Carg20918 (gene) Silver-seed gourd

NameCarg20918
Typegene
OrganismCucurbita argyrosperma (Silver-seed gourd)
DescriptionUnknown protein
LocationCucurbita_argyrosperma_scaffold_141 : 350545 .. 355046 (+)
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

ATGAAGGCATCATCGGCATCATTTGCGGTGGTTGCTGCATCTTTAGCTTTCCTGAATATAAACCCTAGCCCTAACTCTCGGAAAAGAAATTTCCAAAGTCAACAGAGATTGAGAAGAGAGGGCGGAGAAACAGAGGAAGATCGAAAGGCAAGAAGAGAGAAAGAACCTGTTAATCGTTCAAAAGGAAGCTCCTTGAGATCGGATTCGAGGGAGAATCTCCGAGAAATTCTTCGCTATTGCCGATCAAGGGACGGAGTTGTTAAATCTGGCGTCCGATATCTGGAAGCGACTTTTCGCCCCAAGAAGCAGAAGATCTGCTCCGATTGTTCCGATTATCCAATTAAAGAATGGAAGTCATCAATTCCTTCAGGTGGTCGATCATTATCCAAGGATGAGACTAAAGAAGAAGTTCTGTCCATGGAAGTGCAGAAACAGGAGATGGAAATAGAGATCAAAATGAAGATGGGAGCGATCATCAAAACAAGACTAAAAGGTACCATCCATTGTTGCTTCTGTGATCTATGAAACCGAACCGCCCACCAACCCATCACGAACCCCCCTGATACACTTACCAAAACTAAAACTAGACATGTCCACACATCCTTAAGATCTCTGGTCTTCTGCCTCTTCTGCTCTCTCTCCCCCTTCATCCCAGCTTCAGTGTCTTCTCCCACCTGCAATTCTCTCGTGTGTGACATAGAATAGGAGGAAAAACTCACAAATGATCCATTAGAAGGAGGAGAAGAAGAAGATAGATCGGAGAGAAAACCCAATTAGCTTAGGAAAAAGACCTGTGCAGTTCTTGAAGATATTAGAGAGAAAATAGAATAAGAAAGTCGCATTGAGTATAACGTCACGCGTGGCTTCCCAAAGTTGGTTTTGTCAATTTGAAGGAATGTAAATATAAATAAAAGAAGGATTGGCATTCATTGGCTGGGATCGATAATTGCGTAGCTTCTATCTGGGGTAGAGTTTGATTGATTTATTGCCTTAGATGACATTTAGTGCCGCGACACCCACCTGGCCACAATTCCTTTGTTTCTTCATTTTCATAACCTCTTTCATTATTGTTTCTTTCTTCTCTCCTCCCTTCTCATGCAAACCCAACTACAGCTTCTATTCAGAACATTGATCTTTAAAGTATACTCATAAATGAGCCTTTACAAAAGAGGTCTACTCATCATTAATGAAAACTAAATGTAACAGCC

Coding sequence (CDS)

ATGAAGGCATCATCGGCATCATTTGCGGTGGTTGCTGCATCTTTAGCTTTCCTGAATATAAACCCTAGCCCTAACTCTCGGAAAAGAAATTTCCAAAGTCAACAGAGATTGAGAAGAGAGGGCGGAGAAACAGAGGAAGATCGAAAGGCAAGAAGAGAGAAAGAACCTGTTAATCGTTCAAAAGGAAGCTCCTTGAGATCGGATTCGAGGGAGAATCTCCGAGAAATTCTTCGCTATTGCCGATCAAGGGACGGAGTTGTTAAATCTGGCGTCCGATATCTGGAAGCGACTTTTCGCCCCAAGAAGCAGAAGATCTGCTCCGATTGTTCCGATTATCCAATTAAAGAATGGAAGTCATCAATTCCTTCAGGTGGTCGATCATTATCCAAGGATGAGACTAAAGAAGAAGTTCTGTCCATGGAAGTGCAGAAACAGGAGATGGAAATAGAGATCAAAATGAAGATGGGAGCGATCATCAAAACAAGACTAAAAGGTACCATCCATTGTTGCTTCTGTGATCTATGA

Protein sequence

MKASSASFAVVAASLAFLNINPSPNSRKRNFQSQQRLRREGGETEEDRKARREKEPVNRSKGSSLRSDSRENLREILRYCRSRDGVVKSGVRYLEATFRPKKQKICSDCSDYPIKEWKSSIPSGGRSLSKDETKEEVLSMEVQKQEMEIEIKMKMGAIIKTRLKGTIHCCFCDL
The following BLAST results are available for this feature:
Match NameE-valueIdentityDescription
Match NameE-valueIdentityDescription
Match NameE-valueIdentityDescription
Match NameE-valueIdentityDescription
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0008150 biological_process
cellular_component GO:0005575 cellular_component
molecular_function GO:0003674 molecular_function

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

Feature NameUnique NameType
Carg20918-RACarg20918-RAmRNA


Analysis Name: InterPro Annotations of silver-seed gourd
Date Performed: 2019-03-07
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
NoneNo IPR availableCOILSCoilCoilcoord: 130..150
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 33..69
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 20..69