- Iorizzo M, Ellison S, Senalik D, Zeng P, Satapoomin P, Huang J, Bowman M, Iovene M, Sanseverino W, Cavagnaro P, Yildiz M, Macko-Podgórni A, Moranska E, Grzebelus E, Grzebelus D, Ashrafi H, Zheng Z, Cheng S, Spooner D, Van Deynze A, Simon P. A high-quality carrot genome assembly provides new insights into carotenoid accumulation and asterid genome evolution.. Nature genetics. 2016 06; 48(6):657-66.
- Osuna-Cruz CM, Paytuvi-Gallart A, Di Donato A, Sundesha V, Andolfo G, Aiese Cigliano R, Sanseverino W, Ercolano MR. PRGdb 3.0: a comprehensive platform for prediction and analysis of plant disease resistance genes.. Nucleic acids research. 2018 01 04; 46(D1):D1197-D1201.
| PRGdb |  |
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| Relationships |
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| The mRNA, DCAR_025671, is a part of gene, DCAR_025671. |
| The genetic_marker, MK009744 7_29557202, is located in gene, DCAR_025671. |
| Name | Description |
|---|---|
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 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 | |
For gene model prediction, mobile element–related repeats were masked using RepeatMasker. De novo prediction using AUGUSTUS v2.5.5, GENSCAN v.1.1.0, and GlimmerHMM-3.0.1 was trained using model species A. thaliana and S. lycoperisum training sets. The protein sequences of S. lycoperisum, Solanum tuberosum, A. thaliana, Brassica rapa, and Oryza sativa were mapped to the carrot genome using TBLASTN (BLAST All 2.2.23) and analyzed with GeneWise version 2.2.0. Carrot ESTs were aligned to the genome using BLAT and analyzed with PASA to detect spliced gene models. RNA-seq reads from 20 DH1 libraries were aligned with TopHat 2.0.9. Transcripts were predicted by Cufflinks. All gene models produced by de novo prediction, protein homology searches, and prediction and transcript-based evidence were integrated using GLEAN v1.1. Putative gene functions were assigned using the best BLASTP match to SwissProt and TrEMBL databases. Gene motifs and domains were determined with InterProScan version 4.7 against the ProDom, PRINTS, Pfam, SMART, PANTHER, and PROSITE protein databases. GO IDs for each gene were obtained from the corresponding InterPro entries. All genes were aligned against KEGG (release 58) proteins. Data from this analysis can be viewed in JBrowse here. |
| Transcript Name | Identifier | Type | Location |
|---|---|---|---|
| DCAR_025671 | DCAR_025671.mRNA | mRNA | DCARv2_Chr7:29559053..29562867 |
TACATGGATATAAAAAAATCAGAAAGTGGAGTACAGGAGGAGGCAAAGAC
ATAGACCAAAAAAAAAGGGCAGGGAGTAAACGGTCAAACAACTAAAACGG
GCAACGAGCCAACCCATCCAAAGTTCTAAACCACCAGAGGCTCACAAAAA
TTGGCGTGTTAGAAAAAGCAGGACACCACCACGAGAAAATTATACAGAAA
TAACACATCTTCCGCCCTGCAATCACTCTAGCTTTCTATTACAACAACAC
TGATTGATCGATCCCCTCTCGCGTCTCCTATTTAAACACACACTCTCACT
TTACAACAGTATTGGTCAAGCTTTAAATGTAATAGTCTCTCATCACACAA
ACCACCCACTTGTTATTTACAGACCAGACCTCTCATTAACACACTCCTAC
TTGTATCTACACACTCCATCATTTATTGTTTTTCATATCTCCCAACTTCT
TCCGCTTTTAATGCCCGCTCAACTCTCTCGTCTCGCCATTTCTCTTCAGT
CCTGCCATGGAGATCGCCGTGGTTGTAATCACAGTTTTCACGGCCTTTTT
CTCTGCTCATGCACAGAATTCTACCTGTAAACGCTACTGCGGTGATGATA
ATAGTAGAATTACTGTTCAGTATCCGTTTGGCTTTTCGGATGAATGTGAG
ATTCCGCTCAAGTGTGATGAGGTTAAAAAACGGATGCTCATCGGAGATTT
TGAAGTTAAGAAAGTCACGACTGAGAGTATAGTTCTTCGTTTTCCGGCGA
ATTGTAGCCGGAGTATTGAGGAGAGTGCACAATTGATCAGCCGGAATTAC
GCTCCGACGAACCGAAGCAATTTTCTGATCAGAAACTGTAAACGGCCGGT
GAACAGGTGTTTGATACAGGCGGAGTCGTTTGAGAATCGTTTGTCTGTAA
AAAGTTGCGAGTCGAAAGCTAGTGATGATGTTAGTTGTTATACAGGAAAG
AATATGAGTGTTGTTGATGAGTTGAATGGGAGCGATTGTTCGGTTTTGTT
CACATCAATTTTGATTAATTCGCCTGAAAATAATAGTGCGGAGTCAGTTG
TACTGGCTTTGGAGTTCGAGGTAGTCGAGCTGGAGTGGTGGCTGGAAGGG
CCGTGTAAGTGCGCTGTGAATGCTAATTGTGCTCAATTGTTGGTTGCTGG
TGGAAAGAGGCGGTTCCGGTGTCAATGCAATGCAGGGTTTGAAGGGGATG
GCTTCCGTGAGGGAGAGGGTTGTCGGAAAGGTTAGTTTGTTGCTGCCGGG
ATTTACAGGTTTTAATTTGGTTTTTTAATGAATTTACTATTTTTGCATCA
TTATGTTAATTTAGTTGTATATATTTGACGCAACTGCATTTGACTGTGAA
CAACTTCTATCAACAAATGCTAGAAAAGTCTTTACACATTATCCTTAGTT
ATAAATTGGGATTCAGTTGGACTTGGTCTACTGCATATGCACATTGCTTC
GAGAAAAGTCTGTAAACAGATTGGAATATATTTAAATGAAATTCTTGCCG
GTATTTACACTACTTCTTGACCACATGTTTCCAAGTACTGTGAATCATTG
GTGTAGAAAATTTTGTGTTAGGAGAGTGTATAATAGAATTTGTTTCTCAA
TGAAAATTCCTCTATGTCAACTGTATTTTCTTGTGAATGGTGAGTATTTA
TTGGTCTATTTGTGTTTAGAAAATGACATCTCCTTGTACAGTGGAAAATG
ATTAAAGAAGTTTCCTACATATTTCTTCTGTTGTACATGGAGTTGAATAC
TTGTCTTTGATGATTAAAATTTCAAGTTTCTAATATGACAGTCAAATCCT
TGGAGCCATTAATTCTAATCCAGAAATGTCAAGGGAGCACATGCTATGTT
GTAAGGTTTTAGTTTCTAACAAGGATGAGCCAGAGGGATTGCAATATGTT
CGGCTAGATAGTTTAGGGTAATCAATCTCATATGAAGTGTTTTTTAATAA
GTGATCCTTAGAGTTTGATGTACACATTAACCAGAAACACTCTAAAATTC
TCAATTGGGTTGCTAATGCATTGCTTACAACATTTAGTTTCATAGTAGTA
AGCAAATTATATATTAAGAAATTCATTCCAGGACCACAAAGTATAGGAAA
GTAAGCTGTCAATTGTGCCTTTCCCTCATTGCCAATTTCCAATTAAAGAC
AGGTTCCTTAGGAGTTAGGCATATTGGTAATTACCACGAATGAAAGCCTT
AAAATTCATTGGAGAAATTGTAGTGATTATGTCCACAATTGACATATTGG
TAATTACCACGAATGAGAGTCCTTAAAATTCATCTTATAATATCCAAAAT
GAAGACGTGTAAAAATTCATGTGCTGATAACTTATTTCTAATTGATACAC
TGTCATCTTTTACATACTTTTGCTTGAGTAGCCTCAGAAATATTATTTGT
GATGCTAACACTTGGTGAATTTTATTCTTTTCTTCATTTCAGTTGTCTCA
GTTTCTGACTGCAATGCTTCAAGATACATATCTGGTAGATGTGGTGGAAC
TAAGAGGGCTGGAATTTTAGCTGCAGGTAAAGAAACCCCTTATGAAAAGT
ATATACAGGACATATATTTCGTTTTTCAGTGCTTACTAAATTTCTATCAT
TCACCTCTACAAACATGGACAAATTATTTATTCTGAGCTAGCTACAATTC
TATAGCTCGACTGTTTTTTTTCGTTTTCTTGTTCATCAGGTCTAGTAATG
CATAATTTTTAGATACTGTCAGTTTCAGAAAGCATCAATCTTCATGACAA
TGCTTCCTCGTTGCAACTACTGTTTAGATATATAAGACGGATGATTTATC
TCGTGATCCCTTCACCTGAGTAGTTATACCATATTGGTGAAGTTGTAGAC
TGCATATCACTAGTGAGAATGATTTAAGTTATGTGCATTATAATGATCCT
TTTGAGCTCTTCTCCTTTTTTTTTAGATTCCTGTAGATTCAATATTAGCG
TATATCATATCATTTAAAGAAGTCAGATATTGTTATTAGATAGGTTTTAG
AGATTTGTAAGTTTTATCTTTATTATTGTTTCAGTTGCTGCTGCTGGAGC
TTGTTTAATTGCTGCTCTGGCTTTTATCTGTTACTGTGTGCGAAGACGCT
CAACTTCTCGGAAATACAAAATAAGTGCAAACCGCCTTCTTAGTGAAGCA
CGCAGCTCTACTGTTCCCCTATTTTCCTACAAGGATATTGAGAGAGCTAC
AAATGGATTTTCTGAGAAACAAAGACTAGGCACTGGGGCATATGGTACAG
TTTATGCTGGAAAGCTCCATAATGATGAGTGGGTAGCCATTAAGAAACTA
AGACATCAAGATACCGATGGCATTGAACAGATCATGAATGAGATAAAGCT
CCTGTCCTCTGTGAGCCATCAGAATCTAGTTCGTCTTTTAGGTTGCTGTA
TTGAGAATGGTGAACAGATTCTTGTATATGAATTCATGCCAAATGGAACT
TTGGCTCAGCATCTACAAAGAGAAAGGGGCCATGTCCTTCCATGGACAGT
ACGCCTCACCATTGCAACTGAGACAGCACTCGCAATTGCTCATCTCCACA
CAGCCACACATCCCCCTATATACCACAGAGACATCAAATCTAGTAATATA
CTGTTAGATGTAAACTTTAACTCAAAGGTAGCAGATTTTGGTCTTTCCAG
ACTGGGCATGACAGATAATTCTCACGTTTCAACAGCTCCTCAAGGGACAC
CTGGCTATGTTGATCCTCAGTACCATCAAAACTTCCATCTTTCTGATAAA
AGCGATGTTTACAGCTTTGGGGTGGTTCTTGTAGAAATTGTGACTGCTTT
GAAAGTTGTTGATTTCTCTCGATCTGCGACCGATATTAATTTAGCTGCAC
TAGCTATTGACAGGATCGGAAAGGGCCGTGTAGATGAAATAATAGACCCT
TTACTAGAGCCAAATAGAGATGCCTGGACACTTTCATCCATTCACAAGGT
TGCTGAGTTGGCTTTTAGATGTCTTGCTTTTCATAGGGACATGAGACCCT
CTATGGTGGAAGTTGCACAAGAGTTAGAGCAGATCAGACTTGGTGCTTGG
GCTCCGTTGGACGAGAATATGGGCATGGCTTCATCAGTAGCATCCTCCTG
TTCATCTCCTTTCGATGGAAGTGAGAAGTCATTAGGTGGTGCGACAGTAA
AGAAACTAGGTGTTGGAAGTAGAAGGGTAGTTGTCCCCCACAGGCCTTTA
GATTGCCTCACTCCGATGAAAGAGGTGAGTGATAGCTCCCCAATATCTGT
GCGGGATCCTTGGTCAAGTGAACAGAGCTCGCCTTCAACCAATAGCTTGC
TGCGTAATATTGTTCGGTGATGGTATATGGTTAGTTGTGAATATTATAGA
TATCAATTACGATTGTCAGTTACCTGTTTGCAACAGATTTGACAGTGAAT
ATTATTTCAAGTGATGCTGTTTCTTATTCTTTTTGCTAGTATGGAGAGAA
GACATTTCCATCACAAAATGGGGATGTTATCTCTGTATAAGAGAGTTGAT
TTCCTACTGATATATTGTTTACTTCCCCTGGGAATCTTTACTATGGCAAT
GTTCTCCAGTTAGGATCAAGATCTAGTTAATTAATCAGAGCGGTGACTTG
GTCCTTGTATACTGTATAGTATTCGGTGCAGGCCAACTATCAAATGAAGA
CCATGAATACATATATTGATACACAACATTCCTTTACAAATGCATCCAAA
AGAGAACAGTAAAATTTTAAGAAACCTATAGTATGTTCTCTTAGTTTGTG
TAATGATGCCTAACCATGACTTCTTGGATCAGATACTTGATGCACCTTTC
TTCCTTCAGCACTCGAGTATTGTCCCACCACACGAGCATGAGGGATTGAT
TCTTTTCCTTGGGCTAGGGCATCAACATTCTCGAGAAGGTACTTAGTTGG
CAGCCTGCCTACAACATTACCCTCCTCGTTACCCTTTTTGTCCAGGAATG
CAAAATGTGGGATACCCTCCACGCCAAATTCATCAAGCTCTTGCTCCCAT
TTTGTGTTATCCACATTTAGCATAACAAAATTCACCCGATCCCTAAATTA
TCACGGACAGTCTCTTAGTATATACTATGATAACTTAGCAAGAAAAACAA
AAAATTATATACTATGATGTGTTGAGGTGACTATTAGAAATAAATTCTCT
AAATAATAAAATTTCTGTGTGATAGGTTGAACATGATTTTGGGGTGTCGA
ACCTTCAAATTAGGAAATAACTTGAGTTGCATAAGTTATAATATTATATA
CTTATCATGCAAGGCATAAGCTCAGAAAATATTACTTGTACTGCTGCTCA
ACTTTGTAAACATCTGGAGCTAGTTCCCGACAAACTTCACACCAATCTGC
ATAAAATTCTACAACAGTGGGCTTCCCATTCGAGAGAGCCTGTACAGAAC
ACCAAAAAAAGTCACAAAATGATTAGAGTTCATAGAAATGTTGGTATACA
GACCTCCAAGCACAGGGTATACTAGTTGAACAGAAAGTCGCCAATGAAAA
AAATGACAATGTATAGACCATGGAACCATATTGGAAGATAAATGTAACCG
CTAAAATCAATAACGGCCTTTTGAATTCAGGATGGACTCACGTTTAAATA
TGACGTTATCACACACATGTATATTATTGATCTAAAATTGGACTATGCGA
TGCCTAGGCACTAGGCTGAATGTAAACACCTCCGCTTTTATCAAAATAGG
AGAAATATGCTATGCGTAATGCGTTTTTTTTTAAATTTAAATGTTCCTAT
GTACTGTTTCAGCATAAAATTGTGTATTTTCTGAATCAGTTCGCCACACA
TAGCTAACTAAAAGAGTTCGGTCTTTATTCTATAATATAACCATTACCAC
TCCAAATATGTAATTACAAATGTCAAATAGTATATTGCATATAGTGCAAG
AACTATGAGCCTTAACTAGCATATTAGCCTTTAGGTCACAATGTTGATCA
AATTCCTCTTATGATACACATAAACAACTTATGTTTCACCTAAAATTAAA
ACGTAATCAACGAAACACACACCACAAGATCCTTTATACACTACATTAGA
ATACCTGTTCATATGGTAATGCAACGGCCGAGATGTCCTTCAAAGAAACG
CCCAAGTCTAATCGACCGGATAAGAAAAGTCCAACAGCTGCAACAACAGA
AACAAATGCTAATCCTGTATTGAAAGTCTTGGTTGGGTATTGAGGGAATT
CAAATCCACTAGTCGAAGCCGACTCATTGCTGCTATTCTTATCATCCTTG
TCCTCACTCACCTCTACAGCCAACTCATCCTATATTAACAACTTTAACAA
GATCAGTAATTAACAAAAACTAGAACTAATGTTTTTAGATTACGATTACT
CTGAATTTGAAGTTAAAAACTTAAAATTGCATAAAAGTAATTGATGAGAG
ACCTGTGGAGTGGAAGAGTCGTTGTTCTGATTAGGGTCTGTTTGGCAGAA
AATTCTAAAGGTTTTGGTAGAAGAAGGGAAATGAAAGAGGGGGGGAGGTT
TAGTGAGGTGGAGAGATGAGTAAGAGGAGTGGAAAAAAGACGGCGGCCGG
AGTTTATTGATTCCGACGATGTGGGAAGCCATGGTCAAAGCCATCCACAC
AAATTATGTTAAGTGTGCTGGACCGGTTCAGTTTTTGCTTGTGTTTGTGC
TGATTTCGGCTTATGGAGTTGTGCGGTTATATTACCGTGCACGCTTTCGC
TACAGTCGACGAGTTACTTCAGAGCGAGACTTGGAAAATGCAAGCTGATT
CCCTCTCGCACTCGCTCTGTCCTAAAAATTTCCGAGGCATTAAAAAT