Sgr012505 (gene) Monk fruit (Qingpiguo) v1

Overview
NameSgr012505
Typegene
OrganismSiraitia grosvenorii (Monk fruit (Qingpiguo) v1)
DescriptionGPI-anchor transamidase family protein
Locationtig00153424: 21261 .. 32340 (+)
RNA-Seq ExpressionSgr012505
SyntenySgr012505
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

ATGGGTTTAAGTAAAACTGAAATCAACTTGAAGCGGCTGCTGGCAGCCGCCCCTCATCAAAAGGATCAGGCCAAACTAATACACTATGTTACTACTTTAAGAGAACAGTTGGAGCAACTTGCAGAAGAGAAAACACCTGAAGGCTTACCAAGAGTCTCAAAGGCTTTGCTTGGCGATTATTCAGACAAGATAGAGGCTATTGCTTCAAAATTAGCTGCTCCTTTGGCTGATGTTCAAGACTGTTCTGAGCCCTCTACAAGTACTTCTGTTAGAGAATTTTCTTCTATAGCGGAAGGAGAACTAAACACCCTTTCATCTCCAGGATTGAGGAGGAGATTTCAGCCTCCCTCTGACTTGGAGGATAGATCTCATGGCACCATCAAGGAAGACTCATCAGCGCCTGTCAAGTTGGATGCTGAAGCAATATCACACATTGAGAAACACAGGAAGCTTCAAGAGGACTTGACTGATGAAATGGTTGGGTTAGCGAAGCAGCTGAAAGAGAGCAGTTTGATGATGAGCAAGTCTTTGGAGAGCACAGAAAAGATATTGGATTCCACAGAAAACGCAGTTGAAGATAGCTTGGCAACCACTGGCCGGGTTAACAAACGTGCTGTAGAGATTTACTCGGAGAGCTCCAAAACTTCATGCTTCACTTGGTTGGCGATCTTTGAGCGAGATCCATTGCTTCGTGCCGGGATTAGGCTGCCCAGCTACAACAAATTGAGCCCTGCGATCGCACTAAATTCGAATCTCTCTCTCTCTGCTTTATTGGGCGCCCCCCACGTAGACAACTTTCAAGCACCGCAGGCTTTCGCACAGTGTCTCTCGATTAAGTTCTACGATGGTTTTACCTCTGATTCTGATTCTGGGTCTCGGTTATATGGGCAACTGTATGGCTTATGGTTCAATTATCGGCACATGGCTAATACACTATCCTTGTATAGGACTGTAAAACGGCTAGGAATACCTGATGAGAGGATTATACTTATGTTGGCGGATGACATAGCCTGCAATGCTCGAAACAAGTACCCTGCAAAAGTGTTCAACAATGAAAATCACAAAATCAACTTGTATGGAGATAATGTTGAGGCTGATTATCGAGGTTATGAGGTCACGGTTGAAAATTTCTTAAGGGTATTGACTGGACGCCATGAGGCTGCTGTTCCAAGATCAAAACGCTTGTTAAGTGACGAAGGAAGCCATATTCTTCTATACATGACAGGACATGGAGGAGATGAATTTTTGAAGTTTCAGGACTCTGAAGAGCTCCAGAGTCATGATTTAGCTGATGCTGTGAAACAAATGAAAGAAAAACATAGATTTAAGGAGCTGCTGATAATGGTTGATACTTGCCAAGCTGCTACTCTCTTCAATCAGCTTCATTCCCCAGGCGTTTTAGCCATTGGAAGTAGTAAGAAAGGAGAGAACTCATATTCACATCACTTGGACCCTGATGTTGGTGTTTCTGTTGTTGACCGTTTCACCTATTACACGCTAGCCTTCTTTGAGAGGTTAAATATGTATGATAATACTTCATTAATCAGACTGATTAGCAATGGTAAAGTGTGGGCATTTATGGGGAAGAGGGGGAGGAAGAAGTCCTGGGGGAAAGATTTTAAAATTAAAGGAACTGATGTTAAGAATTCCCGAGGTAAAAGTTGGAAATGGATAGAGGGTTCAATTCCGAGAAGACGTTTGGCGTTGGCTGTCAAGTTTCCAAGATTTCATAGGGAGGTGGAGCCAAAATTCAGTTTTGTTAGTGAAATATGGGATTCAAGTACAAATGGTTGGAATCTTACTGCAAGGAGTTTGAAGGAAAGAAGAGAAAAGTGA

Coding sequence (CDS)

ATGGGTTTAAGTAAAACTGAAATCAACTTGAAGCGGCTGCTGGCAGCCGCCCCTCATCAAAAGGATCAGGCCAAACTAATACACTATGTTACTACTTTAAGAGAACAGTTGGAGCAACTTGCAGAAGAGAAAACACCTGAAGGCTTACCAAGAGTCTCAAAGGCTTTGCTTGGCGATTATTCAGACAAGATAGAGGCTATTGCTTCAAAATTAGCTGCTCCTTTGGCTGATGTTCAAGACTGTTCTGAGCCCTCTACAAGTACTTCTGTTAGAGAATTTTCTTCTATAGCGGAAGGAGAACTAAACACCCTTTCATCTCCAGGATTGAGGAGGAGATTTCAGCCTCCCTCTGACTTGGAGGATAGATCTCATGGCACCATCAAGGAAGACTCATCAGCGCCTGTCAAGTTGGATGCTGAAGCAATATCACACATTGAGAAACACAGGAAGCTTCAAGAGGACTTGACTGATGAAATGGTTGGGTTAGCGAAGCAGCTGAAAGAGAGCAGTTTGATGATGAGCAAGTCTTTGGAGAGCACAGAAAAGATATTGGATTCCACAGAAAACGCAGTTGAAGATAGCTTGGCAACCACTGGCCGGGTTAACAAACGTGCTGTAGAGATTTACTCGGAGAGCTCCAAAACTTCATGCTTCACTTGGTTGGCGATCTTTGAGCGAGATCCATTGCTTCGTGCCGGGATTAGGCTGCCCAGCTACAACAAATTGAGCCCTGCGATCGCACTAAATTCGAATCTCTCTCTCTCTGCTTTATTGGGCGCCCCCCACGTAGACAACTTTCAAGCACCGCAGGCTTTCGCACAGTGTCTCTCGATTAAGTTCTACGATGGTTTTACCTCTGATTCTGATTCTGGGTCTCGGTTATATGGGCAACTGTATGGCTTATGGTTCAATTATCGGCACATGGCTAATACACTATCCTTGTATAGGACTGTAAAACGGCTAGGAATACCTGATGAGAGGATTATACTTATGTTGGCGGATGACATAGCCTGCAATGCTCGAAACAAGTACCCTGCAAAAGTGTTCAACAATGAAAATCACAAAATCAACTTGTATGGAGATAATGTTGAGGCTGATTATCGAGGTTATGAGGTCACGGTTGAAAATTTCTTAAGGGTATTGACTGGACGCCATGAGGCTGCTGTTCCAAGATCAAAACGCTTGTTAAGTGACGAAGGAAGCCATATTCTTCTATACATGACAGGACATGGAGGAGATGAATTTTTGAAGTTTCAGGACTCTGAAGAGCTCCAGAGTCATGATTTAGCTGATGCTGTGAAACAAATGAAAGAAAAACATAGATTTAAGGAGCTGCTGATAATGGTTGATACTTGCCAAGCTGCTACTCTCTTCAATCAGCTTCATTCCCCAGGCGTTTTAGCCATTGGAAGTAGTAAGAAAGGAGAGAACTCATATTCACATCACTTGGACCCTGATGTTGGTGTTTCTGTTGTTGACCGTTTCACCTATTACACGCTAGCCTTCTTTGAGAGGTTAAATATGTATGATAATACTTCATTAATCAGACTGATTAGCAATGGTAAAGTGTGGGCATTTATGGGGAAGAGGGGGAGGAAGAAGTCCTGGGGGAAAGATTTTAAAATTAAAGGAACTGATGTTAAGAATTCCCGAGGTAAAAGTTGGAAATGGATAGAGGGTTCAATTCCGAGAAGACGTTTGGCGTTGGCTGTCAAGTTTCCAAGATTTCATAGGGAGGTGGAGCCAAAATTCAGTTTTGTTAGTGAAATATGGGATTCAAGTACAAATGGTTGGAATCTTACTGCAAGGAGTTTGAAGGAAAGAAGAGAAAAGTGA

Protein sequence

MGLSKTEINLKRLLAAAPHQKDQAKLIHYVTTLREQLEQLAEEKTPEGLPRVSKALLGDYSDKIEAIASKLAAPLADVQDCSEPSTSTSVREFSSIAEGELNTLSSPGLRRRFQPPSDLEDRSHGTIKEDSSAPVKLDAEAISHIEKHRKLQEDLTDEMVGLAKQLKESSLMMSKSLESTEKILDSTENAVEDSLATTGRVNKRAVEIYSESSKTSCFTWLAIFERDPLLRAGIRLPSYNKLSPAIALNSNLSLSALLGAPHVDNFQAPQAFAQCLSIKFYDGFTSDSDSGSRLYGQLYGLWFNYRHMANTLSLYRTVKRLGIPDERIILMLADDIACNARNKYPAKVFNNENHKINLYGDNVEADYRGYEVTVENFLRVLTGRHEAAVPRSKRLLSDEGSHILLYMTGHGGDEFLKFQDSEELQSHDLADAVKQMKEKHRFKELLIMVDTCQAATLFNQLHSPGVLAIGSSKKGENSYSHHLDPDVGVSVVDRFTYYTLAFFERLNMYDNTSLIRLISNGKVWAFMGKRGRKKSWGKDFKIKGTDVKNSRGKSWKWIEGSIPRRRLALAVKFPRFHREVEPKFSFVSEIWDSSTNGWNLTARSLKERREK
Homology
[Close]
BLAST of Sgr012505 vs. NCBI nr
Match: XP_023534783.1 (putative GPI-anchor transamidase [Cucurbita pepo subsp. pepo])

HSP 1 Score: 436.8 bits (1122), Expect = 3.1e-118
Identity = 213/219 (97.26%), Postives = 214/219 (97.72%), Query Frame = 0 

Query: 302 WFNYRHMANTLSLYRTVKRLGIPDERIILMLADDIACNARNKYPAKVFNNENHKINLYGD 361
           WFNYRHMANTLSLYRTVKRLGIPDERIILMLADDIACN RNKYPAKVFNNENHKINLYGD
Sbjct: 53  WFNYRHMANTLSLYRTVKRLGIPDERIILMLADDIACNPRNKYPAKVFNNENHKINLYGD 112

Query: 362 NVEADYRGYEVTVENFLRVLTGRHEAAVPRSKRLLSDEGSHILLYMTGHGGDEFLKFQDS 421
           NVE DYRGYEVTVENFLRVLTGRHE AVPRSKRLLSDEGSHILLYMTGHGGDEFLKFQDS
Sbjct: 113 NVEVDYRGYEVTVENFLRVLTGRHEVAVPRSKRLLSDEGSHILLYMTGHGGDEFLKFQDS 172

Query: 422 EELQSHDLADAVKQMKEKHRFKELLIMVDTCQAATLFNQLHSPGVLAIGSSKKGENSYSH 481
           EELQSHDLADAVKQMKEKHRFKELLIMVDTCQAATLFNQLHSPGVLAIGSSKKGENSYSH
Sbjct: 173 EELQSHDLADAVKQMKEKHRFKELLIMVDTCQAATLFNQLHSPGVLAIGSSKKGENSYSH 232

Query: 482 HLDPDVGVSVVDRFTYYTLAFFERLNMYDNTSLIRLISN 521
           HLDPDVGVSVVDRFTYYTLAFFERLNMYDNTSLI L S+
Sbjct: 233 HLDPDVGVSVVDRFTYYTLAFFERLNMYDNTSLISLFSS 271

[Close]
BLAST of Sgr012505 vs. NCBI nr
Match: XP_004142526.1 (GPI-anchor transamidase [Cucumis sativus] >KGN66792.1 hypothetical protein Csa_007570 [Cucumis sativus])

HSP 1 Score: 435.6 bits (1119), Expect = 6.8e-118
Identity = 212/219 (96.80%), Postives = 215/219 (98.17%), Query Frame = 0 

Query: 302 WFNYRHMANTLSLYRTVKRLGIPDERIILMLADDIACNARNKYPAKVFNNENHKINLYGD 361
           WFNYRHMANTLSLYRTVKRLGIPDERIILMLADDIACN RNKYPA+VFNNENHKINLYGD
Sbjct: 51  WFNYRHMANTLSLYRTVKRLGIPDERIILMLADDIACNPRNKYPAEVFNNENHKINLYGD 110

Query: 362 NVEADYRGYEVTVENFLRVLTGRHEAAVPRSKRLLSDEGSHILLYMTGHGGDEFLKFQDS 421
           NVE DYRGYEVTVENFLRVLTGRHEAAVPRSKRLLSDEGSHILLYMTGHGGDEFLKFQDS
Sbjct: 111 NVEVDYRGYEVTVENFLRVLTGRHEAAVPRSKRLLSDEGSHILLYMTGHGGDEFLKFQDS 170

Query: 422 EELQSHDLADAVKQMKEKHRFKELLIMVDTCQAATLFNQLHSPGVLAIGSSKKGENSYSH 481
           EELQSHDLADAVKQMKEKHRFKELLIMVDTCQAATLFNQLHSPGVLAIGSSKKGENSYSH
Sbjct: 171 EELQSHDLADAVKQMKEKHRFKELLIMVDTCQAATLFNQLHSPGVLAIGSSKKGENSYSH 230

Query: 482 HLDPDVGVSVVDRFTYYTLAFFERLNMYDNTSLIRLISN 521
           HLDPDVGVSVVDRFTYYTLAFFERLNMYDNTSLI L ++
Sbjct: 231 HLDPDVGVSVVDRFTYYTLAFFERLNMYDNTSLISLFNS 269

[Close]
BLAST of Sgr012505 vs. NCBI nr
Match: XP_038878815.1 (putative GPI-anchor transamidase [Benincasa hispida])

HSP 1 Score: 435.3 bits (1118), Expect = 8.9e-118
Identity = 212/219 (96.80%), Postives = 214/219 (97.72%), Query Frame = 0 

Query: 302 WFNYRHMANTLSLYRTVKRLGIPDERIILMLADDIACNARNKYPAKVFNNENHKINLYGD 361
           WFNYRHMANTLSLYRTVKRLGIPDERIILMLADDIACN RNKYPA+VFNNENHKINLYGD
Sbjct: 51  WFNYRHMANTLSLYRTVKRLGIPDERIILMLADDIACNPRNKYPAEVFNNENHKINLYGD 110

Query: 362 NVEADYRGYEVTVENFLRVLTGRHEAAVPRSKRLLSDEGSHILLYMTGHGGDEFLKFQDS 421
           NVE DYRGYEVTVENFLRVLTGRHE AVPRSKRLLSDEGSHILLYMTGHGGDEFLKFQDS
Sbjct: 111 NVEVDYRGYEVTVENFLRVLTGRHEVAVPRSKRLLSDEGSHILLYMTGHGGDEFLKFQDS 170

Query: 422 EELQSHDLADAVKQMKEKHRFKELLIMVDTCQAATLFNQLHSPGVLAIGSSKKGENSYSH 481
           EELQSHDLADAVKQMKEKHRFKELLIMVDTCQAATLFNQLHSPGVLAIGSSKKGENSYSH
Sbjct: 171 EELQSHDLADAVKQMKEKHRFKELLIMVDTCQAATLFNQLHSPGVLAIGSSKKGENSYSH 230

Query: 482 HLDPDVGVSVVDRFTYYTLAFFERLNMYDNTSLIRLISN 521
           HLDPDVGVSVVDRFTYYTLAFFERLNMYDNTSLI L S+
Sbjct: 231 HLDPDVGVSVVDRFTYYTLAFFERLNMYDNTSLISLFSS 269

[Close]
BLAST of Sgr012505 vs. NCBI nr
Match: XP_022988142.1 (putative GPI-anchor transamidase [Cucurbita maxima])

HSP 1 Score: 434.9 bits (1117), Expect = 1.2e-117
Identity = 212/219 (96.80%), Postives = 213/219 (97.26%), Query Frame = 0 

Query: 302 WFNYRHMANTLSLYRTVKRLGIPDERIILMLADDIACNARNKYPAKVFNNENHKINLYGD 361
           WFNYRHMANTLSLYRTVKRLGIPDERIILMLADDIACN RNKYPAKVFNNENHKINLYGD
Sbjct: 53  WFNYRHMANTLSLYRTVKRLGIPDERIILMLADDIACNPRNKYPAKVFNNENHKINLYGD 112

Query: 362 NVEADYRGYEVTVENFLRVLTGRHEAAVPRSKRLLSDEGSHILLYMTGHGGDEFLKFQDS 421
           NVE DYRGYEVTVENFLRVL GRHE AVPRSKRLLSDEGSHILLYMTGHGGDEFLKFQDS
Sbjct: 113 NVEVDYRGYEVTVENFLRVLAGRHEVAVPRSKRLLSDEGSHILLYMTGHGGDEFLKFQDS 172

Query: 422 EELQSHDLADAVKQMKEKHRFKELLIMVDTCQAATLFNQLHSPGVLAIGSSKKGENSYSH 481
           EELQSHDLADAVKQMKEKHRFKELLIMVDTCQAATLFNQLHSPGVLAIGSSKKGENSYSH
Sbjct: 173 EELQSHDLADAVKQMKEKHRFKELLIMVDTCQAATLFNQLHSPGVLAIGSSKKGENSYSH 232

Query: 482 HLDPDVGVSVVDRFTYYTLAFFERLNMYDNTSLIRLISN 521
           HLDPDVGVSVVDRFTYYTLAFFERLNMYDNTSLI L S+
Sbjct: 233 HLDPDVGVSVVDRFTYYTLAFFERLNMYDNTSLISLFSS 271

[Close]
BLAST of Sgr012505 vs. NCBI nr
Match: KAG7033435.1 (GPI8 [Cucurbita argyrosperma subsp. argyrosperma])

HSP 1 Score: 434.5 bits (1116), Expect = 1.5e-117
Identity = 212/219 (96.80%), Postives = 213/219 (97.26%), Query Frame = 0 

Query: 302 WFNYRHMANTLSLYRTVKRLGIPDERIILMLADDIACNARNKYPAKVFNNENHKINLYGD 361
           WFNYRHMANTLSLYRTVKRLGIPDERIILMLADDIACN RNKYPAKVFNNENHKINLYGD
Sbjct: 53  WFNYRHMANTLSLYRTVKRLGIPDERIILMLADDIACNPRNKYPAKVFNNENHKINLYGD 112

Query: 362 NVEADYRGYEVTVENFLRVLTGRHEAAVPRSKRLLSDEGSHILLYMTGHGGDEFLKFQDS 421
           NVE DYRGYEVTVENFLRVLTGRHE AVPRSKRLLSDEGSHILLYMTGHGGDEFLKFQDS
Sbjct: 113 NVEVDYRGYEVTVENFLRVLTGRHEVAVPRSKRLLSDEGSHILLYMTGHGGDEFLKFQDS 172

Query: 422 EELQSHDLADAVKQMKEKHRFKELLIMVDTCQAATLFNQLHSPGVLAIGSSKKGENSYSH 481
           EELQSHDLADAVKQMKEKHRFKELLIMVDTCQAATLFNQLHSPGVLAIGSSKKGENSYSH
Sbjct: 173 EELQSHDLADAVKQMKEKHRFKELLIMVDTCQAATLFNQLHSPGVLAIGSSKKGENSYSH 232

Query: 482 HLDPDVGVSVVDRFTYYTLAFFERLNMYDNTSLIRLISN 521
           HLDPDVGVSVVDRFTYYTLAFFERLNMYDN SLI L S+
Sbjct: 233 HLDPDVGVSVVDRFTYYTLAFFERLNMYDNISLISLFSS 271

[Close]
BLAST of Sgr012505 vs. ExPASy Swiss-Prot
Match: P49018 (GPI-anchor transamidase OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) OX=559292 GN=GPI8 PE=1 SV=1)

HSP 1 Score: 298.1 bits (762), Expect = 2.2e-79
Identity = 134/213 (62.91%), Postives = 175/213 (82.16%), Query Frame = 0 

Query: 302 WFNYRHMANTLSLYRTVKRLGIPDERIILMLADDIACNARNKYPAKVFNNENHKINLYGD 361
           WFNYRHMAN LS+YRTVKRLGIPD +IILML+DD+ACN+RN +P  VFNN++H I+LYGD
Sbjct: 49  WFNYRHMANVLSMYRTVKRLGIPDSQIILMLSDDVACNSRNLFPGSVFNNKDHAIDLYGD 108

Query: 362 NVEADYRGYEVTVENFLRVLTGRHEAAVPRSKRLLSDEGSHILLYMTGHGGDEFLKFQDS 421
           +VE DYRGYEVTVENF+R+LT R     P+SKRLL+DE S+I +YMTGHGGD+FLKFQD+
Sbjct: 109 SVEVDYRGYEVTVENFIRLLTDRWTEDHPKSKRLLTDENSNIFIYMTGHGGDDFLKFQDA 168

Query: 422 EELQSHDLADAVKQMKEKHRFKELLIMVDTCQAATLFNQLHSPGVLAIGSSKKGENSYSH 481
           EE+ S D+ADA +QM EK R+ E+  M+DTCQA T++++ +SP +LA+GSS+  E+SYSH
Sbjct: 169 EEIASEDIADAFQQMYEKKRYNEIFFMIDTCQANTMYSKFYSPNILAVGSSEMDESSYSH 228

Query: 482 HLDPDVGVSVVDRFTYYTLAFFERLNMYDNTSL 515
           H D ++GV+V+DRFTYY L F E+++     +L
Sbjct: 229 HSDVEIGVAVIDRFTYYCLDFLEQIDKNSTLTL 261

[Close]
BLAST of Sgr012505 vs. ExPASy Swiss-Prot
Match: Q8T4E1 (Putative GPI-anchor transamidase OS=Drosophila melanogaster OX=7227 GN=PIG-K PE=2 SV=1)

HSP 1 Score: 292.4 bits (747), Expect = 1.2e-77
Identity = 133/213 (62.44%), Postives = 171/213 (80.28%), Query Frame = 0 

Query: 302 WFNYRHMANTLSLYRTVKRLGIPDERIILMLADDIACNARNKYPAKVFNNENHKINLYGD 361
           WFNYRH+AN LS+YR+VKRLGIPD +IILM+ADD+ACNARN  P +V+NN N  IN+YGD
Sbjct: 57  WFNYRHVANVLSIYRSVKRLGIPDSQIILMIADDMACNARNPRPGQVYNNANQHINVYGD 116

Query: 362 NVEADYRGYEVTVENFLRVLTGRHEAAVPRSKRLLSDEGSHILLYMTGHGGDEFLKFQDS 421
           +VE DYRGYEVTVENF+R+LTGR +    RSK+LLSD GS++L+Y+TGHGGD FLKFQDS
Sbjct: 117 DVEVDYRGYEVTVENFVRLLTGRTQNGTARSKKLLSDAGSNVLIYLTGHGGDGFLKFQDS 176

Query: 422 EELQSHDLADAVKQMKEKHRFKELLIMVDTCQAATLFNQLHSPGVLAIGSSKKGENSYSH 481
           EE+ S +LAD ++QM EK R+ EL  MVDTCQAA+L+ +  SP VLA+ SS  GE+S SH
Sbjct: 177 EEITSQELADGIQQMWEKKRYNELFFMVDTCQAASLYEKFTSPNVLAVASSLVGEDSLSH 236

Query: 482 HLDPDVGVSVVDRFTYYTLAFFERLNMYDNTSL 515
           H+DP +GV ++DR+TYY L F E++  +   ++
Sbjct: 237 HVDPSIGVYMIDRYTYYALEFLEKVQPFSKRTI 269

[Close]
BLAST of Sgr012505 vs. ExPASy Swiss-Prot
Match: Q9CXY9 (GPI-anchor transamidase OS=Mus musculus OX=10090 GN=Pigk PE=1 SV=2)

HSP 1 Score: 283.5 bits (724), Expect = 5.7e-75
Identity = 130/213 (61.03%), Postives = 173/213 (81.22%), Query Frame = 0 

Query: 302 WFNYRHMANTLSLYRTVKRLGIPDERIILMLADDIACNARNKYPAKVFNNENHKINLYGD 361
           WFNYRH+ANTLS+YR+VKRLGIPD  I+LMLADD+ACNARN  PA VF+++N ++N+YGD
Sbjct: 56  WFNYRHVANTLSVYRSVKRLGIPDSHIVLMLADDMACNARNPKPATVFSHKNMELNVYGD 115

Query: 362 NVEADYRGYEVTVENFLRVLTGRHEAAVPRSKRLLSDEGSHILLYMTGHGGDEFLKFQDS 421
           +VE DYR YEVTVENFLRVLTGR   + PRSKRLLSD+ S+IL+YMTGHGG+ FLKFQDS
Sbjct: 116 DVEVDYRSYEVTVENFLRVLTGRVPPSTPRSKRLLSDDRSNILIYMTGHGGNGFLKFQDS 175

Query: 422 EELQSHDLADAVKQMKEKHRFKELLIMVDTCQAATLFNQLHSPGVLAIGSSKKGENSYSH 481
           EE+ + +LADA +QM +K R+ ELL ++DTCQ A+++ + +SP ++A+ SS+ GE+S SH
Sbjct: 176 EEITNIELADAFEQMWQKRRYNELLFIIDTCQGASMYERFYSPNIMALASSQVGEDSLSH 235

Query: 482 HLDPDVGVSVVDRFTYYTLAFFERLNMYDNTSL 515
             DP +GV ++DR+T+Y L F E +N    T++
Sbjct: 236 QPDPAIGVHLMDRYTFYVLEFLEEINPASQTNM 268

[Close]
BLAST of Sgr012505 vs. ExPASy Swiss-Prot
Match: Q3MHZ7 (GPI-anchor transamidase OS=Bos taurus OX=9913 GN=PIGK PE=2 SV=1)

HSP 1 Score: 281.6 bits (719), Expect = 2.2e-74
Identity = 129/213 (60.56%), Postives = 173/213 (81.22%), Query Frame = 0 

Query: 302 WFNYRHMANTLSLYRTVKRLGIPDERIILMLADDIACNARNKYPAKVFNNENHKINLYGD 361
           WFNYRH+ANTLS+YR+VKRLGIPD  I+LMLADD+ACN RN  PA V++++N ++N+YGD
Sbjct: 56  WFNYRHVANTLSVYRSVKRLGIPDSHIVLMLADDMACNPRNPKPATVYSHKNMELNVYGD 115

Query: 362 NVEADYRGYEVTVENFLRVLTGRHEAAVPRSKRLLSDEGSHILLYMTGHGGDEFLKFQDS 421
           +VE DYR YEVTVENFLRVLTGR  ++ PRSKRLLSD+ S+IL+YMTGHGG+ FLKFQDS
Sbjct: 116 DVEVDYRSYEVTVENFLRVLTGRIPSSTPRSKRLLSDDRSNILIYMTGHGGNGFLKFQDS 175

Query: 422 EELQSHDLADAVKQMKEKHRFKELLIMVDTCQAATLFNQLHSPGVLAIGSSKKGENSYSH 481
           EE+ + +LADA +QM +K R+ ELL ++DTCQ A+++ + +SP ++A+ SS+ GE+S SH
Sbjct: 176 EEITNIELADAFEQMWQKRRYNELLFIIDTCQGASMYERFYSPNIMALASSQVGEDSLSH 235

Query: 482 HLDPDVGVSVVDRFTYYTLAFFERLNMYDNTSL 515
             DP VGV ++DR+T+Y L F E +N    T++
Sbjct: 236 QPDPAVGVHLMDRYTFYVLEFLEEINPASQTNM 268

[Close]
BLAST of Sgr012505 vs. ExPASy Swiss-Prot
Match: Q92643 (GPI-anchor transamidase OS=Homo sapiens OX=9606 GN=PIGK PE=1 SV=2)

HSP 1 Score: 281.6 bits (719), Expect = 2.2e-74
Identity = 129/213 (60.56%), Postives = 172/213 (80.75%), Query Frame = 0 

Query: 302 WFNYRHMANTLSLYRTVKRLGIPDERIILMLADDIACNARNKYPAKVFNNENHKINLYGD 361
           WFNYRH+ANTLS+YR+VKRLGIPD  I+LMLADD+ACN RN  PA VF+++N ++N+YGD
Sbjct: 56  WFNYRHVANTLSVYRSVKRLGIPDSHIVLMLADDMACNPRNPKPATVFSHKNMELNVYGD 115

Query: 362 NVEADYRGYEVTVENFLRVLTGRHEAAVPRSKRLLSDEGSHILLYMTGHGGDEFLKFQDS 421
           +VE DYR YEVTVENFLRVLTGR   + PRSKRLLSD+ S+IL+YMTGHGG+ FLKFQDS
Sbjct: 116 DVEVDYRSYEVTVENFLRVLTGRIPPSTPRSKRLLSDDRSNILIYMTGHGGNGFLKFQDS 175

Query: 422 EELQSHDLADAVKQMKEKHRFKELLIMVDTCQAATLFNQLHSPGVLAIGSSKKGENSYSH 481
           EE+ + +LADA +QM +K R+ ELL ++DTCQ A+++ + +SP ++A+ SS+ GE+S SH
Sbjct: 176 EEITNIELADAFEQMWQKRRYNELLFIIDTCQGASMYERFYSPNIMALASSQVGEDSLSH 235

Query: 482 HLDPDVGVSVVDRFTYYTLAFFERLNMYDNTSL 515
             DP +GV ++DR+T+Y L F E +N    T++
Sbjct: 236 QPDPAIGVHLMDRYTFYVLEFLEEINPASQTNM 268

[Close]
BLAST of Sgr012505 vs. ExPASy TrEMBL
Match: A0A0A0M0Z0 (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_1G690290 PE=3 SV=1)

HSP 1 Score: 435.6 bits (1119), Expect = 3.3e-118
Identity = 212/219 (96.80%), Postives = 215/219 (98.17%), Query Frame = 0 

Query: 302 WFNYRHMANTLSLYRTVKRLGIPDERIILMLADDIACNARNKYPAKVFNNENHKINLYGD 361
           WFNYRHMANTLSLYRTVKRLGIPDERIILMLADDIACN RNKYPA+VFNNENHKINLYGD
Sbjct: 51  WFNYRHMANTLSLYRTVKRLGIPDERIILMLADDIACNPRNKYPAEVFNNENHKINLYGD 110

Query: 362 NVEADYRGYEVTVENFLRVLTGRHEAAVPRSKRLLSDEGSHILLYMTGHGGDEFLKFQDS 421
           NVE DYRGYEVTVENFLRVLTGRHEAAVPRSKRLLSDEGSHILLYMTGHGGDEFLKFQDS
Sbjct: 111 NVEVDYRGYEVTVENFLRVLTGRHEAAVPRSKRLLSDEGSHILLYMTGHGGDEFLKFQDS 170

Query: 422 EELQSHDLADAVKQMKEKHRFKELLIMVDTCQAATLFNQLHSPGVLAIGSSKKGENSYSH 481
           EELQSHDLADAVKQMKEKHRFKELLIMVDTCQAATLFNQLHSPGVLAIGSSKKGENSYSH
Sbjct: 171 EELQSHDLADAVKQMKEKHRFKELLIMVDTCQAATLFNQLHSPGVLAIGSSKKGENSYSH 230

Query: 482 HLDPDVGVSVVDRFTYYTLAFFERLNMYDNTSLIRLISN 521
           HLDPDVGVSVVDRFTYYTLAFFERLNMYDNTSLI L ++
Sbjct: 231 HLDPDVGVSVVDRFTYYTLAFFERLNMYDNTSLISLFNS 269

[Close]
BLAST of Sgr012505 vs. ExPASy TrEMBL
Match: A0A6J1JC91 (putative GPI-anchor transamidase OS=Cucurbita maxima OX=3661 GN=LOC111485473 PE=3 SV=1)

HSP 1 Score: 434.9 bits (1117), Expect = 5.6e-118
Identity = 212/219 (96.80%), Postives = 213/219 (97.26%), Query Frame = 0 

Query: 302 WFNYRHMANTLSLYRTVKRLGIPDERIILMLADDIACNARNKYPAKVFNNENHKINLYGD 361
           WFNYRHMANTLSLYRTVKRLGIPDERIILMLADDIACN RNKYPAKVFNNENHKINLYGD
Sbjct: 53  WFNYRHMANTLSLYRTVKRLGIPDERIILMLADDIACNPRNKYPAKVFNNENHKINLYGD 112

Query: 362 NVEADYRGYEVTVENFLRVLTGRHEAAVPRSKRLLSDEGSHILLYMTGHGGDEFLKFQDS 421
           NVE DYRGYEVTVENFLRVL GRHE AVPRSKRLLSDEGSHILLYMTGHGGDEFLKFQDS
Sbjct: 113 NVEVDYRGYEVTVENFLRVLAGRHEVAVPRSKRLLSDEGSHILLYMTGHGGDEFLKFQDS 172

Query: 422 EELQSHDLADAVKQMKEKHRFKELLIMVDTCQAATLFNQLHSPGVLAIGSSKKGENSYSH 481
           EELQSHDLADAVKQMKEKHRFKELLIMVDTCQAATLFNQLHSPGVLAIGSSKKGENSYSH
Sbjct: 173 EELQSHDLADAVKQMKEKHRFKELLIMVDTCQAATLFNQLHSPGVLAIGSSKKGENSYSH 232

Query: 482 HLDPDVGVSVVDRFTYYTLAFFERLNMYDNTSLIRLISN 521
           HLDPDVGVSVVDRFTYYTLAFFERLNMYDNTSLI L S+
Sbjct: 233 HLDPDVGVSVVDRFTYYTLAFFERLNMYDNTSLISLFSS 271

[Close]
BLAST of Sgr012505 vs. ExPASy TrEMBL
Match: A0A6J1H9N5 (putative GPI-anchor transamidase OS=Cucurbita moschata OX=3662 GN=LOC111461778 PE=3 SV=1)

HSP 1 Score: 434.5 bits (1116), Expect = 7.4e-118
Identity = 212/219 (96.80%), Postives = 213/219 (97.26%), Query Frame = 0 

Query: 302 WFNYRHMANTLSLYRTVKRLGIPDERIILMLADDIACNARNKYPAKVFNNENHKINLYGD 361
           WFNYRHMANTLSLYRTVKRLGIPDERIILMLADDIACN RNKYPAKVFNNENHKINLYGD
Sbjct: 53  WFNYRHMANTLSLYRTVKRLGIPDERIILMLADDIACNPRNKYPAKVFNNENHKINLYGD 112

Query: 362 NVEADYRGYEVTVENFLRVLTGRHEAAVPRSKRLLSDEGSHILLYMTGHGGDEFLKFQDS 421
           NVE DYRGYEVTVENFLRVLTGRHE AVPRSKRLLSDEGSHILLYMTGHGGDEFLKFQDS
Sbjct: 113 NVEVDYRGYEVTVENFLRVLTGRHEVAVPRSKRLLSDEGSHILLYMTGHGGDEFLKFQDS 172

Query: 422 EELQSHDLADAVKQMKEKHRFKELLIMVDTCQAATLFNQLHSPGVLAIGSSKKGENSYSH 481
           EELQSHDLADAVKQMKEKHRFKELLIMVDTCQAATLFNQLHSPGVLAIGSSKKGENSYSH
Sbjct: 173 EELQSHDLADAVKQMKEKHRFKELLIMVDTCQAATLFNQLHSPGVLAIGSSKKGENSYSH 232

Query: 482 HLDPDVGVSVVDRFTYYTLAFFERLNMYDNTSLIRLISN 521
           HLDPDVGVSVVDRFTYYTLAFFERLNMYDN SLI L S+
Sbjct: 233 HLDPDVGVSVVDRFTYYTLAFFERLNMYDNISLISLFSS 271

[Close]
BLAST of Sgr012505 vs. ExPASy TrEMBL
Match: A0A6J1E111 (putative GPI-anchor transamidase isoform X1 OS=Momordica charantia OX=3673 GN=LOC111024963 PE=3 SV=1)

HSP 1 Score: 433.3 bits (1113), Expect = 1.6e-117
Identity = 212/216 (98.15%), Postives = 212/216 (98.15%), Query Frame = 0 

Query: 302 WFNYRHMANTLSLYRTVKRLGIPDERIILMLADDIACNARNKYPAKVFNNENHKINLYGD 361
           WFNYRHMANTLSLYRTVKRLGIPDERIILMLADDIACNARNKYPAKVFNNEN KINLYGD
Sbjct: 73  WFNYRHMANTLSLYRTVKRLGIPDERIILMLADDIACNARNKYPAKVFNNENQKINLYGD 132

Query: 362 NVEADYRGYEVTVENFLRVLTGRHEAAVPRSKRLLSDEGSHILLYMTGHGGDEFLKFQDS 421
           NVE DYRGYEVTVENFLRVLTGRHE AVPRSKRLLSDEGSHILLYMTGHGGDEFLKFQDS
Sbjct: 133 NVEVDYRGYEVTVENFLRVLTGRHEVAVPRSKRLLSDEGSHILLYMTGHGGDEFLKFQDS 192

Query: 422 EELQSHDLADAVKQMKEKHRFKELLIMVDTCQAATLFNQLHSPGVLAIGSSKKGENSYSH 481
           EELQSHDLADAVKQMKEKHRFKELLIMVDTCQAATLFNQLHSPGVLAIGSSKKGENSYSH
Sbjct: 193 EELQSHDLADAVKQMKEKHRFKELLIMVDTCQAATLFNQLHSPGVLAIGSSKKGENSYSH 252

Query: 482 HLDPDVGVSVVDRFTYYTLAFFERLNMYDNTSLIRL 518
           HLDPDVGVSVVDRFTYYTLAFFERLNMYDNTSLI L
Sbjct: 253 HLDPDVGVSVVDRFTYYTLAFFERLNMYDNTSLISL 288

[Close]
BLAST of Sgr012505 vs. ExPASy TrEMBL
Match: A0A6J1DXC4 (putative GPI-anchor transamidase isoform X2 OS=Momordica charantia OX=3673 GN=LOC111024963 PE=3 SV=1)

HSP 1 Score: 433.3 bits (1113), Expect = 1.6e-117
Identity = 212/216 (98.15%), Postives = 212/216 (98.15%), Query Frame = 0 

Query: 302 WFNYRHMANTLSLYRTVKRLGIPDERIILMLADDIACNARNKYPAKVFNNENHKINLYGD 361
           WFNYRHMANTLSLYRTVKRLGIPDERIILMLADDIACNARNKYPAKVFNNEN KINLYGD
Sbjct: 73  WFNYRHMANTLSLYRTVKRLGIPDERIILMLADDIACNARNKYPAKVFNNENQKINLYGD 132

Query: 362 NVEADYRGYEVTVENFLRVLTGRHEAAVPRSKRLLSDEGSHILLYMTGHGGDEFLKFQDS 421
           NVE DYRGYEVTVENFLRVLTGRHE AVPRSKRLLSDEGSHILLYMTGHGGDEFLKFQDS
Sbjct: 133 NVEVDYRGYEVTVENFLRVLTGRHEVAVPRSKRLLSDEGSHILLYMTGHGGDEFLKFQDS 192

Query: 422 EELQSHDLADAVKQMKEKHRFKELLIMVDTCQAATLFNQLHSPGVLAIGSSKKGENSYSH 481
           EELQSHDLADAVKQMKEKHRFKELLIMVDTCQAATLFNQLHSPGVLAIGSSKKGENSYSH
Sbjct: 193 EELQSHDLADAVKQMKEKHRFKELLIMVDTCQAATLFNQLHSPGVLAIGSSKKGENSYSH 252

Query: 482 HLDPDVGVSVVDRFTYYTLAFFERLNMYDNTSLIRL 518
           HLDPDVGVSVVDRFTYYTLAFFERLNMYDNTSLI L
Sbjct: 253 HLDPDVGVSVVDRFTYYTLAFFERLNMYDNTSLISL 288

[Close]
BLAST of Sgr012505 vs. TAIR 10
Match: AT1G08750.1 (Peptidase C13 family )

HSP 1 Score: 410.2 bits (1053), Expect = 2.9e-114
Identity = 198/213 (92.96%), Postives = 206/213 (96.71%), Query Frame = 0 

Query: 302 WFNYRHMANTLSLYRTVKRLGIPDERIILMLADDIACNARNKYPAKVFNNENHKINLYGD 361
           WFNYRHMANTLSLYRTVKRLGIPDERIILMLADD+ACNARN+YPA+VFNNENHK+NLYGD
Sbjct: 38  WFNYRHMANTLSLYRTVKRLGIPDERIILMLADDMACNARNEYPAQVFNNENHKLNLYGD 97

Query: 362 NVEADYRGYEVTVENFLRVLTGRHEAAVPRSKRLLSDEGSHILLYMTGHGGDEFLKFQDS 421
           NVE DYRGYEVTVENFLRVLTGRHE AVPRSKRLLSDEGSHILLYMTGHGGDEFLKFQD+
Sbjct: 98  NVEVDYRGYEVTVENFLRVLTGRHENAVPRSKRLLSDEGSHILLYMTGHGGDEFLKFQDA 157

Query: 422 EELQSHDLADAVKQMKEKHRFKELLIMVDTCQAATLFNQLHSPGVLAIGSSKKGENSYSH 481
           EELQSHDLADAVKQMKEK RFKEL+IMVDTCQAATLFNQL SPGVLAIGSS KGENSYSH
Sbjct: 158 EELQSHDLADAVKQMKEKRRFKELMIMVDTCQAATLFNQLQSPGVLAIGSSLKGENSYSH 217

Query: 482 HLDPDVGVSVVDRFTYYTLAFFERLNMYDNTSL 515
           HLD D+GVSVVDRFTYYTLAFFERLN+YDN SL
Sbjct: 218 HLDSDIGVSVVDRFTYYTLAFFERLNIYDNASL 250

[Close]
BLAST of Sgr012505 vs. TAIR 10
Match: AT1G08750.2 (Peptidase C13 family )

HSP 1 Score: 410.2 bits (1053), Expect = 2.9e-114
Identity = 198/213 (92.96%), Postives = 206/213 (96.71%), Query Frame = 0 

Query: 302 WFNYRHMANTLSLYRTVKRLGIPDERIILMLADDIACNARNKYPAKVFNNENHKINLYGD 361
           WFNYRHMANTLSLYRTVKRLGIPDERIILMLADD+ACNARN+YPA+VFNNENHK+NLYGD
Sbjct: 38  WFNYRHMANTLSLYRTVKRLGIPDERIILMLADDMACNARNEYPAQVFNNENHKLNLYGD 97

Query: 362 NVEADYRGYEVTVENFLRVLTGRHEAAVPRSKRLLSDEGSHILLYMTGHGGDEFLKFQDS 421
           NVE DYRGYEVTVENFLRVLTGRHE AVPRSKRLLSDEGSHILLYMTGHGGDEFLKFQD+
Sbjct: 98  NVEVDYRGYEVTVENFLRVLTGRHENAVPRSKRLLSDEGSHILLYMTGHGGDEFLKFQDA 157

Query: 422 EELQSHDLADAVKQMKEKHRFKELLIMVDTCQAATLFNQLHSPGVLAIGSSKKGENSYSH 481
           EELQSHDLADAVKQMKEK RFKEL+IMVDTCQAATLFNQL SPGVLAIGSS KGENSYSH
Sbjct: 158 EELQSHDLADAVKQMKEKRRFKELMIMVDTCQAATLFNQLQSPGVLAIGSSLKGENSYSH 217

Query: 482 HLDPDVGVSVVDRFTYYTLAFFERLNMYDNTSL 515
           HLD D+GVSVVDRFTYYTLAFFERLN+YDN SL
Sbjct: 218 HLDSDIGVSVVDRFTYYTLAFFERLNIYDNASL 250

[Close]
BLAST of Sgr012505 vs. TAIR 10
Match: AT1G08750.3 (Peptidase C13 family )

HSP 1 Score: 410.2 bits (1053), Expect = 2.9e-114
Identity = 198/213 (92.96%), Postives = 206/213 (96.71%), Query Frame = 0 

Query: 302 WFNYRHMANTLSLYRTVKRLGIPDERIILMLADDIACNARNKYPAKVFNNENHKINLYGD 361
           WFNYRHMANTLSLYRTVKRLGIPDERIILMLADD+ACNARN+YPA+VFNNENHK+NLYGD
Sbjct: 38  WFNYRHMANTLSLYRTVKRLGIPDERIILMLADDMACNARNEYPAQVFNNENHKLNLYGD 97

Query: 362 NVEADYRGYEVTVENFLRVLTGRHEAAVPRSKRLLSDEGSHILLYMTGHGGDEFLKFQDS 421
           NVE DYRGYEVTVENFLRVLTGRHE AVPRSKRLLSDEGSHILLYMTGHGGDEFLKFQD+
Sbjct: 98  NVEVDYRGYEVTVENFLRVLTGRHENAVPRSKRLLSDEGSHILLYMTGHGGDEFLKFQDA 157

Query: 422 EELQSHDLADAVKQMKEKHRFKELLIMVDTCQAATLFNQLHSPGVLAIGSSKKGENSYSH 481
           EELQSHDLADAVKQMKEK RFKEL+IMVDTCQAATLFNQL SPGVLAIGSS KGENSYSH
Sbjct: 158 EELQSHDLADAVKQMKEKRRFKELMIMVDTCQAATLFNQLQSPGVLAIGSSLKGENSYSH 217

Query: 482 HLDPDVGVSVVDRFTYYTLAFFERLNMYDNTSL 515
           HLD D+GVSVVDRFTYYTLAFFERLN+YDN SL
Sbjct: 218 HLDSDIGVSVVDRFTYYTLAFFERLNIYDNASL 250

[Close]
BLAST of Sgr012505 vs. TAIR 10
Match: AT3G55600.1 (Membrane fusion protein Use1 )

HSP 1 Score: 240.7 bits (613), Expect = 3.0e-63
Identity = 133/224 (59.38%), Postives = 169/224 (75.45%), Query Frame = 0 

Query: 1   MGLSKTEINLKRLLAAAPHQKDQAKLIHYVTTLREQLEQLAEEKTPEGLPRVSKALLGDY 60
           MG+SKTEINL+RLL+AAP+Q++Q+KL+HYV TLREQLEQL+EEKTPEGLPRV+KA + +Y
Sbjct: 2   MGISKTEINLRRLLSAAPNQQNQSKLMHYVATLREQLEQLSEEKTPEGLPRVTKAKVNEY 61

Query: 61  SDKIEAIASKLAAPLADVQDCSEPSTSTSVREFSSIAEGELNTLSSPGLRRRFQPPSDLE 120
            +KIEA+ASK+A+   + +   EP    S    S   E E  + +SP LRRR  P S  +
Sbjct: 62  YEKIEAVASKIASQEPETEVSDEPFAKDSTSGSSPKIEDEPRSPTSPQLRRRIVPASS-K 121

Query: 121 DRSHGTIKEDSSAPVKLDAEAISHIEKHRKLQEDLTDEMVGLAKQLKESSLMMSKSLEST 180
           ++S      DSS P+KLD  A +HI+KHRKLQEDLTDEMV LA+QLKE S  +S+S+++T
Sbjct: 122 EQSFDAADADSSKPIKLDTAAQAHIDKHRKLQEDLTDEMVVLARQLKERSQAISQSVQNT 181

Query: 181 EKILDSTENAVEDSLATTGRVNKRAVEIYSESSKTSCFTWLAIF 225
           EKILDSTE A+E SLA+TG    RA +IYS+SSKTSCF WL IF
Sbjct: 182 EKILDSTEEAIEQSLASTGHATTRATKIYSQSSKTSCFQWLLIF 224

[Close]
BLAST of Sgr012505 vs. TAIR 10
Match: AT1G54110.1 (Membrane fusion protein Use1 )

HSP 1 Score: 218.4 bits (555), Expect = 1.6e-56
Identity = 123/223 (55.16%), Postives = 156/223 (69.96%), Query Frame = 0 

Query: 1   MGLSKTEINLKRLLAAAPHQKDQAKLIHYVTTLREQLEQLAEEKTPEGLPRVSKALLGDY 60
           MG+ KTEIN  RLL+AAP+Q++Q+KL+HYV TLREQLEQL+EEKT EGLPRV+ A + +Y
Sbjct: 1   MGIGKTEINFMRLLSAAPNQQNQSKLMHYVATLREQLEQLSEEKTLEGLPRVTNAKVNEY 60

Query: 61  SDKIEAIASKLAAPLADVQDCSEPSTSTSVREFSSIAEGELNTLSSPGLRRRFQPPSDLE 120
            +KIEA+ S++ A +   +   E     S  + S   E +  T +SP LRRR  P S  E
Sbjct: 61  YEKIEAVVSRIVAQVPHTEVSDEAFAKDSTNDSSPKVEDDTRTPNSPQLRRRIVPASSKE 120

Query: 121 DRSHGTIKEDSSAPVKLDAEAISHIEKHRKLQEDLTDEMVGLAKQLKESSLMMSKSLEST 180
                +   D S P+KLD  A + + K RKLQEDLTDEMV LA+QLKE S M+S+S+++T
Sbjct: 121 Q----SYDADPSKPIKLDTAAQAQVNKQRKLQEDLTDEMVVLARQLKERSQMISQSVQNT 180

Query: 181 EKILDSTENAVEDSLATTGRVNKRAVEIYSESSKTSCFTWLAI 224
           EKILDSTE A+E SLA+TG    RA +IYSESSKTSCF WL I
Sbjct: 181 EKILDSTEEAIEQSLASTGHATVRATKIYSESSKTSCFQWLLI 219

The following BLAST results are available for this feature:
BLAST of Sgr012505 vs. NCBI nr
Match NameE-valueIdentityDescription
XP_023534783.13.1e-11897.26putative GPI-anchor transamidase [Cucurbita pepo subsp. pepo][more]
XP_004142526.16.8e-11896.80GPI-anchor transamidase [Cucumis sativus] >KGN66792.1 hypothetical protein Csa_0... [more]
XP_038878815.18.9e-11896.80putative GPI-anchor transamidase [Benincasa hispida][more]
XP_022988142.11.2e-11796.80putative GPI-anchor transamidase [Cucurbita maxima][more]
KAG7033435.11.5e-11796.80GPI8 [Cucurbita argyrosperma subsp. argyrosperma][more]
BLAST of Sgr012505 vs. ExPASy Swiss-Prot
Match NameE-valueIdentityDescription
P490182.2e-7962.91GPI-anchor transamidase OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c)... [more]
Q8T4E11.2e-7762.44Putative GPI-anchor transamidase OS=Drosophila melanogaster OX=7227 GN=PIG-K PE=... [more]
Q9CXY95.7e-7561.03GPI-anchor transamidase OS=Mus musculus OX=10090 GN=Pigk PE=1 SV=2[more]
Q3MHZ72.2e-7460.56GPI-anchor transamidase OS=Bos taurus OX=9913 GN=PIGK PE=2 SV=1[more]
Q926432.2e-7460.56GPI-anchor transamidase OS=Homo sapiens OX=9606 GN=PIGK PE=1 SV=2[more]
BLAST of Sgr012505 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
A0A0A0M0Z03.3e-11896.80Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_1G690290 PE=3 SV=1[more]
A0A6J1JC915.6e-11896.80putative GPI-anchor transamidase OS=Cucurbita maxima OX=3661 GN=LOC111485473 PE=... [more]
A0A6J1H9N57.4e-11896.80putative GPI-anchor transamidase OS=Cucurbita moschata OX=3662 GN=LOC111461778 P... [more]
A0A6J1E1111.6e-11798.15putative GPI-anchor transamidase isoform X1 OS=Momordica charantia OX=3673 GN=LO... [more]
A0A6J1DXC41.6e-11798.15putative GPI-anchor transamidase isoform X2 OS=Momordica charantia OX=3673 GN=LO... [more]
BLAST of Sgr012505 vs. TAIR 10
Match NameE-valueIdentityDescription
AT1G08750.12.9e-11492.96Peptidase C13 family [more]
AT1G08750.22.9e-11492.96Peptidase C13 family [more]
AT1G08750.32.9e-11492.96Peptidase C13 family [more]
AT3G55600.13.0e-6359.38Membrane fusion protein Use1 [more]
AT1G54110.11.6e-5655.16Membrane fusion protein Use1 [more]
InterPro
Analysis Name: InterPro Annotations of Monk fruit (Qingpiguo) v1
Date Performed: 2022-08-01
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
IPR001096Peptidase C13, legumainPRINTSPR00776HEMOGLOBNASEcoord: 366..381
score: 62.23
coord: 317..346
score: 45.36
coord: 292..316
score: 27.48
coord: 442..458
score: 31.2
coord: 393..412
score: 45.43
IPR001096Peptidase C13, legumainPFAMPF01650Peptidase_C13coord: 302..505
e-value: 7.2E-41
score: 140.4
NoneNo IPR availableGENE3D3.40.50.1460coord: 299..529
e-value: 2.3E-88
score: 298.2
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 104..133
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 114..133
NoneNo IPR availableCDDcd15860SNARE_USE1coord: 148..204
e-value: 2.88489E-14
score: 65.6636
IPR019150Vesicle transport protein, Use1PFAMPF09753Use1coord: 5..224
e-value: 8.8E-47
score: 159.9
IPR028361GPI-anchor transamidasePANTHERPTHR48067GPI-ANCHOR TRANSAMIDASEcoord: 301..520

Relationships

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

Feature NameUnique NameType
Sgr012505.1Sgr012505.1mRNA


GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0016255 attachment of GPI anchor to protein
biological_process GO:0006508 proteolysis
cellular_component GO:0042765 GPI-anchor transamidase complex
molecular_function GO:0003923 GPI-anchor transamidase activity
molecular_function GO:0008233 peptidase activity