71
           MNTGDYINIQP+ELKFPFELRKQSSCSLQLTNKTDKYVAFKVKTTNPKKYCVRPNAGIIL
Sbjct: 1   MNTGDYINIQPSELKFPFELRKQSSCSLQLTNKTDKYVAFKVKTTNPKKYCVRPNAGIIL 60

Query: 72  PSSASNITVTMQAPKEAPCDMQCKDKFLIQSVVAPDGVASKDISPELFNKGDGKVVDEFK 131
           PSSASNITVTMQAPKEAP DMQCKDKFLIQSVVAPDG  SKDIS ELFNKGDGKVVDEFK
Sbjct: 61  PSSASNITVTMQAPKEAPPDMQCKDKFLIQSVVAPDGTTSKDISAELFNKGDGKVVDEFK 120

Query: 132 MRVVYIFANPPSPVPEGSEEGSPPRTTALEEGNQNFALFDAVSRSLEEPKEKSSQAWSAV 191
           MRVVYIFANPPSPVPEGSEEGSPPRTT +++GNQNFALFDAVSRSLEEPKEKSSQAWS V
Sbjct: 121 MRVVYIFANPPSPVPEGSEEGSPPRTTGVDDGNQNFALFDAVSRSLEEPKEKSSQAWSNV 180

Query: 192 SKLTEEKAAALQQNQKLRQELELVENKTT 221
           SKLTEEK AAL +N KLRQELEL+  + +
Sbjct: 181 SKLTEEKDAALLKNHKLRQELELLRKEAS 209

[Close]

BLAST of Sgr018170 vs. ExPASy TrEMBL
Match: A0A6J1D081 (vesicle-associated protein 1-3 OS=Momordica charantia OX=3673 GN=LOC111016181 PE=4 SV=1)

HSP 1 Score: 372.5 bits (955), Expect = 2.2e-99
Identity = 186/208 (89.42%), Postives = 201/208 (96.63%), Query Frame = 0


Query: 12  MNTGDYINIQPTELKFPFELRKQSSCSLQLTNKTDKYVAFKVKTTNPKKYCVRPNAGIIL 71
           MNTG+YINIQP+ELKFPFE++KQSSCSLQLTNKT+KYVAFKVKTTNPKKYCVRPNAG+IL
Sbjct: 1   MNTGEYINIQPSELKFPFEVKKQSSCSLQLTNKTEKYVAFKVKTTNPKKYCVRPNAGVIL 60

Query: 72  PSSASNITVTMQAPKEAPCDMQCKDKFLIQSVVAPDGVASKDISPELFNKGDGKVVDEFK 131
           P+S SNITVTMQAPKE+P DMQCKDKFLIQSVVAPDGVASKDISPELFNKGDGK VDE+K
Sbjct: 61  PNSTSNITVTMQAPKESPPDMQCKDKFLIQSVVAPDGVASKDISPELFNKGDGKAVDEYK 120

Query: 132 MRVVYIFANPPSPVPEGSEEGSPPRTTALEEGNQNFALFDAVSRSLEEPKEKSSQAWSAV 191
           MRVVYIFANPPSPVPEGSEEGSPPRTT LE+GNQNFALFDAVSRSLEEPKEKSSQA SA+
Sbjct: 121 MRVVYIFANPPSPVPEGSEEGSPPRTTGLEDGNQNFALFDAVSRSLEEPKEKSSQASSAI 180

Query: 192 SKLTEEKAAALQQNQKLRQELELVENKT 220
           SKLTEEKAAALQQ+QKLRQELEL+  ++
Sbjct: 181 SKLTEEKAAALQQSQKLRQELELLRKES 208

[Close]

BLAST of Sgr018170 vs. ExPASy TrEMBL
Match: A0A6J1HNF1 (vesicle-associated protein 1-3-like OS=Cucurbita moschata OX=3662 GN=LOC111464514 PE=4 SV=1)

HSP 1 Score: 371.3 bits (952), Expect = 5.0e-99
Identity = 187/209 (89.47%), Postives = 198/209 (94.74%), Query Frame = 0


Query: 12  MNTGDYINIQPTELKFPFELRKQSSCSLQLTNKTDKYVAFKVKTTNPKKYCVRPNAGIIL 71
           MN+GDYINIQP+ELKF FEL+KQSSCSLQLTNKTDKYVAFKVKTTNPKKYCVRPNAGIIL
Sbjct: 1   MNSGDYINIQPSELKFAFELKKQSSCSLQLTNKTDKYVAFKVKTTNPKKYCVRPNAGIIL 60

Query: 72  PSSASNITVTMQAPKEAPCDMQCKDKFLIQSVVAPDGVASKDISPELFNKGDGKVVDEFK 131
           PSSASNITVTMQ PKEAP DMQCKDKFLIQSVVAPDG  SKDIS ELFNKGDGKVVDEFK
Sbjct: 61  PSSASNITVTMQGPKEAPPDMQCKDKFLIQSVVAPDGTTSKDISAELFNKGDGKVVDEFK 120

Query: 132 MRVVYIFANPPSPVPEGSEEGSPPRTTALEEGNQNFALFDAVSRSLEEPKEKSSQAWSAV 191
           MRVVY FANPPSPVPEGSEEGSPPRT A+++GNQNFALFDAVSRSLE+PKEKSSQ WSAV
Sbjct: 121 MRVVYSFANPPSPVPEGSEEGSPPRTAAVDDGNQNFALFDAVSRSLEDPKEKSSQTWSAV 180

Query: 192 SKLTEEKAAALQQNQKLRQELELVENKTT 221
           SKLTEEKAAALQQNQKLRQELEL+  +++
Sbjct: 181 SKLTEEKAAALQQNQKLRQELELLRKESS 209

[Close]

BLAST of Sgr018170 vs. ExPASy TrEMBL
Match: A0A0A0KDW5 (MSP domain-containing protein OS=Cucumis sativus OX=3659 GN=Csa_6G109670 PE=4 SV=1)

HSP 1 Score: 370.9 bits (951), Expect = 6.5e-99
Identity = 188/209 (89.95%), Postives = 197/209 (94.26%), Query Frame = 0


Query: 12  MNTGDYINIQPTELKFPFELRKQSSCSLQLTNKTDKYVAFKVKTTNPKKYCVRPNAGIIL 71
           MNTGDYINIQP+ELKFPFELRKQSSCSLQLTNKTDKYVAFKVKTTNPKKYCVRPNAGIIL
Sbjct: 1   MNTGDYINIQPSELKFPFELRKQSSCSLQLTNKTDKYVAFKVKTTNPKKYCVRPNAGIIL 60

Query: 72  PSSASNITVTMQAPKEAPCDMQCKDKFLIQSVVAPDGVASKDISPELFNKGDGKVVDEFK 131
           PSSASNITVTMQAPKEAP DMQCKDKFLIQSVVAPDG  SKDIS ELFNKGDGKVVDEFK
Sbjct: 61  PSSASNITVTMQAPKEAPPDMQCKDKFLIQSVVAPDGTTSKDISAELFNKGDGKVVDEFK 120

Query: 132 MRVVYIFANPPSPVPEGSEEGSPPRTTALEEGNQNFALFDAVSRSLEEPKEKSSQAWSAV 191
           MRVVYIFANPPSPVPEGSEEGSPPRTT +++G+QNFALFDAVSRSLEEPKEKSSQAWS V
Sbjct: 121 MRVVYIFANPPSPVPEGSEEGSPPRTTGVDDGSQNFALFDAVSRSLEEPKEKSSQAWSNV 180

Query: 192 SKLTEEKAAALQQNQKLRQELELVENKTT 221
           SKLTEEK AAL +N KLRQELEL+  + +
Sbjct: 181 SKLTEEKDAALLKNHKLRQELELLRKEAS 209

[Close]

BLAST of Sgr018170 vs. ExPASy TrEMBL
Match: A0A6J1KIV3 (vesicle-associated protein 1-3-like isoform X2 OS=Cucurbita maxima OX=3661 GN=LOC111494368 PE=4 SV=1)

HSP 1 Score: 365.5 bits (937), Expect = 2.7e-97
Identity = 183/209 (87.56%), Postives = 196/209 (93.78%), Query Frame = 0


Query: 12  MNTGDYINIQPTELKFPFELRKQSSCSLQLTNKTDKYVAFKVKTTNPKKYCVRPNAGIIL 71
           MN+GDYINIQP+ELKF FEL+KQ+SCSLQLTNKTDKYVAFKVKTTNPKKYCVRPNAGIIL
Sbjct: 1   MNSGDYINIQPSELKFAFELKKQTSCSLQLTNKTDKYVAFKVKTTNPKKYCVRPNAGIIL 60

Query: 72  PSSASNITVTMQAPKEAPCDMQCKDKFLIQSVVAPDGVASKDISPELFNKGDGKVVDEFK 131
           PSSAS+ITVTMQ PKEAP DMQCKDKFLIQSVVAPDG  SKDIS ELFNKGDGKVVDEFK
Sbjct: 61  PSSASHITVTMQGPKEAPPDMQCKDKFLIQSVVAPDGTTSKDISAELFNKGDGKVVDEFK 120

Query: 132 MRVVYIFANPPSPVPEGSEEGSPPRTTALEEGNQNFALFDAVSRSLEEPKEKSSQAWSAV 191
           MRVVY FANPPSPVPEGSEEGSPPRT A+++GNQNFALFDAVSRSLE+PKEKSSQ WS V
Sbjct: 121 MRVVYTFANPPSPVPEGSEEGSPPRTAAVDDGNQNFALFDAVSRSLEDPKEKSSQTWSTV 180

Query: 192 SKLTEEKAAALQQNQKLRQELELVENKTT 221
           SKLTEEK AALQQNQKLRQELEL+  +++
Sbjct: 181 SKLTEEKVAALQQNQKLRQELELLRKESS 209

[Close]

BLAST of Sgr018170 vs. TAIR 10
Match: AT4G00170.1 (Plant VAMP (vesicle-associated membrane protein) family protein )

HSP 1 Score: 278.5 bits (711), Expect = 8.4e-75
Identity = 137/210 (65.24%), Postives = 171/210 (81.43%), Query Frame = 0


Query: 12  MNTGDYINIQPTELKFPFELRKQSSCSLQLTNK-TDKYVAFKVKTTNPKKYCVRPNAGII 71
           M TGD +NI PTELKFPFEL+KQSSCS+QLTNK T + VAFKVKTTNP+KYCVRPN G++
Sbjct: 1   MTTGDLVNIHPTELKFPFELKKQSSCSMQLTNKTTTQCVAFKVKTTNPRKYCVRPNTGVV 60

Query: 72  LPSSASNITVTMQAPKEAPCDMQCKDKFLIQSVVAPDGVASKDISPELFNKGDGKVVDEF 131
           LP  + N+TVTMQA KEAP DMQCKDKFL+Q+VV  DG  SK++  E+FNK  G+V+++F
Sbjct: 61  LPGDSCNVTVTMQAQKEAPLDMQCKDKFLVQTVVVSDGTTSKEVLAEMFNKEAGRVIEDF 120

Query: 132 KMRVVYIFANPPSPVPEGSEEGSPPRTTALEEGNQNFALFDAVSRSLEEPKEKSSQAWSA 191
           K+RVVYI ANPPSPVPEGSEEG+ P  +  +  +Q+ +LFD VSR+ EE  EKSS+AWS 
Sbjct: 121 KLRVVYIPANPPSPVPEGSEEGNSPMASLNDIASQSASLFDDVSRTFEETSEKSSEAWSM 180

Query: 192 VSKLTEEKAAALQQNQKLRQELELVENKTT 221
           +SKLTEEK +A QQ+QKLR ELE++  +T+
Sbjct: 181 ISKLTEEKTSATQQSQKLRLELEMLRKETS 210

[Close]

BLAST of Sgr018170 vs. TAIR 10
Match: AT2G45140.1 (plant VAP homolog 12 )

HSP 1 Score: 214.9 bits (546), Expect = 1.1e-55
Identity = 112/208 (53.85%), Postives = 148/208 (71.15%), Query Frame = 0


Query: 14  TGDYINIQPTELKFPFELRKQSSCSLQLTNKTDKYVAFKVKTTNPKKYCVRPNAGIILPS 73
           + + + I P +L+FPFEL+KQ SCSL L NKTD YVAFKVKTTNPKKYCVRPN G++ P 
Sbjct: 2   SNELLTIDPVDLQFPFELKKQISCSLYLGNKTDNYVAFKVKTTNPKKYCVRPNTGVVHPR 61

Query: 74  SASNITVTMQAPKEAPCDMQCKDKFLIQSVVAPDGVASKDISPELFNKGDGKVVDEFKMR 133
           S+S + VTMQA KEAP D+QCKDKFL+Q VVA  G   KD++ E+F+K  G  V+E K+R
Sbjct: 62  SSSEVLVTMQAQKEAPADLQCKDKFLLQCVVASPGATPKDVTHEMFSKEAGHRVEETKLR 121

Query: 134 VVYIF-ANPPSPVPEGSEEGSPPRTTALEEGN-QNFALFDAVSRSLEEPKEKSSQAWSAV 193
           VVY+    PPSPV EGSEEGS PR +  + GN  +F      S    + ++ SS+A + V
Sbjct: 122 VVYVAPPRPPSPVREGSEEGSSPRASVSDNGNASDFTAAPRFSADRVDAQDNSSEARALV 181

Query: 194 SKLTEEKAAALQQNQKLRQELELVENKT 220
           +KLTEEK +A+Q N +L+QEL+ +  ++
Sbjct: 182 TKLTEEKNSAVQLNNRLQQELDQLRRES 209

[Close]

BLAST of Sgr018170 vs. TAIR 10
Match: AT3G60600.1 (vesicle associated protein )

HSP 1 Score: 213.8 bits (543), Expect = 2.6e-55
Identity = 108/210 (51.43%), Postives = 151/210 (71.90%), Query Frame = 0


Query: 12  MNTGDYINIQPTELKFPFELRKQSSCSLQLTNKTDKYVAFKVKTTNPKKYCVRPNAGIIL 71
           M+  + + ++P +L+FPFEL+KQ SCSL LTNKTD  VAFKVKTTNPKKYCVRPN G++L
Sbjct: 17  MSNSELLTVEPLDLQFPFELKKQISCSLYLTNKTDNNVAFKVKTTNPKKYCVRPNTGVVL 76

Query: 72  PSSASNITVTMQAPKEAPCDMQCKDKFLIQSVVAPDGVASKDISPELFNKGDGKVVDEFK 131
           P S   + VTMQA KEAP DMQCKDKFL+Q V+A  GV +K+++PE+F+K  G  V+E K
Sbjct: 77  PRSTCEVLVTMQAQKEAPSDMQCKDKFLLQGVIASPGVTAKEVTPEMFSKEAGHRVEETK 136

Query: 132 MRVVYIF-ANPPSPVPEGSEEGSPPRTTALEEGN-QNFALFDAVSRSLEEPKEKSSQAWS 191
           +RV Y+    PPSPV EGSEEGS PR +  + G+   F+    +  +    +E +S+A +
Sbjct: 137 LRVTYVAPPRPPSPVHEGSEEGSSPRASVSDNGHGSEFSFERFIVDNKAGHQENTSEARA 196

Query: 192 AVSKLTEEKAAALQQNQKLRQELELVENKT 220
            ++KLTEEK +A+Q N +L++EL+ +  ++
Sbjct: 197 LITKLTEEKQSAIQLNNRLQRELDQLRRES 226

[Close]

BLAST of Sgr018170 vs. TAIR 10
Match: AT3G60600.3 (vesicle associated protein )

HSP 1 Score: 196.8 bits (499), Expect = 3.2e-50
Identity = 94/161 (58.39%), Postives = 121/161 (75.16%), Query Frame = 0


Query: 12  MNTGDYINIQPTELKFPFELRKQSSCSLQLTNKTDKYVAFKVKTTNPKKYCVRPNAGIIL 71
           M+  + + ++P +L+FPFEL+KQ SCSL LTNKTD  VAFKVKTTNPKKYCVRPN G++L
Sbjct: 17  MSNSELLTVEPLDLQFPFELKKQISCSLYLTNKTDNNVAFKVKTTNPKKYCVRPNTGVVL 76

Query: 72  PSSASNITVTMQAPKEAPCDMQCKDKFLIQSVVAPDGVASKDISPELFNKGDGKVVDEFK 131
           P S   + VTMQA KEAP DMQCKDKFL+Q V+A  GV +K+++PE+F+K  G  V+E K
Sbjct: 77  PRSTCEVLVTMQAQKEAPSDMQCKDKFLLQGVIASPGVTAKEVTPEMFSKEAGHRVEETK 136

Query: 132 MRVVYIF-ANPPSPVPEGSEEGSPPRTTALEEGN-QNFALF 171
           +RV Y+    PPSPV EGSEEGS PR +  + G+   F++F
Sbjct: 137 LRVTYVAPPRPPSPVHEGSEEGSSPRASVSDNGHGSEFSIF 177

[Close]

BLAST of Sgr018170 vs. TAIR 10
Match: AT3G60600.2 (vesicle associated protein )

HSP 1 Score: 195.3 bits (495), Expect = 9.4e-50
Identity = 92/154 (59.74%), Postives = 117/154 (75.97%), Query Frame = 0


Query: 12  MNTGDYINIQPTELKFPFELRKQSSCSLQLTNKTDKYVAFKVKTTNPKKYCVRPNAGIIL 71
           M+  + + ++P +L+FPFEL+KQ SCSL LTNKTD  VAFKVKTTNPKKYCVRPN G++L
Sbjct: 17  MSNSELLTVEPLDLQFPFELKKQISCSLYLTNKTDNNVAFKVKTTNPKKYCVRPNTGVVL 76

Query: 72  PSSASNITVTMQAPKEAPCDMQCKDKFLIQSVVAPDGVASKDISPELFNKGDGKVVDEFK 131
           P S   + VTMQA KEAP DMQCKDKFL+Q V+A  GV +K+++PE+F+K  G  V+E K
Sbjct: 77  PRSTCEVLVTMQAQKEAPSDMQCKDKFLLQGVIASPGVTAKEVTPEMFSKEAGHRVEETK 136

Query: 132 MRVVYIF-ANPPSPVPEGSEEGSPPRTTALEEGN 165
           +RV Y+    PPSPV EGSEEGS PR +  + G+
Sbjct: 137 LRVTYVAPPRPPSPVHEGSEEGSSPRASVSDNGH 170

The following BLAST results are available for this feature:

BLAST of Sgr018170 vs. NCBI nr


Match Name	E-value	Identity	Description
XP_038874796.1	4.2e-100	90.91	vesicle-associated protein 1-3 [Benincasa hispida]	[more]
XP_008458137.1	3.5e-99	90.43	PREDICTED: vesicle-associated protein 1-3 [Cucumis melo]	[more]
XP_022147169.1	4.6e-99	89.42	vesicle-associated protein 1-3 [Momordica charantia]	[more]
XP_023515012.1	1.0e-98	89.47	vesicle-associated protein 1-3-like [Cucurbita pepo subsp. pepo]	[more]
XP_022964509.1	1.0e-98	89.47	vesicle-associated protein 1-3-like [Cucurbita moschata]	[more]

BLAST of Sgr018170 vs. ExPASy Swiss-Prot


Match Name	E-value	Identity	Description
Q84WW5	1.2e-73	65.24	Vesicle-associated protein 1-3 OS=Arabidopsis thaliana OX=3702 GN=PVA13 PE=2 SV=...	[more]
Q9SHC8	1.6e-54	53.85	Vesicle-associated protein 1-2 OS=Arabidopsis thaliana OX=3702 GN=PVA12 PE=1 SV=...	[more]
Q8VZ95	3.6e-54	51.43	Vesicle-associated protein 1-1 OS=Arabidopsis thaliana OX=3702 GN=PVA11 PE=1 SV=...	[more]
Q9SYC9	2.1e-38	39.13	Vesicle-associated protein 1-4 OS=Arabidopsis thaliana OX=3702 GN=PVA14 PE=2 SV=...	[more]
O82213	5.8e-36	57.94	Vesicle-associated protein 3-1 OS=Arabidopsis thaliana OX=3702 GN=PVA31 PE=3 SV=...	[more]

BLAST of Sgr018170 vs. ExPASy TrEMBL


Match Name	E-value	Identity	Description
A0A1S3C7R5	1.7e-99	90.43	vesicle-associated protein 1-3 OS=Cucumis melo OX=3656 GN=LOC103497662 PE=4 SV=1	[more]
A0A6J1D081	2.2e-99	89.42	vesicle-associated protein 1-3 OS=Momordica charantia OX=3673 GN=LOC111016181 PE...	[more]
A0A6J1HNF1	5.0e-99	89.47	vesicle-associated protein 1-3-like OS=Cucurbita moschata OX=3662 GN=LOC11146451...	[more]
A0A0A0KDW5	6.5e-99	89.95	MSP domain-containing protein OS=Cucumis sativus OX=3659 GN=Csa_6G109670 PE=4 SV...	[more]
A0A6J1KIV3	2.7e-97	87.56	vesicle-associated protein 1-3-like isoform X2 OS=Cucurbita maxima OX=3661 GN=LO...	[more]

BLAST of Sgr018170 vs. TAIR 10


Match Name	E-value	Identity	Description
AT4G00170.1	8.4e-75	65.24	Plant VAMP (vesicle-associated membrane protein) family protein	[more]
AT2G45140.1	1.1e-55	53.85	plant VAP homolog 12	[more]
AT3G60600.1	2.6e-55	51.43	vesicle associated protein	[more]
AT3G60600.3	3.2e-50	58.39	vesicle associated protein	[more]
AT3G60600.2	9.4e-50	59.74	vesicle associated protein	[more]

InterPro

Analysis Name: InterPro Annotations of Monk fruit (Qingpiguo) v1
Date Performed: 2022-08-01

Position :

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IPR Term	IPR Description	Source	Source Term	Source Description	Alignment
None	No IPR available	COILS	Coil	Coil	coord: 191..218
None	No IPR available	PANTHER	PTHR10809:SF111	VESICLE-ASSOCIATED PROTEIN 1-3	coord: 12..219
IPR000535	Major sperm protein (MSP) domain	PFAM	PF00635	Motile_Sperm	coord: 18..114 e-value: 4.2E-32 score: 110.2
IPR000535	Major sperm protein (MSP) domain	PROSITE	PS50202	MSP	coord: 17..137 score: 31.301514
IPR013783	Immunoglobulin-like fold	GENE3D	2.60.40.10	Immunoglobulins	coord: 12..139 e-value: 6.5E-44 score: 150.9
IPR016763	Vesicle-associated membrane-protein-associated protein	PANTHER	PTHR10809	VESICLE-ASSOCIATED MEMBRANE PROTEIN-ASSOCIATED PROTEIN	coord: 12..219
IPR008962	PapD-like superfamily	SUPERFAMILY	49354	PapD-like	coord: 5..149

Relationships

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


Feature Name	Unique Name	Type
Sgr018170.1	Sgr018170.1	mRNA

GO Annotation

GO Assignments

This gene is annotated with the following GO terms.

Category	Term Accession	Term Name
biological_process	GO:0090158	endoplasmic reticulum membrane organization
biological_process	GO:0061817	endoplasmic reticulum-plasma membrane tethering
cellular_component	GO:0005789	endoplasmic reticulum membrane
cellular_component	GO:0016021	integral component of membrane
cellular_component	GO:0005886	plasma membrane