Gene Details:
- Gene ID: Glyma.11G136600
- Gene Symbol: LUX2
- Gene Name: transcription factor LUXc
- Genome: Wm82.a4.v1
- Species: Glycine max
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.
Function-related keywords:
Literature:
- A critical role of the soybean evening complex in the control of photoperiod sensitivity and adaptation. DOI: 10.1073/pnas.2010241118 ; PMID: 33558416
Related News:
Gene Resources:
Sequences:
cDNA Sequence
- >Glyma.11G136600.3
ATAATTTAGAAAACATAATTAGCAGCATTATTTCATTCATCTTTGTTCATTATATCCCCCTTCCTCACCGCCGAATCTCACGAAATATCTTCCCAACACAAGAAATTGAATTTGTGTTTTCCTTGTCCTTTTCATCTTCCATTCTCTTTTCTCAATCCAAATCCAAATCCAAATCCAAATCCAAATCCAAATCTATCCCTCCTTAGTTTTTTTTACTCTTCGGATCCAAATTCAATACCGTAACTGTTTCAGTTTCAGTTTCAGTTTCACACACATATATACTCTCTCTCTCTCTCTCTCTCTCTCTGTTTGGGTTAGGGACATAGAAGAAGAGTGTGTGAGAGATACACGGTTAAATTTGTTTTGTTTTATATACGGTTAGAACTAACTGAATGGGGGAAGAGGTGAAGACGAGCGAGTACGACGAAGAGCGCGTGATGGAGTGGGAGGCGGGTCTCCCAACTGCCAACGATCTCACGCCTCTCTCTCAGCCGCTGATCCCGCCGGAACTCGCGTCGGCCTTCAGCATCTTGCCGGAGCCCCACCGCACCCTCCTCGACGTCAACCGCGCCTCTCGCAACACGCTCTCCACGCTCCGCGGCGGCGGAGGGAGCGTGCACCAGGCCTTCTCCTCCTCCAACAACAACCACAACTACGACGGCGACGGCGACGGAGGCGTCGAGGAGGAGGAGGACGACGACGACGATCGCGACGGCTCGGGGCCGGATTCACGGAAGCAGCGGAAGATCGACTGCGGCGCGGCCGAGGAGGCGGACTCGGCGGTTCAGACGGAGACCTCGGCGGAGCGGACGGCGGTGAAGCGGCCGCGGCTGGTGTGGACCCCACAGCTTCACAAGAGGTTCGTTGACGTGGTGGCGCACCTCGGGATCAAGAACGCGGTGCCGAAGACGATTATGCAATTGATGAACGTGGAAGGGTTGACCCGCGAGAATGTCGCAAGCCATCTCCAGAAGTATCGTCTCTACCTGAAACGGATGCAGGGTCTCTCCAACGAGGGTCCTTCTGCTTCGGATCAGTTATTTGCGTCGACACCTGTGCCTCAGAGCTTGCATGACTCTGCTCCTCCCAGTAACCATAGCAATGGTCATGGTCATGGGCATGGCCATAGCAATGGCCGTGGTCATGGTCATGGTCATGGTCATGGTCATCTCTCTGTTCCGATGATGTCCATGCCATATCCACCTCCCCTGATGTCCATGCCATATCCACCTCCCATGATGTCGGGCATGCCCCATGGCCACATGGGCATCCCCATGCCTAATTCCTCCGCCACCTCAGCTTACCATCCTTATAATATGTTGCATCAAAGGGATTGGCCTCACCTTGCTCCTAATGATAAATGAACCTATAAGGTCAGCCATCACCATCATATGCAAAAGGTAAATTGTTTGAAATTTGAATTTGAATACTCTGTTTTCTGTTTGGCCTTTTCATTACTTATTTATTTTACAAGTAGGATAAGCAATAAGCACGTTTCTGTTGATGATTGATGAACCTATCGTATGCAAAGTCTCGATCACTTTGTGGTTTGAATGCTCTGTTGTAGGACGTGTTATTTGCTTTAATTGCATTTGGCATGAGATCGAATTGATAGCTCTGTTTTCTATGTGGCTTGTTAATTGTGTTAGAACTAGGAGGACTAATAAGCAAGTTTGTTTGCTCTGTTGAGGTTCTGAATGTTTATGACGTCAGCTTTATAGCAAATGATTGATGATTGATTGATTGGTGGCTTGCTTGGTATAGAGAAATTATTAGATGATCCAAGATTACCTTTAGCTCAGACAATCTGCACGTGTGACGGATAACCGATCATTAACTCTTTTTCGTAAATTGAAAAGTTCGGTTATGTATGTGTGTCACAAGAGAAATTTAGATGAGACTATGAACATGTGGTCTTGGATCATGTAATAATTTCTCCACTGTGTGTGTTTGGGGTCACTCAACGACAAACCAAACAGACTCATGTGGTTCAAAAGTTTTCCATCTTATCTCAGATGCAGTGAAATGATGAACTACCTTTATGTTGTTCCAAGTGATTTTTGACTTTGAGGGTAGTAATATTTGCTATTTAATGTGGAAAATGTTTCATTGGATCTTCATGTGATGCTTTCTTTTTCTTTTATGAGGTTATATATTTATATCTTCGTTTGAATTTATGTTGTCATTTGATTGCCTAGATTCTTAGACATTCTCAGTTATTGTTATTGATTGATTGTGTTTTTAATGCCACCAATTTTGCTTTTATGGCTGTGAAAAGATAGTAATGTATTTTCTTTTGTAGATTCAAAGGCTTGATTATTGGTAGTATAGCTTTCTGAGAAGGGAGGAGCTGCATTGATGATTACCCTGTAATTCACTCAAAAGGATTATTGAGGAAGTATATGAAGAAGAGTATATGGAGCTAGATTACAATCTTAGTCAGTAGTGTGTATCCTGTGGGAGATTTACAAACTTATTGGTACACATCTCTAATTCCTGTCACCTAATTGTATGACGAGAATTCTGGCTTATTTCTTCTGGTCTGCCTAGACAGCTGATTCTAAAGTAAATTCTTAACTGGTTCTCTGATTCATAAATTATAGATTCCTATTATATTGTGTAATCCTGAATGTGTTAACTCTCTTTTTCAGAACCATTGAATAAAAGAAAGACTGAACAACAGACAGCAAACATTTATACCAATGCTCTGGCATTAAATGTTTTTCTTTATCTTATAGCCTTGATCATTATTTATTTCCTTTGAAAGAGATGTTCCATTTTTTTGAATTGGGTGCTGTAGGCTCTCATGTTAAAGAAATGGTACACTGGGAGTGGAACGGGAGAATTTTTACCTTGTGTAACACACGCATACACACATTCCGACCTGGGGAATTCTTGTTTAACCCATAACGCAATTCACTTGTCTCCTTTTTCCTGTGAGAATTTCAACTGGACTTGCTGTCTTTTTGGTGGTAATGAACAAAACCTCCACCATTCTATGGTTTAATCGATTAAAAGAGTATGCACTCTTACGAGAAAGGCAAAAATCTATTTTGAGCAAAATAAATAGGAGTTTGGGGAAGATCGATATTCTGAGTTTTTTTACTTCTTGGGCAATTTATCATTATATATTGGACCCGTTCATCTTAAGAAGTGGATAAGGCTTGTTTAAGTTTGTAAATTCTCTAAATTGCTTTGCGAATTGAATTTCTTAAGGAGATGTTATAAAGTAGCTAAAAGATTCAAAGCACAAGGAGACCTAGTTGGAGGTCAATTAAAGGAAACATGAATGGATTAAAAGAAAAGGCACCCAATGCCAACATTCCCCTT
CDS Sequence
- >Glyma.11G136600.3
ATGGGGGAAGAGGTGAAGACGAGCGAGTACGACGAAGAGCGCGTGATGGAGTGGGAGGCGGGTCTCCCAACTGCCAACGATCTCACGCCTCTCTCTCAGCCGCTGATCCCGCCGGAACTCGCGTCGGCCTTCAGCATCTTGCCGGAGCCCCACCGCACCCTCCTCGACGTCAACCGCGCCTCTCGCAACACGCTCTCCACGCTCCGCGGCGGCGGAGGGAGCGTGCACCAGGCCTTCTCCTCCTCCAACAACAACCACAACTACGACGGCGACGGCGACGGAGGCGTCGAGGAGGAGGAGGACGACGACGACGATCGCGACGGCTCGGGGCCGGATTCACGGAAGCAGCGGAAGATCGACTGCGGCGCGGCCGAGGAGGCGGACTCGGCGGTTCAGACGGAGACCTCGGCGGAGCGGACGGCGGTGAAGCGGCCGCGGCTGGTGTGGACCCCACAGCTTCACAAGAGGTTCGTTGACGTGGTGGCGCACCTCGGGATCAAGAACGCGGTGCCGAAGACGATTATGCAATTGATGAACGTGGAAGGGTTGACCCGCGAGAATGTCGCAAGCCATCTCCAGAAGTATCGTCTCTACCTGAAACGGATGCAGGGTCTCTCCAACGAGGGTCCTTCTGCTTCGGATCAGTTATTTGCGTCGACACCTGTGCCTCAGAGCTTGCATGACTCTGCTCCTCCCAGTAACCATAGCAATGGTCATGGTCATGGGCATGGCCATAGCAATGGCCGTGGTCATGGTCATGGTCATGGTCATGGTCATCTCTCTGTTCCGATGATGTCCATGCCATATCCACCTCCCCTGATGTCCATGCCATATCCACCTCCCATGATGTCGGGCATGCCCCATGGCCACATGGGCATCCCCATGCCTAATTCCTCCGCCACCTCAGCTTACCATCCTTATAATATGTTGCATCAAAGGGATTGGCCTCACCTTGCTCCTAATGATAAATGA
Protein Sequence
- >Glyma.11G136600.3
MGEEVKTSEYDEERVMEWEAGLPTANDLTPLSQPLIPPELASAFSILPEPHRTLLDVNRASRNTLSTLRGGGGSVHQAFSSSNNNHNYDGDGDGGVEEEEDDDDDRDGSGPDSRKQRKIDCGAAEEADSAVQTETSAERTAVKRPRLVWTPQLHKRFVDVVAHLGIKNAVPKTIMQLMNVEGLTRENVASHLQKYRLYLKRMQGLSNEGPSASDQLFASTPVPQSLHDSAPPSNHSNGHGHGHGHSNGRGHGHGHGHGHLSVPMMSMPYPPPLMSMPYPPPMMSGMPHGHMGIPMPNSSATSAYHPYNMLHQRDWPHLAPNDK*