MDP0000302027, MDP0000302027 (mRNA) Malus spp. (apple)

Transcript Overview
NameMDP0000302027
Unique NameMDP0000302027
TypemRNA
OrganismMalus x domestica (Apple)
Sequence length8103
Analyses
This mRNA is derived from or has results from the following analyses
Analysis NameDate Performed
Malus x domestica Whole Genome v1.0 Assembly & Annotation2012-07-26
InterProScan of Malus x domestica Whole Genome v1.0 mRNA2012-07-23
Relationships

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

Feature NameUnique NameSpeciesType
MDP0000302027_exon_1MDP0000302027_exon_1Malus x domesticaCDS
MDP0000302027_exon_2MDP0000302027_exon_2Malus x domesticaCDS
MDP0000302027_exon_3MDP0000302027_exon_3Malus x domesticaCDS
MDP0000302027_exon_4MDP0000302027_exon_4Malus x domesticaCDS
MDP0000302027_exon_5MDP0000302027_exon_5Malus x domesticaCDS
MDP0000302027_exon_6MDP0000302027_exon_6Malus x domesticaCDS
MDP0000302027_exon_7MDP0000302027_exon_7Malus x domesticaCDS
MDP0000302027_exon_8MDP0000302027_exon_8Malus x domesticaCDS
MDP0000302027_exon_9MDP0000302027_exon_9Malus x domesticaCDS
MDP0000302027_exon_10MDP0000302027_exon_10Malus x domesticaCDS


The following polypeptide feature(s) derives from this mRNA:

Feature NameUnique NameSpeciesType
MDP0000302027MDP0000302027Malus x domesticapolypeptide


InterPro
Analysis Name: InterProScan of Malus x domestica Whole Genome v1.0 mRNA
Date Performed: 2012-07-23
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
IPR000719Protein kinase, catalytic domainPFAMPF00069Pkinasecoord: 579..821
score: 5.2
IPR000719Protein kinase, catalytic domainPROFILEPS50011PROTEIN_KINASE_DOMcoord: 565..821
score: 37
IPR001012UBXPFAMPF00789UBXcoord: 391..459
score: 7.4
IPR001012UBXSMARTSM00166Domain present in ubiquitin-regulatory protecoord: 389..465
score: 0.
IPR001012UBXPROFILEPS50033UBXcoord: 391..444
score: 14
IPR002290Serine/threonine- / dual-specificity protein kinase, catalytic domainSMARTSM00220Serine/Threonine protein kinases, catalyticcoord: 571..821
score: 8.3
IPR006577UASSMARTSM00594no descriptioncoord: 161..287
score: 4.2
IPR008271Serine/threonine-protein kinase, active sitePROSITEPS00108PROTEIN_KINASE_STcoord: 688..700
score
IPR011009Protein kinase-like domainSUPERFAMILY56112Protein kinase-like (PK-like)coord: 579..822
score: 6.5
IPR020635Tyrosine-protein kinase, catalytic domainSMARTSM00219Tyrosine kinase, catalytic domaincoord: 571..819
score: 2.2
NoneNo IPR availableCOILcoilcoiled-coilcoord: 322..381
score
NoneNo IPR availableGENE3D1.10.510.10no descriptioncoord: 665..839
score: 2.1
NoneNo IPR availableGENE3D1.10.8.10no descriptioncoord: 4..41
score: 1.7
NoneNo IPR availableGENE3D3.10.20.90no descriptioncoord: 392..455
score: 2.6
NoneNo IPR availableGENE3D3.30.200.20no descriptioncoord: 579..664
score: 3.1
NoneNo IPR availablePANTHERPTHR13902FAMILY NOT NAMEDcoord: 579..964
score: 1.9e
NoneNo IPR availablePANTHERPTHR13902:SF39SUBFAMILY NOT NAMEDcoord: 579..964
score: 1.9e
NoneNo IPR availableSEGsegsegcoord: 103..128
score: NAcoord: 326..376
score: NAcoord: 552..561
score: NAcoord: 966..978
score: NAcoord: 1111..1126
score
NoneNo IPR availableSUPERFAMILY54236Ubiquitin-likecoord: 353..451
score: 2.9
NoneNo IPR availableSEGsegsegcoord: 26..43
score
NoneNo IPR availableSEGsegsegcoord: 1..15
score: NAcoord: 23..41
score
NoneNo IPR availableSEGsegsegcoord: 5..16
score
NoneNo IPR availableSEGsegsegcoord: 19..39
score
NoneNo IPR availableSEGsegsegcoord: 32..45
score
NoneNo IPR availableSEGsegsegcoord: 107..123
score
NoneNo IPR availableSEGsegsegcoord: 25..49
score
NoneNo IPR availableSEGsegsegcoord: 1..21
score: NAcoord: 26..38
score
NoneNo IPR availableSEGsegsegcoord: 6..17
score: NAcoord: 28..42
score
NoneNo IPR availableSEGsegsegcoord: 36..48
score
NoneNo IPR availableSEGsegsegcoord: 23..37
score
NoneNo IPR availableSEGsegsegcoord: 46..87
score

Sequences
The following sequences are available for this feature:

mRNA sequence

>MDP0000302027 ID=MDP0000302027; Name=MDP0000302027; organism=Malus x domestica; type=mRNA; length=8103bp
ATGGTCGATGCGAACGACAAGTTAGCGTATTTCCAAGCGATCACAGGCCT
CGAAGACCCCGACTTGTGCGAGGAGATTCTCACCGCCCATGGCTGGGACC
TCGAGCTCGCGATCTCCTCCTTCACCACCACCGCGAACCATACGCCTTCG
CCGGAAGATCCATCTGCCGCCGGAACCACCTCCATAGTCTCCGATTTCGG
CGGTGGGGACGGCCTTCGCTCCATTCCCCAACCGTCGCACCAGTCCGGAC
AGTCGTCAAACGCGGTCGCAGCACCCGGTTTTGCTTGGAGAATCATCACT
CTGCCTATATCGGTTATTTCTGGTAGTCTAGGGTTGATTTCTGGGGCGGT
TGGGCTCGGGTTGTGGGCCGCCGGTGGAGTGCTATCGTACTCGCTCGGAA
TGATTGGGCTCAGGGCTGGTCGGGACGGCGAGGCCTCTGCCCAATTACTG
TCGGTGCCGGCGGTGGGGAATGAAGCAGTGCAGTTTGTAGCGAGGTTTGA
GCAGGATTTTGGGACGAGGAGGCCGAATTTTGTCAGCGAAGGGTTTGTGG
ACGCCCTGCAGAGGTCGAGAAACTCGTTCAAGCTGTTGTTCGTCTACTTG
CACTCGCCAGACCATCCTGATACGCCGTCGTTTTGTGAGAGGACTCTGTG
CTCTGAGATGTTGGTGGCTTATATCAATGAGAATTTCGTGTCGTGGGGAG
GGAGCATTCGGGCAAGTGAAGGCTTCAAGATGAGTAATAGTCTGAAGGCC
TCGAGATACCCCTTCTGTGCCGTCGTTATGGCTGCCACGAACCAGAGGAT
CGTACTGCTTCAGCAGGTATATGATTCTTTGCTTGCCTTATTTCCAAATG
ATCGGTCCATAAGAGTACGGAATTGATAGCCCTATAGATTGAATTGATTG
AGAAATATTGTAAGTTTAAATATTTATATCATTTGTTGTTGGTAATGGAG
TGGAAGGTCATAGGGCGGAAATCAGAATCATCAGTTACGGTCTTTGTTTA
ATATTGGGGGATCAAGATGGAGGAATGGAAGTTATGTCATGTGACGTTGT
ATCTTCTTAGGGAGACATACTGAAACTAGAGGTTTCTTGGCATAACGTTC
AAATCTAAGTGGTTATTACCTACCAGCACGGTTTATCAAATAACACATTT
GACTCATTATATGCAACTCCTTTGTGTTTCTTTTCTTGTAAATGAGTTGA
CCAGCCAGTAGTAGTGATTCATGGGGTTTATCTGGGAAGCTTAAAAAAGA
TTTTATGGTGGGTGTATTGGTGTTAATGGTCACCGGAAGAGACAAGGTAG
ACATTTACGTACTTATGTGGTTTAGCTTTCTGATTCTCCGTCTGTTCTGT
TTTCCTTCCATAGAGTTCCTACTGCAGTGACTGAACTTAAAACTTTGGGG
ATTTTCCTTTGTTGCTTTTACCCCGTTAACATTGAAAGCATGTTTATTTT
GGTGAGAAAGCTGGCACTCCTTTTTTAGATTTGAATGTAGGAAAGATTCT
ATTGGAGGGATAAGAGTCTCAACAAGAAAGTTTAGTGGATAACTATTGGA
AAATTTTTGCTATTGTCTTTCTGAAAATGCTATTAAGTTGAAGCTGTTGA
TTGATCAATATGATCTGTGGATAAGTCTTTGTGTGCTTGACTCACGCTTG
TCTTGAAAATTGTTGCTATGTTCTAATTCAATGATGTTGGAGCTTTAACT
TTTATTTTGACTGATCATGTTCCTTGAGAATCATATATAGAAATTGTGTT
GCAATTTATCTTGGACGGTAACGAAGTATTATTGTTTCTGTTTCAGATTA
GGTGGATGGTAAATTTGTTATTGAGCTATTGAGTTTAATTTAAGCTGTTC
TATAGCTTGGTATGAGCATTTTGTTATATGCCCTACTTTTAACATGTTTT
CCTCCTTAAGTGATGCATCCTAAACTTGAAGTTTTTCTTTCTAGAGTATT
AGATAATAGTTTGATTTTGATGTTCTTTTTCYTTTTCACATTTCCCTATT
TTCCGTTTCAACTGTATGGTAACTAAATATGAATGATGTCAATTTTTTGT
TGTTCATTTTATCCGTAACGACTATCTTTGTTATGTTTGGCAGGTTGAAG
GGCCAAAGTCTCCTGAAGAAATGCTCTCAATACTAAACAGAGTAGTTGAA
GAAAGTGCTTCTGTTCTTGGTGCAGCAAGGCATGAGGCAGAACAAAGGAG
AATCAACATTCGCTTAAGGGAGGAGCAAGATGCTGCTTATAGAGCAGCAC
TTGAAGCTGATCAGGTATGTTAATAGTTTAACCGAATTCCATGCTCCCTT
TACCCTTTCATGTGACGGGCAAAGGCTGTAGGTTTTAGGAAGCTCTTAGG
TTGCTCTATTCCCTTATTGTTATGTTCGTGTGCTTCAGGCGAGGGAAAAC
CAGAGGAGGGAAGAGCAAGAACGTCTAGAAAGAGAAGCTGCTGAAGCTGA
ACGGAAGCGCAAGGAAGAAGAAGAGGCTCGTGAAAGAGCAGCACAGGAAG
CTGCGGAGAAAGAGGCTGCACTAGCTAGGATGCGGCAGGAGAAAGCCTTG
TCACTTGGTGCCGAACCTGAAAAAGGACCTGATGTTACACAGGTAATCCC
TCTTGCAATATTACTTAAATTTTCTCTTTTATTTTCTTTTACGTTTTGAA
TGTATAGATGTTTCACATAACTTCTATTATGTCCACATGTAGAGTTCAGT
ATGGTTAGATATCATTCATGGAAATTCTAGTCGTATGCACCTTGTATGCT
GGGTTGCAATTCCCATTATTCCTTGTTTTGTCCGAGATAATAGTTCTTTA
ACGTAACGTATGCATGGTTATGTTTTTATTTGATAAACCAGGTTGTGGTT
CGGTTCCCAACTGGACAACGCAAGGAAAGGAGATTCCACAGCACTGCATT
AATCCAAAGTCTCTATGATTTTGTTGATTCTATGGGTTGTGTTGATGCTG
AGAACTACAGTTTGGTGTCGAACTTCCCTCGGGTTGTATATGGACCAGAG
AAGTTGTCTTTATCCTTGAAAGAAGCAGGATTGCATCCACAGGCCAGCCT
TTTTCTGGAGCTGAATTCTTGAGAATATGATGGTTTGTTATCAAAATTTA
GTAGAGATGATTCCTGCAAAACTGCAACTAGGGTTTAATTTATTTTTGCA
TCTCTATACACAGCAACTATGTCGATTTCATTAGAACGATATGACGAGTT
AAGATAGATGATACTGACGATATGTGGATGTGTAGTTTGATTTCGTTGCA
AATTCTTTCAAACGAGCGGCCCACAAAATTGAAGCTGGAATTGAAACAAT
GATACTGACGTGATTAATGAACTTTGTGATGTTGCCTCCTCCAGTCCTTT
TTCATTCCTGATAGAGTTGTTGAATTTTGAAATTCAAAGATGAGTGCCGG
GCAAATTGCCTCTAGCTTACTCAGTCCAATTTGCAAGAACCAAGTCTAAA
CATTATATGGGCTTGTTTGGATGCGTTTTTAAAATAACTGAAAGCGCTTT
TAGAGAAAATATTTTTGGGTTTCAAAAGCACTTGAAGTGCTTTTTAGGAT
TTACTTGCATCTTTACTAATTATTGGTTCTAAAAATATTTTCACCAGTCA
TTTCAAAAACACATCCAAATAAGCTCCAAGTCAGTAGAACTTTGTTTCGT
GATGTCCTAACGGTTCATTGTTTGTAATTTAAATTCATAATCACCAGAAC
TTTGTTGATCTAACAGTTCATCGAGCACAACTAACACACCGGCAACCATC
GTCAATGTTGCCCCAAACTTGAAACGAAGATTTTAATTGACGTGACTTGA
ACCAGAGACCTTCGACTGACGTGATAATTGAACTCATGATCAGCTTAACC
TTGCCCCTATCTTACGTGGCTAAGGATGGGGTTTTTTTTGTGGGAGGCAA
ATTGTCTGCCCTCCTCTTTGGGTGCCCTTCCCATGCCCTCATATTTTGTG
CGGTCATGGTTAAGTCACGTCAACATCTTATAATAATAATAAGACAAAAA
ACAATAAAAATATAAAATATTGACGTGGCTTAACCGTGACCGCATAAATA
AGAGGAGATGGGAATGACACCCAAATAGGAGGGCAGACAATCTGCCTCCT
TTTTTGTGTACCAAACTCCATACACAAATGAAATGCGTACATTGTGTTTT
TGCAGCATCATCTAGACGGTCAAATGTAAATATTCCATAGATTGATACGT
GGTAAAAAAAACTTAAATTATGCTTCAAGATAACCAAAAGTTGCCATGTA
GTTGGAAAGGTTTGTGGCTGTGGAGAATACAGTTGGAAATGCCATGCAAG
CCAAGCCAATGCTAACCTCTTTGTTGAAAATCCTAACCTCTTATGGTTGA
TTCTAACTTGTTAGTATGGCCAATGCTTCTAAAACCAAAACACCAAAGTT
ATTGACACCTCTTCATGTCACGCCTTTCCCCGCCATTGCCGTTTTCTTAT
CTTTTTTCTTGAATTTGTTCTAAATTTCAACTTATACGCTTAGTTTTAAA
AATAATTATTTGAAATATAAATAAGTTACTGATTTATCTGAAATACGATA
ATGTGATGTTACTGTTTCACTCAACTATAATACGTGAATTTGTTTGCTTT
CATAAATATATACATTCAACTATATCGTCTATCTTATAATAGGTGAAATA
ATACATTATGTATACCACTAACACAAGTTATGTAATAAACATAGATATGA
AAGAATACTAGTTTTTTTTTTGGGGTCAGTTTTAGAAGAATACAGAGTAC
ATACTTTCTAGAATAAGTTAAAAAAATAGAAAAAATATAAGAAAAATATG
AAGACAAATAAATATATTTGACCGAAAATCTAGAATAAGTCAAAAAACAA
AACAAAAGAAAATCTAGAAAAAGGAATATAAATTAAATTATTTTACAAGA
GGAGCTCCAATTTCCGCTCCTCCAACCTTTCAGGACAACGTGATTAATTA
AATCAATGATTAATTTACTAATATTTTATCTGATCAGTAGATTAACGTTT
ACTAATACACTCCAAGCTGAGTTGTCTTCCCCTAATCAACCTCCCCAATT
CTTTAATTAAATTAAAATAAATAAATTAAAAATTAAAAATAAATAATTCA
ATTAGTTTCCAAGTAGAAGTCCAGAAGGACAGCGTGTACCATCTAATCAG
AGAGAGAAAAAAGGACTCCGCCAGAACTCCTCCTCCCTCCTCCAATCCAA
AAATCAAAATCCCTAGAAATCCCAATCCAACCCCAAGACAATGTCTCCCC
AACCCTACATTTAMCCCTCTCCTCCCACCCGCAATCCCTAGGGTTCCATC
TCCAATCGCTCTCGCTCTCTCTGCAGCTCGATTTCTGCACTCAAGGGTTT
TCTTAGGGTTCTCAGAGTCCCCAATTTCGCCTCCCCAGCTCGAAATTTTT
TAGGCGAGAGTGAAATCCCCGACTTTGGCGATCCGAAAGATGCAGATAGC
GCCATGGCTGAGTCTCGGATAGGTTTGACAATGTGGAGCTCCGTCGCGAA
CCGGAATTCAGGTACGGAATTCGGGGACATGTGGTTTATCGGCTGCCGTT
TTCGTCTTCGATCGGCGTTCGACCCGTACTCCGTCGCTTGCGAGGCGTTT
TCTGAACACTGTGGTAATCTGATTCTGGTTGTGGGTGTTGTAAGCAAGAA
GATTTGATAGGGTTTGCGAAGAATCGTTTTCCGTCTTACAAAAAAAAAAA
AGTTTGCTTCTTTTGGGAGATTTTTGTTGTGTTTTTAGGGTTATGGATTC
CTGTAGTGGTTTTGTTGGTGGAAATTCTGCTTGCGACGATGGTGGCGTTG
TGGAGAAAGATCCGACTGGGCAATACGTGCGGGTACGATTTCGAATCCTG
TTTGCTCTTTAATTTTGGTATATGAATTGTGTTTTAATGTTAATTTTATC
GGTGTTTATCGAATGTGTTCTCGTCATGTTTGCGTTCTTGTTGTTGGATT
TGGTGGTAGAATTCTTATGTAGATTTGTGTTTGTTCATCCAGTATGACGA
ATTTTTGGGGAGGGGAGCATTCAAGACTGCGTATGCTTCTCTAACCTACC
TTGAATTCGTTTCTTTGTAGTGGGTTTCGAGGGTTCTAACAATTTGTCGT
TGTAATTTTATTTTTTTACTTATTTGGATGTTGTATAAAATGTAGATACA
AGGCATTCGATGAGGAAGAAGGAATAGAAGTAGCTTGGTGCCAAGTGAAT
ATCGAGGAGGTGTTGCAGTCTCCGGAACAGTTGGAGAGATTGTATTCCGA
GGTTCATCTGCTGAAGTCATTAAAGCATCAAAACATTGTCAAGTTCCATA
ACTCATGGGTGGATGATAAGAACAAGACCATCAACATAATAACAGAGTTG
TTCACTTCCGGGAGTTTGAGGCAGTGAGTTTCACCGACTGTTTTTTCATG
TTTCATGTTTTTAGTTGGCTTACATTCATCAAATACTAACCGTTTCTGTT
CTGGGATCTAGGTACCGAAAGAAGCATAAGAATGTTGATATGAAGGCCAT
TAAGAACTGGGCAAGGCAGATTCTTCGAGGCTTGCATTATCTGCATTCTC
ACAATCCTCCAATTATTCATAGAGATTTGAAATGCGACAACATATTTGTC
AATGGAAATACTGGAGAAATTAAAATCGGAGATCTCGGATTGGCTATTGT
CATGCAGCAGCCTACTGCTCATAGTGTTATTGGCACCCCTGAATTCATGG
CTCCAGAGCTTTATGACGAGGAATACAATGAATTAGTCGACATCTATTCT
TTTGGCATGTGCATGTTAGAAATGGTGACTTGTGAATACCCTTATAGTGA
ATGTAAAAATCCAGCACAAATTTATAAGAAGGTTACCTCTGTAAGTTTCT
GATCGACTGCTTTATGAATTTCTTCCAGTTTTTGTTTATCTACTAAATGG
TTGCCTAATATTTATCCTGACTTCCTTTGTTGTAGGGTGTAAAGCCCGCT
TCACTCAGTAAAGTGGACAATCCACAAATCAAGGAGTTCATAGAGAAGTG
TCTAGTTCCAGCATCTATGAGATTAAGTGCAGTTGAACTCTTGAAAGATC
CATTCCTTGCAACTGACAATTTGAAGGAGCCCAATTGTATTCCTTCACAA
TTAGAAAAGTTGGTGAACTTGCCACAGCCTGAAGCATGTCCTATGGACGT
AGATACTAACTACCAGAAGTCCTCCTCTGGATTTTGTAGGAGAAGTACCA
ATGAAATATCGAATCCATCGGTTCTGGAGTTACAGAGTTTCACTGAGAAT
AACGAGTTCAGGTTAAAAGCGGAGAAAAATTCTGATAGGACCGTCTCTTT
AACTTTGCGCATTGCTGATACATGTGGTAAATACATTTTCCAGCAAAAAG
GTTTTCTCTTTCCTCCTTATTTTCCTGAACTGCACCTGAATATTATTTTC
TTAAACAGGTCGTGTGAGGAATATCCATTTTGAGTTCTATCTTGATTCCG
ATACTGCAATTTCAATTGCTGGGGAGATGGTTGAGCAACTTGATCTTCCA
CATGAAGACGTCTCTGTCATAGCTGAGTTAATTGATAACTTGATCATGAA
GCTTGTACCCGGCTGGAAACCTTCATCAGAAGGTTCATCATGTGGAACAA
ATAGTTCATGTGTTGATCATGCTGCACTGCAAAATGTTCTCTCACATGTT
GCACACGCGGAGGACCGAGATAACCAATCATCAATGATTTCAGATACTTC
GGTTACCTCAGCTGAGCATGGTGTTCCTACTGCCTCAGGGGCCAGTAATG
TCAAAGTTATGGAGTCGGCTAAATATAGTTCCGATGAGTGCTGTAAAGCT
TCAGATGGTTACGCTTCCAGTCCAGATTGTATGGTTAAAGGTGTGGTCAA
GGAGAAGAGTTACGAAGCTGATTCTGGTGATTCATTTGTGATGAACGAGG
CATGCACCGACATGTCAAGCATTTGTTCCTTATCTGAGCTGTCTCTAGCC
AACAAAGATGGGTACGGTGAGCTAAAGGGGGAGCTTGATGCTATTGACAT
GCACTATCGTCGATGCCTTGTCGAACTCTTGAGGTCGAGGGAAGAAGAAA
TTCGGAGTGCAAAGAAGAGGTGGATAGAGAAAAAGAAAATAGCTGTTAAT
TGA
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protein sequence of MDP0000302027

>MDP0000302027 ID=MDP0000302027; Name=MDP0000302027; organism=Malus x domestica; type=polypeptide; length=1141bp
MVDANDKLAYFQAITGLEDPDLCEEILTAHGWDLELAISSFTTTANHTPS
PEDPSAAGTTSIVSDFGGGDGLRSIPQPSHQSGQSSNAVAAPGFAWRIIT
LPISVISGSLGLISGAVGLGLWAAGGVLSYSLGMIGLRAGRDGEASAQLL
SVPAVGNEAVQFVARFEQDFGTRRPNFVSEGFVDALQRSRNSFKLLFVYL
HSPDHPDTPSFCERTLCSEMLVAYINENFVSWGGSIRASEGFKMSNSLKA
SRYPFCAVVMAATNQRIVLLQQVEGPKSPEEMLSILNRVVEESASVLGAA
RHEAEQRRINIRLREEQDAAYRAALEADQARENQRREEQERLEREAAEAE
RKRKEEEEARERAAQEAAEKEAALARMRQEKALSLGAEPEKGPDVTQVVV
RFPTGQRKERRFHSTALIQSLYDFVDSMGCVDAENYSLVSNFPRVVYGPE
NSISALKGFLRVLRVPNFASPARNFLGESEIPDFGDPKDADSAMAESRIG
LTMWSSVANRNSGTEFGDMWFIGCRFRLRSAFDPYSVACEAFSEHCGLWI
PVVVLLVEILLATMVALWRKIRLGNTCGYKAFDEEEGIEVAWCQVNIEEV
LQSPEQLERLYSEVHLLKSLKHQNIVKFHNSWVDDKNKTINIITELFTSG
SLRQYRKKHKNVDMKAIKNWARQILRGLHYLHSHNPPIIHRDLKCDNIFV
NGNTGEIKIGDLGLAIVMQQPTAHSVIGTPEFMAPELYDEEYNELVDIYS
FGMCMLEMVTCEYPYSECKNPAQIYKKVTSGVKPASLSKVDNPQIKEFIE
KCLVPASMRLSAVELLKDPFLATDNLKEPNCIPSQLEKLVNLPQPEACPM
DVDTNYQKSSSGFCRRSTNEISNPSVLELQSFTENNEFRLKAEKNSDRTV
SLTLRIADTCGRVRNIHFEFYLDSDTAISIAGEMVEQLDLPHEDVSVIAE
LIDNLIMKLVPGWKPSSEGSSCGTNSSCVDHAALQNVLSHVAHAEDRDNQ
SSMISDTSVTSAEHGVPTASGASNVKVMESAKYSSDECCKASDGYASSPD
CMVKGVVKEKSYEADSGDSFVMNEACTDMSSICSLSELSLANKDGYGELK
GELDAIDMHYRRCLVELLRSREEEIRSAKKRWIEKKKIAVN
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mRNA from alignment at chr13:10914214..10922316-

Legend: CDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>MDP0000302027 ID=MDP0000302027; Name=MDP0000302027; organism=Malus x domestica; type=mRNA; location=Sequence derived from: chr13:10914214..10922316- (Malus x domestica
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mRNA from alignment at MDC016362.52:74840..82942-

Legend: CDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>MDP0000302027 ID=MDP0000302027; Name=MDP0000302027; organism=Malus x domestica; type=mRNA; length=8103bp; location=Sequence derived from: MDC016362.52:74840..82942- (Malus x domestica
ATGGTCGATGCGAACGACAAGTTAGCGTATTTCCAAGCGATCACAGGCCT
CGAAGACCCCGACTTGTGCGAGGAGATTCTCACCGCCCATGGCTGGGACC
TCGAGCTCGCGATCTCCTCCTTCACCACCACCGCGAACCATACGCCTTCG
CCGGAAGATCCATCTGCCGCCGGAACCACCTCCATAGTCTCCGATTTCGG
CGGTGGGGACGGCCTTCGCTCCATTCCCCAACCGTCGCACCAGTCCGGAC
AGTCGTCAAACGCGGTCGCAGCACCCGGTTTTGCTTGGAGAATCATCACT
CTGCCTATATCGGTTATTTCTGGTAGTCTAGGGTTGATTTCTGGGGCGGT
TGGGCTCGGGTTGTGGGCCGCCGGTGGAGTGCTATCGTACTCGCTCGGAA
TGATTGGGCTCAGGGCTGGTCGGGACGGCGAGGCCTCTGCCCAATTACTG
TCGGTGCCGGCGGTGGGGAATGAAGCAGTGCAGTTTGTAGCGAGGTTTGA
GCAGGATTTTGGGACGAGGAGGCCGAATTTTGTCAGCGAAGGGTTTGTGG
ACGCCCTGCAGAGGTCGAGAAACTCGTTCAAGCTGTTGTTCGTCTACTTG
CACTCGCCAGACCATCCTGATACGCCGTCGTTTTGTGAGAGGACTCTGTG
CTCTGAGATGTTGGTGGCTTATATCAATGAGAATTTCGTGTCGTGGGGAG
GGAGCATTCGGGCAAGTGAAGGCTTCAAGATGAGTAATAGTCTGAAGGCC
TCGAGATACCCCTTCTGTGCCGTCGTTATGGCTGCCACGAACCAGAGGAT
CGTACTGCTTCAGCAGGTATATGATTCTTTGCTTGCCTTATTTCCAAATG
ATCGGTCCATAAGAGTACGGAATTGATAGCCCTATAGATTGAATTGATTG
AGAAATATTGTAAGTTTAAATATTTATATCATTTGTTGTTGGTAATGGAG
TGGAAGGTCATAGGGCGGAAATCAGAATCATCAGTTACGGTCTTTGTTTA
ATATTGGGGGATCAAGATGGAGGAATGGAAGTTATGTCATGTGACGTTGT
ATCTTCTTAGGGAGACATACTGAAACTAGAGGTTTCTTGGCATAACGTTC
AAATCTAAGTGGTTATTACCTACCAGCACGGTTTATCAAATAACACATTT
GACTCATTATATGCAACTCCTTTGTGTTTCTTTTCTTGTAAATGAGTTGA
CCAGCCAGTAGTAGTGATTCATGGGGTTTATCTGGGAAGCTTAAAAAAGA
TTTTATGGTGGGTGTATTGGTGTTAATGGTCACCGGAAGAGACAAGGTAG
ACATTTACGTACTTATGTGGTTTAGCTTTCTGATTCTCCGTCTGTTCTGT
TTTCCTTCCATAGAGTTCCTACTGCAGTGACTGAACTTAAAACTTTGGGG
ATTTTCCTTTGTTGCTTTTACCCCGTTAACATTGAAAGCATGTTTATTTT
GGTGAGAAAGCTGGCACTCCTTTTTTAGATTTGAATGTAGGAAAGATTCT
ATTGGAGGGATAAGAGTCTCAACAAGAAAGTTTAGTGGATAACTATTGGA
AAATTTTTGCTATTGTCTTTCTGAAAATGCTATTAAGTTGAAGCTGTTGA
TTGATCAATATGATCTGTGGATAAGTCTTTGTGTGCTTGACTCACGCTTG
TCTTGAAAATTGTTGCTATGTTCTAATTCAATGATGTTGGAGCTTTAACT
TTTATTTTGACTGATCATGTTCCTTGAGAATCATATATAGAAATTGTGTT
GCAATTTATCTTGGACGGTAACGAAGTATTATTGTTTCTGTTTCAGATTA
GGTGGATGGTAAATTTGTTATTGAGCTATTGAGTTTAATTTAAGCTGTTC
TATAGCTTGGTATGAGCATTTTGTTATATGCCCTACTTTTAACATGTTTT
CCTCCTTAAGTGATGCATCCTAAACTTGAAGTTTTTCTTTCTAGAGTATT
AGATAATAGTTTGATTTTGATGTTCTTTTTCYTTTTCACATTTCCCTATT
TTCCGTTTCAACTGTATGGTAACTAAATATGAATGATGTCAATTTTTTGT
TGTTCATTTTATCCGTAACGACTATCTTTGTTATGTTTGGCAGGTTGAAG
GGCCAAAGTCTCCTGAAGAAATGCTCTCAATACTAAACAGAGTAGTTGAA
GAAAGTGCTTCTGTTCTTGGTGCAGCAAGGCATGAGGCAGAACAAAGGAG
AATCAACATTCGCTTAAGGGAGGAGCAAGATGCTGCTTATAGAGCAGCAC
TTGAAGCTGATCAGGTATGTTAATAGTTTAACCGAATTCCATGCTCCCTT
TACCCTTTCATGTGACGGGCAAAGGCTGTAGGTTTTAGGAAGCTCTTAGG
TTGCTCTATTCCCTTATTGTTATGTTCGTGTGCTTCAGGCGAGGGAAAAC
CAGAGGAGGGAAGAGCAAGAACGTCTAGAAAGAGAAGCTGCTGAAGCTGA
ACGGAAGCGCAAGGAAGAAGAAGAGGCTCGTGAAAGAGCAGCACAGGAAG
CTGCGGAGAAAGAGGCTGCACTAGCTAGGATGCGGCAGGAGAAAGCCTTG
TCACTTGGTGCCGAACCTGAAAAAGGACCTGATGTTACACAGGTAATCCC
TCTTGCAATATTACTTAAATTTTCTCTTTTATTTTCTTTTACGTTTTGAA
TGTATAGATGTTTCACATAACTTCTATTATGTCCACATGTAGAGTTCAGT
ATGGTTAGATATCATTCATGGAAATTCTAGTCGTATGCACCTTGTATGCT
GGGTTGCAATTCCCATTATTCCTTGTTTTGTCCGAGATAATAGTTCTTTA
ACGTAACGTATGCATGGTTATGTTTTTATTTGATAAACCAGGTTGTGGTT
CGGTTCCCAACTGGACAACGCAAGGAAAGGAGATTCCACAGCACTGCATT
AATCCAAAGTCTCTATGATTTTGTTGATTCTATGGGTTGTGTTGATGCTG
AGAACTACAGTTTGGTGTCGAACTTCCCTCGGGTTGTATATGGACCAGAG
AAGTTGTCTTTATCCTTGAAAGAAGCAGGATTGCATCCACAGGCCAGCCT
TTTTCTGGAGCTGAATTCTTGAGAATATGATGGTTTGTTATCAAAATTTA
GTAGAGATGATTCCTGCAAAACTGCAACTAGGGTTTAATTTATTTTTGCA
TCTCTATACACAGCAACTATGTCGATTTCATTAGAACGATATGACGAGTT
AAGATAGATGATACTGACGATATGTGGATGTGTAGTTTGATTTCGTTGCA
AATTCTTTCAAACGAGCGGCCCACAAAATTGAAGCTGGAATTGAAACAAT
GATACTGACGTGATTAATGAACTTTGTGATGTTGCCTCCTCCAGTCCTTT
TTCATTCCTGATAGAGTTGTTGAATTTTGAAATTCAAAGATGAGTGCCGG
GCAAATTGCCTCTAGCTTACTCAGTCCAATTTGCAAGAACCAAGTCTAAA
CATTATATGGGCTTGTTTGGATGCGTTTTTAAAATAACTGAAAGCGCTTT
TAGAGAAAATATTTTTGGGTTTCAAAAGCACTTGAAGTGCTTTTTAGGAT
TTACTTGCATCTTTACTAATTATTGGTTCTAAAAATATTTTCACCAGTCA
TTTCAAAAACACATCCAAATAAGCTCCAAGTCAGTAGAACTTTGTTTCGT
GATGTCCTAACGGTTCATTGTTTGTAATTTAAATTCATAATCACCAGAAC
TTTGTTGATCTAACAGTTCATCGAGCACAACTAACACACCGGCAACCATC
GTCAATGTTGCCCCAAACTTGAAACGAAGATTTTAATTGACGTGACTTGA
ACCAGAGACCTTCGACTGACGTGATAATTGAACTCATGATCAGCTTAACC
TTGCCCCTATCTTACGTGGCTAAGGATGGGGTTTTTTTTGTGGGAGGCAA
ATTGTCTGCCCTCCTCTTTGGGTGCCCTTCCCATGCCCTCATATTTTGTG
CGGTCATGGTTAAGTCACGTCAACATCTTATAATAATAATAAGACAAAAA
ACAATAAAAATATAAAATATTGACGTGGCTTAACCGTGACCGCATAAATA
AGAGGAGATGGGAATGACACCCAAATAGGAGGGCAGACAATCTGCCTCCT
TTTTTGTGTACCAAACTCCATACACAAATGAAATGCGTACATTGTGTTTT
TGCAGCATCATCTAGACGGTCAAATGTAAATATTCCATAGATTGATACGT
GGTAAAAAAAACTTAAATTATGCTTCAAGATAACCAAAAGTTGCCATGTA
GTTGGAAAGGTTTGTGGCTGTGGAGAATACAGTTGGAAATGCCATGCAAG
CCAAGCCAATGCTAACCTCTTTGTTGAAAATCCTAACCTCTTATGGTTGA
TTCTAACTTGTTAGTATGGCCAATGCTTCTAAAACCAAAACACCAAAGTT
ATTGACACCTCTTCATGTCACGCCTTTCCCCGCCATTGCCGTTTTCTTAT
CTTTTTTCTTGAATTTGTTCTAAATTTCAACTTATACGCTTAGTTTTAAA
AATAATTATTTGAAATATAAATAAGTTACTGATTTATCTGAAATACGATA
ATGTGATGTTACTGTTTCACTCAACTATAATACGTGAATTTGTTTGCTTT
CATAAATATATACATTCAACTATATCGTCTATCTTATAATAGGTGAAATA
ATACATTATGTATACCACTAACACAAGTTATGTAATAAACATAGATATGA
AAGAATACTAGTTTTTTTTTTGGGGTCAGTTTTAGAAGAATACAGAGTAC
ATACTTTCTAGAATAAGTTAAAAAAATAGAAAAAATATAAGAAAAATATG
AAGACAAATAAATATATTTGACCGAAAATCTAGAATAAGTCAAAAAACAA
AACAAAAGAAAATCTAGAAAAAGGAATATAAATTAAATTATTTTACAAGA
GGAGCTCCAATTTCCGCTCCTCCAACCTTTCAGGACAACGTGATTAATTA
AATCAATGATTAATTTACTAATATTTTATCTGATCAGTAGATTAACGTTT
ACTAATACACTCCAAGCTGAGTTGTCTTCCCCTAATCAACCTCCCCAATT
CTTTAATTAAATTAAAATAAATAAATTAAAAATTAAAAATAAATAATTCA
ATTAGTTTCCAAGTAGAAGTCCAGAAGGACAGCGTGTACCATCTAATCAG
AGAGAGAAAAAAGGACTCCGCCAGAACTCCTCCTCCCTCCTCCAATCCAA
AAATCAAAATCCCTAGAAATCCCAATCCAACCCCAAGACAATGTCTCCCC
AACCCTACATTTAMCCCTCTCCTCCCACCCGCAATCCCTAGGGTTCCATC
TCCAATCGCTCTCGCTCTCTCTGCAGCTCGATTTCTGCACTCAAGGGTTT
TCTTAGGGTTCTCAGAGTCCCCAATTTCGCCTCCCCAGCTCGAAATTTTT
TAGGCGAGAGTGAAATCCCCGACTTTGGCGATCCGAAAGATGCAGATAGC
GCCATGGCTGAGTCTCGGATAGGTTTGACAATGTGGAGCTCCGTCGCGAA
CCGGAATTCAGGTACGGAATTCGGGGACATGTGGTTTATCGGCTGCCGTT
TTCGTCTTCGATCGGCGTTCGACCCGTACTCCGTCGCTTGCGAGGCGTTT
TCTGAACACTGTGGTAATCTGATTCTGGTTGTGGGTGTTGTAAGCAAGAA
GATTTGATAGGGTTTGCGAAGAATCGTTTTCCGTCTTACAAAAAAAAAAA
AGTTTGCTTCTTTTGGGAGATTTTTGTTGTGTTTTTAGGGTTATGGATTC
CTGTAGTGGTTTTGTTGGTGGAAATTCTGCTTGCGACGATGGTGGCGTTG
TGGAGAAAGATCCGACTGGGCAATACGTGCGGGTACGATTTCGAATCCTG
TTTGCTCTTTAATTTTGGTATATGAATTGTGTTTTAATGTTAATTTTATC
GGTGTTTATCGAATGTGTTCTCGTCATGTTTGCGTTCTTGTTGTTGGATT
TGGTGGTAGAATTCTTATGTAGATTTGTGTTTGTTCATCCAGTATGACGA
ATTTTTGGGGAGGGGAGCATTCAAGACTGCGTATGCTTCTCTAACCTACC
TTGAATTCGTTTCTTTGTAGTGGGTTTCGAGGGTTCTAACAATTTGTCGT
TGTAATTTTATTTTTTTACTTATTTGGATGTTGTATAAAATGTAGATACA
AGGCATTCGATGAGGAAGAAGGAATAGAAGTAGCTTGGTGCCAAGTGAAT
ATCGAGGAGGTGTTGCAGTCTCCGGAACAGTTGGAGAGATTGTATTCCGA
GGTTCATCTGCTGAAGTCATTAAAGCATCAAAACATTGTCAAGTTCCATA
ACTCATGGGTGGATGATAAGAACAAGACCATCAACATAATAACAGAGTTG
TTCACTTCCGGGAGTTTGAGGCAGTGAGTTTCACCGACTGTTTTTTCATG
TTTCATGTTTTTAGTTGGCTTACATTCATCAAATACTAACCGTTTCTGTT
CTGGGATCTAGGTACCGAAAGAAGCATAAGAATGTTGATATGAAGGCCAT
TAAGAACTGGGCAAGGCAGATTCTTCGAGGCTTGCATTATCTGCATTCTC
ACAATCCTCCAATTATTCATAGAGATTTGAAATGCGACAACATATTTGTC
AATGGAAATACTGGAGAAATTAAAATCGGAGATCTCGGATTGGCTATTGT
CATGCAGCAGCCTACTGCTCATAGTGTTATTGGCACCCCTGAATTCATGG
CTCCAGAGCTTTATGACGAGGAATACAATGAATTAGTCGACATCTATTCT
TTTGGCATGTGCATGTTAGAAATGGTGACTTGTGAATACCCTTATAGTGA
ATGTAAAAATCCAGCACAAATTTATAAGAAGGTTACCTCTGTAAGTTTCT
GATCGACTGCTTTATGAATTTCTTCCAGTTTTTGTTTATCTACTAAATGG
TTGCCTAATATTTATCCTGACTTCCTTTGTTGTAGGGTGTAAAGCCCGCT
TCACTCAGTAAAGTGGACAATCCACAAATCAAGGAGTTCATAGAGAAGTG
TCTAGTTCCAGCATCTATGAGATTAAGTGCAGTTGAACTCTTGAAAGATC
CATTCCTTGCAACTGACAATTTGAAGGAGCCCAATTGTATTCCTTCACAA
TTAGAAAAGTTGGTGAACTTGCCACAGCCTGAAGCATGTCCTATGGACGT
AGATACTAACTACCAGAAGTCCTCCTCTGGATTTTGTAGGAGAAGTACCA
ATGAAATATCGAATCCATCGGTTCTGGAGTTACAGAGTTTCACTGAGAAT
AACGAGTTCAGGTTAAAAGCGGAGAAAAATTCTGATAGGACCGTCTCTTT
AACTTTGCGCATTGCTGATACATGTGGTAAATACATTTTCCAGCAAAAAG
GTTTTCTCTTTCCTCCTTATTTTCCTGAACTGCACCTGAATATTATTTTC
TTAAACAGGTCGTGTGAGGAATATCCATTTTGAGTTCTATCTTGATTCCG
ATACTGCAATTTCAATTGCTGGGGAGATGGTTGAGCAACTTGATCTTCCA
CATGAAGACGTCTCTGTCATAGCTGAGTTAATTGATAACTTGATCATGAA
GCTTGTACCCGGCTGGAAACCTTCATCAGAAGGTTCATCATGTGGAACAA
ATAGTTCATGTGTTGATCATGCTGCACTGCAAAATGTTCTCTCACATGTT
GCACACGCGGAGGACCGAGATAACCAATCATCAATGATTTCAGATACTTC
GGTTACCTCAGCTGAGCATGGTGTTCCTACTGCCTCAGGGGCCAGTAATG
TCAAAGTTATGGAGTCGGCTAAATATAGTTCCGATGAGTGCTGTAAAGCT
TCAGATGGTTACGCTTCCAGTCCAGATTGTATGGTTAAAGGTGTGGTCAA
GGAGAAGAGTTACGAAGCTGATTCTGGTGATTCATTTGTGATGAACGAGG
CATGCACCGACATGTCAAGCATTTGTTCCTTATCTGAGCTGTCTCTAGCC
AACAAAGATGGGTACGGTGAGCTAAAGGGGGAGCTTGATGCTATTGACAT
GCACTATCGTCGATGCCTTGTCGAACTCTTGAGGTCGAGGGAAGAAGAAA
TTCGGAGTGCAAAGAAGAGGTGGATAGAGAAAAAGAAAATAGCTGTTAAT
TGA
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Coding sequence (CDS) from alignment at MDC016362.52:74840..82942-

>MDP0000302027 ID=MDP0000302027; Name=MDP0000302027; organism=Malus x domestica; type=CDS; length=3426bp; location=Sequence derived from: MDC016362.52:74840..82942- (Malus x domestica
ATGGTCGATGCGAACGACAAGTTAGCGTATTTCCAAGCGATCACAGGCCT
CGAAGACCCCGACTTGTGCGAGGAGATTCTCACCGCCCATGGCTGGGACC
TCGAGCTCGCGATCTCCTCCTTCACCACCACCGCGAACCATACGCCTTCG
CCGGAAGATCCATCTGCCGCCGGAACCACCTCCATAGTCTCCGATTTCGG
CGGTGGGGACGGCCTTCGCTCCATTCCCCAACCGTCGCACCAGTCCGGAC
AGTCGTCAAACGCGGTCGCAGCACCCGGTTTTGCTTGGAGAATCATCACT
CTGCCTATATCGGTTATTTCTGGTAGTCTAGGGTTGATTTCTGGGGCGGT
TGGGCTCGGGTTGTGGGCCGCCGGTGGAGTGCTATCGTACTCGCTCGGAA
TGATTGGGCTCAGGGCTGGTCGGGACGGCGAGGCCTCTGCCCAATTACTG
TCGGTGCCGGCGGTGGGGAATGAAGCAGTGCAGTTTGTAGCGAGGTTTGA
GCAGGATTTTGGGACGAGGAGGCCGAATTTTGTCAGCGAAGGGTTTGTGG
ACGCCCTGCAGAGGTCGAGAAACTCGTTCAAGCTGTTGTTCGTCTACTTG
CACTCGCCAGACCATCCTGATACGCCGTCGTTTTGTGAGAGGACTCTGTG
CTCTGAGATGTTGGTGGCTTATATCAATGAGAATTTCGTGTCGTGGGGAG
GGAGCATTCGGGCAAGTGAAGGCTTCAAGATGAGTAATAGTCTGAAGGCC
TCGAGATACCCCTTCTGTGCCGTCGTTATGGCTGCCACGAACCAGAGGAT
CGTACTGCTTCAGCAGGTTGAAGGGCCAAAGTCTCCTGAAGAAATGCTCT
CAATACTAAACAGAGTAGTTGAAGAAAGTGCTTCTGTTCTTGGTGCAGCA
AGGCATGAGGCAGAACAAAGGAGAATCAACATTCGCTTAAGGGAGGAGCA
AGATGCTGCTTATAGAGCAGCACTTGAAGCTGATCAGGCGAGGGAAAACC
AGAGGAGGGAAGAGCAAGAACGTCTAGAAAGAGAAGCTGCTGAAGCTGAA
CGGAAGCGCAAGGAAGAAGAAGAGGCTCGTGAAAGAGCAGCACAGGAAGC
TGCGGAGAAAGAGGCTGCACTAGCTAGGATGCGGCAGGAGAAAGCCTTGT
CACTTGGTGCCGAACCTGAAAAAGGACCTGATGTTACACAGGTTGTGGTT
CGGTTCCCAACTGGACAACGCAAGGAAAGGAGATTCCACAGCACTGCATT
AATCCAAAGTCTCTATGATTTTGTTGATTCTATGGGTTGTGTTGATGCTG
AGAACTACAGTTTGGTGTCGAACTTCCCTCGGGTTGTATATGGACCAGAG
AACTCGATTTCTGCACTCAAGGGTTTTCTTAGGGTTCTCAGAGTCCCCAA
TTTCGCCTCCCCAGCTCGAAATTTTTTAGGCGAGAGTGAAATCCCCGACT
TTGGCGATCCGAAAGATGCAGATAGCGCCATGGCTGAGTCTCGGATAGGT
TTGACAATGTGGAGCTCCGTCGCGAACCGGAATTCAGGTACGGAATTCGG
GGACATGTGGTTTATCGGCTGCCGTTTTCGTCTTCGATCGGCGTTCGACC
CGTACTCCGTCGCTTGCGAGGCGTTTTCTGAACACTGTGGGTTATGGATT
CCTGTAGTGGTTTTGTTGGTGGAAATTCTGCTTGCGACGATGGTGGCGTT
GTGGAGAAAGATCCGACTGGGCAATACGTGCGGATACAAGGCATTCGATG
AGGAAGAAGGAATAGAAGTAGCTTGGTGCCAAGTGAATATCGAGGAGGTG
TTGCAGTCTCCGGAACAGTTGGAGAGATTGTATTCCGAGGTTCATCTGCT
GAAGTCATTAAAGCATCAAAACATTGTCAAGTTCCATAACTCATGGGTGG
ATGATAAGAACAAGACCATCAACATAATAACAGAGTTGTTCACTTCCGGG
AGTTTGAGGCAGTACCGAAAGAAGCATAAGAATGTTGATATGAAGGCCAT
TAAGAACTGGGCAAGGCAGATTCTTCGAGGCTTGCATTATCTGCATTCTC
ACAATCCTCCAATTATTCATAGAGATTTGAAATGCGACAACATATTTGTC
AATGGAAATACTGGAGAAATTAAAATCGGAGATCTCGGATTGGCTATTGT
CATGCAGCAGCCTACTGCTCATAGTGTTATTGGCACCCCTGAATTCATGG
CTCCAGAGCTTTATGACGAGGAATACAATGAATTAGTCGACATCTATTCT
TTTGGCATGTGCATGTTAGAAATGGTGACTTGTGAATACCCTTATAGTGA
ATGTAAAAATCCAGCACAAATTTATAAGAAGGTTACCTCTGGTGTAAAGC
CCGCTTCACTCAGTAAAGTGGACAATCCACAAATCAAGGAGTTCATAGAG
AAGTGTCTAGTTCCAGCATCTATGAGATTAAGTGCAGTTGAACTCTTGAA
AGATCCATTCCTTGCAACTGACAATTTGAAGGAGCCCAATTGTATTCCTT
CACAATTAGAAAAGTTGGTGAACTTGCCACAGCCTGAAGCATGTCCTATG
GACGTAGATACTAACTACCAGAAGTCCTCCTCTGGATTTTGTAGGAGAAG
TACCAATGAAATATCGAATCCATCGGTTCTGGAGTTACAGAGTTTCACTG
AGAATAACGAGTTCAGGTTAAAAGCGGAGAAAAATTCTGATAGGACCGTC
TCTTTAACTTTGCGCATTGCTGATACATGTGGTCGTGTGAGGAATATCCA
TTTTGAGTTCTATCTTGATTCCGATACTGCAATTTCAATTGCTGGGGAGA
TGGTTGAGCAACTTGATCTTCCACATGAAGACGTCTCTGTCATAGCTGAG
TTAATTGATAACTTGATCATGAAGCTTGTACCCGGCTGGAAACCTTCATC
AGAAGGTTCATCATGTGGAACAAATAGTTCATGTGTTGATCATGCTGCAC
TGCAAAATGTTCTCTCACATGTTGCACACGCGGAGGACCGAGATAACCAA
TCATCAATGATTTCAGATACTTCGGTTACCTCAGCTGAGCATGGTGTTCC
TACTGCCTCAGGGGCCAGTAATGTCAAAGTTATGGAGTCGGCTAAATATA
GTTCCGATGAGTGCTGTAAAGCTTCAGATGGTTACGCTTCCAGTCCAGAT
TGTATGGTTAAAGGTGTGGTCAAGGAGAAGAGTTACGAAGCTGATTCTGG
TGATTCATTTGTGATGAACGAGGCATGCACCGACATGTCAAGCATTTGTT
CCTTATCTGAGCTGTCTCTAGCCAACAAAGATGGGTACGGTGAGCTAAAG
GGGGAGCTTGATGCTATTGACATGCACTATCGTCGATGCCTTGTCGAACT
CTTGAGGTCGAGGGAAGAAGAAATTCGGAGTGCAAAGAAGAGGTGGATAG
AGAAAAAGAAAATAGCTGTTAATTGA
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Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: INTERPRO
TermDefinition
IPR000719Prot_kinase_dom
IPR001012UBX_dom
IPR002290Ser/Thr_dual-sp_kinase
IPR006577UAS
IPR008271Ser/Thr_kinase_AS
IPR011009Kinase-like_dom_sf
IPR020635Tyr_kinase_cat_dom
Vocabulary: Molecular Function
TermDefinition
GO:0004672protein kinase activity
GO:0005524ATP binding
GO:0005515protein binding
GO:0004674protein serine/threonine kinase activity
GO:0004713protein tyrosine kinase activity
Vocabulary: Biological Process
TermDefinition
GO:0006468protein phosphorylation