Moc06g10600 (gene) Bitter gourd (OHB3-1) v2

Overview
NameMoc06g10600
Typegene
OrganismMomordica charantia cv. OHB3-1 (Bitter gourd (OHB3-1) v2)
Descriptioncaffeic acid 3-O-methyltransferase-like
Locationchr6: 7933905 .. 7940965 (+)
RNA-Seq ExpressionMoc06g10600
SyntenyMoc06g10600
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.
ATGAAATTTAGAACCGGGTTTGAGACCGAGATAGAAGGTAAACTCAAGCCCGGTCCTTCATGTCCAGATACGACCGGGACCGGGACCGAGATGGGGATAAACTGGGGTAGACCGGGTAACAAGACAAAACAATATTGCTTAGAAACGGACCGGGTTGAAGCCTGGGATGGAATCCAGAAAGTCGAAGTACAAGATATGGACTTTCTGGATTCCATCTCGGCCTCGTCCCGGTCCATTTCGAACCGGGATGAGTCCCAAGATGGATTCCATAAGGATGGTCTTTCTGGATACCATCTCGGTTTTCATCCCGGTCTATTTCGAACCGGGATGAGACCCGAAATGGAATCCAGAAAGTCCATCCTTCTGGAATGGACTTTCAGGGTTTCATCCCGGTCCTAAATCCACCGGGCTTAAAGCCAAGATGGAACCCTGAAAGTCAAAAATTAAAACAAAACAATGGAAGCAATAATAAATCAAACTTCATAATAACCTTGGCTACTTCAGATAGAGTCGAAGGTTGAAATCATTCACACCCACACAAAGAACGAAGAAAAAAAAAGGTAGAAAATCATTCACAATAAGATCGCGAGTTCGAAAGAAAAATTACCTCAATTAGGGAATGGGGAAAGCTCTGATAGAGACGAAGTGAGGGAGACGAAGAAGAAACGACGAAGATGAACTTTCTGGTTGTGAGGGAGAGACCGGGATGAAGACTGGGATGGACAACGAGATAGTGAATGATGGAGGGGAAGGACCGAGACAGGGAGGGAAAGGAGGGGAGGGCTGGGTTTGATTTCTTTTTTTAAATTGAGGGTTTGGTAATTTTACCAAGCAAAATAAGGGGAGGGTCAGAAATCTGAGGTGGAGGGGTCATAAATAGGTAAAAATCAAAAGGGGGGTCAAAAGTCCAAAGTAGTTATTGAAATGAGTCAAAAATCTCAATTTCCCTGATATACGTTGACATGCAGTAGAATAAGTCTCTATAAAACATGCATGAGTTAGAGGATGTGTGAAGTTATATATAACTATTGTGTACCCTAATTCTAAATATTTTAACCAATTTTTTTTATTTATCCAATATTACAATTCGCAATTTTCATTTGAGCACAAAAATATTAAAAGAAAATGAAATTGTCGAATATTATTATTTTTTCAAGTACCACAGTTAGGACTAGGGAGTCGAACTTACAGCCTATTCATTAAAAATATATGTCAATGGTAGTTCATGGGACGGGCAAGGATGGGAAAGACTTTCCTGTCCCATCCCTGCCCACCATTTAATTCCCCATCCTCGTGAAATTTTCCATTAAATTTTGCGGGATGAGGGGTGGGAATTCTTCGTGGGGAATTTAGGATCAGTTCCCCATGTGGATTTTTTCCATTTATTCTTTAATTTTTAAAATTATTTCTCAATTAAACATTTTTCTAAGGAAATTTATTATTAATTAATTAAATTTTAATTTATAAAAATTTTATTTACATGGTCTAATTCTCCTCTGTATATTTGGTGGGCAGAGAATAATATGATTTTAACAGTATATGTAAGTAGAGAATGAGTAAAAAGATTATTTTAATTTATATATATATTAAAAAAAATACGATGCGAAGCGGGGATGAGCATTCCCCATCCCTGTCCCCATTTAGGTAATGGGGAAAAAAAATTTGCAGGTCTCGTCGATCCCTTTTATTATAGAAGATTGGTGCGAATTTGACGGAATCCCAAGAGATCAAATTTTTGTATCAACAACAACTCTGAAATATTTGTTATGAATAAACTATCAAGCAAACTCCCCAATGACTCCTGATTTTTAAGAGGTTTAAGTCGAGAGCTCGATGAATGTTGGTAATTGGAAATAATCTGTCATTGACACTATTATTTACTTATAATTCTTGTTATGAGATTGATATGATTTAGGAATCAATCGATGTGATTTGGGAATCGATTTGATATGATTTGAAATTTAGAATTTAATTTTGGATATCATTTTGATTCAGATGTTTCATTCCTATTATGATTAAGAACCATTCTATTATAAATAGGATGATAGGTTGTGTATCAAATTAAAGAATTTAATTGAATATGAAACTTTACCCCTCCCCCCCCCCCCCGAACTCTTTGTAAGCTGTAGTATTCTTAAAAAGTTTCCAATCGATGACTTCTCATTGTTTGCTGTTGCATTATGCCGAATTTCATTTTATCTCAATCTAGTACAAAATAGAAGTGCCATCTTTATGACCACGGACTCAAACAATTGGTGTAATTTCTGGGCGCGTGTAGTGGTATACAAACCACTTTTCAAGTTGGTTGACAAAAATATGAAAAAAAAAAAAAAGGATTTTGTTGTCTTTTTCCCGTTTTCACTTTCGGGATTGGACTATTTCTCTATCGCAGGGTTTGATTGCGCGGTGGGAAGACCTTTGCAATTATTAAGAAATTGCGAGGCTTGAATGTAAATAAAGAAATTACATAGAAATTGAAGGATTTGTTTGAGAGAATAAACTTTTTTCTTTTTGAAAAAGCTCTTTGTTTCCGTATCTCTTTATGATACTCATTCAATTTGCACTCAATATATATAAATTTTCAAAATTCTAGATATTAATTTAAGATTAATAACTTTGTCAGAATAGAATCAAATGGTGGGCTTTCAAATTTGGTAATCTCATCCCTTGAAAATAGGTAATTCCATTATCTCCTACAATCTCGTACCAATAACTTTTTAAATTAATTGTTTTATAGTTTAATTATTTCTTTTTTCATTTATACTATTAATAATTTTTATTCTTGTGATTTTATTATAAAATATTATATTTATATTTAATTTTTTAATTTTACTTGTTATTATTAATAACTATCAATAATTTTTAAAAATATAATTGATTATGATTAAATATTAGAATAATAAAATTTAATAAATTAAATAATGGTTATTCTTAAAAAAACGTATTTTAGTCAATGAAATTTTATTTTAATTATTTATTATTTATAATATTAAATAAATTGTTATAATAAAAAAATGTTTAATCCAGTAATCAAATAAACTAAAATTTATTATTATTTTAATTTAAAAAGATTAGCACAATACAATATTGTGAAGATAGGGGTATACCAGTAATTCAAGTTCTTCTAATTATTTCCATTAAACTATGGGAGGATAACTTCATTGGTTGGTAGTAATACATATCAAATGTAAAATGTATGTTGTTTGAGCCCGAAATTGATTGAGCTCGGACACGATTTAGATCGGTATGCTCAGGACGAGCTATGGCCAACGGTCCTACACCTTCCCTGAACACTTCTTGAGACCTGCAAAACAAAGTTAGCACTCCGACGAGCAAGTTAGTTCTAGTCTGAGCTAACTTGCCGAGTCTACTTAGGATTGCGTACCTTGCATTTAAGGCAAAAGTTTCTATTTATCGAAATTGGGCCTGACAAGGGTTCTGACACACCCTAAACTCGCGGCGTGTTGTCGGGTACGGAAGGGACACTGTTACGGACTCTGTACAGCTCAGCTCGGCACTATAGGTCCTACCCTGACTGCCGACCTGAGTATTATGGAGCCGCTTTCTCCATTAAGCCCGCGCGTTTAACCAACTCACCATTTCGATCACGACACGCGGCAGGCCAAGATTCGCCTCCAACATTGGCCTCCACTTCGGCGGGGCGGAGGTCGGCTCGGCGAAGTCCTCCGAGCTAACTGGAGACAGGTCGAATCCACGCGTGCATGTGTGACGTCATGGATGTCGTCAGCCCTAGCTTCTGCTTCGGGAACCCAAACGTCGTCGCGGGGACAGCCTGGCGTGGGCCAATCTTGTCCGTTGATCCCTCCTTGATCTAACGACTCTCGTGCCTCCGGGCTGTCCTATAAAAGGGGAAGGTCTTTCACTTTTCACTTTTTACTTTTCACTTTTGAGTTTTCGTGTACCTCGGCCGTTTCCAAGTCAGGTACTCTCTCCCTCTTTCTTTAGATAGTTCTTTTAAGTCCTGCCAGTCAGGTCTGGCGATGAGTAGCTCGTCTAGGGATTCGTCGTCTGGGTCGTCTGGTTCCTCTAGTTCAGACGACGTTTCAGGGGATCCGACCTTAGCTCCTACCTCAAGGAACCCTTACGTCGAGGATAGCTCGGCGAACCCTAACATAGCCTCAACCTCGGGAAACCCTAACCTCGGTCCTGTAGTTGAACTTCCTCCTTCATCTTGCTCGGTAGGTAGGTTGGCCGAGCTCCGCAAAACTTACTCGATCCCCAACTCCATAGAACTTAGGGTGCCTAACATCAGAGAGCACCTCAACGACCCTCCTTCGGGCTTCGTCAGTTTCTACCCCACATGTTCCATAGGGGGGTCAGACTTCCACTCCACCCTTTTATACAAAGGTTCCTTAACGCAGTCAACCTGGCCCCGCTCAACTCTCCCCTAATGGATGGTCTACCGTGCTCGGGGCCTACGCCCTATGGTGGGTCCTCCGAGACGAGGATGAGAACAGGCTCACGGTGGACCAGCTCTTAGCGACCCACACCGTCAAAGCTTCCAACGAGGGAGAGGGTCGGTATTACCTCTCAGCTCGGCGGAACGTAGGTCAGCTGATCAGGAACCCCTCCCTAACAAAAATTGGAAGGAATGTTGGTTCCTTGTCTCTGGCGAGTGGCTTCTGAGGGACGGAGTGGGTGAGCCGACCTGCCAAGTCCCAGTAGAGTTCGGGGACGTAGGTGAGTGTCTTAGGCGCGAGCTAGGGGGTGTGTGTTTTTTGTCTTCTTAACTTGAGCAACCTCGTTGCTAACGTCGGCTCGTTTTGCAGCTCTTCCATCCCCTGTTCCGAGGATCAACAACAAGTCTTGGGAGATCATCAAACGAGCCCAAGGTCGGAGACTAAAGTACGCGTTGTGGGGTGAAGCACTCGTCTCAAACTCCCACCTCTTCTCCAGCGGCCTCAGTCCGCACGATCAACCAGACGAGCTCAAGAAGCTCCCCAAACCTCGGCAACGCAGCTCGCACAAACGTAAAGCTCCTGAAGGTAACTTCTTCTCGGCACTTTAGCTCGTTCAATACTAACCTCGTCATCTTTCCGCTCGTTAGTTTACTGACCTCATCCCTTTTCAGAGATGGCCTCAAAATTCCTCGCGCTTAGCAGCACGAAGCGTCAGCGAGCTTCGGCCTCGTTTGCTCCGCCAGCGCCTCCTCAGGCTCGTCATCGTACCAGCAGTGCCGACGTCCCGGCCCCTGGGATGGCGAACTTGGCCAAACTTCAGGCCCTTCAGGCTCAGCCACTGCAGACCGTCGTTGGTGGCGAGGAGTCGGCTACTCCACTGCAGCGAAATAAGAGAGTGAGGGGGACACTTCCCTCCGAGGAGGTTAACTCCAGATCTCCGCCTCCCCCCATCGTGGTGGACTCGGAGGACGGGTCGCAACCCGGTCGGCGGCAATGCGACGAGCTTCCTCTGCCATTCAAGCTCGCCTTCTCTCGCCTGAGCATTCACGAGGCGGCAACGAAGGTGAGATCCTCCAGCTCTCACCGTGTGGAGCGAGTCGTTCGGGCGCCCGAGGACCCTGTGGAGGCGGTGAGAAAGACCATAACTCTCGCCACAGAGGTAAGCTCGTGCCTACCCTTCCTTCATTCTTTTTCCTTTCTCTCTATTTACTTCCTTTTGATCTAACCTCGGACCTAAACAGTTGCACTACCACGCCTGCCTCTCGACGTCGATGATGAGCCTAGAGCTCGGGGGACGGGACCTGAAGGAGGAGGAGACGAACGCCTCCTACGAGCGACGGATTGTCGAGCTCGAGGCCGAGGTTGTCCAAGCTCGAGCTGAGAAGGAAGCTGAGGCTGACAGGTCGCAAGCCCTAATAGCCCAAGCTCGCACTGACTTGAAGAACGCTCGGGGTCGAGCCGAGACTGCGGAGAAGGGCTGGGACAAGGCTCGGCAGAACTTGGCGACCTGGGCCTACTTGGAGAAGAGAATCAAAGAATTCCCCGAGTTCGACGGCTTAGCTCGCGATATGGCAAACAAGGGCTTTTACTACGCCATCAACAGGCTCGACACTGCCTGCTCGGAGGACGCCGTCACCGCCGTCGAGCAAGAATACGAGTCCATCTAGGTGGAGCGACCTGCTGAGGCCGATAAAGAGGATAAGGTTGCTGGTGCCGAGGCGGGGTCCAGCAAGCTCGTCGACTCTCCCCAGGAGTAGATCGTCTCGGCCTTCTGTTGCTTCTCGCTTTTCCTCTCTCTGTTTTTTTTTAATCAAATCTGTACTGAGCCGAGGCATATATACCTCAGCTCTCCATTAAACTTTAGTCTAAATGAAATGACATTGTTTTGCTAAGATCCGAGTAATTCTTTCCGAGGTCCTTATACTTGTTGAAATTTAATTAAACCTTAATAATACCTCGGCTCTTCATCAAACTTTAAATTCAATGAAAACGAATTTCATCCGAACTTGAGTTGTTCTCTCCGAGGTCCCTATACTTAGAGAAATTTAATTAAACTCAAACTTCAATTTTAGTTTTGGCCTCGTTGTTTGAGTTTCTCAAGTCTTAGTAATTTCTTACTTACACAACGGCTTACGAGCCAAACACTTCAGCTCGGCGGTGTGCATTTGGGATAACCAGGTCCCTACGAGCTGACCATTGCTTCGCGTGTTTGTATTATTGTAGGTCGTTTAGCATAGGTCATACCCCACGTAGTCTTCATTGGCCCCCATTTGACGTAGCTCGGTAGTAGTAGGCGATGCTAACGGATAAAGTCAAATTTTGCACAAGTCATTGGAGATCAGCTTTCATTAATGAATGAAATTTTTACACGTCGGATTACACACATTTCACTGATAATAAACTCGTAAATGCTCGACATTCCATGGGTGAGGGAGTTGTCTCCCGTTTAGGTCGGACAGCAAATACGCTCCAGGTCGGAGTATTTTTAAGACTCTGTACGGGCCGCCAGCCTTCCCAGTTCGACTCGAGTGCTCCGACATGCGGCATTACCTTCTTGAGGACAAGGTCGCCAGGCTTGAACGTTCTGACTTTTACTCTGGCTTTGTAGTGCCGAGCCATACGGTTTTGATATTCTGTTAG

mRNA sequence

ATGAAATTTAGAACCGGGTTTGAGACCGAGATAGAAGGTAAACTCAAGCCCGGTCCTTCATGTCCAGATACGACCGGGACCGGGACCGAGATGGGGATAAACTGGGGTAGACCGGGTAACAAGACAAAACAATATTGCTTAGAAACGGACCGGGTTGAAGCCTGGGATGGAATCCAGAAAGTCGAAGTACAAGATATGGACTTTCTGGATTCCATCTCGGCCTCGTCCCGGTCCATTTCGAACCGGGATGAGTCCCAAGATGGATTCCATAAGGATGGTCTTTCTGGATACCATCTCGGTTTTCATCCCGGTCTATTTCGAACCGGGATGAGACCCGAAATGGAATCCAGAAAGTCCATCCTTCTGGAATGGACTTTCAGGGCCAAGATTCGCCTCCAACATTGGCCTCCACTTCGGCGGGGCGGAGGTCGGCTCGGCGAAGTCCTCCGAGCTAACTGGAGACAGGTCGAATCCACGCGTGCATGTGTGACGTCATGGATGTCGTCAGCCCTAGCTTCTGCTTCGGGAACCCAAACGTCGTCGCGGGGACAGCCTGGCGTGGGCCAATCTTGTCTGGCGATGAGTAGCTCGTCTAGGGATTCGTCGTCTGGGTCGTCTGGTTCCTCTAGTTCAGACGACGTTTCAGGGGATCCGACCTTAGCTCCTACCTCAAGGAACCCTTACGTCGAGGATAGCTCGGCGAACCCTAACATAGCCTCAACCTCGGGAAACCCTAACCTCGGTCCTGTAGTTGAACTTCCTCCTTCATCTTGCTCGGTAGGTAGTCAACCTGGCCCCGCTCAACTCTCCCCTAATGGATGGTCTACCGTGCTCGGGGCCTACGCCCTATGGTGGGTCCTCCGAGACGAGGATGAGAACAGGCTCACGGTGGACCAGCTCTTAGCGACCCACACCGTCAAAGCTTCCAACGAGGGAGAGGGTCGGTATTACCTCTCAGCTCGGCGGAACGTAGCTCTTCCATCCCCTGTTCCGAGGATCAACAACAAGTCTTGGGAGATCATCAAACGAGCCCAAGGTCGGAGACTAAAGTACGCGTTGTGGGGTGAAGCACTCGTCTCAAACTCCCACCTCTTCTCCAGCGGCCTCAGTCCGCACGATCAACCAGACGAGCTCAAGAAGCTCCCCAAACCTCGGCAACGCAGCTCGCACAAACGTAAAGCTCCTGAAGAGATGGCCTCAAAATTCCTCGCGCTTAGCAGCACGAAGCGTCAGCGAGCTTCGGCCTCGTTTGCTCCGCCAGCGCCTCCTCAGGCTCGTCATCGTACCAGCAGTGCCGACGTCCCGGCCCCTGGGATGGCGAACTTGGCCAAACTTCAGGCCCTTCAGGCTCAGCCACTGCAGACCGTCGTTGGTGGCGAGGAGTCGGCTACTCCACTGCAGCGAAATAAGAGAGTGAGGGGGACACTTCCCTCCGAGGAGGTTAACTCCAGATCTCCGCCTCCCCCCATCGTGGTGGACTCGGAGGACGGGTCGCAACCCGGTCGGCGGCAATGCGACGAGCTTCCTCTGCCATTCAAGCTCGCCTTCTCTCGCCTGAGCATTCACGAGGCGGCAACGAAGGTGAGATCCTCCAGCTCTCACCGTGTGGAGCGAGTCGTTCGGGCGCCCGAGGACCCTGTGGAGGCGGTGAGAAAGACCATAACTCTCGCCACAGAGTTGCACTACCACGCCTGCCTCTCGACGTCGATGATGAGCCTAGAGCTCGGGGGACGGGACCTGAAGGAGGAGGAGACGAACGCCTCCTACGAGCGACGGATTGTCGAGCTCGAGGCCGAGGTTGTCCAAGCTCGAGCTGAGAAGGAAGCTGAGGCTGACAGGTCGCAAGCCCTAATAGCCCAAGCTCGCACTGACTTGAAGAACGCTCGGGGTCGAGCCGAGACTGCGGAGAAGGGCTGGGACAAGGCTCGGCAGAACTTGGCGACCTGGGCCTACTTGGAGAAGAGAATCAAAGAATTCCCCGAGTTCGACGGCTTAGCTCGCGATATGGCAAACAAGGGCTTTTACTACGCCATCAACAGGCTCGACACTGCCTGCTCGGAGGACGCCGTCACCGCCGTCGAGCAAGAATACGAGTCGGACAGCAAATACGCTCCAGGTCGGAGTATTTTTAAGACTCTGTACGGGCCGCCAGCCTTCCCAGTTCGACTCGAGTGCTCCGACATGCGGCATTACCTTCTTGAGGACAAGGTCGCCAGGCTTGAACGTTCTGACTTTTACTCTGGCTTTGTAGTGCCGAGCCATACGGTTTTGATATTCTGTTAG

Coding sequence (CDS)

ATGAAATTTAGAACCGGGTTTGAGACCGAGATAGAAGGTAAACTCAAGCCCGGTCCTTCATGTCCAGATACGACCGGGACCGGGACCGAGATGGGGATAAACTGGGGTAGACCGGGTAACAAGACAAAACAATATTGCTTAGAAACGGACCGGGTTGAAGCCTGGGATGGAATCCAGAAAGTCGAAGTACAAGATATGGACTTTCTGGATTCCATCTCGGCCTCGTCCCGGTCCATTTCGAACCGGGATGAGTCCCAAGATGGATTCCATAAGGATGGTCTTTCTGGATACCATCTCGGTTTTCATCCCGGTCTATTTCGAACCGGGATGAGACCCGAAATGGAATCCAGAAAGTCCATCCTTCTGGAATGGACTTTCAGGGCCAAGATTCGCCTCCAACATTGGCCTCCACTTCGGCGGGGCGGAGGTCGGCTCGGCGAAGTCCTCCGAGCTAACTGGAGACAGGTCGAATCCACGCGTGCATGTGTGACGTCATGGATGTCGTCAGCCCTAGCTTCTGCTTCGGGAACCCAAACGTCGTCGCGGGGACAGCCTGGCGTGGGCCAATCTTGTCTGGCGATGAGTAGCTCGTCTAGGGATTCGTCGTCTGGGTCGTCTGGTTCCTCTAGTTCAGACGACGTTTCAGGGGATCCGACCTTAGCTCCTACCTCAAGGAACCCTTACGTCGAGGATAGCTCGGCGAACCCTAACATAGCCTCAACCTCGGGAAACCCTAACCTCGGTCCTGTAGTTGAACTTCCTCCTTCATCTTGCTCGGTAGGTAGTCAACCTGGCCCCGCTCAACTCTCCCCTAATGGATGGTCTACCGTGCTCGGGGCCTACGCCCTATGGTGGGTCCTCCGAGACGAGGATGAGAACAGGCTCACGGTGGACCAGCTCTTAGCGACCCACACCGTCAAAGCTTCCAACGAGGGAGAGGGTCGGTATTACCTCTCAGCTCGGCGGAACGTAGCTCTTCCATCCCCTGTTCCGAGGATCAACAACAAGTCTTGGGAGATCATCAAACGAGCCCAAGGTCGGAGACTAAAGTACGCGTTGTGGGGTGAAGCACTCGTCTCAAACTCCCACCTCTTCTCCAGCGGCCTCAGTCCGCACGATCAACCAGACGAGCTCAAGAAGCTCCCCAAACCTCGGCAACGCAGCTCGCACAAACGTAAAGCTCCTGAAGAGATGGCCTCAAAATTCCTCGCGCTTAGCAGCACGAAGCGTCAGCGAGCTTCGGCCTCGTTTGCTCCGCCAGCGCCTCCTCAGGCTCGTCATCGTACCAGCAGTGCCGACGTCCCGGCCCCTGGGATGGCGAACTTGGCCAAACTTCAGGCCCTTCAGGCTCAGCCACTGCAGACCGTCGTTGGTGGCGAGGAGTCGGCTACTCCACTGCAGCGAAATAAGAGAGTGAGGGGGACACTTCCCTCCGAGGAGGTTAACTCCAGATCTCCGCCTCCCCCCATCGTGGTGGACTCGGAGGACGGGTCGCAACCCGGTCGGCGGCAATGCGACGAGCTTCCTCTGCCATTCAAGCTCGCCTTCTCTCGCCTGAGCATTCACGAGGCGGCAACGAAGGTGAGATCCTCCAGCTCTCACCGTGTGGAGCGAGTCGTTCGGGCGCCCGAGGACCCTGTGGAGGCGGTGAGAAAGACCATAACTCTCGCCACAGAGTTGCACTACCACGCCTGCCTCTCGACGTCGATGATGAGCCTAGAGCTCGGGGGACGGGACCTGAAGGAGGAGGAGACGAACGCCTCCTACGAGCGACGGATTGTCGAGCTCGAGGCCGAGGTTGTCCAAGCTCGAGCTGAGAAGGAAGCTGAGGCTGACAGGTCGCAAGCCCTAATAGCCCAAGCTCGCACTGACTTGAAGAACGCTCGGGGTCGAGCCGAGACTGCGGAGAAGGGCTGGGACAAGGCTCGGCAGAACTTGGCGACCTGGGCCTACTTGGAGAAGAGAATCAAAGAATTCCCCGAGTTCGACGGCTTAGCTCGCGATATGGCAAACAAGGGCTTTTACTACGCCATCAACAGGCTCGACACTGCCTGCTCGGAGGACGCCGTCACCGCCGTCGAGCAAGAATACGAGTCGGACAGCAAATACGCTCCAGGTCGGAGTATTTTTAAGACTCTGTACGGGCCGCCAGCCTTCCCAGTTCGACTCGAGTGCTCCGACATGCGGCATTACCTTCTTGAGGACAAGGTCGCCAGGCTTGAACGTTCTGACTTTTACTCTGGCTTTGTAGTGCCGAGCCATACGGTTTTGATATTCTGTTAG

Protein sequence

MKFRTGFETEIEGKLKPGPSCPDTTGTGTEMGINWGRPGNKTKQYCLETDRVEAWDGIQKVEVQDMDFLDSISASSRSISNRDESQDGFHKDGLSGYHLGFHPGLFRTGMRPEMESRKSILLEWTFRAKIRLQHWPPLRRGGGRLGEVLRANWRQVESTRACVTSWMSSALASASGTQTSSRGQPGVGQSCLAMSSSSRDSSSGSSGSSSSDDVSGDPTLAPTSRNPYVEDSSANPNIASTSGNPNLGPVVELPPSSCSVGSQPGPAQLSPNGWSTVLGAYALWWVLRDEDENRLTVDQLLATHTVKASNEGEGRYYLSARRNVALPSPVPRINNKSWEIIKRAQGRRLKYALWGEALVSNSHLFSSGLSPHDQPDELKKLPKPRQRSSHKRKAPEEMASKFLALSSTKRQRASASFAPPAPPQARHRTSSADVPAPGMANLAKLQALQAQPLQTVVGGEESATPLQRNKRVRGTLPSEEVNSRSPPPPIVVDSEDGSQPGRRQCDELPLPFKLAFSRLSIHEAATKVRSSSSHRVERVVRAPEDPVEAVRKTITLATELHYHACLSTSMMSLELGGRDLKEEETNASYERRIVELEAEVVQARAEKEAEADRSQALIAQARTDLKNARGRAETAEKGWDKARQNLATWAYLEKRIKEFPEFDGLARDMANKGFYYAINRLDTACSEDAVTAVEQEYESDSKYAPGRSIFKTLYGPPAFPVRLECSDMRHYLLEDKVARLERSDFYSGFVVPSHTVLIFC
Homology
[Close]
BLAST of Moc06g10600 vs. NCBI nr
Match: XP_022154107.1 (caffeic acid 3-O-methyltransferase-like [Momordica charantia])

HSP 1 Score: 157.1 bits (396), Expect = 5.8e-34
Identity = 82/95 (86.32%), Postives = 84/95 (88.42%), Query Frame = 0 

Query: 329 PVPRINNKSWEIIKRAQGRRLKYALWGEALVSNSHLFSSGLSPHDQPDELKKLPKPRQRS 388
           PV RI+NKSWEII+RAQGR LKYALWGEALV NSHLFSSGLS HDQPDE KKLPKPRQ S
Sbjct: 143 PVSRIDNKSWEIIRRAQGRSLKYALWGEALVLNSHLFSSGLSSHDQPDEFKKLPKPRQHS 202

Query: 389 SHKRKAPEEMASKFLALSSTKRQRASASFAPPAPP 424
           S KRKAPEEMASKFLALSSTKRQRASA   PPA P
Sbjct: 203 SQKRKAPEEMASKFLALSSTKRQRASAPSIPPATP 237

[Close]
BLAST of Moc06g10600 vs. ExPASy TrEMBL
Match: A0A6J1DKS4 (caffeic acid 3-O-methyltransferase-like OS=Momordica charantia OX=3673 GN=LOC111021443 PE=4 SV=1)

HSP 1 Score: 157.1 bits (396), Expect = 2.8e-34
Identity = 82/95 (86.32%), Postives = 84/95 (88.42%), Query Frame = 0 

Query: 329 PVPRINNKSWEIIKRAQGRRLKYALWGEALVSNSHLFSSGLSPHDQPDELKKLPKPRQRS 388
           PV RI+NKSWEII+RAQGR LKYALWGEALV NSHLFSSGLS HDQPDE KKLPKPRQ S
Sbjct: 143 PVSRIDNKSWEIIRRAQGRSLKYALWGEALVLNSHLFSSGLSSHDQPDEFKKLPKPRQHS 202

Query: 389 SHKRKAPEEMASKFLALSSTKRQRASASFAPPAPP 424
           S KRKAPEEMASKFLALSSTKRQRASA   PPA P
Sbjct: 203 SQKRKAPEEMASKFLALSSTKRQRASAPSIPPATP 237

The following BLAST results are available for this feature:
BLAST of Moc06g10600 vs. NCBI nr
Match NameE-valueIdentityDescription
XP_022154107.15.8e-3486.32caffeic acid 3-O-methyltransferase-like [Momordica charantia][more]
BLAST of Moc06g10600 vs. NCBI nr
Match NameE-valueIdentityDescription
BLAST of Moc06g10600 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
A0A6J1DKS42.8e-3486.32caffeic acid 3-O-methyltransferase-like OS=Momordica charantia OX=3673 GN=LOC111... [more]
BLAST of Moc06g10600 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
InterPro
Analysis Name: InterPro Annotations of Bitter gourd (OHB3-1) v2
Date Performed: 2022-08-01
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
NoneNo IPR availableCOILSCoilCoilcoord: 579..638
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 1..35
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 175..269
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 456..506
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 367..436
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 456..481
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 175..247

Relationships

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

Feature NameUnique NameType
Moc06g10600.1Moc06g10600.1mRNA


GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0032259 methylation
molecular_function GO:0008168 methyltransferase activity
molecular_function GO:0046983 protein dimerization activity