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Tomato locus lipoxygenase A
| Locus details | Download GMOD XML | Note to Editors | Annotation guidelines |
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 Links to external databases
 Links to external databases
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lipoxygenase A is on PhyloGenes
TomDelDB genotype frequencies in tomato populations. chromosome SL2.50ch08, position: 3518092
Please cite Razifard et al.
| Registry name: | None | [Associate registry name] |
| Notes and figures (0)
Notes and figures (0)
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| Image | Description | Type |
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| Accessions and images (0)
Accessions and images (0)
| [Associate accession] |
Accession name:
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| Alleles (0) | None | [Add new Allele] |
| Associated loci (1)
Associated loci (1)
| [Associate new locus] |
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| Associated loci - graphical view
Associated loci - graphical view
| View lipoxygenase A relationships in the stand-alone network browser |
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| SolCyc links
SolCyc links
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| Sequence annotations
Sequence annotations
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| Genome features
Genome features
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| Genomic sequence
Genomic sequence
| unprocessed genomic sequence region underlying this gene |
>Solyc08g014000.2 SL2.50ch08:3522693..3516113 (sequence from reverse strand)
TTTCACAACAAAAACTCATCATATCTTTTTATACTTTTTAATATTTCTCTTATTCATCATCATGTTAGGTCAACTTGTGGGTGGATTAATTGGTGGCCATCATGACTCAAAGAAAGTTAAAGGAACTGTGGTGATGATGAAGAAAAATGCTCTAGATTTTACTGATCTTGCTGGCTCTTTGACTGATAAAATCTTTGAAGCCCTTGGCCAAAAGGTTTCTTTTCAATTAATTAGTTCTGTTCAAAGTGATCCTGGTAAGTTTATAACCTCTCATGCACTTTATATATTGCATTATTTTATCTGCTACACTGACGGAATCAAGATTATCACTAAAGATGGTTTCAACATTAATTTTATTTGTGTTGTATAAATAACGTTAACTTTCGATCGAAGGAGGTTTAGATGAATGCGTTTATGTTACTCGAAGGTTGAAGTTTAATTGGAAGGGAAATAAGGACAGATTTTTTTAACCTTGTTTGTAAATATAAAGATTTTCATACTTATTCAAAACTAGTTGAGATATATATATAACCGGGCTGTATTATAGAAAGACATAATATATAAATATGACATTGAATTTAGTTTTAACTCACAATTATGATTTTAATTTTGAGTGTGCACTTGTAAACTTTTAAATTTGTACTATAAAGTTGAATAACTAGACACACACGTCCTATATGACATCTTACATGACAATTTTGCATCTTACATATTGATATATAATTTAGATACGTATTCAAGATTTCGAGATGATGGGTGCACTATTACAAAGATTGATTTAAGATGTAAATTTGATCGGTTTGACTTTAGGTTCTTATTACTAAAAAAACGTTCAAATTTTAATATTATAGGTTTTATATATATATATATATATATATATATATATATATACGTACATACTACATATGTCAATAGTGCTACCAATAACCACTTAGCGAGGTGCTATCTAATTTTAGAAAGAAAATTAAACAAGATAAATATTAACATTCAAATTTCTAACCTCACGAAGAGAGGTGCATCCAATCATCATCGCATTATATTGTACTCCGAGTATGGATCCACACATCTATATTTGAATTATATTTTAAAAATATAACACAACGGTATATGATCTCGGGAGGAGAGCATGGGTTCACGTGAACCTGGTGACCCTCGTTGGATGCAAGTTTAAGTGGTTATTTGTACACATTCAAAGTTGAAAAATATAATTTTAAAAGAAGATGATGTTAAATGACACATTTTTTGTTTTAAGATTTGTAAAAAAAATATTTTAAGAATTTTATAGTGAATAATGAATTAAATGTAACGCGGATGATACATCAAGAGGTAATTCACGTAAAAGTGATGCAAGAACGAAAACGTTTATTCATTTATGCTATGTTTATAATATTTTTAAGAAGTCATTACGATAATTTTATGGAGTTTTTTTTTAAGAGAAAGACATCCCAACTACCAAAATTATTCATTAACAGCTTATTAGGTAGTCCTATTTGTAGGAAATATTGTGAAGTATTTCATATAATAACTTTGTGTTATTCACTATTATATTTTTATTTAATATCGTTAATTATTTAAAGTATTAATTTTATTTTTCTAATAAATATTATTTATTTTAAATTTCTATGCAACAAATAATTATGAAAATAGGTGAAAATTTTTGTCTATCAACTTAGGAGTCATTTGGTGTAGAATTCTAATGCTACCCAAAGTATTACTAATTTAGAGATTAGTTAATGAAAGAATTTTATATATTTAGATATAGTCGTATTTGAAATTTTCAATTTTTTAAAATTTTTATATTAGATAAAAATAATACTGCACTTTATTGATCTCATTATAAATATAATAGTATTTGAACGGGCAAATGATTGAAAAGGATAAGATCTATCATTGAATAATTGCACCCCACACGATATATAAATAAATTGTTTTATTAAGTTATCTAGAAGATTAGGCACAATTTTATCTTTTACTATTTTCTTAATTTCAATTTTATTTGTTTTATTCTAATTTTACGCATAATTTAAGAAAGATTTTTTTAAAAAAAATCATACAATCTTAAATTAAAAATATATAACTTTCAATTTTTTTATCTTGTAAATTAAATATTCTATGTGAAAATTTAAAATTTTAAAAAATACCAATAATCATAAATATTCTTTTTTTAAATAAATAAATAAATAAATACAATAAACTAATTAAAACAGAGAGTGCCTATTATAAATTATAGATATATGTGAACAGCATATACGTATTGTTGATACTGAAAAATCCTGATATTTTTCAATATATTACTCATTTCACTCAAAATGATGTGATATAATTTAACCAACCATAAAGTTTAAGAAATATTTAAAAATTTCACAATGTTTTAAATATATTTTTTGAAAAGTACATTTTTATGGATTTTTTGTCAAATAAGTGAGATTCAATATGACTTTGAAATAATTATTTTTACTAGTAACTAAACATTTGGATATCATGTTTCATAGCAATCACTGAAGGACTCTGTGACAATAATATAGTTATCGTTATTTAGTGACAATAATAATATTAAAAATTAATGTGAACTAAATTTCTGACTTCGCCACCGTTCGCAGCAAATGGCTTACAAGGGAAACATAGTAATCCAGCCTATTTGGAGAACTTTCTCCTTACTCTAACACCATTAGCAGCTGGTGAAACAGCCTTTGGTGTCACATTTGATTGGAATGAGGAGTTTGGAGTTCCAGGTGCATTTGTCATAAAAAATATGCATATCAATGAGTTCTTTCTCAAGTCACTCACACTTGAAGATGTGCCTAATCATGGCAAGGTCCATTTTGTTTGCAATTCTTGGGTTTATCCTTCTTTTAGATACAAATCAGATAGAATTTTCTTTGCAAATCAGGTATGATTTACTTTTTCAAACTACTAACTGGTCGTTTCGTAGCTGGTTTGGAGGTGAGTTATGCAGCATAAATAATGCCATGTAATGAGTTATGCTGGTATTAATTAAACTAATATTGCATTCACACTTTGGTAGGTAGTTAGGGGGTAACATTACTAAAAATAAAAATAATTATTTCCTCATCGGGAATCAGTGAGGAATTTGTGCTATATAACAGGATTTTCCTATTCATTTTTCAACGAATCAACTGATCACTCGGGAAGCTTTCTAATTTTTTCCATATGAAACAATTACTATATATTTGTTTTGTCACCAATTTAATCAAAATATTTGTGGGAATAACTACCGAACATTTTTCTGTCGGAATATAGTGAATTTTTTTGATAGTGCAAGCATAACTAAGCTACATATATAGTAATTAAAATAAGCATAACTAATACTACATATATATGTTATATATGAGAAAATTTATGTATTATATACATGAATATAATGACTAAGCTATGTATAACCAAATCCATACATAAATTTCCCTTATACAGTATACTACTAATACATGCATGACTCTAACCAGCTACGAAACGACCGCTGAGCATGTTAACTATGGCAATTGCTCAAACTGCAATGTTTTGATTGTTTATGCAGCCATATCTCCCAAGTGAAACACCAGAGCTTTTGCGAAAATACAGAGAAAATGAATTGGTAACATTAAGAGGAGATGGAACTGGAAAGCGCGAGGCGTGGGATAGGATTTATGACTATGATGTCTACAATGACTTAGGTAATCCTGATCAAGGTAAAGAAAATGTTAGAACTACCTTAGGAGGTTCTGCTGACTACCCGTATCCTCGGAGAGGAAGAACTGGTAGACCACCAACACGAACAGGTTAGTTAGACGTTCACATTTATCAGTCCATTCAACGCGTTTAGTTTCATTGAAAGCTAACTTTCTGATCAGTTACATTGTTGTTTTGCTTTGTATAGATCCTAAAAGTGAAAGCAGGATTCCACTTATTCTGAGCTTAGACATCTATGTACCGAGAGACGAGCGTTTTGGTCACTTGAAGATGTCAGACTTCCTAACATATGCATTGAAATCCATTGTTCAATTCATCCTCCCTGAATTACATGCCTTGTTTGATGGTACCCCTAACGAGTTCGATAGTTTTGAGGATGTACTTAGACTATATGAAGGAGGGATCAAACTTCCTCAAGGACCTTTATTTAAAGCTCTTACTGATGCTATTCCTCTAGAGATGATAAGAGAACTCCTTCGAACAGACGGTGAAGGAATATTGAGATTTCCAACTCCTCTAGTGATAAAAGGTACAATTTGTTACACCTAATCTAACTAATGATCACTCACTTTTATGTGTTTGTATGATTTAAAAGTATCGATTGTGCAGATAGTAAAACCGCGTGGAGGACTGATGAAGAATTTGCAAGAGAAATGCTAGCTGGAGTTAATCCTGTTATAATTAGTAGACTTGAAGTAAGTTAGTTTCTTCGCGACTAGGAAATAGGGGACTAAAACTTTGAATATGTCGCGACTAGTAAGTCTTTGTGTTAGATAAAGAGTATTGATGCTTTGTTTCTTGTTTAATTTGCAAGGAATTTCCTCCAAAAAGCAAGCTAGATCCTGAACTATATGGAAATCAAAACAGTACAATTACTGCAGAACACATAGAGGGTAAGCTGGATGGACTAACGATTGATGAGGTAATATATATATTTACTCGAAATTCCATACTAGTTTGTATGATTACGATAAGGATTTTAACATGTTGTTTGACAGGCGATCAACAGTAATAAACTTTTCATATTGAACCATCATGATGTTCTTATACCATATTTGAGGAGGATAAACACTACAACAACGAAAACATATGCCTCGAGAACTTTGCTATTCTTGCAAGATAATGGATCTTTGAAGCCACTAGCAATTGAATTGAGTTTGCCACATCCAGATGGAGATCAATTTGGTGTTACTAGTAAAGTGTATACTCCAAGTGATCAAGGTGTTGAGGGCTCTATCTGGCAATTGGCTAAAGCTTATGTTGCGGTGAATGACTCTGGTGTTCATCAACTGATTAGTCATTGGTAATTCCCTTTATGTCGAAAGACTTCTATAGTGATTCATGATACAAAATAATAACTAACTCGAAGGGGAACTTTGAAGTAACTGGTAAAGTTGTAATGAGTTCATAAGGCTGTGTACAATAGATCCTTGTGGTTCGGCCCTTCTTTAAACCCTGCATCAACACATGCCTTGTAGTATTAATCTAATACGTTTGATCATCTTTGCAGGTTGAATACACATGCTGTGATCGAGCCATTTGTGATTGCAACAAACAGGCAACTAAGTGTGCTTCACCCTATTCATAAGCTTCTATATCCTCATTTCCGGGACACAATGAATATTAATGCTTTGGCAAGACAGATCCTAATCAATGCTGGTGGAGTTCTTGAGAGTACAGTTTTCCCTTCCAAATTTGCCATGGAAATGTCAGCTGTCGTTTACAAAGACTGGGTCTTCCCTGATCAAGCCCTTCCAGCTGATCTTGTTAAGAGGTACAACGTCAAAACTAACGTTATATGAAAACATTAGGATGTTCACATTATATGACCAATTCAATTTCAGGGGAGTAGCAGTTGAGGACTCGAGTTCTCCTCATGGTGTTCGTTTACTGATAGATGACTATCCATACGCTGTTGATGGCTTAGAAATCTGGTCTGCAATCAAAAGTTGGGTGACAGATTACTGCAGTTTCTACTACGGATCGAATGAAGAGATTTTGAAAGACAATGAACTACAAGCGTGGTGGAAGGAAGTCCGAGAAGTGGGACATGGTGACAAGAAAAATGAACCATGGTGGGCTGAAATGGAAACACCACAAGAGCTAATCGATTCGTGTACAACCATCATCTGGATAGCTTCTGCACTTCATGCAGCAGTCAATTTCGGGCAGTATCCTTATGCAGGTTACCTCCCAAATCGTCCCACAGTAAGTCGAAAATTCATGCCTGAACCAGGTACTCCTGAATACGAAGAGCTAAAGAAAAACCCCGATAAGGCATTCTTGAAAACCATCACAGCGCAGTTACAAACATTGCTTGGTGTTTCCCTCATAGAGATATTGTCAAGGCATACCACAGATGAGATATACCTCGGACAACGAGAGTCTCCTGAATGGACAAAGGACAAAGAACCACTCGCTGCTTTCGAAAGATTTGGAAATAAGTTAACAGACATTGAAAAACAGATTATGCAGAGGAATGGTAACAACATATTGACAAACAGAACAGGCCCCGTTAACGCTCCGTATACGTTGCTGTTCCCAACAAGTGAAGGTGGACTTACAGGCAAAGGAATTCCAAACAGTGTGTCAATATAGAAGAGTTTTGAGTACACATGAAAATGAAGAAAGCTGGAGTTTGAATGAATCTTCAAATAAAATTGATCATTACTGTATGTTCATTTCTCCTAAGTTTACTGTATTTTCTTTTCAACCTTACTTGTTATGTAATTCTCAGTATGTTGTGAGAATAATAAAACTAATTCCAGCTGAAAAGTTTCAATATATTTTGCAATTAAGCAAGTTTCCAATGTTAAATTTGATAAGATTCAAAAATGGATTAATGAGAAGATATGGTAATTACAGGATAATTCTTCATTGGTAAAAAAGTCAAG
TTTCACAACAAAAACTCATCATATCTTTTTATACTTTTTAATATTTCTCTTATTCATCATCATGTTAGGTCAACTTGTGGGTGGATTAATTGGTGGCCATCATGACTCAAAGAAAGTTAAAGGAACTGTGGTGATGATGAAGAAAAATGCTCTAGATTTTACTGATCTTGCTGGCTCTTTGACTGATAAAATCTTTGAAGCCCTTGGCCAAAAGGTTTCTTTTCAATTAATTAGTTCTGTTCAAAGTGATCCTGGTAAGTTTATAACCTCTCATGCACTTTATATATTGCATTATTTTATCTGCTACACTGACGGAATCAAGATTATCACTAAAGATGGTTTCAACATTAATTTTATTTGTGTTGTATAAATAACGTTAACTTTCGATCGAAGGAGGTTTAGATGAATGCGTTTATGTTACTCGAAGGTTGAAGTTTAATTGGAAGGGAAATAAGGACAGATTTTTTTAACCTTGTTTGTAAATATAAAGATTTTCATACTTATTCAAAACTAGTTGAGATATATATATAACCGGGCTGTATTATAGAAAGACATAATATATAAATATGACATTGAATTTAGTTTTAACTCACAATTATGATTTTAATTTTGAGTGTGCACTTGTAAACTTTTAAATTTGTACTATAAAGTTGAATAACTAGACACACACGTCCTATATGACATCTTACATGACAATTTTGCATCTTACATATTGATATATAATTTAGATACGTATTCAAGATTTCGAGATGATGGGTGCACTATTACAAAGATTGATTTAAGATGTAAATTTGATCGGTTTGACTTTAGGTTCTTATTACTAAAAAAACGTTCAAATTTTAATATTATAGGTTTTATATATATATATATATATATATATATATATATATACGTACATACTACATATGTCAATAGTGCTACCAATAACCACTTAGCGAGGTGCTATCTAATTTTAGAAAGAAAATTAAACAAGATAAATATTAACATTCAAATTTCTAACCTCACGAAGAGAGGTGCATCCAATCATCATCGCATTATATTGTACTCCGAGTATGGATCCACACATCTATATTTGAATTATATTTTAAAAATATAACACAACGGTATATGATCTCGGGAGGAGAGCATGGGTTCACGTGAACCTGGTGACCCTCGTTGGATGCAAGTTTAAGTGGTTATTTGTACACATTCAAAGTTGAAAAATATAATTTTAAAAGAAGATGATGTTAAATGACACATTTTTTGTTTTAAGATTTGTAAAAAAAATATTTTAAGAATTTTATAGTGAATAATGAATTAAATGTAACGCGGATGATACATCAAGAGGTAATTCACGTAAAAGTGATGCAAGAACGAAAACGTTTATTCATTTATGCTATGTTTATAATATTTTTAAGAAGTCATTACGATAATTTTATGGAGTTTTTTTTTAAGAGAAAGACATCCCAACTACCAAAATTATTCATTAACAGCTTATTAGGTAGTCCTATTTGTAGGAAATATTGTGAAGTATTTCATATAATAACTTTGTGTTATTCACTATTATATTTTTATTTAATATCGTTAATTATTTAAAGTATTAATTTTATTTTTCTAATAAATATTATTTATTTTAAATTTCTATGCAACAAATAATTATGAAAATAGGTGAAAATTTTTGTCTATCAACTTAGGAGTCATTTGGTGTAGAATTCTAATGCTACCCAAAGTATTACTAATTTAGAGATTAGTTAATGAAAGAATTTTATATATTTAGATATAGTCGTATTTGAAATTTTCAATTTTTTAAAATTTTTATATTAGATAAAAATAATACTGCACTTTATTGATCTCATTATAAATATAATAGTATTTGAACGGGCAAATGATTGAAAAGGATAAGATCTATCATTGAATAATTGCACCCCACACGATATATAAATAAATTGTTTTATTAAGTTATCTAGAAGATTAGGCACAATTTTATCTTTTACTATTTTCTTAATTTCAATTTTATTTGTTTTATTCTAATTTTACGCATAATTTAAGAAAGATTTTTTTAAAAAAAATCATACAATCTTAAATTAAAAATATATAACTTTCAATTTTTTTATCTTGTAAATTAAATATTCTATGTGAAAATTTAAAATTTTAAAAAATACCAATAATCATAAATATTCTTTTTTTAAATAAATAAATAAATAAATACAATAAACTAATTAAAACAGAGAGTGCCTATTATAAATTATAGATATATGTGAACAGCATATACGTATTGTTGATACTGAAAAATCCTGATATTTTTCAATATATTACTCATTTCACTCAAAATGATGTGATATAATTTAACCAACCATAAAGTTTAAGAAATATTTAAAAATTTCACAATGTTTTAAATATATTTTTTGAAAAGTACATTTTTATGGATTTTTTGTCAAATAAGTGAGATTCAATATGACTTTGAAATAATTATTTTTACTAGTAACTAAACATTTGGATATCATGTTTCATAGCAATCACTGAAGGACTCTGTGACAATAATATAGTTATCGTTATTTAGTGACAATAATAATATTAAAAATTAATGTGAACTAAATTTCTGACTTCGCCACCGTTCGCAGCAAATGGCTTACAAGGGAAACATAGTAATCCAGCCTATTTGGAGAACTTTCTCCTTACTCTAACACCATTAGCAGCTGGTGAAACAGCCTTTGGTGTCACATTTGATTGGAATGAGGAGTTTGGAGTTCCAGGTGCATTTGTCATAAAAAATATGCATATCAATGAGTTCTTTCTCAAGTCACTCACACTTGAAGATGTGCCTAATCATGGCAAGGTCCATTTTGTTTGCAATTCTTGGGTTTATCCTTCTTTTAGATACAAATCAGATAGAATTTTCTTTGCAAATCAGGTATGATTTACTTTTTCAAACTACTAACTGGTCGTTTCGTAGCTGGTTTGGAGGTGAGTTATGCAGCATAAATAATGCCATGTAATGAGTTATGCTGGTATTAATTAAACTAATATTGCATTCACACTTTGGTAGGTAGTTAGGGGGTAACATTACTAAAAATAAAAATAATTATTTCCTCATCGGGAATCAGTGAGGAATTTGTGCTATATAACAGGATTTTCCTATTCATTTTTCAACGAATCAACTGATCACTCGGGAAGCTTTCTAATTTTTTCCATATGAAACAATTACTATATATTTGTTTTGTCACCAATTTAATCAAAATATTTGTGGGAATAACTACCGAACATTTTTCTGTCGGAATATAGTGAATTTTTTTGATAGTGCAAGCATAACTAAGCTACATATATAGTAATTAAAATAAGCATAACTAATACTACATATATATGTTATATATGAGAAAATTTATGTATTATATACATGAATATAATGACTAAGCTATGTATAACCAAATCCATACATAAATTTCCCTTATACAGTATACTACTAATACATGCATGACTCTAACCAGCTACGAAACGACCGCTGAGCATGTTAACTATGGCAATTGCTCAAACTGCAATGTTTTGATTGTTTATGCAGCCATATCTCCCAAGTGAAACACCAGAGCTTTTGCGAAAATACAGAGAAAATGAATTGGTAACATTAAGAGGAGATGGAACTGGAAAGCGCGAGGCGTGGGATAGGATTTATGACTATGATGTCTACAATGACTTAGGTAATCCTGATCAAGGTAAAGAAAATGTTAGAACTACCTTAGGAGGTTCTGCTGACTACCCGTATCCTCGGAGAGGAAGAACTGGTAGACCACCAACACGAACAGGTTAGTTAGACGTTCACATTTATCAGTCCATTCAACGCGTTTAGTTTCATTGAAAGCTAACTTTCTGATCAGTTACATTGTTGTTTTGCTTTGTATAGATCCTAAAAGTGAAAGCAGGATTCCACTTATTCTGAGCTTAGACATCTATGTACCGAGAGACGAGCGTTTTGGTCACTTGAAGATGTCAGACTTCCTAACATATGCATTGAAATCCATTGTTCAATTCATCCTCCCTGAATTACATGCCTTGTTTGATGGTACCCCTAACGAGTTCGATAGTTTTGAGGATGTACTTAGACTATATGAAGGAGGGATCAAACTTCCTCAAGGACCTTTATTTAAAGCTCTTACTGATGCTATTCCTCTAGAGATGATAAGAGAACTCCTTCGAACAGACGGTGAAGGAATATTGAGATTTCCAACTCCTCTAGTGATAAAAGGTACAATTTGTTACACCTAATCTAACTAATGATCACTCACTTTTATGTGTTTGTATGATTTAAAAGTATCGATTGTGCAGATAGTAAAACCGCGTGGAGGACTGATGAAGAATTTGCAAGAGAAATGCTAGCTGGAGTTAATCCTGTTATAATTAGTAGACTTGAAGTAAGTTAGTTTCTTCGCGACTAGGAAATAGGGGACTAAAACTTTGAATATGTCGCGACTAGTAAGTCTTTGTGTTAGATAAAGAGTATTGATGCTTTGTTTCTTGTTTAATTTGCAAGGAATTTCCTCCAAAAAGCAAGCTAGATCCTGAACTATATGGAAATCAAAACAGTACAATTACTGCAGAACACATAGAGGGTAAGCTGGATGGACTAACGATTGATGAGGTAATATATATATTTACTCGAAATTCCATACTAGTTTGTATGATTACGATAAGGATTTTAACATGTTGTTTGACAGGCGATCAACAGTAATAAACTTTTCATATTGAACCATCATGATGTTCTTATACCATATTTGAGGAGGATAAACACTACAACAACGAAAACATATGCCTCGAGAACTTTGCTATTCTTGCAAGATAATGGATCTTTGAAGCCACTAGCAATTGAATTGAGTTTGCCACATCCAGATGGAGATCAATTTGGTGTTACTAGTAAAGTGTATACTCCAAGTGATCAAGGTGTTGAGGGCTCTATCTGGCAATTGGCTAAAGCTTATGTTGCGGTGAATGACTCTGGTGTTCATCAACTGATTAGTCATTGGTAATTCCCTTTATGTCGAAAGACTTCTATAGTGATTCATGATACAAAATAATAACTAACTCGAAGGGGAACTTTGAAGTAACTGGTAAAGTTGTAATGAGTTCATAAGGCTGTGTACAATAGATCCTTGTGGTTCGGCCCTTCTTTAAACCCTGCATCAACACATGCCTTGTAGTATTAATCTAATACGTTTGATCATCTTTGCAGGTTGAATACACATGCTGTGATCGAGCCATTTGTGATTGCAACAAACAGGCAACTAAGTGTGCTTCACCCTATTCATAAGCTTCTATATCCTCATTTCCGGGACACAATGAATATTAATGCTTTGGCAAGACAGATCCTAATCAATGCTGGTGGAGTTCTTGAGAGTACAGTTTTCCCTTCCAAATTTGCCATGGAAATGTCAGCTGTCGTTTACAAAGACTGGGTCTTCCCTGATCAAGCCCTTCCAGCTGATCTTGTTAAGAGGTACAACGTCAAAACTAACGTTATATGAAAACATTAGGATGTTCACATTATATGACCAATTCAATTTCAGGGGAGTAGCAGTTGAGGACTCGAGTTCTCCTCATGGTGTTCGTTTACTGATAGATGACTATCCATACGCTGTTGATGGCTTAGAAATCTGGTCTGCAATCAAAAGTTGGGTGACAGATTACTGCAGTTTCTACTACGGATCGAATGAAGAGATTTTGAAAGACAATGAACTACAAGCGTGGTGGAAGGAAGTCCGAGAAGTGGGACATGGTGACAAGAAAAATGAACCATGGTGGGCTGAAATGGAAACACCACAAGAGCTAATCGATTCGTGTACAACCATCATCTGGATAGCTTCTGCACTTCATGCAGCAGTCAATTTCGGGCAGTATCCTTATGCAGGTTACCTCCCAAATCGTCCCACAGTAAGTCGAAAATTCATGCCTGAACCAGGTACTCCTGAATACGAAGAGCTAAAGAAAAACCCCGATAAGGCATTCTTGAAAACCATCACAGCGCAGTTACAAACATTGCTTGGTGTTTCCCTCATAGAGATATTGTCAAGGCATACCACAGATGAGATATACCTCGGACAACGAGAGTCTCCTGAATGGACAAAGGACAAAGAACCACTCGCTGCTTTCGAAAGATTTGGAAATAAGTTAACAGACATTGAAAAACAGATTATGCAGAGGAATGGTAACAACATATTGACAAACAGAACAGGCCCCGTTAACGCTCCGTATACGTTGCTGTTCCCAACAAGTGAAGGTGGACTTACAGGCAAAGGAATTCCAAACAGTGTGTCAATATAGAAGAGTTTTGAGTACACATGAAAATGAAGAAAGCTGGAGTTTGAATGAATCTTCAAATAAAATTGATCATTACTGTATGTTCATTTCTCCTAAGTTTACTGTATTTTCTTTTCAACCTTACTTGTTATGTAATTCTCAGTATGTTGTGAGAATAATAAAACTAATTCCAGCTGAAAAGTTTCAATATATTTTGCAATTAAGCAAGTTTCCAATGTTAAATTTGATAAGATTCAAAAATGGATTAATGAGAAGATATGGTAATTACAGGATAATTCTTCATTGGTAAAAAAGTCAAG
| Download sequence region |
Get flanking sequences on SL2.50ch08
|
| mRNA Solyc08g014000.2.1
mRNA Solyc08g014000.2.1
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| Ontology terms
Ontology terms
| terms associated with this mRNA |
| cDNA sequence
cDNA sequence
| spliced cDNA sequence, including UTRs |
>Solyc08g014000.2.1 Lipoxygenase (AHRD V1 **** Q43190_SOLTU); contains Interpro domain(s) IPR001246 Lipoxygenase, plant
TTTCACAACAAAAACTCATCATATCTTTTTATACTTTTTAATATTTCTCTTATTCATCATCATGTTAGGTCAACTTGTGGGTGGATTAATTGGTGGCCATCATGACTCAAAGAAAGTTAAAGGAACTGTGGTGATGATGAAGAAAAATGCTCTAGATTTTACTGATCTTGCTGGCTCTTTGACTGATAAAATCTTTGAAGCCCTTGGCCAAAAGGTTTCTTTTCAATTAATTAGTTCTGTTCAAAGTGATCCTGCAAATGGCTTACAAGGGAAACATAGTAATCCAGCCTATTTGGAGAACTTTCTCCTTACTCTAACACCATTAGCAGCTGGTGAAACAGCCTTTGGTGTCACATTTGATTGGAATGAGGAGTTTGGAGTTCCAGGTGCATTTGTCATAAAAAATATGCATATCAATGAGTTCTTTCTCAAGTCACTCACACTTGAAGATGTGCCTAATCATGGCAAGGTCCATTTTGTTTGCAATTCTTGGGTTTATCCTTCTTTTAGATACAAATCAGATAGAATTTTCTTTGCAAATCAGCCATATCTCCCAAGTGAAACACCAGAGCTTTTGCGAAAATACAGAGAAAATGAATTGGTAACATTAAGAGGAGATGGAACTGGAAAGCGCGAGGCGTGGGATAGGATTTATGACTATGATGTCTACAATGACTTAGGTAATCCTGATCAAGGTAAAGAAAATGTTAGAACTACCTTAGGAGGTTCTGCTGACTACCCGTATCCTCGGAGAGGAAGAACTGGTAGACCACCAACACGAACAGATCCTAAAAGTGAAAGCAGGATTCCACTTATTCTGAGCTTAGACATCTATGTACCGAGAGACGAGCGTTTTGGTCACTTGAAGATGTCAGACTTCCTAACATATGCATTGAAATCCATTGTTCAATTCATCCTCCCTGAATTACATGCCTTGTTTGATGGTACCCCTAACGAGTTCGATAGTTTTGAGGATGTACTTAGACTATATGAAGGAGGGATCAAACTTCCTCAAGGACCTTTATTTAAAGCTCTTACTGATGCTATTCCTCTAGAGATGATAAGAGAACTCCTTCGAACAGACGGTGAAGGAATATTGAGATTTCCAACTCCTCTAGTGATAAAAGATAGTAAAACCGCGTGGAGGACTGATGAAGAATTTGCAAGAGAAATGCTAGCTGGAGTTAATCCTGTTATAATTAGTAGACTTGAAGAATTTCCTCCAAAAAGCAAGCTAGATCCTGAACTATATGGAAATCAAAACAGTACAATTACTGCAGAACACATAGAGGGTAAGCTGGATGGACTAACGATTGATGAGGCGATCAACAGTAATAAACTTTTCATATTGAACCATCATGATGTTCTTATACCATATTTGAGGAGGATAAACACTACAACAACGAAAACATATGCCTCGAGAACTTTGCTATTCTTGCAAGATAATGGATCTTTGAAGCCACTAGCAATTGAATTGAGTTTGCCACATCCAGATGGAGATCAATTTGGTGTTACTAGTAAAGTGTATACTCCAAGTGATCAAGGTGTTGAGGGCTCTATCTGGCAATTGGCTAAAGCTTATGTTGCGGTGAATGACTCTGGTGTTCATCAACTGATTAGTCATTGGTTGAATACACATGCTGTGATCGAGCCATTTGTGATTGCAACAAACAGGCAACTAAGTGTGCTTCACCCTATTCATAAGCTTCTATATCCTCATTTCCGGGACACAATGAATATTAATGCTTTGGCAAGACAGATCCTAATCAATGCTGGTGGAGTTCTTGAGAGTACAGTTTTCCCTTCCAAATTTGCCATGGAAATGTCAGCTGTCGTTTACAAAGACTGGGTCTTCCCTGATCAAGCCCTTCCAGCTGATCTTGTTAAGAGGGGAGTAGCAGTTGAGGACTCGAGTTCTCCTCATGGTGTTCGTTTACTGATAGATGACTATCCATACGCTGTTGATGGCTTAGAAATCTGGTCTGCAATCAAAAGTTGGGTGACAGATTACTGCAGTTTCTACTACGGATCGAATGAAGAGATTTTGAAAGACAATGAACTACAAGCGTGGTGGAAGGAAGTCCGAGAAGTGGGACATGGTGACAAGAAAAATGAACCATGGTGGGCTGAAATGGAAACACCACAAGAGCTAATCGATTCGTGTACAACCATCATCTGGATAGCTTCTGCACTTCATGCAGCAGTCAATTTCGGGCAGTATCCTTATGCAGGTTACCTCCCAAATCGTCCCACAGTAAGTCGAAAATTCATGCCTGAACCAGGTACTCCTGAATACGAAGAGCTAAAGAAAAACCCCGATAAGGCATTCTTGAAAACCATCACAGCGCAGTTACAAACATTGCTTGGTGTTTCCCTCATAGAGATATTGTCAAGGCATACCACAGATGAGATATACCTCGGACAACGAGAGTCTCCTGAATGGACAAAGGACAAAGAACCACTCGCTGCTTTCGAAAGATTTGGAAATAAGTTAACAGACATTGAAAAACAGATTATGCAGAGGAATGGTAACAACATATTGACAAACAGAACAGGCCCCGTTAACGCTCCGTATACGTTGCTGTTCCCAACAAGTGAAGGTGGACTTACAGGCAAAGGAATTCCAAACAGTGTGTCAATATAGAAGAGTTTTGAGTACACATGAAAATGAAGAAAGCTGGAGTTTGAATGAATCTTCAAATAAAATTGATCATTACTGTATGTTCATTTCTCCTAAGTTTACTGTATTTTCTTTTCAACCTTACTTGTTATGTAATTCTCAGTATGTTGTGAGAATAATAAAACTAATTCCAGCTGAAAAGTTTCAATATATTTTGCAATTAAGCAAGTTTCCAATGTTAAATTTGATAAGATTCAAAAATGGATTAATGAGAAGATATGGTAATTACAGGATAATTCTTCATTGGTAAAAAAGTCAAG
TTTCACAACAAAAACTCATCATATCTTTTTATACTTTTTAATATTTCTCTTATTCATCATCATGTTAGGTCAACTTGTGGGTGGATTAATTGGTGGCCATCATGACTCAAAGAAAGTTAAAGGAACTGTGGTGATGATGAAGAAAAATGCTCTAGATTTTACTGATCTTGCTGGCTCTTTGACTGATAAAATCTTTGAAGCCCTTGGCCAAAAGGTTTCTTTTCAATTAATTAGTTCTGTTCAAAGTGATCCTGCAAATGGCTTACAAGGGAAACATAGTAATCCAGCCTATTTGGAGAACTTTCTCCTTACTCTAACACCATTAGCAGCTGGTGAAACAGCCTTTGGTGTCACATTTGATTGGAATGAGGAGTTTGGAGTTCCAGGTGCATTTGTCATAAAAAATATGCATATCAATGAGTTCTTTCTCAAGTCACTCACACTTGAAGATGTGCCTAATCATGGCAAGGTCCATTTTGTTTGCAATTCTTGGGTTTATCCTTCTTTTAGATACAAATCAGATAGAATTTTCTTTGCAAATCAGCCATATCTCCCAAGTGAAACACCAGAGCTTTTGCGAAAATACAGAGAAAATGAATTGGTAACATTAAGAGGAGATGGAACTGGAAAGCGCGAGGCGTGGGATAGGATTTATGACTATGATGTCTACAATGACTTAGGTAATCCTGATCAAGGTAAAGAAAATGTTAGAACTACCTTAGGAGGTTCTGCTGACTACCCGTATCCTCGGAGAGGAAGAACTGGTAGACCACCAACACGAACAGATCCTAAAAGTGAAAGCAGGATTCCACTTATTCTGAGCTTAGACATCTATGTACCGAGAGACGAGCGTTTTGGTCACTTGAAGATGTCAGACTTCCTAACATATGCATTGAAATCCATTGTTCAATTCATCCTCCCTGAATTACATGCCTTGTTTGATGGTACCCCTAACGAGTTCGATAGTTTTGAGGATGTACTTAGACTATATGAAGGAGGGATCAAACTTCCTCAAGGACCTTTATTTAAAGCTCTTACTGATGCTATTCCTCTAGAGATGATAAGAGAACTCCTTCGAACAGACGGTGAAGGAATATTGAGATTTCCAACTCCTCTAGTGATAAAAGATAGTAAAACCGCGTGGAGGACTGATGAAGAATTTGCAAGAGAAATGCTAGCTGGAGTTAATCCTGTTATAATTAGTAGACTTGAAGAATTTCCTCCAAAAAGCAAGCTAGATCCTGAACTATATGGAAATCAAAACAGTACAATTACTGCAGAACACATAGAGGGTAAGCTGGATGGACTAACGATTGATGAGGCGATCAACAGTAATAAACTTTTCATATTGAACCATCATGATGTTCTTATACCATATTTGAGGAGGATAAACACTACAACAACGAAAACATATGCCTCGAGAACTTTGCTATTCTTGCAAGATAATGGATCTTTGAAGCCACTAGCAATTGAATTGAGTTTGCCACATCCAGATGGAGATCAATTTGGTGTTACTAGTAAAGTGTATACTCCAAGTGATCAAGGTGTTGAGGGCTCTATCTGGCAATTGGCTAAAGCTTATGTTGCGGTGAATGACTCTGGTGTTCATCAACTGATTAGTCATTGGTTGAATACACATGCTGTGATCGAGCCATTTGTGATTGCAACAAACAGGCAACTAAGTGTGCTTCACCCTATTCATAAGCTTCTATATCCTCATTTCCGGGACACAATGAATATTAATGCTTTGGCAAGACAGATCCTAATCAATGCTGGTGGAGTTCTTGAGAGTACAGTTTTCCCTTCCAAATTTGCCATGGAAATGTCAGCTGTCGTTTACAAAGACTGGGTCTTCCCTGATCAAGCCCTTCCAGCTGATCTTGTTAAGAGGGGAGTAGCAGTTGAGGACTCGAGTTCTCCTCATGGTGTTCGTTTACTGATAGATGACTATCCATACGCTGTTGATGGCTTAGAAATCTGGTCTGCAATCAAAAGTTGGGTGACAGATTACTGCAGTTTCTACTACGGATCGAATGAAGAGATTTTGAAAGACAATGAACTACAAGCGTGGTGGAAGGAAGTCCGAGAAGTGGGACATGGTGACAAGAAAAATGAACCATGGTGGGCTGAAATGGAAACACCACAAGAGCTAATCGATTCGTGTACAACCATCATCTGGATAGCTTCTGCACTTCATGCAGCAGTCAATTTCGGGCAGTATCCTTATGCAGGTTACCTCCCAAATCGTCCCACAGTAAGTCGAAAATTCATGCCTGAACCAGGTACTCCTGAATACGAAGAGCTAAAGAAAAACCCCGATAAGGCATTCTTGAAAACCATCACAGCGCAGTTACAAACATTGCTTGGTGTTTCCCTCATAGAGATATTGTCAAGGCATACCACAGATGAGATATACCTCGGACAACGAGAGTCTCCTGAATGGACAAAGGACAAAGAACCACTCGCTGCTTTCGAAAGATTTGGAAATAAGTTAACAGACATTGAAAAACAGATTATGCAGAGGAATGGTAACAACATATTGACAAACAGAACAGGCCCCGTTAACGCTCCGTATACGTTGCTGTTCCCAACAAGTGAAGGTGGACTTACAGGCAAAGGAATTCCAAACAGTGTGTCAATATAGAAGAGTTTTGAGTACACATGAAAATGAAGAAAGCTGGAGTTTGAATGAATCTTCAAATAAAATTGATCATTACTGTATGTTCATTTCTCCTAAGTTTACTGTATTTTCTTTTCAACCTTACTTGTTATGTAATTCTCAGTATGTTGTGAGAATAATAAAACTAATTCCAGCTGAAAAGTTTCAATATATTTTGCAATTAAGCAAGTTTCCAATGTTAAATTTGATAAGATTCAAAAATGGATTAATGAGAAGATATGGTAATTACAGGATAATTCTTCATTGGTAAAAAAGTCAAG
| Protein sequence
Protein sequence
| translated polypeptide sequence |
>Solyc08g014000.2.1 Lipoxygenase (AHRD V1 **** Q43190_SOLTU); contains Interpro domain(s) IPR001246 Lipoxygenase, plant
MLGQLVGGLIGGHHDSKKVKGTVVMMKKNALDFTDLAGSLTDKIFEALGQKVSFQLISSVQSDPANGLQGKHSNPAYLENFLLTLTPLAAGETAFGVTFDWNEEFGVPGAFVIKNMHINEFFLKSLTLEDVPNHGKVHFVCNSWVYPSFRYKSDRIFFANQPYLPSETPELLRKYRENELVTLRGDGTGKREAWDRIYDYDVYNDLGNPDQGKENVRTTLGGSADYPYPRRGRTGRPPTRTDPKSESRIPLILSLDIYVPRDERFGHLKMSDFLTYALKSIVQFILPELHALFDGTPNEFDSFEDVLRLYEGGIKLPQGPLFKALTDAIPLEMIRELLRTDGEGILRFPTPLVIKDSKTAWRTDEEFAREMLAGVNPVIISRLEEFPPKSKLDPELYGNQNSTITAEHIEGKLDGLTIDEAINSNKLFILNHHDVLIPYLRRINTTTTKTYASRTLLFLQDNGSLKPLAIELSLPHPDGDQFGVTSKVYTPSDQGVEGSIWQLAKAYVAVNDSGVHQLISHWLNTHAVIEPFVIATNRQLSVLHPIHKLLYPHFRDTMNINALARQILINAGGVLESTVFPSKFAMEMSAVVYKDWVFPDQALPADLVKRGVAVEDSSSPHGVRLLIDDYPYAVDGLEIWSAIKSWVTDYCSFYYGSNEEILKDNELQAWWKEVREVGHGDKKNEPWWAEMETPQELIDSCTTIIWIASALHAAVNFGQYPYAGYLPNRPTVSRKFMPEPGTPEYEELKKNPDKAFLKTITAQLQTLLGVSLIEILSRHTTDEIYLGQRESPEWTKDKEPLAAFERFGNKLTDIEKQIMQRNGNNILTNRTGPVNAPYTLLFPTSEGGLTGKGIPNSVSI*
MLGQLVGGLIGGHHDSKKVKGTVVMMKKNALDFTDLAGSLTDKIFEALGQKVSFQLISSVQSDPANGLQGKHSNPAYLENFLLTLTPLAAGETAFGVTFDWNEEFGVPGAFVIKNMHINEFFLKSLTLEDVPNHGKVHFVCNSWVYPSFRYKSDRIFFANQPYLPSETPELLRKYRENELVTLRGDGTGKREAWDRIYDYDVYNDLGNPDQGKENVRTTLGGSADYPYPRRGRTGRPPTRTDPKSESRIPLILSLDIYVPRDERFGHLKMSDFLTYALKSIVQFILPELHALFDGTPNEFDSFEDVLRLYEGGIKLPQGPLFKALTDAIPLEMIRELLRTDGEGILRFPTPLVIKDSKTAWRTDEEFAREMLAGVNPVIISRLEEFPPKSKLDPELYGNQNSTITAEHIEGKLDGLTIDEAINSNKLFILNHHDVLIPYLRRINTTTTKTYASRTLLFLQDNGSLKPLAIELSLPHPDGDQFGVTSKVYTPSDQGVEGSIWQLAKAYVAVNDSGVHQLISHWLNTHAVIEPFVIATNRQLSVLHPIHKLLYPHFRDTMNINALARQILINAGGVLESTVFPSKFAMEMSAVVYKDWVFPDQALPADLVKRGVAVEDSSSPHGVRLLIDDYPYAVDGLEIWSAIKSWVTDYCSFYYGSNEEILKDNELQAWWKEVREVGHGDKKNEPWWAEMETPQELIDSCTTIIWIASALHAAVNFGQYPYAGYLPNRPTVSRKFMPEPGTPEYEELKKNPDKAFLKTITAQLQTLLGVSLIEILSRHTTDEIYLGQRESPEWTKDKEPLAAFERFGNKLTDIEKQIMQRNGNNILTNRTGPVNAPYTLLFPTSEGGLTGKGIPNSVSI*
| Gene model matches
Gene model matches
|
| SGN Unigenes
SGN Unigenes
| [Associate new unigene] |
Unigene ID:
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| GenBank accessions
GenBank accessions
| [Associate new genbank sequence] |
U09026 Lycopersicon esculentum lipoxygenase (loxA) mRNA, complete cds.
| Other genome matches | None |
| Literature annotations [1]
Literature annotations [1]
| [Associate publication] [Matching publications] |
The cloning of two tomato lipoxygenase genes and their differential expression during fruit ripening.
Plant physiology (1994)
Show / hide abstract
Show / hide abstract
A membrane-associated lipoxygenase from breaker-stage fruit of tomato (Lycopersicon esculentum Mill.) was purified and partially sequenced. Using degenerate oligonucleotides corresponding to portions of this sequence, a cDNA was amplified by PCR and used to screen a breaker fruit cDNA library. Two clones, tomloxA and tomloxB, were isolated and one of these (tomloxA) corresponded to the isolated protein. Genomic clones were isolated and sequence data from these were used to obtain the 5' ends of the cDNAs. The 2.8-kb cDNAs encode proteins that are similar in size and sequence to each other and to other plant lipoxygenases. DNA blot analysis indicated that tomato contains three or more genes that encode lipoxygenase. RNA blot analysis showed that tomloxA is expressed in germinating seeds as well as in ripening fruit, where it reached its peak during breaker stage. tomloxB appears to be fruit specific and is at its highest level in ripe fruit.
Ferrie, BJ. Beaudoin, N. Burkhart, W. Bowsher, CG. Rothstein, SJ.
Plant physiology.
1994.
106(1).
109-18.
| Ontology annotations (4)
Ontology annotations (4)
| [Add ontology annotations] |
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