Information report for LUX2
Gene Details
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Functional Descriptions
- lux1 LUX2 double mutant shows extremely late flowering and a massively extended flowering phase.
- LUX1 and LUX2 Are the Critical Regulators in Soybean Flowering under SD Conditions.
- LUX1 and LUX2 might form a heterodimer and homodimer to directly regulate targeted genes.
- LUX1 and LUX2 Are Direct Transcriptional Repressors of E1.
- LUX1 and LUX2 Are the Critical Regulators in Soybean Flowering under SD Conditions.
Functional Keywords
Literature and News
Gene Resources
- NCBI ID: 100802217
- UniProt accessions: I1LJZ0
- EMBL: CM000844
- AlphaFoldDB: I1LJZ0
- EnsemblPlants: KRH29751 , KRH29752
- Gramene: KRH29751 , KRH29752
- GO: GO:0003677 , GO:0003700 , GO:0005634
- OMA: GFESHHY
- InterPro: IPR001005 , IPR006447 , IPR009057 , IPR017930 , IPR044841
- PANTHER: PTHR31442 , PTHR31442:SF21
- SUPFAM: SSF46689
- PROSITE: PS51294
- Gene3D: 1.10.10.60
- OrthoDB: I1LJZ0
- SMR: I1LJZ0
Homologs
- Actinidia chinensis: Achn243861, CEY00_Acc16440, CEY00_Acc31760, Achn093421
- Cajanus cajan: C.cajan_28219
- Cicer arietinum: XP_004507165.1, XP_004507164.1
- Manihot esculenta: MANES_01G170000, Manes.01G170000.3.p, Manes.01G170000.2.p, Manes.01G170000.1.p, MANES_02G129800, Manes.02G129800.1.p
- Vitis vinifera: VIT_06s0004g05120
- Ziziphus jujuba: XP_015874010.1
Sequences
cDNA Sequence
- >Glyma.11G136600.3
ATAATTTAGAAAACATAATTAGCAGCATTATTTCATTCATCTTTGTTCATTATATCCCCCTTCCTCACCGCCGAATCTCACGAAATATCTTCCCAACACAAGAAATTGAATTTGTGTTTTCCTTGTCCTTTTCATCTTCCATTCTCTTTTCTCAATCCAAATCCAAATCCAAATCCAAATCCAAATCCAAATCTATCCCTCCTTAGTTTTTTTTACTCTTCGGATCCAAATTCAATACCGTAACTGTTTCAGTTTCAGTTTCAGTTTCACACACATATATACTCTCTCTCTCTCTCTCTCTCTCTCTGTTTGGGTTAGGGACATAGAAGAAGAGTGTGTGAGAGATACACGGTTAAATTTGTTTTGTTTTATATACGGTTAGAACTAACTGAATGGGGGAAGAGGTGAAGACGAGCGAGTACGACGAAGAGCGCGTGATGGAGTGGGAGGCGGGTCTCCCAACTGCCAACGATCTCACGCCTCTCTCTCAGCCGCTGATCCCGCCGGAACTCGCGTCGGCCTTCAGCATCTTGCCGGAGCCCCACCGCACCCTCCTCGACGTCAACCGCGCCTCTCGCAACACGCTCTCCACGCTCCGCGGCGGCGGAGGGAGCGTGCACCAGGCCTTCTCCTCCTCCAACAACAACCACAACTACGACGGCGACGGCGACGGAGGCGTCGAGGAGGAGGAGGACGACGACGACGATCGCGACGGCTCGGGGCCGGATTCACGGAAGCAGCGGAAGATCGACTGCGGCGCGGCCGAGGAGGCGGACTCGGCGGTTCAGACGGAGACCTCGGCGGAGCGGACGGCGGTGAAGCGGCCGCGGCTGGTGTGGACCCCACAGCTTCACAAGAGGTTCGTTGACGTGGTGGCGCACCTCGGGATCAAGAACGCGGTGCCGAAGACGATTATGCAATTGATGAACGTGGAAGGGTTGACCCGCGAGAATGTCGCAAGCCATCTCCAGAAGTATCGTCTCTACCTGAAACGGATGCAGGGTCTCTCCAACGAGGGTCCTTCTGCTTCGGATCAGTTATTTGCGTCGACACCTGTGCCTCAGAGCTTGCATGACTCTGCTCCTCCCAGTAACCATAGCAATGGTCATGGTCATGGGCATGGCCATAGCAATGGCCGTGGTCATGGTCATGGTCATGGTCATGGTCATCTCTCTGTTCCGATGATGTCCATGCCATATCCACCTCCCCTGATGTCCATGCCATATCCACCTCCCATGATGTCGGGCATGCCCCATGGCCACATGGGCATCCCCATGCCTAATTCCTCCGCCACCTCAGCTTACCATCCTTATAATATGTTGCATCAAAGGGATTGGCCTCACCTTGCTCCTAATGATAAATGAACCTATAAGGTCAGCCATCACCATCATATGCAAAAGGTAAATTGTTTGAAATTTGAATTTGAATACTCTGTTTTCTGTTTGGCCTTTTCATTACTTATTTATTTTACAAGTAGGATAAGCAATAAGCACGTTTCTGTTGATGATTGATGAACCTATCGTATGCAAAGTCTCGATCACTTTGTGGTTTGAATGCTCTGTTGTAGGACGTGTTATTTGCTTTAATTGCATTTGGCATGAGATCGAATTGATAGCTCTGTTTTCTATGTGGCTTGTTAATTGTGTTAGAACTAGGAGGACTAATAAGCAAGTTTGTTTGCTCTGTTGAGGTTCTGAATGTTTATGACGTCAGCTTTATAGCAAATGATTGATGATTGATTGATTGGTGGCTTGCTTGGTATAGAGAAATTATTAGATGATCCAAGATTACCTTTAGCTCAGACAATCTGCACGTGTGACGGATAACCGATCATTAACTCTTTTTCGTAAATTGAAAAGTTCGGTTATGTATGTGTGTCACAAGAGAAATTTAGATGAGACTATGAACATGTGGTCTTGGATCATGTAATAATTTCTCCACTGTGTGTGTTTGGGGTCACTCAACGACAAACCAAACAGACTCATGTGGTTCAAAAGTTTTCCATCTTATCTCAGATGCAGTGAAATGATGAACTACCTTTATGTTGTTCCAAGTGATTTTTGACTTTGAGGGTAGTAATATTTGCTATTTAATGTGGAAAATGTTTCATTGGATCTTCATGTGATGCTTTCTTTTTCTTTTATGAGGTTATATATTTATATCTTCGTTTGAATTTATGTTGTCATTTGATTGCCTAGATTCTTAGACATTCTCAGTTATTGTTATTGATTGATTGTGTTTTTAATGCCACCAATTTTGCTTTTATGGCTGTGAAAAGATAGTAATGTATTTTCTTTTGTAGATTCAAAGGCTTGATTATTGGTAGTATAGCTTTCTGAGAAGGGAGGAGCTGCATTGATGATTACCCTGTAATTCACTCAAAAGGATTATTGAGGAAGTATATGAAGAAGAGTATATGGAGCTAGATTACAATCTTAGTCAGTAGTGTGTATCCTGTGGGAGATTTACAAACTTATTGGTACACATCTCTAATTCCTGTCACCTAATTGTATGACGAGAATTCTGGCTTATTTCTTCTGGTCTGCCTAGACAGCTGATTCTAAAGTAAATTCTTAACTGGTTCTCTGATTCATAAATTATAGATTCCTATTATATTGTGTAATCCTGAATGTGTTAACTCTCTTTTTCAGAACCATTGAATAAAAGAAAGACTGAACAACAGACAGCAAACATTTATACCAATGCTCTGGCATTAAATGTTTTTCTTTATCTTATAGCCTTGATCATTATTTATTTCCTTTGAAAGAGATGTTCCATTTTTTTGAATTGGGTGCTGTAGGCTCTCATGTTAAAGAAATGGTACACTGGGAGTGGAACGGGAGAATTTTTACCTTGTGTAACACACGCATACACACATTCCGACCTGGGGAATTCTTGTTTAACCCATAACGCAATTCACTTGTCTCCTTTTTCCTGTGAGAATTTCAACTGGACTTGCTGTCTTTTTGGTGGTAATGAACAAAACCTCCACCATTCTATGGTTTAATCGATTAAAAGAGTATGCACTCTTACGAGAAAGGCAAAAATCTATTTTGAGCAAAATAAATAGGAGTTTGGGGAAGATCGATATTCTGAGTTTTTTTACTTCTTGGGCAATTTATCATTATATATTGGACCCGTTCATCTTAAGAAGTGGATAAGGCTTGTTTAAGTTTGTAAATTCTCTAAATTGCTTTGCGAATTGAATTTCTTAAGGAGATGTTATAAAGTAGCTAAAAGATTCAAAGCACAAGGAGACCTAGTTGGAGGTCAATTAAAGGAAACATGAATGGATTAAAAGAAAAGGCACCCAATGCCAACATTCCCCTT
CDS Sequence
- >Glyma.11G136600.3
ATGGGGGAAGAGGTGAAGACGAGCGAGTACGACGAAGAGCGCGTGATGGAGTGGGAGGCGGGTCTCCCAACTGCCAACGATCTCACGCCTCTCTCTCAGCCGCTGATCCCGCCGGAACTCGCGTCGGCCTTCAGCATCTTGCCGGAGCCCCACCGCACCCTCCTCGACGTCAACCGCGCCTCTCGCAACACGCTCTCCACGCTCCGCGGCGGCGGAGGGAGCGTGCACCAGGCCTTCTCCTCCTCCAACAACAACCACAACTACGACGGCGACGGCGACGGAGGCGTCGAGGAGGAGGAGGACGACGACGACGATCGCGACGGCTCGGGGCCGGATTCACGGAAGCAGCGGAAGATCGACTGCGGCGCGGCCGAGGAGGCGGACTCGGCGGTTCAGACGGAGACCTCGGCGGAGCGGACGGCGGTGAAGCGGCCGCGGCTGGTGTGGACCCCACAGCTTCACAAGAGGTTCGTTGACGTGGTGGCGCACCTCGGGATCAAGAACGCGGTGCCGAAGACGATTATGCAATTGATGAACGTGGAAGGGTTGACCCGCGAGAATGTCGCAAGCCATCTCCAGAAGTATCGTCTCTACCTGAAACGGATGCAGGGTCTCTCCAACGAGGGTCCTTCTGCTTCGGATCAGTTATTTGCGTCGACACCTGTGCCTCAGAGCTTGCATGACTCTGCTCCTCCCAGTAACCATAGCAATGGTCATGGTCATGGGCATGGCCATAGCAATGGCCGTGGTCATGGTCATGGTCATGGTCATGGTCATCTCTCTGTTCCGATGATGTCCATGCCATATCCACCTCCCCTGATGTCCATGCCATATCCACCTCCCATGATGTCGGGCATGCCCCATGGCCACATGGGCATCCCCATGCCTAATTCCTCCGCCACCTCAGCTTACCATCCTTATAATATGTTGCATCAAAGGGATTGGCCTCACCTTGCTCCTAATGATAAATGA
Protein Sequence
- >Glyma.11G136600.3
MGEEVKTSEYDEERVMEWEAGLPTANDLTPLSQPLIPPELASAFSILPEPHRTLLDVNRASRNTLSTLRGGGGSVHQAFSSSNNNHNYDGDGDGGVEEEEDDDDDRDGSGPDSRKQRKIDCGAAEEADSAVQTETSAERTAVKRPRLVWTPQLHKRFVDVVAHLGIKNAVPKTIMQLMNVEGLTRENVASHLQKYRLYLKRMQGLSNEGPSASDQLFASTPVPQSLHDSAPPSNHSNGHGHGHGHSNGRGHGHGHGHGHLSVPMMSMPYPPPLMSMPYPPPMMSGMPHGHMGIPMPNSSATSAYHPYNMLHQRDWPHLAPNDK*