Lcy03g017480 (gene) Sponge gourd (P93075) v1

Overview
NameLcy03g017480
Typegene
OrganismLuffa cylindrica cv. P93075 (Sponge gourd (P93075) v1)
DescriptionArginine decarboxylase-like
LocationChr03: 51255381 .. 51261515 (+)
RNA-Seq ExpressionLcy03g017480
SyntenyLcy03g017480
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

ATGGCTTCCCCAGCTCTATCTTACTCTGGAAACCCTGTAAACCATTTTAGACGTGCCAATAATTGGAGTTTGGGGCCACGGAGAAGAAAACCATATTTCAAAGTTCTTCAGGAAACTAGCATTGTCGAGACAAATAACAATCAAGATAGATCAAGCAAAGAGCAAAATGACAAGCCGGTAATCAGAGATTCTCCAAGATCCCAGGAAGGTAGCAACCCTCCTCTGATAAGAGCATTGAAAGCTTCAGCAGAACAAAATACAGCTGATTTTCACTTTCCTGGACATAAGAGAGGGCAAGCAGCACCATCATCAATAACTCAGCTCATTGGTCTAAAACCATTTATGCATGATTTTTCTCAGGTTCCTGAGCTCGACAACCTCTTTCGTCCTGAGGGCCCAATTTTAGAAGCACAGCAGCAAGCAGCTAAACTTTTTGGAGCATCAGAGACATGGTTCCTCGTTGGAGGAACCACAAGTGGAATTCAAGCTGCAATTATGGCAACTTGTTCCCCAGGCGAATATATAATTCTTCCTAGAAATTCCCATGCATCAGCTATATCTGCTTTGGTATTTACTGGTGCAAATCCTATATACATCATCCCTGAGTATGATTCCAACTGGGACATCGCCGGTGGAGTCACTCCATCACAGGTTGTAAAAGCAATCGAGGATTCAGAGATGGAATGTCAAAAAGTATCTGCAGTTTTTGTTACTTCACCCACTTACCATGGCATCTGTAGTAACTTGAGTGAAATTTCTCAGATATGTCATTCTAAAGGAATTCCCTTAATCGTTGATGAGGCTCATGGGGCACACTTTGGGTTTCAACCTCAACTACCACATTCTGCACTCCAACAAGGGGCTGATTTGGTTGTTCAATCCACCCACAAAGTTCTTTGCTCTCTTACTCAGTCATCGATGTTACACCTGTCGGGGAATATTATAGATAGAGAACGAGTTTGTAGATGCTTACAAACACTTCAAAGCACGAGCCCTAGTTATTTGCTTTTAGCATCACTAGATGCTGCCAGAGCTCAACTAAGTGATAATCCAGACAAGATTTTTAATAAAGCAATAGATCTAGCAAACCAAGCAAAACGCAAGATAAACAAAATTTCAGATATCTCTGTCCTAGAATTTCCCATCTTCTCCAACTTCCCGGCTATTGATCCATTGAGACTCACTATTGGTTTCCAGAAACTTGGTTTGTCCGGCTATGAAGCAAATGAAATACTACACAAGAATCATGGTGTCACTTGTGAACTTATTGGTACTCAATCTATTACTATAGTCATTAACCTTGGAATATGTGAACATGATATTCAGAGGCTAGTGTCAGGCCTTGAGGATGTAAGCTCTTTTGGACCGATTCTAGGAATCGAACAAAGAAGCAAACTTAACATTTTTGCACCCTTTACTGACATCAAAATCGGCATGAACCCTAGAGAAGCCTTTTTTGCCAAAAAAGGGAAACAAAGCATTACCAGAAGTGTGGGAGAGGTGTGTGGGGAGCTAACATGCCCTTTCCCACCAGGGATACCAGTGACAATCCCAGGTGAGGTAATAACGGAGGAAGTTCGAGATTTTTTGCTGCATCTAAAAAGGAAAGGTGTCTCTATAACTGGAGCTTCTGATCCCCAACTCTCTTCACTTGTTGTATGCAATGTGTAGGAGAAAGAGCAAAATGACTCATGAATAAAATACTTGTTTGGATCCTGATGGTTGTAGTTTCTAGAAGAATAATATAAACTTGCAGTTTTGCAGTAGCATTTGACAAGGAGATAAGAAATGAGGCTGACGATTATTGGCATCCTTGAGTGGGTTATGATGAAGAAAAATTCTTGGAGGGAATGAATATTCTGTTATGTATTGGGAAATGGGAACTATTCAAAAGGTTTTAGTTGCACGAAATAGCATGGAATTCATCTTTTCACCTTGAAGGACAGTCAACTGAATGCAGATCCATAGAGTTCATATTGTCATCAATGCAATCACCCTATGATTTCTCTTTTCATCTCTATCATATTTTTTATCCTCAACCATAGCTTATTGAAAACCAAGGATCCCTATTTGATTTCATCTCACAACTCAGATTGATCTGTCTAAATTGCAAGATGAAAGCCAAGAACCACGGGACCCATAATCCTTTCATTTTGCAAAACCGAGAGGCTTTAATCTGAGTTGTGACATAAAATCCTTGTGTGAATTCTATGATGGAAACAAGCAATATCCAACTGCAAATTGAACCTCTTCTTTGCAATCATCTCCCTCCACAGTCCACACAAATCGACCAAAAGTCAATGATTTTATCTTAGTTTCTTCCTTTGGTCAGAAAAAATTGAAAACTCCACGGAAACCAGCAAAACTGTAAGACCTCTCTTTAAACCCCTCAACACAAGCACAAGCACAGATTCTTTGCAATCTGAACAAAATTCACATAAATCCAACAAAAACCATGATTTGATCAAACATTTGATTCAAAAAATCAAATGAAATTAACCAAGATAACCCAACCAGAAAACTCACATATCAGATTCCCGAAAACTTGAAACATGCTCAAAATGATAAGGCCAAGCCACACTATGATCAAACAAATGCCAAAAACTCATTAAGTGGCTTGATCAAAAGTTGAGGGACAACCACATGCCAACATGCAACAATTTTTTTCTTTTTTATATACGTGAGTATTAGGGCCAACTTGTGTCACCTCAACTAATCTCATAGGACAACCACCTAACCCTAGTAAGTGTATCAATTTGCATTGATTTTACTAACTTGAGTAATTGATTAGCATTTTAATCCTCATTCTTGATGACCTTACTAAAACATAAGGTTCTTGGCACTAGGATCTCACTGTCTTAATCAACACTAAATCATCGAGAAGAGATGGTTTATCAATGCTACAACTCGTCACTTGAGGAGGGATTGCCAATGGCTATTTGAGAGGCCTAGTGGCTCATAGGATCATTCTTCCAATAAAATCAGGCAGGGACACAGTTTGGCTAGAGACAATCTAATATGCAATCAAGACCTGCTATAATAAGTAGTAAAGGTCAATCTAATGATGCAAGCTCCTAGGGTGAGATCAAAGGGGCAAGCTGAGAGGCCCCGCAATCAAGGAAAACTATTTCATGTTTCTTATTTATAAAAAATATTTATAATCTTTTATTAGTTAAAGTTTACAAGTATTTATGTTATTTGTTCTCTCAAAATTATCTTTTTAAGAAGTCTTAATACTCGTTGAACTTGTCAGTTCCCGCTTTTGTTAGGCATCCAAACACAGAAACACACGATTAGTAACATATTGCAAAAAAAAAAGGAACTACAATATAACAATAGCCTTTCGAGTGGGTCAACTTTCTCCCAAAGTCCTACAACAAGACAATACCCAAAATTCTTCACACCCTTCGAAGACTCTCAACCCCCTATTTATAACTCAAACTCCTTAACTAACTACCACAATGCCCTTGCTACTATTCTACTACTATCCCCCATATACCTCTATTAGTACTCTCACATCTTTCTTCTTAAATTTTTCTATCAGGTAGCACTTAAGTATCCAATGAGCCTACCAGAGTCAATATCTACCACCAACCTCCTTTAGATAGCATATTATCTCGTTTAATTCATATAGTTTTGATACAATATTTTTGTAACTAGCATGGTTAGCATTCTTTTTAAGGCGTTGCATTGTTTTTGAAATTATATTGTGATTCGAAGTTCTTAATTTGTGGAAAAGATGTCTTCCTGTTAATGAAGCACATTTGGTGGTAGTGTTGGAGATTGAATGCCTTTGGGAGTGTATACCGTCATTTCAGGCTTGTTTTATCTAACTTTTAGGGGAACCGTGTCGAATTTTCATGATTTTCCTTGAGTAAAATTTTGCAAGCCAAATTTTGATTTTCAAAAGTTAGTTTAGTTTGTGTTAGTTTCATAATCTACATTTTTCGAGTTGAATTTTTGTCATGACTCTCTCTCTACCTCTCTCTTTCTCTCCCCCTCCAGCCAACCACCAAACCCCTCGCCGACCACCCTCCAACTCCTCACCATGACCCTCCACCCACCCGTCAACCATCG

Coding sequence (CDS)

ATGGCTTCCCCAGCTCTATCTTACTCTGGAAACCCTGTAAACCATTTTAGACGTGCCAATAATTGGAGTTTGGGGCCACGGAGAAGAAAACCATATTTCAAAGTTCTTCAGGAAACTAGCATTGTCGAGACAAATAACAATCAAGATAGATCAAGCAAAGAGCAAAATGACAAGCCGGTAATCAGAGATTCTCCAAGATCCCAGGAAGGTAGCAACCCTCCTCTGATAAGAGCATTGAAAGCTTCAGCAGAACAAAATACAGCTGATTTTCACTTTCCTGGACATAAGAGAGGGCAAGCAGCACCATCATCAATAACTCAGCTCATTGGTCTAAAACCATTTATGCATGATTTTTCTCAGGTTCCTGAGCTCGACAACCTCTTTCGTCCTGAGGGCCCAATTTTAGAAGCACAGCAGCAAGCAGCTAAACTTTTTGGAGCATCAGAGACATGGTTCCTCGTTGGAGGAACCACAAGTGGAATTCAAGCTGCAATTATGGCAACTTGTTCCCCAGGCGAATATATAATTCTTCCTAGAAATTCCCATGCATCAGCTATATCTGCTTTGGTATTTACTGGTGCAAATCCTATATACATCATCCCTGAGTATGATTCCAACTGGGACATCGCCGGTGGAGTCACTCCATCACAGGTTGTAAAAGCAATCGAGGATTCAGAGATGGAATGTCAAAAAGTATCTGCAGTTTTTGTTACTTCACCCACTTACCATGGCATCTGTAGTAACTTGAGTGAAATTTCTCAGATATGTCATTCTAAAGGAATTCCCTTAATCGTTGATGAGGCTCATGGGGCACACTTTGGGTTTCAACCTCAACTACCACATTCTGCACTCCAACAAGGGGCTGATTTGGTTGTTCAATCCACCCACAAAGTTCTTTGCTCTCTTACTCAGTCATCGATGTTACACCTGTCGGGGAATATTATAGATAGAGAACGAGTTTGTAGATGCTTACAAACACTTCAAAGCACGAGCCCTAGTTATTTGCTTTTAGCATCACTAGATGCTGCCAGAGCTCAACTAAGTGATAATCCAGACAAGATTTTTAATAAAGCAATAGATCTAGCAAACCAAGCAAAACGCAAGATAAACAAAATTTCAGATATCTCTGTCCTAGAATTTCCCATCTTCTCCAACTTCCCGGCTATTGATCCATTGAGACTCACTATTGGTTTCCAGAAACTTGGTTTGTCCGGCTATGAAGCAAATGAAATACTACACAAGAATCATGGTGTCACTTGTGAACTTATTGGTACTCAATCTATTACTATAGTCATTAACCTTGGAATATGTGAACATGATATTCAGAGGCTAGTGTCAGGCCTTGAGGATGTAAGCTCTTTTGGACCGATTCTAGGAATCGAACAAAGAAGCAAACTTAACATTTTTGCACCCTTTACTGACATCAAAATCGGCATGAACCCTAGAGAAGCCTTTTTTGCCAAAAAAGGGAAACAAAGCATTACCAGAAGTGTGGGAGAGGTGTGTGGGGAGCTAACATGCCCTTTCCCACCAGGGATACCAGTGACAATCCCAGGTGAGGTAATAACGGAGGAAGTTCGAGATTTTTTGCTGCATCTAAAAAGGAAAGGTGTCTCTATAACTGGAGCTTCTGATCCCCAACTCTCTTCACTTGTTGTATGCAATGTGTAG

Protein sequence

MASPALSYSGNPVNHFRRANNWSLGPRRRKPYFKVLQETSIVETNNNQDRSSKEQNDKPVIRDSPRSQEGSNPPLIRALKASAEQNTADFHFPGHKRGQAAPSSITQLIGLKPFMHDFSQVPELDNLFRPEGPILEAQQQAAKLFGASETWFLVGGTTSGIQAAIMATCSPGEYIILPRNSHASAISALVFTGANPIYIIPEYDSNWDIAGGVTPSQVVKAIEDSEMECQKVSAVFVTSPTYHGICSNLSEISQICHSKGIPLIVDEAHGAHFGFQPQLPHSALQQGADLVVQSTHKVLCSLTQSSMLHLSGNIIDRERVCRCLQTLQSTSPSYLLLASLDAARAQLSDNPDKIFNKAIDLANQAKRKINKISDISVLEFPIFSNFPAIDPLRLTIGFQKLGLSGYEANEILHKNHGVTCELIGTQSITIVINLGICEHDIQRLVSGLEDVSSFGPILGIEQRSKLNIFAPFTDIKIGMNPREAFFAKKGKQSITRSVGEVCGELTCPFPPGIPVTIPGEVITEEVRDFLLHLKRKGVSITGASDPQLSSLVVCNV
Homology
The following BLAST results are available for this feature:
Match NameE-valueIdentityDescription
Q9K9K55.3e-8837.76Arginine decarboxylase OS=Bacillus halodurans (strain ATCC BAA-125 / DSM 18197 /... [more]
P218851.0e-8335.45Arginine decarboxylase OS=Bacillus subtilis (strain 168) OX=224308 GN=speA PE=1 ... [more]
Q81MS23.7e-8133.95Arginine decarboxylase OS=Bacillus anthracis OX=1392 GN=speA PE=3 SV=1[more]
Q819L41.4e-7534.37Arginine decarboxylase OS=Bacillus cereus (strain ATCC 14579 / DSM 31 / JCM 2152... [more]
P375362.5e-6134.92Uncharacterized protein YaaO OS=Bacillus subtilis (strain 168) OX=224308 GN=yaaO... [more]
Match NameE-valueIdentityDescription
A0A6J1BY728.2e-24982.16uncharacterized protein LOC111006813 OS=Momordica charantia OX=3673 GN=LOC111006... [more]
A0A6J1C0011.4e-24579.35uncharacterized protein LOC111007031 OS=Momordica charantia OX=3673 GN=LOC111007... [more]
A0A6J1E1Q85.3e-24075.58uncharacterized protein LOC111429785 isoform X2 OS=Cucurbita moschata OX=3662 GN... [more]
A0A6J1JDD31.5e-23975.04uncharacterized protein LOC111484796 isoform X2 OS=Cucurbita maxima OX=3661 GN=L... [more]
A0A6J1E6472.0e-23975.36uncharacterized protein LOC111429785 isoform X1 OS=Cucurbita moschata OX=3662 GN... [more]
Match NameE-valueIdentityDescription
XP_022134581.11.7e-24882.16uncharacterized protein LOC111006813 [Momordica charantia][more]
XP_022134879.13.0e-24579.35uncharacterized protein LOC111007031 [Momordica charantia][more]
XP_023515532.14.4e-24175.94uncharacterized protein LOC111779660 isoform X2 [Cucurbita pepo subsp. pepo][more]
XP_023515530.11.7e-24075.72uncharacterized protein LOC111779660 isoform X1 [Cucurbita pepo subsp. pepo] >XP... [more]
KAG6589654.14.9e-24075.54hypothetical protein SDJN03_15077, partial [Cucurbita argyrosperma subsp. sorori... [more]
Match NameE-valueIdentityDescription
InterPro
Analysis Name: InterPro Annotations of Sponge gourd (P93075) v1
Date Performed: 2021-12-06
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
NoneNo IPR availableGENE3D3.90.100.10coord: 462..553
e-value: 8.4E-16
score: 59.7
NoneNo IPR availablePIRSRPIRSR017617-1PIRSR017617-1coord: 126..299
e-value: 4.9E-7
score: 27.2
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 50..64
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 39..73
NoneNo IPR availablePANTHERPTHR43277:SF4ARGININE DECARBOXYLASEcoord: 46..555
NoneNo IPR availablePANTHERPTHR43277ARGININE DECARBOXYLASEcoord: 46..555
IPR000310Orn/Lys/Arg decarboxylase, major domainPFAMPF01276OKR_DC_1coord: 73..378
e-value: 1.1E-72
score: 245.0
IPR000310Orn/Lys/Arg decarboxylase, major domainCDDcd00615Orn_deC_likecoord: 74..371
e-value: 1.024E-134
score: 391.612
IPR008286Orn/Lys/Arg decarboxylase, C-terminalPFAMPF03711OKR_DC_1_Ccoord: 479..534
e-value: 9.5E-6
score: 26.0
IPR015421Pyridoxal phosphate-dependent transferase, major domainGENE3D3.40.640.10coord: 73..353
e-value: 7.5E-110
score: 368.8
IPR015424Pyridoxal phosphate-dependent transferaseSUPERFAMILY53383PLP-dependent transferasescoord: 73..451
IPR036633Orn/Lys/Arg decarboxylase, C-terminal domain superfamilySUPERFAMILY55904Ornithine decarboxylase C-terminal domaincoord: 411..554

Relationships

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

Feature NameUnique NameType
Lcy03g017480.1Lcy03g017480.1mRNA


GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
molecular_function GO:0003824 catalytic activity