XM_017370273.1

Resource Type: 
mRNA
Name: 
XM_017370273.1
Identifier: 
XM_017370273.1
Organism: 
Daucus carota subspecies sativus
Analysis: 
NameDescription
Carrot Genome Assembly DCARv2

An orange, doubled-haploid, Nantes-type carrot (DH1) was used for genome sequencing. We used BAC end sequences and a newly developed linkage map with 2,075 markers to correct 135 scaffolds with one or more chimeric regions. The resulting v2.0 assembly spans 421.5 Mb and contains 4,907 scaffolds (N50 of 12.7 Mb), accounting for ∼90% of the estimated genome size of 473 Mb. The scaftig N50 of 31.2 kb is similar to those of other high-quality genome assemblies such as potato and pepper. About 86% (362 Mb) of the assembled genome is included in only 60 superscaffolds anchored to the nine pseudomolecules. The longest superscaffold spans 30.2 Mb, 85% of chromosome 4.

There are a few different naming schemes for this assembly. First there is the
Authors' original naming scheme: Sequences with DCARv2 prefix are the original assembly as submitted to NCBI. These are labelled DCARv2_Chr1 through DCARv2_Chr9 for the chromosome pseudomolecules, DCARv2_MT and DCARv2_PT for the organellar assemblies, DCARv2_B1 and up for unincorporated superscaffolds, DCARv2_S26.1 and up for unincorporated scaffolds, and DCARv2_C10542132 and up for unincorporated contigs. A file with sequences using this naming scheme can be downloaded from the File: link below.
These sequences can be viewed in JBrowse here.

Phytozome genome ID 388: The authors' sequences and gene predictions were also submitted to Phytozome, and can be accessed at this address: https://phytozome-next.jgi.doe.gov/info/Dcarota_v2_0

LNRQ01: These sequences were then assigned GenBank accession numbers starting at LNRQ01000001.1 which corresponds to DCARv2_Chr1, up to LNRQ01004826.1 which corresponds to an unincorporated contig, DCARv2_C10750146. These reside in bioproject PRJNA268187, which is a subproject of umbrella project PRJNA285926.

Assembly GCA_001625215.1: The genome assembly was later defined an accession number GCA_001625215.1 for assembly ASM162521v1 which consists of only the 9 chromosome sequences and the plastid assembly, which have accession numbers from CM004278.1 to CM004286.1 for the chromosomes and CM004358.1 for the plastid. The mitochondrial genome was not included because it is classified as an incomplete sequence.

RefSeq: The assembly was then later added to RefSeq, and there another new set of identifiers was defined from NC_030381.1 to NC_030389.1 for the chromosomes, and from NW_016089425.1 to NW_016094239.1 for unincorporated scaffolds and contigs. These reside in bioproject PRJNA326436. Note that NCBI substituted different assembled organellar genomes from different genotypes for the RefSeq records.

The NCBI Sequence report lists the correspondences between the various naming methods

Link to the LNRQ01000000.1 master record at NCBI

Raw Reads: Link to SRA accessions used for the genome assembly

This genome is available in the CarrotOmics Blast Search
NCBI Daucus carota subsp. sativus Annotation Release 100

The RefSeq genome records for Daucus carota subsp. sativus were annotated by the NCBI Eukaryotic Genome Annotation Pipeline, an automated pipeline that annotates genes, transcripts and proteins on draft and finished genome assemblies. This report presents statistics on the annotation products, the input data used in the pipeline and intermediate alignment results.

View the full report at https://www.ncbi.nlm.nih.gov/genome/annotation_euk/Daucus_carota_subsp._sativus/100/

Data from this analysis can be viewed in JBrowse here.
Transcript Id: 
XM_017370273.1
Product: 
eIF-2-alpha kinase activator GCN1, transcript variant X3
Sequence: 
AAAGTGTATCTGCAATACAGGCGGCCTATATAAAGATTGCATAAGCAAGC
AGCAGTAGCAGCAAGCGAATCAGACTCGGAGGCGACTCCATTAGGTCATC
TTCACTTAAACCCCTCAATTAAAACATCACACACACATCAATCAACACAC
ATATTCGTATCTCTGAATTGTGGATTGATTAGTTGCAATGGGAGGCTTAG
AGTTAGTTTCAGTAGCTGATGAATTCTCGATTGAATTCATGGAGAAGCGT
GAACGAGATTTGGGAATTGATATCGGGAGGCGCAGGTTCTGGACTGATGT
CGCGCATCGAATCGATAATCAAGAAATGACTGCTGAGGTTGTATCGCTGT
TAGTAGATTTAATCTTCAAAACTTTGTATACATATGATGAAAGAAGATCA
AGAAACGCTGTGGACAGTGTTATAGTAAAAGCATTAAGGGTGGATAGTTT
TATGAAAAGCTTTGCAGCCACAATTGTGCAAGTGATGGAAAAACAGTCAA
AGTTGCAGAATCATATCGGATGTTACAGACTTGTCAAGTGGTCATCTCTT
CTTTTATGTAAGAGCCTGTTTCCTTCAATATCAAAAAATGCTTTGTGCAG
AGTAGCTTCAGCTCAGGCATCAGTCATTCATATTGTTAAGATGCAAGGAT
CTCTGCGTGAGCAAAGGGATTGCAAGAAAACAATTTTCAGTTTGTTCTCT
GAGTCACCACAGATCTACAAGACATACATTGAGGAACTTAAGGATTCGAG
GATTCCTTACAAAGACTCTCCTGAATTATTGTCATTTATACTGGAATACT
CACACTCGAAGTCTACGTTTTTTGACCAGTGGAAGCCTGTATTTCTCGAC
ATGTATGTAAGAGTAATTCTGAATGTGAAGGAGAAACCCTCAGAAGGCCT
ATCTGAAGCTTTCAGATCCCTGTTTTCATATCTATCGCATGACGAATTTA
AGAGCATTGTTGTTCCATCATCTGTTAAAATGTTAAAGAGGAGTCCTGAG
CTTGTGCTGGGATCAATTAACGTTCTCTTAAAATCTGTGAACCTTGATCT
GAGCAAGTATGCAATTGAAATTCTCTCTGTAGTACTACCACAGGCTAGGC
ACGCAGATGAAGGAAGAAGACTTGTCGCCTTATCTATCATAAAGTGTTTA
AGTGAAAAATCAAGTAATCCAGATGCCATCGAAGCAATGTTCAATGCCAT
CAAATCTGTGATTGGAGGTTCGGAAGGGCGACTTGCATTTCCATACCAGA
GAGTTGGTATGGTAACTGCATTGCAAGAATTGTCTAGTTCTTTGGAAGGA
AAATATCTCAGCAAAATTTCCCCCGAGATATGCAAATTTCTTTTGTCCTG
TTACAAGGATGATGGAAATGAAGACGTAAAGCTTGCAAGTTTGTCTGCTT
TGTCTTCTTGGGCAGCAAGGTCCACAGATGTTATACAACCAGATCTACTT
TCTTTCATGGCTTCTGGTCTGAAAGAGAAGGAAGCTTTACGAAGGGGTCA
TCTTCGTTGCATACTGGGTGTGACTAAGAATGTTGACGCAATTTTGAGGT
TATCCCCCTTGGTGGGACCTCTCCTCTTGCTTGTCAAAACTGGTTTTACA
AAAGCAGTTCAGAGGTTGGATGGAATCTTTGCTTTGCTTATTCTCTCAAA
AATTGCTGCGCTTGATATCAAAACAGAGGATACCATAGCTCAAGAGAGAG
TATGGTCGTTGGTGTCACAAAATGAACCTTCCATTGTACCTATTACTATG
GCTTTAAAACTATCGGTTGAGGACTGTCTGGCATGCCTTGAACTGGTTGA
GGTTTTGCTGGTGGACCATTCACAGAGAGTATTAGAGACACTTTCTGATA
AATCCCTTTCTCAGCTTTTAATTTTTTTCCTATGTCATCCATGTTGGGAC
ATTCGTAAAGTAGCTCAAATTTCTTTAAAGAAGATTCTTGGTGCTTCTCC
ACAAATATGTGAAGCTCTTGTAGTTGAGTATTCGAATTATCTGTCTGTTG
TTGAAGAAAAAGTTATATTGATGAAGAGAAGTGAGACAGAAACTGCTTTG
GATACTCAAGTCCCTTTTGTTCCATCTGTAGAGGTTTTGGTTAAAGCTTT
GTTGGTAATGGCACCTGAAGTTCTGGCTGCTAATCCTAATACACTTTTAC
GGATTATAGTCTGCTCACATCATCCATGTTTAGTTACTACAGCAAAAGGA
AATGCAGTGTGGAAGAGGCTGCAGAAGTGTCTGCAAAGGCTTAGTTTTGA
TATTATTGAGCTGATCATGGCTGACTTGGGCAATATATGCAAGGGTTTGC
TAGGACCTTTTGGATTAATGAGTTCCAATCATCTTGAACAAGAAGCGGCA
ATACACTCTCTCTCAACTTTAATGTCTATAACACCTACTGACACCTACAC
AGAGTTTGAAAAGCACTTGAACAATCTTCCAGATCGCTTTGAGCATGATA
AACTTTCAGAAAATGATATTCAGATTTATCTTACGCCGGAGGGGATGTTA
TCTACTGAGCAAGGTGTCTATATTGCAGAGCTTGTTACTGGTAACAACCA
AAAGCAAGCCAAAGGTCGTTTCCGGGTCTATGATAACGATAATGGCTCGG
ACAATGGCGCCAGCCATTCAGTTAAGCGAGACTCTTCAACTGCGGGGAAG
AAAGATGCAACTAAATTAACAAAAAAGGCTGAGAAGGGAAAGACAGCAAA
AGAGGAGGCACGTGAACTGCAGCTCAGAGAGGAAGCATGTGTTCGTGATA
GGGTCTCATCTATACAAAATACTTTATCGTTAATGCTGAAGGCTCTCGGG
GAGATGGCTTTATCGAATCCTATCTTCGCTCACAGTCAGTTGCCCACCCT
GGTTAAGTTTGTCAACCCTTTGCTTCGGTCACCTATAGTTGGTGATGCAG
CCTTTAGGACCATGATTATGCTTGCAAAATGTAGTGTTGCTCCTCTCAAT
AACTGGGCGCTTGACCTTGCTACTGCACTACGTCTTATTGCGACTGAGGA
ATCTCATCGTTTGTGCAATATAATTCCTTCGGATGGTGACAGAGTGCCCA
AAGGAGGACTATTTTTGGGTCTTTTTGAAAGAATAATAATGGGTTTATCA
GTTTCTTGTAAAACAGGCCCTCTTCCAGTGGATTCATTTACTTTTGTCTT
CCCGATTATGGAGAGGATACTCCTTTCTTCCAAGAAGACTGGACTTCATG
ATGACGTTCTAAAAATACTTTTCCTACATATGGATCCGATATTACCATTA
CCGAGGCTTCGTATGATAACAGTTCTTTATCATGTTCTTGGTGTTATACC
TGCTAATCAAGCATCTATTAGTCCAGCACTTAATGAATTGTGTCTGGGTT
TACAGCCAGATGAAGTTGCACCCGCTCTGGCTGGGATTTATGCCAAGGAC
ATTCATGTTAGACTGGCCTGCCTTAATGCTGTGAAGTGCATTCCAGCTGT
TACCAGCCGCTCCCTACCAAGAAGTGTTGAAGTTGCAACTAGCATTTGGA
TTGCATTACATGATGTTGAGAAGCCAGTTGCAGAAGTGGCCGAGGATATA
TGGGATAGATACGGCTATGAGTTTGGCAGGGATTACTCTGGTCTTTATAA
AGCACTCTCACATGTTAATTATAATGTACGTGTGGCTGCTGCTGAGGCAT
TGGCTGCTGTTTTGGATGAAAATCCAGATACTATACAGGAATCTCTATCA
ACATTATTTTCTTTATACATCCGCGATGTTGGTTTTGGTGAGGATAATAT
TGATGCTGGTTGGCTTGGAAGACAAGGGACAGCATTAGCCTTACTTTCTG
TAGCTGATGTACTAAGGACTAAAGACCTTCCAGTGGTTATGACATTCTTA
ATATCTCGGGCGCTGGCTGACAGCAACTCAGATGTTCGTGGTAGAATGCT
AAATGCCGGAATAATGATTATTGACAAGCACGGAAAAGATAACGTGTCTC
TGTTATTTCCCATATTTGAGAATTACTTGAACAAAAAGGCATCAAATGAA
GAAACATATGACTTGGTGCGTGAAGGTGTGGTTATCTTCACTGGTGCTTT
GGCTAAACATCTGGGCAAGGATGACCCGAAAGTGCACGCGGTTGTAGAGA
AATTATTGGATGTGATAAACACTCCATCCGAAGCTGTTCAAAGAGCAGTT
TCAGCATGCCTATCTCCACTTATGCAATCAAAAGAAGGGGATGCACCGGC
GCTTGTATCTAAACTTTTAGATCAGCTGATGAAGAGTGACAAATATGGGG
AGCGCCGTGGAGCAGCATTTGGACTCGCGGGATTAGTTAAGGGATTCAGA
ATTTCTTGTTTGAAGAAGTATGGGATTGCAGCTGTTCTGCGCGAAGGTCT
TGCTGACAGGAATTCAGCAAAATGCAGGGAAGGGTCCCTACTAGCTTTTG
AATGCCTTTGTGAGACGCTTGGGAAGGTCTTTGAACCGTATGTGATTCAG
ATGCTTCCATTGCTCTTGGTTTCTTTTTCTGATCAAGTTGTTGCTGTTCG
AGAAGCTGCGGAATGTGCTGCTCGTGCTATGATGTCTCAGCTCAGTGCCC
AGGGTGTTAAGCTTGTTCTTCCATCACTTCTAAAGGGTCTGGAGGATAAA
GCTTGGCGGACAAAGCAAAGTAGTGTTCAGCTTCTAGGTGCAATGGCTTA
CTGTGCTCCTCAACAGCTGTCTCAGTGCCTTCCCAAAATTGTGCCTAAGC
TGACGGAGGTTTTAACTGATACCCACCCTAAAGTACAGTCAGCAGCACAG
ACGGCACTACAGCAGGTTGGGAGTGTGATCAAGAATCCAGAAATTTCTGC
TCTTGTCCCTACACTTCTATTGGGCCTTACTGATCCAAATGAACATACTC
GATACTCACTTGACATCCTACTTCAAACTACTTTTATAAATTCAATCGAC
TCTCCTTCACTTGCATTATTGGTACCAATTATCCATAGAGGACTTCGGGA
GAGAAGTTCTGAGACTAAAAAGAAAGCAGCCCAAATTGCTGGAAATATGT
GTTCGTTGGTGACTGAACCAAAAGACATGATTCCTTATATAAATTTGCTT
CTTCCTGAGATTAAAAAGGTTCTTGTGGATCCAATCCCTGAAGTTCGGTC
TGTTGCTGCTAGAGCCCTTGGTTCTCTTATCAGAGGAATGGGAGAAGATA
AATTTCCAGATCTTGTCCCATGGTTGTTAGACACGCTCAAATCTGATGGT
AGCAATGTTGAACGCTCTGGAGCTGCACAAGGACTGAGCGAGGTATTGGC
TGCACTAGGAACAGATCACTTTGAACGCATTCTCCCTGATGTTATTCGCA
ATTGCTCTCATCAAAAAGCATCTGTCCGTGATGGTCATTTAACGCTTTTC
AAGTACCTACCTAGGTCATTAGGCGTGCAATTCCAGAACTATCTGCAGCA
GGTCCTTCCTGCTATATTAGATGGTCTCGCTGATGAGAATGAATCTGTGC
GTGAGGCAGCACTGAGTGCTGGGCATGTCTTGGTGGAACATTATGCAACC
ACGTCGTTGCCTCTACTTCTTCCTGCTGTAGAGGATGGAATTTTCAGCGA
CAACTGGCGTATTAGACAAAGTTCTGTTGAATTGTTAGGTGATCTTTTGT
TCAAGGTTGCTGGAACTTCTGGAAAGGCACTTCTTGAGGGGGGTAGTGAT
GATGAAGGGTCTAGTACGGAAGCACATGGACGTGCTATTATCGAGGTACT
TGGAAAGGATAAGCGTAACGAGGTTCTAGCTGCACTATATATGGTTCGAA
CTGATGTCAGTTTGAGTGTACGCCAGGCGGCATTGCATGTCTGGAAAACT
ATAGTCGCAAACACCCCAAAAACTCTAAAGGAAATAATGCCGGTGTTAAT
GAATACATTAATTTCATCTCTTGCATCAGCCTCTTCTGAGAGGCGGCAGG
TAGCAGGAAGATCATTGGGAGAGCTTGTTAGGAAGCTTGGGGAGAGAGTG
CTTCCGTTGATAATACCAATTCTATCGAAAGGGTTAAAAGACTCTAGCAC
GAGCAGACGACAGGGTGTCTGTATTGGTCTAAGTGAGGTGATGGCAAGTG
CTGGTAAGAGTCAGTTGTTGAGTTTCATGGATGATCTAATTCCCACCATA
CGTACAGCACTTTGTGACAGTACGCCCGAGGTCCGTGAGTCTGCAGGTTT
AGCCTTCAGTACTCTGTACAAGAACGCTGGCATGCAAGCGATTGATGAAA
TAGTCCCAACTCTTCTTCATGCTTTGGAGGATGATAAGTTGTCTGACACT
GCACTTGATGGTCTCAAACAAATTTTGAGTGTCAGGACTACAGCTGTATT
GCCACATATCTTGCCCAAGCTTGTCCAGCTTCCTCTTTCTGCCTTCAATG
CGCATGCTTTGGGTGCTCTAGCAGAAGTTGCTGGGTCCAGCCTTAACTTT
CATCTTGGTACTGTGCTTCCTGCATTACTTTCCGCAATGGGTGATAATGA
TCAGGATATTCAGAAGCTGGCGAGGAAAGCTGCCGAAACTGTTGTCTTGG
TCATTGATGAGGAAGGAGTTGACTCTTTAATTGGAGAGCTTCTTAAAGGA
GTTGGTGATAATAAGGCTTCAATTAGGAAGAATTCTGCATATCTCATCGG
ATACTTCTTCAAGAATAGCAAATTATATGTGGTTGATGAAGCTCCAAATA
TGATTTCGAACTTGATTGTTATGCTCAGCGATTCTGATCAATCCACAGTG
ATTGTTTCTTGGGAAGCACTGGCAAGAGTAATTGGCTCGATCCCAAAAGA
AGTACTTCCTTCATATATCAAATTAGTTCGTGATGCTGTATCAACATCTA
GAGATAAAGAACGTCGAAAGAAAAAGGGAGGTCCGGTTCTTGTACCTGGC
TTATGTCTTCCGAAAGCCCTTCAACCACTGCTTCCGATCTTCCTTCAGGG
ATTAATAAGTGGATCGGCTGAGCTAAGGGAACAGGCGGCCCTGGGTTTAG
GGGAATTAATTGAGGTGACAAGTGAACCGGCTCTGAAGGAGTTTGTCATT
CCCATTACAGGGCCTCTTATCCGAATCATTGGTGATCGGTTTCCATGGCA
AGTAAAGAGTGCAATTTTGTCAACGTTGTGTATAATGATACGAAAGGGGG
GTATAGCCCTTAAACCTTTTCTTCCACAGCTTCAAACAACATTTATCAAG
TGTTTACGGGATAACACTAGGACTGTTCGTTCGAGCGCTGCTCTTGCACT
TGGGAAGCTTAGTGCACTCAGTGCCAGGGTTGATCCTTTAGTTGGTGATC
TTCTTTCTAGTTTGCAGTCATCGGAAAGTGGAGTCCGTGAGGCAATTTTG
ACTGCTCTCAAAGGCGTAGTAAAATATGCTGGGAAGAGTGTGAGTAGTGC
TGTAAGAGTGCGTGTCTACAGTCTCCTAAAGGATTTGATATACAGCGATG
ATGATCAAATTCGATTATCTGCTGCAAGCACACTGGGAATAGTATCACAG
TACTTGGAAGATGATCAATTTGTTGAACTGCTTGACGAGCTTACCAAGTC
GGCCTCGTCTCCAGACTTTTGCTCCAGACATGGGTCAGTGCTGACCATAT
CTTCCATCCTGAGGCACGAGCCTTCCAGGCTTTGTGGTTGCACCTTGTTT
TCAGAGATTTTGGACTGTCTTAAAGTTGCCTTGAATGATGAAAAGTTCTC
AGTTCGTGAAACATCTACGAAGGCATTGGGAAGGCTTTTACTCCATCAAA
CTCTAAGTGAACCTTTAGTCACTAATGCACATTCAGAAATTGTACCATCT
ATTGTATCAGCCATGCAGGATGATTCGAGTGAAGTCAGAAGAAGGGCATT
ATCCGTGTTAAAATCAGTTGCAAAAGCCAATCCGACTGTGACTATGACCT
ATATCACAGTATTCGGCCCTTCCCTTGCTGATTGCTTAAAAGATGCAAGC
ACTCCTGTCAGACTTGCCGCAGAGAGGTGTGCATTGCATGCCTTCCAATT
ATCAAAAGGGACAGACAATATTCAAACTTCACAGAAATTCATAACAGGCT
TGGATGCTAGACGCATTTCGAAGTTCCCTGAACATAGTGATGACAGTGAA
GACAGCGACAATGACTTGTTAATTGGCTGATTTATGTTTTATTTTATTAG
AAATTGTTTCACCTTTCATAGGCCTTGCCCTGGTGAAAGTTTTACAGAAG
TAATTAACAGCCAGAAGTTTCCCAGCACATTATTTATACTTGAATTAGAA
CCCATTAAAATGATAGATCCCTGTTTTTCTCGATGTAATTGTTCATGTAG
AAATTTTGAACACCGAGTGATAAAAGGGGCGGAAATTAGTTTGTCATAGA
AGAGAATTAATGATACCGCAAAGGCCTTCTGTTATGCTCTACTCATCATG
GATGCGATAGCCAAGTGTTGTGATATAATTTGCTGGTGCAATACAATTTT
TTGACCTGATGAAAGTATATTACTGTGGTATATACTTGCAATTTTAAGCT
GTTTAATAA
Sequence Length: 
8459
Sequence Checksum: 
c4ef18aedaff4246e7a7a2ddc81a7192
View location in JBrowse: 
DCARv2_Chr9:18786037..18830817+
Protein Sequence: 
MGGLELVSVADEFSIEFMEKRERDLGIDIGRRRFWTDVAHRIDNQEMTAE
VVSLLVDLIFKTLYTYDERRSRNAVDSVIVKALRVDSFMKSFAATIVQVM
EKQSKLQNHIGCYRLVKWSSLLLCKSLFPSISKNALCRVASAQASVIHIV
KMQGSLREQRDCKKTIFSLFSESPQIYKTYIEELKDSRIPYKDSPELLSF
ILEYSHSKSTFFDQWKPVFLDMYVRVILNVKEKPSEGLSEAFRSLFSYLS
HDEFKSIVVPSSVKMLKRSPELVLGSINVLLKSVNLDLSKYAIEILSVVL
PQARHADEGRRLVALSIIKCLSEKSSNPDAIEAMFNAIKSVIGGSEGRLA
FPYQRVGMVTALQELSSSLEGKYLSKISPEICKFLLSCYKDDGNEDVKLA
SLSALSSWAARSTDVIQPDLLSFMASGLKEKEALRRGHLRCILGVTKNVD
AILRLSPLVGPLLLLVKTGFTKAVQRLDGIFALLILSKIAALDIKTEDTI
AQERVWSLVSQNEPSIVPITMALKLSVEDCLACLELVEVLLVDHSQRVLE
TLSDKSLSQLLIFFLCHPCWDIRKVAQISLKKILGASPQICEALVVEYSN
YLSVVEEKVILMKRSETETALDTQVPFVPSVEVLVKALLVMAPEVLAANP
NTLLRIIVCSHHPCLVTTAKGNAVWKRLQKCLQRLSFDIIELIMADLGNI
CKGLLGPFGLMSSNHLEQEAAIHSLSTLMSITPTDTYTEFEKHLNNLPDR
FEHDKLSENDIQIYLTPEGMLSTEQGVYIAELVTGNNQKQAKGRFRVYDN
DNGSDNGASHSVKRDSSTAGKKDATKLTKKAEKGKTAKEEARELQLREEA
CVRDRVSSIQNTLSLMLKALGEMALSNPIFAHSQLPTLVKFVNPLLRSPI
VGDAAFRTMIMLAKCSVAPLNNWALDLATALRLIATEESHRLCNIIPSDG
DRVPKGGLFLGLFERIIMGLSVSCKTGPLPVDSFTFVFPIMERILLSSKK
TGLHDDVLKILFLHMDPILPLPRLRMITVLYHVLGVIPANQASISPALNE
LCLGLQPDEVAPALAGIYAKDIHVRLACLNAVKCIPAVTSRSLPRSVEVA
TSIWIALHDVEKPVAEVAEDIWDRYGYEFGRDYSGLYKALSHVNYNVRVA
AAEALAAVLDENPDTIQESLSTLFSLYIRDVGFGEDNIDAGWLGRQGTAL
ALLSVADVLRTKDLPVVMTFLISRALADSNSDVRGRMLNAGIMIIDKHGK
DNVSLLFPIFENYLNKKASNEETYDLVREGVVIFTGALAKHLGKDDPKVH
AVVEKLLDVINTPSEAVQRAVSACLSPLMQSKEGDAPALVSKLLDQLMKS
DKYGERRGAAFGLAGLVKGFRISCLKKYGIAAVLREGLADRNSAKCREGS
LLAFECLCETLGKVFEPYVIQMLPLLLVSFSDQVVAVREAAECAARAMMS
QLSAQGVKLVLPSLLKGLEDKAWRTKQSSVQLLGAMAYCAPQQLSQCLPK
IVPKLTEVLTDTHPKVQSAAQTALQQVGSVIKNPEISALVPTLLLGLTDP
NEHTRYSLDILLQTTFINSIDSPSLALLVPIIHRGLRERSSETKKKAAQI
AGNMCSLVTEPKDMIPYINLLLPEIKKVLVDPIPEVRSVAARALGSLIRG
MGEDKFPDLVPWLLDTLKSDGSNVERSGAAQGLSEVLAALGTDHFERILP
DVIRNCSHQKASVRDGHLTLFKYLPRSLGVQFQNYLQQVLPAILDGLADE
NESVREAALSAGHVLVEHYATTSLPLLLPAVEDGIFSDNWRIRQSSVELL
GDLLFKVAGTSGKALLEGGSDDEGSSTEAHGRAIIEVLGKDKRNEVLAAL
YMVRTDVSLSVRQAALHVWKTIVANTPKTLKEIMPVLMNTLISSLASASS
ERRQVAGRSLGELVRKLGERVLPLIIPILSKGLKDSSTSRRQGVCIGLSE
VMASAGKSQLLSFMDDLIPTIRTALCDSTPEVRESAGLAFSTLYKNAGMQ
AIDEIVPTLLHALEDDKLSDTALDGLKQILSVRTTAVLPHILPKLVQLPL
SAFNAHALGALAEVAGSSLNFHLGTVLPALLSAMGDNDQDIQKLARKAAE
TVVLVIDEEGVDSLIGELLKGVGDNKASIRKNSAYLIGYFFKNSKLYVVD
EAPNMISNLIVMLSDSDQSTVIVSWEALARVIGSIPKEVLPSYIKLVRDA
VSTSRDKERRKKKGGPVLVPGLCLPKALQPLLPIFLQGLISGSAELREQA
ALGLGELIEVTSEPALKEFVIPITGPLIRIIGDRFPWQVKSAILSTLCIM
IRKGGIALKPFLPQLQTTFIKCLRDNTRTVRSSAALALGKLSALSARVDP
LVGDLLSSLQSSESGVREAILTALKGVVKYAGKSVSSAVRVRVYSLLKDL
IYSDDDQIRLSAASTLGIVSQYLEDDQFVELLDELTKSASSPDFCSRHGS
VLTISSILRHEPSRLCGCTLFSEILDCLKVALNDEKFSVRETSTKALGRL
LLHQTLSEPLVTNAHSEIVPSIVSAMQDDSSEVRRRALSVLKSVAKANPT
VTMTYITVFGPSLADCLKDASTPVRLAAERCALHAFQLSKGTDNIQTSQK
FITGLDARRISKFPEHSDDSEDSDNDLLIG
Relationship: 
There are 2 relationships.
Relationships
The mRNA, XM_017370273.1, is a part of gene, LOC108201930.
The polypeptide, XM_017370273.1, derives from mRNA, XM_017370273.1.
Cross Reference: 
NCBI Gene
NCBI Nuccore
Gene: 
LOC108201930
Model Evidence: 
Supporting evidence includes similarity to: 1 Protein, and 99% coverage of the annotated genomic feature by RNAseq alignments
Gbkey: 
mRNA