Lsi05G009860 (gene) Bottle gourd (USVL1VR-Ls)

Overview
NameLsi05G009860
Typegene
OrganismLagenaria siceraria (Bottle gourd (USVL1VR-Ls))
DescriptionSerine protease inhibitor
Locationchr05 : 17218575 .. 17231093 (-)
Genome Viewer
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

TTTTATTTTCCACTTTTCCTAATTATCAATTAGAAAATAAAAAATAAAAACAACTGCAAACCCTATTATTTTTTTCTCTTCATTTCTCTTCCACCTTTCCTTTTTCTCTCTCTCCATTGCTCCCCCTGCTCCTTCTCCTTCTCCTTCTCCTTCTCTCTCTCTCTCCATTGTCGACGGCGGATTGTGAAGAGGAGGTGGCGATGTCGAGCCCTAACAGTACGGTGTCGAGTGTTAGATCACCATCGAGCCCATCGCTTGAGGTCCATCCAGTGCCATTGTTCAACGTTCGTCCTCTCGTCTCAGATCTGGTTCAGATTTGAGAGATTCGTCCATGTCGTTCTCTAAGACTCTCTGTTTGGTGGATTCCTCCTCCAGGAGCTGAAGCCATCCCCACTGAGGAATGAATGACCTTCTATCCTCTTACAGCTCAAAGCTCACACAGAGAATTGAGCAAATGAGAAGTTGCAAAGCTCACACAAACTCATCAATGGCAGTTAGCAACAATTATAGGAATATGCTTAGAACCTCATTCCAGATCTCTTGCAGTGATGGCTTTGGCTCTAATTCTCAAATGTACAAGATCAATGGGGACGACAATTATCAATGCAATCAAAGTTGCTTCAGACAAAGATTTCTTTATGGAAAGTCAGTTTGGGCAGAGCTTGTAGGGAAGCGTGGAGAAGAAGCAGTGCAGATAATAAAGAAAGAGAATCCAAATGTAAGTCCTTACATAAGACGACCATGCCAATCGGAACGAGTTACTGCAAGCTATAGGTCGAACGTTGCAAGTCCAGTTGAAGTGGTCGTTGGCCGTCATGGAAAGGTGATTAAGGCCCCTGCCATTGGCTAATCACCCTTCCCAGCTCAGCTCACTTTATAATGTTACACCTTACATCACACTCTATTTCAATAAAATAAGTTAAAGGTGTAATATTTTCACCCTACTTAATCTCGACTACTATGATAATACTCTCTTTCTATTAGATAAATACATAGACTTGTATCTTAAAATCAATCCGCAATGTACGAGAGATGTGATGTTATATTATTCTACGTTTTCTTAATTATTTATTGTGATTAAGTCTCTTCATATTTTTACAGAT

Coding sequence (CDS)

ATGAATGACCTTCTATCCTCTTACAGCTCAAAGCTCACACAGAGAATTGAGCAAATGAGAAGTTGCAAAGCTCACACAAACTCATCAATGGCAGTTAGCAACAATTATAGGAATATGCTTAGAACCTCATTCCAGATCTCTTGCAGTGATGGCTTTGGCTCTAATTCTCAAATGTACAAGATCAATGGGGACGACAATTATCAATGCAATCAAAGTTGCTTCAGACAAAGATTTCTTTATGGAAAGTCAGTTTGGGCAGAGCTTGTAGGGAAGCGTGGAGAAGAAGCAGTGCAGATAATAAAGAAAGAGAATCCAAATGTAAGTCCTTACATAAGACGACCATGCCAATCGGAACGAGTTACTGCAAGCTATAGGTCGAACGTTGCAAGTCCAGTTGAAGTGGTCGTTGGCCGTCATGGAAAGGTGATTAAGGCCCCTGCCATTGGCTAA

Protein sequence

MNDLLSSYSSKLTQRIEQMRSCKAHTNSSMAVSNNYRNMLRTSFQISCSDGFGSNSQMYKINGDDNYQCNQSCFRQRFLYGKSVWAELVGKRGEEAVQIIKKENPNVSPYIRRPCQSERVTASYRSNVASPVEVVVGRHGKVIKAPAIG
Homology
The following BLAST results are available for this feature:
BLAST of Lsi05G009860 vs. Swiss-Prot
Match NameE-valueIdentityDescription
BLAST of Lsi05G009860 vs. TrEMBL
Match NameE-valueIdentityDescription
BLAST of Lsi05G009860 vs. TAIR10
Match NameE-valueIdentityDescription
BLAST of Lsi05G009860 vs. NCBI nr
Match NameE-valueIdentityDescription
Annotated Terms
The following terms have been associated with this gene:
Vocabulary: Biological Process
TermDefinition
GO:0009611response to wounding
Vocabulary: Molecular Function
TermDefinition
GO:0004867serine-type endopeptidase inhibitor activity
Vocabulary: INTERPRO
TermDefinition
IPR000864Prot_inh_pot1
GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0009611 response to wounding
cellular_component GO:0005575 cellular_component
molecular_function GO:0004867 serine-type endopeptidase inhibitor activity
Relationships

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

Feature NameUnique NameType
Lsi05G009860.1Lsi05G009860.1mRNA


InterPro
Analysis Name: InterPro Annotations of Lagenaria siceraria
Date Performed: 2017-09-18
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
IPR000864Proteinase inhibitor I13, potato inhibitor IPRODOMPD002604coord: 85..149
score: 5.
IPR000864Proteinase inhibitor I13, potato inhibitor IPFAMPF00280potato_inhibitcoord: 82..149
score: 2.9
IPR000864Proteinase inhibitor I13, potato inhibitor IunknownSSF54654CI-2 family of serine protease inhibitorscoord: 81..149
score: 1.3
NoneNo IPR availableGENE3DG3DSA:3.30.10.10coord: 81..149
score: 6.3

Synteny
The following gene(s) are orthologous to this gene:
GeneOrthologueOrganismBlock
Lsi05G009860Cla006008Watermelon (97103) v1lsiwmB356
Lsi05G009860ClCG07G000770Watermelon (Charleston Gray)lsiwcgB348
Lsi05G009860Bhi05G000180Wax gourdlsiwgoB459
The following gene(s) are paralogous to this gene:

None

The following block(s) are covering this gene:
GeneOrganismBlock
Lsi05G009860Melon (DHL92) v3.6.1lsimedB379
Lsi05G009860Melon (DHL92) v3.6.1lsimedB398
Lsi05G009860Silver-seed gourdcarlsiB211
Lsi05G009860Silver-seed gourdcarlsiB689
Lsi05G009860Silver-seed gourdcarlsiB717
Lsi05G009860Silver-seed gourdcarlsiB879
Lsi05G009860Cucumber (Chinese Long) v3cuclsiB140
Lsi05G009860Cucumber (Chinese Long) v3cuclsiB234
Lsi05G009860Watermelon (97103) v2lsiwmbB336
Lsi05G009860Watermelon (97103) v2lsiwmbB342
Lsi05G009860Watermelon (97103) v2lsiwmbB346
Lsi05G009860Bottle gourd (USVL1VR-Ls)lsilsiB012
Lsi05G009860Bottle gourd (USVL1VR-Ls)lsilsiB157
Lsi05G009860Cucurbita maxima (Rimu)cmalsiB247
Lsi05G009860Cucurbita maxima (Rimu)cmalsiB486
Lsi05G009860Cucurbita maxima (Rimu)cmalsiB585
Lsi05G009860Cucurbita maxima (Rimu)cmalsiB840
Lsi05G009860Cucurbita moschata (Rifu)cmolsiB235
Lsi05G009860Cucurbita moschata (Rifu)cmolsiB470
Lsi05G009860Cucurbita moschata (Rifu)cmolsiB565
Lsi05G009860Cucurbita pepo (Zucchini)cpelsiB209
Lsi05G009860Cucurbita pepo (Zucchini)cpelsiB269
Lsi05G009860Cucurbita pepo (Zucchini)cpelsiB616
Lsi05G009860Cucurbita pepo (Zucchini)cpelsiB716
Lsi05G009860Wild cucumber (PI 183967)cpilsiB127
Lsi05G009860Wild cucumber (PI 183967)cpilsiB213
Lsi05G009860Cucumber (Chinese Long) v2culsiB129
Lsi05G009860Cucumber (Chinese Long) v2culsiB215
Lsi05G009860Melon (DHL92) v3.5.1lsimeB364
Lsi05G009860Melon (DHL92) v3.5.1lsimeB382
Lsi05G009860Watermelon (Charleston Gray)lsiwcgB344
Lsi05G009860Watermelon (97103) v1lsiwmB367
Lsi05G009860Watermelon (97103) v1lsiwmB383
Lsi05G009860Cucumber (Gy14) v2cgyblsiB117
Lsi05G009860Cucumber (Gy14) v2cgyblsiB206