Bhi04G000715 (gene) Wax gourd (B227) v1

Overview
NameBhi04G000715
Typegene
OrganismBenincasa hispida (Wax gourd (B227) v1)
DescriptionPolynucleotide adenylyltransferase
Locationchr4: 21995344 .. 22005349 (-)
RNA-Seq ExpressionBhi04G000715
SyntenyBhi04G000715
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

CCTTGACTAAACCCACCCTTTTTCCCCGCTTCGACGCCCTTCTTTCCTTCATCTCCTTCATCTCTCTCTCTCTCTGTGTATCCAGCCCTGAGTTTGACCGGTTTACGAACCGCCAATCCATCGCCAGTACGGATTAAGGATTCGATCTGCTCTCACTTCATACTTTTCCGACCTTGTCTTTCGACGCAGACTGTTTCTCTCTTCCCCGTTTGCTTCTCTATGCTTTCTAATTCACCCTCTCGTATCAAATCTTGATCCCAATTGTTCCATTTCATCTTCTAATTTTGGGGCACCCGCATCACAAATGCTTTGCTGAGTTAGCTTCAGTTTTCTCTCATTTTCTCTCAGATCTTCTTCTTCAATTCTCGGTCAGATTCTGGGTTGCTGCGTGATTAGTGTGTTTGCGTTAGCTGTGTCTTTTTCGCTGTTTTGGAAATGGTGGGTTCGGACACTTCACCTGGTTTTCCCTCGGCGCCTCAGCCAGCGACGAATTATGGTGTTACGAAACCGATTTCTCTTGCTGGGCCGACGGATGCGGATATTCAGCGTAATATCGAACTGGAGAAGTTCTTGATTGACTCGGGGCTTTACGAAAGTAAAGAAGAAGCTGCGAAAAGAGAAGAGGTTCTGGGCCGCATTGACCAGATTGTTAAAAATTGGGTCAAACAATTAACCCTCCTAAGAGGATACACAGAGCAGATGGTGGAGGATGCAAATGCTGTAATTTTTACTTTCGGGTCTTATCGTCTTGGGGTACATGGACCAGGAAGTGACATAGACACTTTGTGTGTTGGACCATCTTACGTCAATAGAGAAGACTTCTTCATCATCTTGCATAATATTTTGGCCGAAATGGAAGAGGTTGCTGATCTTCAACCGGTTCCTGATGCTCATGTTCCAGTAATGAGATTCAAATTTCTGGGGATATCAATTGATCTTCTGTATGCGAGCATTTCCGTACTGGTTGTTCCAGAAGACCTGGACATCTCTCATGGATCTGTGTTGTATAATGTTGATGAACAAACTGTTAGAAGCCTTAATGGATGCAGAGTTGCAGATCAAATTCTAAGACTTGTTCCAAACATTGAGCACTTCCGTACAACACTCAGATGTTTAAAGTTTTGGGCCAAAAGACGGGGTGTATATTCAAATATCACTGGGTTCCTCGGAGGTGTAAATTGGGCACTTTTGGTTGCTCAGGTATGCCAGCTTTACCCCAATGCAATTCCAAGCATGCTAGTTTCTCGTTTCTTCAGAGTGTACACCCAGTGGCGTTGGCCAAATCCTGTAATGCTATGTTCAATAGAAGAGAATGAACTTGGATTTCCTGTTTGGGATCCTCGTAGAAATCCACGTGATCGATTTCATCTTATGCCAATAATAACTCCTGCTTACCCTTGCATGAACTCTAGCTATAATGTCTCAACTAGTACTCTTCGTGTTATGATGGAACAATTCCGCTATGGTAATAGCATCTGCGAGGAGATTGACTTGAGCAAAGCCCAGTGGAGTGCTTTGTTTGAGCCATATTTATTTTTCGAGACATACAAAAACTATCTGCAGGTGGATATTATTGCAGCAGATGCTGACGATTTGCTAGCTTGGAAGGGATGGGTAGAATCTCGCTTTAGACAGCTTACGTTGAAGATAGAGAGGGACACCAGGGGGATGCTGCAGTGCCATCCCTATCCGATTGAGTATTCTGACATGTCCAAGCCATGTTCTCACTGTGCTTTTTTCATGGGCTTGCAGAGAAAAGAGGGATTAAGAGGTCAAGGAGGCCAGCAGTTTGACATACGTGGAACAGTTGATGAGTTCAGGCAAGAGATAAACATGTATGCCTTTTGGAAGCCAGGGATGGATATCTATGTTTCTCATGTACGGAGGAAGCAACTGCCCACCTTTGTTTTTCCTGATGGACACAAGCGAGCAAAGCCATCCAGGCATGAAGGACAGCAAGCTAATGCAGTTTGTGCTGATATGCACCAAGATCAATCTGGGATCACTGAAAAGGGGAAAAAAAGGAAAAGTGATCATGAAGAAGAAGAGACAGAAAAGAAACAAGCCCTTATCAGTCAACCAGCAGAAGAATCTCCCATGCATGAAACTAATGGTGGTGGATCAGATGGAAAATTGCTGAGTTTGAAATCTATAAATGCAGATTGTTATTCTGAGGTTTGGTCATCTCTTGAACAGCCTTATTGCAGAATGGATACTGTTAGAAATGGCACGGATATTCCAACTTTGACCAAGGAGACTAGTTCTACGGGGGATCAGGTAGAGCTACTAGCTAAAGAGATGGAAGGATCTTCCTCGAGGAAGGAGGTGTCTGATCTATATAAAGGCAGTCTTTCAAAATCTGAGGAAGCTTTACAAATTGGAATGAACGGGGAAAAGGTCAAGGGCTTAGCATCAAGCATGAGTGGAAATGCACAGACAGTAGCCATCAAGACTTTTCTCCATTGGACAAAGGATGTTGGGAGGATTGACTCCAAGTCAGCAAATACATTTGGCCAAACAACAGGGGGTGAGAGTACCCAAGTTGACTTTCAACCAAATTGCAATACACATAACCTTAGTTGCAAGGTGAGTGACTGAGTTTGACTACGTTGGATTACAAATCATAGCCAATGGCAGTAAGAGAAGTGGCATTATGGGGATAGTGAGTTGGGTATTTGCAGGGCAATGATAGCAGGACGGATCCAGACTTGGCATTGGAAAATGGCTCTGTTGTAACTGGAAGAGTGTCTCAAAATGGTCAATCTAAAGAGTTGGAGGTTTGAATCCAATTGTTAAATTACTTTCATTTTATATATCTACACAAACTATTTTATAACTAATTATGGTGCTTCCACCAAGGAATCTAGGGTAAGAGGTTGAGATTTTAATTGATATCAATCAGCAGAATAGAAGATATAAACAAATTGCCGGTTTGATACCTTAAATATATATATTTGCCAGAAACCAACTCTTGTTGTTTCATTCTATATCTCTTCGCCATGCCTTTTTCATTTGATCCATAATTATTGGTCTATTTTCCTGTTGCATTTTAATTATCATTTTGTAATGCCAAATTTTCGCACAGGCAATCTTCTGACTGGTGCACATGTGGTGGCAGGTCCTGCACCACTATACGTGTTATGTTACCAGTAACTGTGCTAAAGAACCCATTTCTGCTCAAGTTTTCCTGCATTACCTTTTTTCTCCTCATGAAAATCTCTGCCTAATTAGTATTTTCTTTTTGAACTTTATTCTATAGCCGAAGATCAGCGATCAGGCAGTCACAGAATGGAGTTAAATCAGAATCTAAGCAAAATTCTGGTAAAAAAGAGTCTTGGGGGATCTGGCTAGAAGCATCCTTTGAACAGACTGAATCTGAACCTAAAGGCTTGTGTGGAGGGAAAGTACTGGATGCTGGATGGGTTAGGAGGTCGGGAGCTAACCAGCATTTGGTAAGTATCACCTCAATTACTGGCTTTGATTATTGATATAGATGGTGTTCATCATGTATGAACCTGCGGAGTTGGGGAGGAGTCACGTGGCTTGGTGGCGGGGGCATATGGTTCAGCTCCCATATGCTGTTTATTGTCCTTAAAGATGGGAATCCGGAGAACTGCTGTTGGGGGAAAAAACCTTAGATAAGTGCAGGCGATGCTTTGATGAATCTGGTGCATTTCATGTTTGATGCCTGGTGTTGGAACTGTCACAGCTTCCCATTTTTAGAAGATGGGAGATTCTTTATGAAGGAACTGCTCATGTGGTCGTTTCTGGGGCGAATCTAGTCTACACTTCCTGGACCTTCAATCTTACAGTTTAACTATATTGAGTTTTTGACATGCACATTGTACGGAGAAAGT

Coding sequence (CDS)

ATGGTGGGTTCGGACACTTCACCTGGTTTTCCCTCGGCGCCTCAGCCAGCGACGAATTATGGTGTTACGAAACCGATTTCTCTTGCTGGGCCGACGGATGCGGATATTCAGCGTAATATCGAACTGGAGAAGTTCTTGATTGACTCGGGGCTTTACGAAAGTAAAGAAGAAGCTGCGAAAAGAGAAGAGGTTCTGGGCCGCATTGACCAGATTGTTAAAAATTGGGTCAAACAATTAACCCTCCTAAGAGGATACACAGAGCAGATGGTGGAGGATGCAAATGCTGTAATTTTTACTTTCGGGTCTTATCGTCTTGGGGTACATGGACCAGGAAGTGACATAGACACTTTGTGTGTTGGACCATCTTACGTCAATAGAGAAGACTTCTTCATCATCTTGCATAATATTTTGGCCGAAATGGAAGAGGTTGCTGATCTTCAACCGGTTCCTGATGCTCATGTTCCAGTAATGAGATTCAAATTTCTGGGGATATCAATTGATCTTCTGTATGCGAGCATTTCCGTACTGGTTGTTCCAGAAGACCTGGACATCTCTCATGGATCTGTGTTGTATAATGTTGATGAACAAACTGTTAGAAGCCTTAATGGATGCAGAGTTGCAGATCAAATTCTAAGACTTGTTCCAAACATTGAGCACTTCCGTACAACACTCAGATGTTTAAAGTTTTGGGCCAAAAGACGGGGTGTATATTCAAATATCACTGGGTTCCTCGGAGGTGTAAATTGGGCACTTTTGGTTGCTCAGGTATGCCAGCTTTACCCCAATGCAATTCCAAGCATGCTAGTTTCTCGTTTCTTCAGAGTGTACACCCAGTGGCGTTGGCCAAATCCTGTAATGCTATGTTCAATAGAAGAGAATGAACTTGGATTTCCTGTTTGGGATCCTCGTAGAAATCCACGTGATCGATTTCATCTTATGCCAATAATAACTCCTGCTTACCCTTGCATGAACTCTAGCTATAATGTCTCAACTAGTACTCTTCGTGTTATGATGGAACAATTCCGCTATGGTAATAGCATCTGCGAGGAGATTGACTTGAGCAAAGCCCAGTGGAGTGCTTTGTTTGAGCCATATTTATTTTTCGAGACATACAAAAACTATCTGCAGGTGGATATTATTGCAGCAGATGCTGACGATTTGCTAGCTTGGAAGGGATGGGTAGAATCTCGCTTTAGACAGCTTACGTTGAAGATAGAGAGGGACACCAGGGGGATGCTGCAGTGCCATCCCTATCCGATTGAGTATTCTGACATGTCCAAGCCATGTTCTCACTGTGCTTTTTTCATGGGCTTGCAGAGAAAAGAGGGATTAAGAGGTCAAGGAGGCCAGCAGTTTGACATACGTGGAACAGTTGATGAGTTCAGGCAAGAGATAAACATGTATGCCTTTTGGAAGCCAGGGATGGATATCTATGTTTCTCATGTACGGAGGAAGCAACTGCCCACCTTTGTTTTTCCTGATGGACACAAGCGAGCAAAGCCATCCAGGCATGAAGGACAGCAAGCTAATGCAGTTTGTGCTGATATGCACCAAGATCAATCTGGGATCACTGAAAAGGGGAAAAAAAGGAAAAGTGATCATGAAGAAGAAGAGACAGAAAAGAAACAAGCCCTTATCAGTCAACCAGCAGAAGAATCTCCCATGCATGAAACTAATGGTGGTGGATCAGATGGAAAATTGCTGAGTTTGAAATCTATAAATGCAGATTGTTATTCTGAGGTTTGGTCATCTCTTGAACAGCCTTATTGCAGAATGGATACTGTTAGAAATGGCACGGATATTCCAACTTTGACCAAGGAGACTAGTTCTACGGGGGATCAGGTAGAGCTACTAGCTAAAGAGATGGAAGGATCTTCCTCGAGGAAGGAGGTGTCTGATCTATATAAAGGCAGTCTTTCAAAATCTGAGGAAGCTTTACAAATTGGAATGAACGGGGAAAAGGTCAAGGGCTTAGCATCAAGCATGAGTGGAAATGCACAGACAGTAGCCATCAAGACTTTTCTCCATTGGACAAAGGATGTTGGGAGGATTGACTCCAAGTCAGCAAATACATTTGGCCAAACAACAGGGGGTGAGAGTACCCAAGTTGACTTTCAACCAAATTGCAATACACATAACCTTAGTTGCAAGGTGAGTGACTGA

Protein sequence

MVGSDTSPGFPSAPQPATNYGVTKPISLAGPTDADIQRNIELEKFLIDSGLYESKEEAAKREEVLGRIDQIVKNWVKQLTLLRGYTEQMVEDANAVIFTFGSYRLGVHGPGSDIDTLCVGPSYVNREDFFIILHNILAEMEEVADLQPVPDAHVPVMRFKFLGISIDLLYASISVLVVPEDLDISHGSVLYNVDEQTVRSLNGCRVADQILRLVPNIEHFRTTLRCLKFWAKRRGVYSNITGFLGGVNWALLVAQVCQLYPNAIPSMLVSRFFRVYTQWRWPNPVMLCSIEENELGFPVWDPRRNPRDRFHLMPIITPAYPCMNSSYNVSTSTLRVMMEQFRYGNSICEEIDLSKAQWSALFEPYLFFETYKNYLQVDIIAADADDLLAWKGWVESRFRQLTLKIERDTRGMLQCHPYPIEYSDMSKPCSHCAFFMGLQRKEGLRGQGGQQFDIRGTVDEFRQEINMYAFWKPGMDIYVSHVRRKQLPTFVFPDGHKRAKPSRHEGQQANAVCADMHQDQSGITEKGKKRKSDHEEEETEKKQALISQPAEESPMHETNGGGSDGKLLSLKSINADCYSEVWSSLEQPYCRMDTVRNGTDIPTLTKETSSTGDQVELLAKEMEGSSSRKEVSDLYKGSLSKSEEALQIGMNGEKVKGLASSMSGNAQTVAIKTFLHWTKDVGRIDSKSANTFGQTTGGESTQVDFQPNCNTHNLSCKVSD
Homology
The following BLAST results are available for this feature:
Match NameE-valueIdentityDescription
AT4G32850.24.4e-24774.41nuclear poly(a) polymerase [more]
AT4G32850.34.4e-24774.41nuclear poly(a) polymerase [more]
AT4G32850.64.4e-24774.41nuclear poly(a) polymerase [more]
AT4G32850.54.4e-24774.41nuclear poly(a) polymerase [more]
AT4G32850.14.4e-24774.41nuclear poly(a) polymerase [more]
Match NameE-valueIdentityDescription
Q8VYW16.2e-24674.41Nuclear poly(A) polymerase 4 OS=Arabidopsis thaliana OX=3702 GN=PAPS4 PE=1 SV=1[more]
O823123.5e-24160.54Nuclear poly(A) polymerase 2 OS=Arabidopsis thaliana OX=3702 GN=PAPS2 PE=1 SV=2[more]
Q9LMT27.2e-19456.55Nuclear poly(A) polymerase 1 OS=Arabidopsis thaliana OX=3702 GN=PAPS1 PE=1 SV=1[more]
Q54J731.3e-12644.34Poly(A) polymerase OS=Dictyostelium discoideum OX=44689 GN=papA PE=3 SV=1[more]
Q9NRJ59.6e-12246.63Poly(A) polymerase beta OS=Homo sapiens OX=9606 GN=PAPOLB PE=2 SV=1[more]
Match NameE-valueIdentityDescription
A0A6J1HCH80.0e+0090.56Polynucleotide adenylyltransferase OS=Cucurbita moschata OX=3662 GN=LOC111462377... [more]
A0A6J1HCZ50.0e+0090.56Polynucleotide adenylyltransferase OS=Cucurbita moschata OX=3662 GN=LOC111462377... [more]
A0A6J1K7X60.0e+0090.44Polynucleotide adenylyltransferase OS=Cucurbita maxima OX=3661 GN=LOC111491975 P... [more]
A0A6J1KC700.0e+0090.44Polynucleotide adenylyltransferase OS=Cucurbita maxima OX=3661 GN=LOC111491975 P... [more]
A0A1S3BBN80.0e+0090.14Polynucleotide adenylyltransferase OS=Cucumis melo OX=3656 GN=LOC103488167 PE=3 ... [more]
InterPro
Analysis Name: InterPro Annotations of Wax gourd (B227) v1
Date Performed: 2021-10-22
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
NoneNo IPR availableGENE3D3.30.70.590Poly(A) polymerase predicted RNA binding domaincoord: 367..482
e-value: 8.1E-26
score: 92.5
NoneNo IPR availableGENE3D1.10.1410.10coord: 21..362
e-value: 9.0E-157
score: 522.9
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 1..24
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 521..545
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 1..22
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 493..565
NoneNo IPR availablePANTHERPTHR10682:SF36NUCLEAR POLY(A) POLYMERASE 4coord: 15..618
NoneNo IPR availablePANTHERPTHR10682POLY A POLYMERASEcoord: 15..618
NoneNo IPR availableCDDcd05402NT_PAP_TUTasecoord: 60..214
e-value: 3.24465E-28
score: 107.258
NoneNo IPR availableSUPERFAMILY81631PAP/OAS1 substrate-binding domaincoord: 215..364
IPR007010Poly(A) polymerase, RNA-binding domainPFAMPF04926PAP_RNA-bindcoord: 367..425
e-value: 4.4E-11
score: 42.8
coord: 429..499
e-value: 9.5E-6
score: 25.4
IPR043519Nucleotidyltransferase superfamilyGENE3D3.30.460.10Beta Polymerase, domain 2coord: 53..208
e-value: 9.0E-157
score: 522.9
IPR043519Nucleotidyltransferase superfamilySUPERFAMILY81301Nucleotidyltransferasecoord: 19..212
IPR002934Polymerase, nucleotidyl transferase domainPFAMPF01909NTP_transf_2coord: 94..160
e-value: 8.3E-9
score: 35.6
IPR007012Poly(A) polymerase, central domainPFAMPF04928PAP_centralcoord: 21..364
e-value: 1.3E-110
score: 368.8
IPR011068Nucleotidyltransferase, class I-like, C-terminalSUPERFAMILY55003PAP/Archaeal CCA-adding enzyme, C-terminal domaincoord: 367..492

Relationships

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

Feature NameUnique NameType
Bhi04M000715Bhi04M000715mRNA


GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0006397 mRNA processing
biological_process GO:0031123 RNA 3'-end processing
biological_process GO:0043631 RNA polyadenylation
cellular_component GO:0005634 nucleus
molecular_function GO:0005524 ATP binding
molecular_function GO:0004652 polynucleotide adenylyltransferase activity
molecular_function GO:0003723 RNA binding
molecular_function GO:0016779 nucleotidyltransferase activity