Spg021405 (gene) Sponge gourd (cylindrica) v1

Overview
NameSpg021405
Typegene
OrganismLuffa cylindrica (Sponge gourd (cylindrica) v1)
DescriptionS-adenosyl-L-methionine-dependent methyltransferases superfamily protein
Locationscaffold4: 553152 .. 562841 (+)
RNA-Seq ExpressionSpg021405
SyntenySpg021405
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

ATGGTAAGAGATTTTCTCCTTAAATATGGAGAACCAGAGTATTCCGAGTTGGATTTCTCTGCTCAGATTGAGAAAGTTGATACGACTCAGGAAGATGTGGTGAAATCCTTTGAGATTTCTTCCATTTGGGTCATGGAAGATGAAAGTCTCTTTTTACCTAACGAAGATGATTTGGTGATGGCTATCGAGGATTCAAAGGTCCCCTTGATGTATGATAAGAATTTTAATTCAAATGTTCCTGATTTGTTAAAAGGCATTTCTTTGGATGGGCATGCAGATGTTAATGGGGGTTTTATGGTGTCTCCTCTGCAATCGAAGCCAAGTGGACGTCAGTTTATTCATGTGCCCATGGAATCTTCCAAGAAAGAGGCTTTAAAGAATATTTCCAAGCCATGTGTACAAAAATCAAATGATGTTGTTTCACTGGAAAAGAATTCGGTTTCTGGCTTTCCTCAGAAAGGAACGGCCTCTAAAGAAGATGTTTCCGAGTTGAATGTTGATATTCTGGAAGAAGTTGTCTCTAAGACACTAGTACCTCAAGAGTCTATTTTGTTTAATGAGCATTTAAAGTTGAAAGATAAATCCAAGGAGTTTGTAATTAATAGTTATGGGGAATCGGATGTTAGTATGAGTAGTGTAGAATTAGTATCTCCTATACTGGAAACAAGTGTTGATATATGTGGCAAAGTTATTCCACTAGTGATTTCTCTCCAGATTCCTGATAAATTTTCTTCTCTTGTTGAGATTTGTGGTTTTCAAATGCGGACAACTCTCAGCCTGTCTCCTACTCCTTTGCGGGGAGGTTTCCAGTTGTTTCAGTCTCTTCTTCTTTTGTGTTGGAAAAAATTGCCGAAACGGCAGGGTGGGAATTATCTTGCTCTGACTGGACCATTTCCAGAATTGCATTCCTGGTCTGCCGTTGTCCCGGAGCCTTTAAGAGCGAGAGTGAAGGAGTGGAGACCTTATGAGCGCCTCTCATGA

Coding sequence (CDS)

ATGGTAAGAGATTTTCTCCTTAAATATGGAGAACCAGAGTATTCCGAGTTGGATTTCTCTGCTCAGATTGAGAAAGTTGATACGACTCAGGAAGATGTGGTGAAATCCTTTGAGATTTCTTCCATTTGGGTCATGGAAGATGAAAGTCTCTTTTTACCTAACGAAGATGATTTGGTGATGGCTATCGAGGATTCAAAGGTCCCCTTGATGTATGATAAGAATTTTAATTCAAATGTTCCTGATTTGTTAAAAGGCATTTCTTTGGATGGGCATGCAGATGTTAATGGGGGTTTTATGGTGTCTCCTCTGCAATCGAAGCCAAGTGGACGTCAGTTTATTCATGTGCCCATGGAATCTTCCAAGAAAGAGGCTTTAAAGAATATTTCCAAGCCATGTGTACAAAAATCAAATGATGTTGTTTCACTGGAAAAGAATTCGGTTTCTGGCTTTCCTCAGAAAGGAACGGCCTCTAAAGAAGATGTTTCCGAGTTGAATGTTGATATTCTGGAAGAAGTTGTCTCTAAGACACTAGTACCTCAAGAGTCTATTTTGTTTAATGAGCATTTAAAGTTGAAAGATAAATCCAAGGAGTTTGTAATTAATAGTTATGGGGAATCGGATGTTAGTATGAGTAGTGTAGAATTAGTATCTCCTATACTGGAAACAAGTGTTGATATATGTGGCAAAGTTATTCCACTAGTGATTTCTCTCCAGATTCCTGATAAATTTTCTTCTCTTGTTGAGATTTGTGGTTTTCAAATGCGGACAACTCTCAGCCTGTCTCCTACTCCTTTGCGGGGAGGTTTCCAGTTGTTTCAGTCTCTTCTTCTTTTGTGTTGGAAAAAATTGCCGAAACGGCAGGGTGGGAATTATCTTGCTCTGACTGGACCATTTCCAGAATTGCATTCCTGGTCTGCCGTTGTCCCGGAGCCTTTAAGAGCGAGAGTGAAGGAGTGGAGACCTTATGAGCGCCTCTCATGA

Protein sequence

MVRDFLLKYGEPEYSELDFSAQIEKVDTTQEDVVKSFEISSIWVMEDESLFLPNEDDLVMAIEDSKVPLMYDKNFNSNVPDLLKGISLDGHADVNGGFMVSPLQSKPSGRQFIHVPMESSKKEALKNISKPCVQKSNDVVSLEKNSVSGFPQKGTASKEDVSELNVDILEEVVSKTLVPQESILFNEHLKLKDKSKEFVINSYGESDVSMSSVELVSPILETSVDICGKVIPLVISLQIPDKFSSLVEICGFQMRTTLSLSPTPLRGGFQLFQSLLLLCWKKLPKRQGGNYLALTGPFPELHSWSAVVPEPLRARVKEWRPYERLS
Homology
[Close]
BLAST of Spg021405 vs. NCBI nr
Match: XP_008447062.1 (PREDICTED: uncharacterized protein LOC103489616 [Cucumis melo])

HSP 1 Score: 101.7 bits (252), Expect = 1.2e-17
Identity = 44/49 (89.80%), Postives = 45/49 (91.84%), Query Frame = 0 

Query: 278 LCWKKLPKRQGGNYLALTGPFPELHSWSAVVPEPLRARVKEWRPYERLS 327
           LCWKKLPK +G NYLALTGPFPELHSWSAVVPEPLR  VKEWRPYERLS
Sbjct: 286 LCWKKLPKEKGENYLALTGPFPELHSWSAVVPEPLRESVKEWRPYERLS 334

[Close]
BLAST of Spg021405 vs. NCBI nr
Match: XP_038876688.1 (uncharacterized protein LOC120069080 isoform X4 [Benincasa hispida])

HSP 1 Score: 100.5 bits (249), Expect = 2.8e-17
Identity = 44/49 (89.80%), Postives = 45/49 (91.84%), Query Frame = 0 

Query: 278 LCWKKLPKRQGGNYLALTGPFPELHSWSAVVPEPLRARVKEWRPYERLS 327
           LCWKKLPK +G NYLALTGPFPELHSWSAVVPE LRA VKEWRPYERLS
Sbjct: 245 LCWKKLPKEKGENYLALTGPFPELHSWSAVVPEALRASVKEWRPYERLS 293

[Close]
BLAST of Spg021405 vs. NCBI nr
Match: XP_038876685.1 (uncharacterized protein LOC120069080 isoform X2 [Benincasa hispida])

HSP 1 Score: 100.5 bits (249), Expect = 2.8e-17
Identity = 44/49 (89.80%), Postives = 45/49 (91.84%), Query Frame = 0 

Query: 278 LCWKKLPKRQGGNYLALTGPFPELHSWSAVVPEPLRARVKEWRPYERLS 327
           LCWKKLPK +G NYLALTGPFPELHSWSAVVPE LRA VKEWRPYERLS
Sbjct: 269 LCWKKLPKEKGENYLALTGPFPELHSWSAVVPEALRASVKEWRPYERLS 317

[Close]
BLAST of Spg021405 vs. NCBI nr
Match: XP_038876684.1 (uncharacterized protein LOC120069080 isoform X1 [Benincasa hispida])

HSP 1 Score: 100.5 bits (249), Expect = 2.8e-17
Identity = 44/49 (89.80%), Postives = 45/49 (91.84%), Query Frame = 0 

Query: 278 LCWKKLPKRQGGNYLALTGPFPELHSWSAVVPEPLRARVKEWRPYERLS 327
           LCWKKLPK +G NYLALTGPFPELHSWSAVVPE LRA VKEWRPYERLS
Sbjct: 295 LCWKKLPKEKGENYLALTGPFPELHSWSAVVPEALRASVKEWRPYERLS 343

[Close]
BLAST of Spg021405 vs. NCBI nr
Match: XP_038876687.1 (uncharacterized protein LOC120069080 isoform X3 [Benincasa hispida])

HSP 1 Score: 100.5 bits (249), Expect = 2.8e-17
Identity = 44/49 (89.80%), Postives = 45/49 (91.84%), Query Frame = 0 

Query: 278 LCWKKLPKRQGGNYLALTGPFPELHSWSAVVPEPLRARVKEWRPYERLS 327
           LCWKKLPK +G NYLALTGPFPELHSWSAVVPE LRA VKEWRPYERLS
Sbjct: 249 LCWKKLPKEKGENYLALTGPFPELHSWSAVVPEALRASVKEWRPYERLS 297

[Close]
BLAST of Spg021405 vs. ExPASy TrEMBL
Match: A0A1S3BGI8 (uncharacterized protein LOC103489616 OS=Cucumis melo OX=3656 GN=LOC103489616 PE=4 SV=1)

HSP 1 Score: 101.7 bits (252), Expect = 6.0e-18
Identity = 44/49 (89.80%), Postives = 45/49 (91.84%), Query Frame = 0 

Query: 278 LCWKKLPKRQGGNYLALTGPFPELHSWSAVVPEPLRARVKEWRPYERLS 327
           LCWKKLPK +G NYLALTGPFPELHSWSAVVPEPLR  VKEWRPYERLS
Sbjct: 286 LCWKKLPKEKGENYLALTGPFPELHSWSAVVPEPLRESVKEWRPYERLS 334

[Close]
BLAST of Spg021405 vs. ExPASy TrEMBL
Match: A0A5A7V3L2 (Putative polyamine aminopropyl transferase OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold357G00550 PE=4 SV=1)

HSP 1 Score: 99.4 bits (246), Expect = 3.0e-17
Identity = 43/49 (87.76%), Postives = 44/49 (89.80%), Query Frame = 0 

Query: 278 LCWKKLPKRQGGNYLALTGPFPELHSWSAVVPEPLRARVKEWRPYERLS 327
           LCWKKLPK +G NYLALTGP PELHSWSAVVPEPLR  VKEWRPYERLS
Sbjct: 287 LCWKKLPKEKGENYLALTGPIPELHSWSAVVPEPLRESVKEWRPYERLS 335

[Close]
BLAST of Spg021405 vs. ExPASy TrEMBL
Match: A0A6J1HZS0 (uncharacterized protein LOC111468401 isoform X2 OS=Cucurbita maxima OX=3661 GN=LOC111468401 PE=4 SV=1)

HSP 1 Score: 97.4 bits (241), Expect = 1.1e-16
Identity = 42/48 (87.50%), Postives = 44/48 (91.67%), Query Frame = 0 

Query: 278 LCWKKLPKRQGGNYLALTGPFPELHSWSAVVPEPLRARVKEWRPYERL 326
           LCWKKLPK +G NY+ALTGPFPEL SWSAVVPEPLRA VKEWRPYERL
Sbjct: 286 LCWKKLPKEKGENYVALTGPFPELESWSAVVPEPLRASVKEWRPYERL 333

[Close]
BLAST of Spg021405 vs. ExPASy TrEMBL
Match: A0A6J1I2F1 (uncharacterized protein LOC111468401 isoform X1 OS=Cucurbita maxima OX=3661 GN=LOC111468401 PE=4 SV=1)

HSP 1 Score: 97.4 bits (241), Expect = 1.1e-16
Identity = 42/48 (87.50%), Postives = 44/48 (91.67%), Query Frame = 0 

Query: 278 LCWKKLPKRQGGNYLALTGPFPELHSWSAVVPEPLRARVKEWRPYERL 326
           LCWKKLPK +G NY+ALTGPFPEL SWSAVVPEPLRA VKEWRPYERL
Sbjct: 286 LCWKKLPKEKGENYVALTGPFPELESWSAVVPEPLRASVKEWRPYERL 333

[Close]
BLAST of Spg021405 vs. ExPASy TrEMBL
Match: A0A6J1GJG8 (uncharacterized protein LOC111454843 isoform X1 OS=Cucurbita moschata OX=3662 GN=LOC111454843 PE=4 SV=1)

HSP 1 Score: 97.4 bits (241), Expect = 1.1e-16
Identity = 42/48 (87.50%), Postives = 44/48 (91.67%), Query Frame = 0 

Query: 278 LCWKKLPKRQGGNYLALTGPFPELHSWSAVVPEPLRARVKEWRPYERL 326
           LCWKKLPK +G NY+ALTGPFPEL SWSAVVPEPLRA VKEWRPYERL
Sbjct: 286 LCWKKLPKEKGENYVALTGPFPELESWSAVVPEPLRASVKEWRPYERL 333

[Close]
BLAST of Spg021405 vs. TAIR 10
Match: AT5G44600.1 (S-adenosyl-L-methionine-dependent methyltransferases superfamily protein )

HSP 1 Score: 50.8 bits (120), Expect = 2.4e-06
Identity = 20/43 (46.51%), Postives = 28/43 (65.12%), Query Frame = 0 

Query: 278 LCWKKLPKRQGGNYLALTGPFPELHSWSAVVPEPLRARVKEWR 321
           +CWK+ P  +G N+LALTG  P+L  WS+ VP      VK+W+
Sbjct: 288 VCWKRTPDSEGLNFLALTGGLPDLSDWSSKVPVRFCEVVKQWK 330

[Close]
BLAST of Spg021405 vs. TAIR 10
Match: AT5G44590.1 (S-adenosyl-L-methionine-dependent methyltransferases superfamily protein )

HSP 1 Score: 47.4 bits (111), Expect = 2.6e-05
Identity = 19/41 (46.34%), Postives = 26/41 (63.41%), Query Frame = 0 

Query: 280 WKKLPKRQGGNYLALTGPFPELHSWSAVVPEPLRARVKEWR 321
           WK+ P  +G N++ALTG  P+L  WS+ VP  L   VK W+
Sbjct: 294 WKRTPDSEGLNFVALTGGLPDLSDWSSKVPVRLSESVKLWK 334

The following BLAST results are available for this feature:
BLAST of Spg021405 vs. NCBI nr
Match NameE-valueIdentityDescription
XP_008447062.11.2e-1789.80PREDICTED: uncharacterized protein LOC103489616 [Cucumis melo][more]
XP_038876688.12.8e-1789.80uncharacterized protein LOC120069080 isoform X4 [Benincasa hispida][more]
XP_038876685.12.8e-1789.80uncharacterized protein LOC120069080 isoform X2 [Benincasa hispida][more]
XP_038876684.12.8e-1789.80uncharacterized protein LOC120069080 isoform X1 [Benincasa hispida][more]
XP_038876687.12.8e-1789.80uncharacterized protein LOC120069080 isoform X3 [Benincasa hispida][more]
BLAST of Spg021405 vs. NCBI nr
Match NameE-valueIdentityDescription
BLAST of Spg021405 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
A0A1S3BGI86.0e-1889.80uncharacterized protein LOC103489616 OS=Cucumis melo OX=3656 GN=LOC103489616 PE=... [more]
A0A5A7V3L23.0e-1787.76Putative polyamine aminopropyl transferase OS=Cucumis melo var. makuwa OX=119469... [more]
A0A6J1HZS01.1e-1687.50uncharacterized protein LOC111468401 isoform X2 OS=Cucurbita maxima OX=3661 GN=L... [more]
A0A6J1I2F11.1e-1687.50uncharacterized protein LOC111468401 isoform X1 OS=Cucurbita maxima OX=3661 GN=L... [more]
A0A6J1GJG81.1e-1687.50uncharacterized protein LOC111454843 isoform X1 OS=Cucurbita moschata OX=3662 GN... [more]
BLAST of Spg021405 vs. TAIR 10
Match NameE-valueIdentityDescription
AT5G44600.12.4e-0646.51S-adenosyl-L-methionine-dependent methyltransferases superfamily protein [more]
AT5G44590.12.6e-0546.34S-adenosyl-L-methionine-dependent methyltransferases superfamily protein [more]
Relationships

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

Feature NameUnique NameType
Spg021405.1Spg021405.1mRNA


GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
molecular_function GO:0016740 transferase activity