Information report for GmNF-YC9
Gene Details
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Functional Descriptions
- Here, we unveil a critical role played by a GmNF-YC9-mediated CCAAT-box transcription complex in modulating the steroid metabolism pathway within soybeans.
- Overexpression of either GmNF-YC9 or GmSQE1 significantly enhances soybean stress tolerance, while the inhibition of SQE weakens this tolerance.
- Field experiments conducted over two seasons further reveal increased yields per plant in both GmNF-YC9 and GmSQE1 overexpressing plants under drought stress conditions.
- Transcriptome and metabolome analyses shed light on the upregulation of multiple sterol compounds, including fucosterol and soyasaponin II, in GmNF-YC9 and GmSQE1 overexpressing soybean plants under stress conditions.
Functional Keywords
Literature and News
Gene Resources
- NCBI ID: 100814712
- UniProt accessions: I1M0K0
- EMBL: CM000846
- EnsemblPlants: KRH20611
- Gramene: KRH20611
- GO: GO:0001046 , GO:0005634 , GO:0016251 , GO:0046982
- OMA: RTMIKRK
- InterPro: IPR003958 , IPR009072 , IPR050568
- PANTHER: PTHR10252 , PTHR10252:SF5
- SUPFAM: SSF47113
- Gene3D: 1.10.20.10
- OrthoDB: I1M0K0
- SMR: I1M0K0
- CDD: cd22906
Sequences
cDNA Sequence
- >Glyma.13G189400.1
AATGATATCTGAACACGTCACCGTTTTGACTCCTTCTTTTGGAACCACTCTGCCTAGATGCTCTGCAAGTATTGGGCCGTGACGCGTTGTCCATCACCGACGCGTCAGCCTAACAAACCCGCCACTGAGGCATATTTCGTTGAATGAATCTTAGAGAGAGTGAGTGGCCTTTGGATCTGAAATGAGTTTCTTCGATTTCATCCTGTTGATGATAGGGTCGCTCTTTCTGTTCAAAGCTTTCGATTTTACTTTCTGGGTCTCCTTCTTCTGCTTCTTTTGATTCCCCCAATTCTTCAGCTTTCAAAACCCTAATCTGCTGCCATGAGGAAGAAGCTCGATACCCGTTTCCCTGCTGCTCGGATAAAGAAGATAATGCAAGCTGATGAGGATGTTGGAAAGATAGCACTCGCTGTGCCTGTTTTAGTTTCTAAAGCTCTAGAACTATTTTTGCAAGATCTTTGTGACCGCACTTATGAAATAACTCTTCAAAGAGGAGCAAAGACCATGAATTCATTGCATTTAAAACATTGTGTACAAAGCTATAATGTCTTTGACTTTCTGAGGGACGTTGTTAGCAGGGTTCCTGACTACAGCCATGGCCATGGCCATGCTGAGGCTGGTCCTGATGATCGGGCCATTGCAAAAAGAAGGAAAGCTGTTGGTGATGATGGTAATGACAGTGATGAAGAGGCTAAGAGGAGCAAGATGCATGAGTTGGGCCACACTGGCAGTACTGGTAGGGGAAGAGGCCGAGGTAGAGGAAGAGGCCGTGGCCGAGGGCGACCACCTTTAAATAGAGAGATATATCATCAGGATGCTGAATCTGAGCCTTGCACTTCTGTTCAGCCAAGCAACCCACAAAATACAAACACAAGTGTTGCAATGGATAGTGGTTCTGAGTCAAAGGAAATACCAAAGGAGCAGAACATTGCAGTTCCTGTTGAAAGCACTGATTCGCTCCGGAACATCGATCTGAATGCCATTACGAATGAAAACGATGACAAAAAGGCTAGCGCAGCAGCGGATGCCTCTGTGCCTGAACCTCCAACAGAGAGCAAGCATGAAGAAATTCCAGGGTGGTCTCTTTCTGATGTGGACAAGATGGCCATTGATTCGCTGCAGCTTGCACAACTTGGTAGGCCACTAGAAGAGGATGAAGAAGACTATGATGAAGAGGAGGGGTAAATATTATTAGTCTTTGGTGATTAGATTAGTGAAAAGCTCATCATGATAACTGTAGAATAAGTACATACTAGTGTTATGATTATGAGTATCCACTAGCTGTCAATGCATGTACCATGTTGGCTGAAGAAAGGATCTGAATGCCCCTTTTCATTAATCTGCTTTGTATGTGTAGCTGATGTATCTTTTCCTTGACCAGTAATGTTAGTTTCGTGTACTTTTAGGCCTACAATGTATATCACAATTCTAGATGGAGTGAAAATTATGCATGCAACCTTATTT
CDS Sequence
- >Glyma.13G189400.1
ATGAGGAAGAAGCTCGATACCCGTTTCCCTGCTGCTCGGATAAAGAAGATAATGCAAGCTGATGAGGATGTTGGAAAGATAGCACTCGCTGTGCCTGTTTTAGTTTCTAAAGCTCTAGAACTATTTTTGCAAGATCTTTGTGACCGCACTTATGAAATAACTCTTCAAAGAGGAGCAAAGACCATGAATTCATTGCATTTAAAACATTGTGTACAAAGCTATAATGTCTTTGACTTTCTGAGGGACGTTGTTAGCAGGGTTCCTGACTACAGCCATGGCCATGGCCATGCTGAGGCTGGTCCTGATGATCGGGCCATTGCAAAAAGAAGGAAAGCTGTTGGTGATGATGGTAATGACAGTGATGAAGAGGCTAAGAGGAGCAAGATGCATGAGTTGGGCCACACTGGCAGTACTGGTAGGGGAAGAGGCCGAGGTAGAGGAAGAGGCCGTGGCCGAGGGCGACCACCTTTAAATAGAGAGATATATCATCAGGATGCTGAATCTGAGCCTTGCACTTCTGTTCAGCCAAGCAACCCACAAAATACAAACACAAGTGTTGCAATGGATAGTGGTTCTGAGTCAAAGGAAATACCAAAGGAGCAGAACATTGCAGTTCCTGTTGAAAGCACTGATTCGCTCCGGAACATCGATCTGAATGCCATTACGAATGAAAACGATGACAAAAAGGCTAGCGCAGCAGCGGATGCCTCTGTGCCTGAACCTCCAACAGAGAGCAAGCATGAAGAAATTCCAGGGTGGTCTCTTTCTGATGTGGACAAGATGGCCATTGATTCGCTGCAGCTTGCACAACTTGGTAGGCCACTAGAAGAGGATGAAGAAGACTATGATGAAGAGGAGGGGTAA
Protein Sequence
- >Glyma.13G189400.1
MRKKLDTRFPAARIKKIMQADEDVGKIALAVPVLVSKALELFLQDLCDRTYEITLQRGAKTMNSLHLKHCVQSYNVFDFLRDVVSRVPDYSHGHGHAEAGPDDRAIAKRRKAVGDDGNDSDEEAKRSKMHELGHTGSTGRGRGRGRGRGRGRGRPPLNREIYHQDAESEPCTSVQPSNPQNTNTSVAMDSGSESKEIPKEQNIAVPVESTDSLRNIDLNAITNENDDKKASAAADASVPEPPTESKHEEIPGWSLSDVDKMAIDSLQLAQLGRPLEEDEEDYDEEEG*