Information report for HTD2;D88
Gene Details
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Functional Descriptions
- D14-SCF(D3)-dependent degradation of D53 regulates strigolactone signalling.
- We characterized a tillering dwarf mutant D88 derived from Oryza sativa ssp.
- A reduction in number and size of parenchyma cells around stem marrow cavity as well as a delay in the elongation of parenchyma cells caused slender tillers and dwarfism in the D88 mutant.
- Furthermore, osmads57-1 was insensitive to strigolactone treatment to inhibit axillary bud outgrowth, and OsMADS57’s function in tillering was dependent on D14.
- The D14 mutant exhibits increased shoot branch-ing with reduced plant height like the previously characterized strigolactone-deficient and -insensitive mutants d10 and d3, respectively.
- Here, we provide evidence that DWARF14 (D14) inhibits rice tillering and may act as a new compo-nent of the strigolactone-dependent branching inhibition pathway.
- D14, a strigolactone-insensitive mutant of rice, shows an accelerated outgrowth of tillers.
- Here, we identified a rice mutant HTD2 from one of the 15,000 transgenic rice lines, which is characterized by a high tillering and dwarf phenotype.
- HTD2 transcripts were expressed mainly in leaf.
- Moreover, D10 expression is upregulated in six branching mutants, d3, d10, D14, d17, d27 and high tillering dwarf (htd1).
- Here we report that OsMADS57 interacts with OsTB1 (TEOSINTE BRANCHED1) and targets D14 (Dwarf14) to control the outgrowth of axillary buds in rice.
- SL signalling requires the hormone-dependent interaction of DWARF 14 (D14), a probable candidate SL receptor, with DWARF 3 (D3), an F-box component of the Skp-Cullin-F-box (SCF) E3 ubiquitin ligase complex.
- Therefore, OsMIR444a-regulated OsMADS57, together with OsTB1, target D14 to control tillering.
- However, unlike with d10, the D14 branching phenotype could not be rescued by exogenous strigolactones.
- The potential relationship between the tiller formation associated genes and D88 is discussed and future identification of the substrate for D88 may lead to the characterization of new pathways regulating plant development.
- We propose that D14 functions downstream of strigolactone synthesis, as a component of hormone signaling or as an enzyme that participates in the conversion of strigolactones to the bioactive form.
- Treatments with GR24, a synthetic SL analogue, cause D53 degradation via the proteasome in a manner that requires D14 and the SCF(D3) ubiquitin ligase, whereas the dominant form of D53 is resistant to SL-mediated degradation.
- The results suggest that the HTD2 gene could negatively regulate tiller bud outgrowth by the strigolactone pathway.
- Identification and characterization of HTD2: a novel gene negatively regulating tiller bud outgrowth in rice.
- D88, thus, represents a new category of genes that regulates cell growth and organ development and consequently plant architecture.
- Loss of function of HTD2 resulted in a significantly increased expression of HTD1, D10 and D3, which were involved in the strigolactone biosynthetic pathway.
- The D53 gene product shares predicted features with the class I Clp ATPase proteins and can form a complex with the alpha/beta hydrolase protein DWARF 14 (D14) and the F-box protein DWARF 3 (D3), two previously identified signalling components potentially responsible for SL perception.
- We demonstrate that, in a D14- and D3-dependent manner, SLs induce D53 degradation by the proteasome and abrogate its activity in promoting axillary bud outgrowth.
- In addition, we show that D14 protein is contained in phloem sap and transported through the phloem to axillary buds in rice.
- Additionally, compared with other D14 allelic mutants, htd4 was the first mutant of D14 discovered in indica, and the differences of many yield traits such as plant height, seed-setting rates, and grain sizes between htd4 and WT were less than those between other D14 allelic mutants and WT.
- Identification and Molecular Mapping of Indica High-tillering Dwarf Mutant htd4, a Mild Phenotype Allelic Mutant of D14 in Rice (Oryza sativa L.).
- We conclude that the absence of functional D14 caused the high-tillering dwarf phenotype of htd4.
- Our results may provide vital information for the research on D14 function and the application of htd4 in molecular breeding.
- This stimulates the interaction between D14 and D3, leading to the ubiquitination and degradation of the transcriptional repressor protein D53.
- Rationally Designed Strigolactone Analogs as Antagonists of the D14 Receptor.
- This study revealed that DHTA-34 played an important role in inhabiting tiller development in rice and further identifying the function of D14.
Functional Keywords
- strigolactone , dwarf , height , tiller , leaf , branching , growth , tillering , stem , resistant , shoot , architecture , phloem , grain , yield , grain-size , breeding , plant-height , R-protein , development
Literature and News
- Identification and characterization of HTD2: a novel gene negatively regulating tiller bud outgrowth in rice . DOI: 10.1007/s00425-009-0975-6 ; PMID: 19579033
- Dwarf 88, a novel putative esterase gene affecting architecture of rice plant . DOI: 10.1007/s11103-009-9522-x ; PMID: 19603144
- DWARF10, an RMS1/MAX4/DAD1 ortholog, controls lateral bud outgrowth in rice . DOI: 10.1111/j.1365-313X.2007.03210.x ; PMID: 17655651
- DWARF 53 acts as a repressor of strigolactone signalling in rice . DOI: 10.1038/nature12870 ; PMID: 24336200
- D14-SCFD3-dependent degradation of D53 regulates strigolactone signalling . DOI: 10.1038/nature12878 ; PMID: 24336215
- The interaction between OsMADS57 and OsTB1 modulates rice tillering via DWARF14 . DOI: 10.1038/ncomms2542 ; PMID: 23463009
- d14, a strigolactone-insensitive mutant of rice, shows an accelerated outgrowth of tillers . DOI: 10.1093/pcp/pcp091 ; PMID: 19542179
- Phloem Transport of the Receptor DWARF14 Protein Is Required for Full Function of Strigolactones . DOI: 10.1104/pp.16.01212 ; PMID: 27670819
- Identification and molecular mapping of indica high-tillering dwarf mutant htd4, a mild phenotype allelic mutant of D14 in rice (Oryza sativa L.) . DOI: 10.1111/plb.12612 ; PMID: 28787541
- DWARF14, A Receptor Covalently Linked with the Active Form of Strigolactones, Undergoes Strigolactone-Dependent Degradation in Rice . DOI: 10.3389/fpls.2017.01935 ; PMID: 29170677
- Rationally Designed Strigolactone Analogs as Antagonists of the D14 Receptor . DOI: 10.1093/pcp/pcy087 ; PMID: 29727000
- Identification and Characterization of a Novel Strigolactone-Insensitive Mutant, Dwarfism with High Tillering Ability 34 (dhta-34) in Rice (Oryza sativa L.) . DOI: 10.1007/s10528-018-9896-z ; PMID: 30600409
- Characterization of dwarf and narrow leaf (dnl-4) mutant in rice . DOI: 10.1080/15592324.2020.1849490 ; PMID: 33300429
Gene Resources
- UniProt: Q10QA5
- EMBL: AK070827, AP008209, AP014959
- AlphaFoldDB: Q10QA5
- EnsemblPlants: Os03t0203200-01
- Gramene: Os03t0203200-01
- KEGG: dosa:Os03g0203200
- Orthologous matrix: PSCVIQT
- InterPro: IPR000073, IPR029058
- PANTHER: PTHR43039
- SUPFAM: SSF53474
- Gene3D: 3.40.50.1820
- OrthoDB: Q10QA5
- SWISS-MODEL: Q10QA5
- eggNOG: ENOG502QVRR
Sequences
cDNA Sequence
- >LOC_Os03g10620.3
ATGGAGACAAAACCCAAACACCCCCCTAAATAACTGAAGCAATCACACACCTTCTCTGCAAAAATCCCAATCTACCACCGCACCCAACGAAGCTTAAGACAGTGGAATAAAGCAGAGAGAGAAATCAAAGCAAGAAAGAGAGAGAAGAAGCGAGGCAAGAGTCAAGACCATCTCCCATGGCCAGTGGTGATAGTAGTAGTAGTAGTAGTATATAAAAGGGGAGCGCGCCACGGCTTGCCAATCCGCCGCGCTGGTGTGATGCTGCGATCGACGCATCCGCCGCCCAGTAGCCCGAGCAGCAGCAGCAGCGGCGGCGGCGGGGGCGGGGGGTCGTCGGCGTCGTCGAGCTCGGAGAAGACGATGGTGGGCGGCGGGGGAGGAGGGGGAGGAGGGAGCGGGTCGGCGGCGCCGAGCGGGGCGAAGCTGCTGCAGATCCTGAACGTGCGGGTGGTGGGGAGCGGCGAGCGGGTGGTGGTGCTGTCGCATGGCTTCGGGACGGACCAGTCGGCGTGGAGCCGCGTGCTGCCGTACCTCACCCGCGACCACCGCGTCGTGCTCTACGACCTCGTCTGCGCCGGCAGCGTCAACCCGGACCACTTCGACTTCCGCCGCTACGACAACCTCGACGCCTACGTCGACGACCTGCTCGCCATCCTCGACGCGCTCCGCATCCCGCGCTGCGCCTTCGTCGGCCACTCCGTCTCCGCCATGATCGGCATCCTCGCCTCCATCCGACGACCTGACCTCTTCGCCAAGCTTGTCCTCATCGGCGCCTCTCCCCGGTTCTTGAACGACAGCGACTACCACGGCGGGTTCGAGCTGGAGGAGATACAGCAGGTGTTCGACGCGATGGGGGCGAACTACTCGGCGTGGGCGACGGGGTACGCGCCTCTGGCGGTGGGCGCCGACGTGCCGGCGGCGGTGCAGGAGTTCAGCCGCACCCTCTTCAACATGCGCCCGGACATCTCCCTCCACGTCTGCCAGACCGTCTTCAAGACCGACCTCCGCGGCGTGCTCGGCATGGTCCGCGCCCCCTGCGTCGTCGTCCAGACCACCCGCGACGTCTCCGTCCCGGCCTCCGTCGCCGCCTACCTCAAGGCCCACCTCGGCGGCCGCACCACCGTCGAGTTCCTCCAGACCGAGGGTCACCTCCCCCACCTCAGCGCCCCCAGCCTCCTCGCCCAGGTGCTCCGCCGCGCTCTCGCCCGGTACTAATCCAACGCCCCCCGCACGCCACCGCGGCGCGCCGCGCGTGCGCGTAGCCGCAGCGACGAGTCAAAACGAAGGAGAAAAAAAAAAACCACCGCAGCTGCGGCTACGACGATGTGGGCAATCTTGACACTGTTTTAGGATGCTCTACGGTGCGCGTCTGTGTGTGAGAGTGGTTGTGTGGGCTGTGGGTGGGGGCCTTGATGGGGAGCCAACGTGATGATCTGCGTGATGCCTAGCTTTTGATACGGTAGTTGTGGTGTTGTTAGCTGGCCAAACCAAAGCCTTTAAGCTTGTGGACAATAATCAATGCTGATGGATAAATAACAGTTGATCATGGAGTATTAGCATTTGGCCTATCTAGTAGTCCGCATATTCTTATCCACAAGTGATAAGTATGGATTATGTCTGCAATCAGCGTCTTGCTAGTTGCTACTATGAACGAACCAAGCCAAACTAATCCAATCGAGTTCGTGCTCCGTAATACAGTTTCAGCCAATTGTCACGTAACGCCAACTTTTGTGAGCCCCATCGAAGCCACATCAATCAGTCACACACACATGTACACACGAGCTGTGAGCACACCCTGGTTATCCATGTAGTATGATCCATGGATCATCTTGCTGGATGTGTTGCGGCAGAGAAACCAGCACAGTGATAAGCAGTGTTACAACTTTTTTTTTTTTTGCGGGGAAGCAGTGTTACAACTTGCAAGCCTGTTGCTACAGTGCACTTTCATTATTTCATATTTGTTGGATTGAAATCAAGCCTAGCTCAGCTGGGTAGTTTCGTTG - >LOC_Os03g10620.2
ATGGAGACAAAACCCAAACACCCCCCTAAATAACTGAAGCAATCACACACCTTCTCTGCAAAAATCCCAATCTACCACCGCACCCAACGAAGCTTAAGACAGTGGAATAAAGCAGAGAGAGAAATCAAAGCAAGAAAGAGAGAGAAGAAGCGAGGCAAGAGTCAAGACCATCTCCCATGGCCAGTGGTGATAGTAGTAGTAGTAGTAGTATATAAAAGGGGAGCGCGCCACGGCTTGCCAATCCGCCGCGCTGGTGTGATGCTGCGATCGACGCATCCGCCGCCCAGTAGCCCGAGCAGCAGCAGCAGCGGCGGCGGCGGGGGCGGGGGGTCGTCGGCGTCGTCGAGCTCGGAGAAGACGATGGTGGGCGGCGGGGGAGGAGGGGGAGGAGGGAGCGGGTCGGCGGCGCCGAGCGGGGCGAAGCTGCTGCAGATCCTGAACGTGCGGGTGGTGGGGAGCGGCGAGCGGGTGGTGGTGCTGTCGCATGGCTTCGGGACGGACCAGTCGGCGTGGAGCCGCGTGCTGCCGTACCTCACCCGCGACCACCGCGTCGTGCTCTACGACCTCGTCTGCGCCGGCAGCGTCAACCCGGACCACTTCGACTTCCGCCGCTACGACAACCTCGACGCCTACGTCGACGACCTGCTCGCCATCCTCGACGCGCTCCGCATCCCGCGCTGCGCCTTCGTCGGCCACTCCGTCTCCGCCATGATCGGCATCCTCGCCTCCATCCGACGACCTGACCTCTTCGCCAAGCTTGTCCTCATCGGCGCCTCTCCCCGGTTCTTGAACGACAGCGACTACCACGGCGGGTTCGAGCTGGAGGAGATACAGCAGGTGTTCGACGCGATGGGGGCGAACTACTCGGCGTGGGCGACGGGGTACGCGCCTCTGGCGGTGGGCGCCGACGTGCCGGCGGCGGTGCAGGAGTTCAGCCGCACCCTCTTCAACATGCGCCCGGACATCTCCCTCCACGTCTGCCAGACCGTCTTCAAGACCGACCTCCGCGGCGTGCTCGGCATGGTCCGCGCCCCCTGCGTCGTCGTCCAGACCACCCGCGACGTCTCCGTCCCGGCCTCCGTCGCCGCCTACCTCAAGGCCCACCTCGGCGGCCGCACCACCGTCGAGTTCCTCCAGACCGAGGGTCACCTCCCCCACCTCAGCGCCCCCAGCCTCCTCGCCCAGGTGCTCCGCCGCGCTCTCGCCCGGTACTAATCCAACGCCCCCCGCACGCCACCGCGGCGCGCCGCGCGTGCGCGTAGCCGCAGCGACGAGTCAAAACGAAGGAGAAAAAAAAAAACCACCGCAGCTGCGGCTACGACGATGTGGGCAATCTTGACACTGTTTTAGGATGCTCTACGGTGCGCGTCTGTGTGTGAGAGTGGTTGTGTGGGCTGTGGGTGGGGGCCTTGATGGGGAGCCAACGTGATGATCTGCGTGATGCCTAGCTTTTGATACGGTAGTTGTGGTGTTGTTAGCTGGCCAAACCAAAGCCTTTAAGCTTGTGGACAATAATCAATGCTGATGGATAAATAACAGTTGATCATGGAGTATTAGCATTTGGCCTATCTAGTAGTCCGCATATTCTTATCCACAAGTGATAAGTATGGATTATGTCTGCAATCAGCGTCTTGCTAGTTGCTACTATGAACGAACCAAGCCAAACTAATCCAATCGAGTTCGTGCTCCGTAATACAGTTTCAGCCAATTGTCACGTAACGCCAACTTTTGTGAGCCCCATCGAAGCCACATCAATCAGTCACACACACATGTACACACGAGCTGTGAGCACACCCTGGTTATCCATGTAGTATGATCCATGGATCATCTTGCTGGATGTGTTGCGGCAGAGAAACCAGCACAGTGATAAGCAGTGTTACAACTTTTTTTTTTTTTGCGGGGAAGCAGTGTTACAACTTGCAAGCCTGTTGCTACAGTGCACTTTCATTATTTCATATTTGTTGGATTGAAATCAAGCCTAGCTCAGCTGGGTAGTTTCGTTG - >LOC_Os03g10620.1
ATGGAGACAAAACCCAAACACCCCCCTAAATAACTGAAGCAATCACACACCTTCTCTGCAAAAATCCCAATCTACCACCGCACCCAACGAAGCTTAAGACAGTGGAATAAAGCAGAGAGAGAAATCAAAGCAAGAAAGAGAGAGAAGAAGCGAGGCAAGAGTCAAGACCATCTCCCATGGCCAGTGGTGATAGTAGTAGTAGTAGTAGTATATAAAAGGGGAGCGCGCCACGGCTTGCCAATCCGCCGCGCTGGTGTGATGCTGCGATCGACGCATCCGCCGCCCAGTAGCCCGAGCAGCAGCAGCAGCGGCGGCGGCGGGGGCGGGGGGTCGTCGGCGTCGTCGAGCTCGGAGAAGACGATGGTGGGCGGCGGGGGAGGAGGGGGAGGAGGGAGCGGGTCGGCGGCGCCGAGCGGGGCGAAGCTGCTGCAGATCCTGAACGTGCGGGTGGTGGGGAGCGGCGAGCGGGTGGTGGTGCTGTCGCATGGCTTCGGGACGGACCAGTCGGCGTGGAGCCGCGTGCTGCCGTACCTCACCCGCGACCACCGCGTCGTGCTCTACGACCTCGTCTGCGCCGGCAGCGTCAACCCGGACCACTTCGACTTCCGCCGCTACGACAACCTCGACGCCTACGTCGACGACCTGCTCGCCATCCTCGACGCGCTCCGCATCCCGCGCTGCGCCTTCGTCGGCCACTCCGTCTCCGCCATGATCGGCATCCTCGCCTCCATCCGACGACCTGACCTCTTCGCCAAGCTTGTCCTCATCGGCGCCTCTCCCCGGTTCTTGAACGACAGCGACTACCACGGCGGGTTCGAGCTGGAGGAGATACAGCAGGTGTTCGACGCGATGGGGGCGAACTACTCGGCGTGGGCGACGGGGTACGCGCCTCTGGCGGTGGGCGCCGACGTGCCGGCGGCGGTGCAGGAGTTCAGCCGCACCCTCTTCAACATGCGCCCGGACATCTCCCTCCACGTCTGCCAGACCGTCTTCAAGACCGACCTCCGCGGCGTGCTCGGCATGGTCCGCGCCCCCTGCGTCGTCGTCCAGACCACCCGCGACGTCTCCGTCCCGGCCTCCGTCGCCGCCTACCTCAAGGCCCACCTCGGCGGCCGCACCACCGTCGAGTTCCTCCAGACCGAGGGTCACCTCCCCCACCTCAGCGCCCCCAGCCTCCTCGCCCAGGTGCTCCGCCGCGCTCTCGCCCGGTACTAATCCAACGCCCCCCGCACGCCACCGCGGCGCGCCGCGCGTGCGCGTAGCCGCAGCGACGAGTCAAAACGAAGGAGAAAAAAAAAAACCACCGCAGCTGCGGCTACGACGATGTGGGCAATCTTGACACTGTTTTAGGATGCTCTACGGTGCGCGTCTGTGTGTGAGAGTGGTTGTGTGGGCTGTGGGTGGGGGCCTTGATGGGGAGCCAACGTGATGATCTGCGTGATGCCTAGCTTTTGATACGGTAGTTGTGGTGTTGTTAGCTGGCCAAACCAAAGCCTTTAAGCTTGTGGACAATAATCAATGCTGATGGATAAATAACAGTTGATCATGGAGTATTAGCATTTGGCCTATCTAGTAGTCCGCATATTCTTATCCACAAGTGATAAGTATGGATTATGTCTGCAATCAGCGTCTTGCTAGTTGCTACTATGAACGAACCAAGCCAAACTAATCCAATCGAGTTCGTGCTCCGTAATACAGTTTCAGCCAATTGTCACGTAACGCCAACTTTTGTGAGCCCCATCGAAGCCACATCAATCAGTCACACACACATGTACACACGAGCTGTGAGCACACCCTGGTTATCCATGTAGTATGATCCATGGATCATCTTGCTGGATGTGTTGCGGCAGAGAAACCAGCACAGTGATAAGCAGTGTTACAACTTTTTTTTTTTTTGCGGGGAAGCAGTGTTACAACTTGCAAGCCTGTTGCTACAGTGCACTTTCATTATTTCATATTTGTTGGATTGAAATCAAGCCTAGCTCAGCTGGGTAGTTTCGTTG
CDS Sequence
- >LOC_Os03g10620.3
ATGCTGCGATCGACGCATCCGCCGCCCAGTAGCCCGAGCAGCAGCAGCAGCGGCGGCGGCGGGGGCGGGGGGTCGTCGGCGTCGTCGAGCTCGGAGAAGACGATGGTGGGCGGCGGGGGAGGAGGGGGAGGAGGGAGCGGGTCGGCGGCGCCGAGCGGGGCGAAGCTGCTGCAGATCCTGAACGTGCGGGTGGTGGGGAGCGGCGAGCGGGTGGTGGTGCTGTCGCATGGCTTCGGGACGGACCAGTCGGCGTGGAGCCGCGTGCTGCCGTACCTCACCCGCGACCACCGCGTCGTGCTCTACGACCTCGTCTGCGCCGGCAGCGTCAACCCGGACCACTTCGACTTCCGCCGCTACGACAACCTCGACGCCTACGTCGACGACCTGCTCGCCATCCTCGACGCGCTCCGCATCCCGCGCTGCGCCTTCGTCGGCCACTCCGTCTCCGCCATGATCGGCATCCTCGCCTCCATCCGACGACCTGACCTCTTCGCCAAGCTTGTCCTCATCGGCGCCTCTCCCCGGTTCTTGAACGACAGCGACTACCACGGCGGGTTCGAGCTGGAGGAGATACAGCAGGTGTTCGACGCGATGGGGGCGAACTACTCGGCGTGGGCGACGGGGTACGCGCCTCTGGCGGTGGGCGCCGACGTGCCGGCGGCGGTGCAGGAGTTCAGCCGCACCCTCTTCAACATGCGCCCGGACATCTCCCTCCACGTCTGCCAGACCGTCTTCAAGACCGACCTCCGCGGCGTGCTCGGCATGGTCCGCGCCCCCTGCGTCGTCGTCCAGACCACCCGCGACGTCTCCGTCCCGGCCTCCGTCGCCGCCTACCTCAAGGCCCACCTCGGCGGCCGCACCACCGTCGAGTTCCTCCAGACCGAGGGTCACCTCCCCCACCTCAGCGCCCCCAGCCTCCTCGCCCAGGTGCTCCGCCGCGCTCTCGCCCGGTACTAA - >LOC_Os03g10620.2
ATGCTGCGATCGACGCATCCGCCGCCCAGTAGCCCGAGCAGCAGCAGCAGCGGCGGCGGCGGGGGCGGGGGGTCGTCGGCGTCGTCGAGCTCGGAGAAGACGATGGTGGGCGGCGGGGGAGGAGGGGGAGGAGGGAGCGGGTCGGCGGCGCCGAGCGGGGCGAAGCTGCTGCAGATCCTGAACGTGCGGGTGGTGGGGAGCGGCGAGCGGGTGGTGGTGCTGTCGCATGGCTTCGGGACGGACCAGTCGGCGTGGAGCCGCGTGCTGCCGTACCTCACCCGCGACCACCGCGTCGTGCTCTACGACCTCGTCTGCGCCGGCAGCGTCAACCCGGACCACTTCGACTTCCGCCGCTACGACAACCTCGACGCCTACGTCGACGACCTGCTCGCCATCCTCGACGCGCTCCGCATCCCGCGCTGCGCCTTCGTCGGCCACTCCGTCTCCGCCATGATCGGCATCCTCGCCTCCATCCGACGACCTGACCTCTTCGCCAAGCTTGTCCTCATCGGCGCCTCTCCCCGGTTCTTGAACGACAGCGACTACCACGGCGGGTTCGAGCTGGAGGAGATACAGCAGGTGTTCGACGCGATGGGGGCGAACTACTCGGCGTGGGCGACGGGGTACGCGCCTCTGGCGGTGGGCGCCGACGTGCCGGCGGCGGTGCAGGAGTTCAGCCGCACCCTCTTCAACATGCGCCCGGACATCTCCCTCCACGTCTGCCAGACCGTCTTCAAGACCGACCTCCGCGGCGTGCTCGGCATGGTCCGCGCCCCCTGCGTCGTCGTCCAGACCACCCGCGACGTCTCCGTCCCGGCCTCCGTCGCCGCCTACCTCAAGGCCCACCTCGGCGGCCGCACCACCGTCGAGTTCCTCCAGACCGAGGGTCACCTCCCCCACCTCAGCGCCCCCAGCCTCCTCGCCCAGGTGCTCCGCCGCGCTCTCGCCCGGTACTAA - >LOC_Os03g10620.1
ATGCTGCGATCGACGCATCCGCCGCCCAGTAGCCCGAGCAGCAGCAGCAGCGGCGGCGGCGGGGGCGGGGGGTCGTCGGCGTCGTCGAGCTCGGAGAAGACGATGGTGGGCGGCGGGGGAGGAGGGGGAGGAGGGAGCGGGTCGGCGGCGCCGAGCGGGGCGAAGCTGCTGCAGATCCTGAACGTGCGGGTGGTGGGGAGCGGCGAGCGGGTGGTGGTGCTGTCGCATGGCTTCGGGACGGACCAGTCGGCGTGGAGCCGCGTGCTGCCGTACCTCACCCGCGACCACCGCGTCGTGCTCTACGACCTCGTCTGCGCCGGCAGCGTCAACCCGGACCACTTCGACTTCCGCCGCTACGACAACCTCGACGCCTACGTCGACGACCTGCTCGCCATCCTCGACGCGCTCCGCATCCCGCGCTGCGCCTTCGTCGGCCACTCCGTCTCCGCCATGATCGGCATCCTCGCCTCCATCCGACGACCTGACCTCTTCGCCAAGCTTGTCCTCATCGGCGCCTCTCCCCGGTTCTTGAACGACAGCGACTACCACGGCGGGTTCGAGCTGGAGGAGATACAGCAGGTGTTCGACGCGATGGGGGCGAACTACTCGGCGTGGGCGACGGGGTACGCGCCTCTGGCGGTGGGCGCCGACGTGCCGGCGGCGGTGCAGGAGTTCAGCCGCACCCTCTTCAACATGCGCCCGGACATCTCCCTCCACGTCTGCCAGACCGTCTTCAAGACCGACCTCCGCGGCGTGCTCGGCATGGTCCGCGCCCCCTGCGTCGTCGTCCAGACCACCCGCGACGTCTCCGTCCCGGCCTCCGTCGCCGCCTACCTCAAGGCCCACCTCGGCGGCCGCACCACCGTCGAGTTCCTCCAGACCGAGGGTCACCTCCCCCACCTCAGCGCCCCCAGCCTCCTCGCCCAGGTGCTCCGCCGCGCTCTCGCCCGGTACTAA
Protein Sequence
- >LOC_Os03g10620.3
MLRSTHPPPSSPSSSSSGGGGGGGSSASSSSEKTMVGGGGGGGGGSGSAAPSGAKLLQILNVRVVGSGERVVVLSHGFGTDQSAWSRVLPYLTRDHRVVLYDLVCAGSVNPDHFDFRRYDNLDAYVDDLLAILDALRIPRCAFVGHSVSAMIGILASIRRPDLFAKLVLIGASPRFLNDSDYHGGFELEEIQQVFDAMGANYSAWATGYAPLAVGADVPAAVQEFSRTLFNMRPDISLHVCQTVFKTDLRGVLGMVRAPCVVVQTTRDVSVPASVAAYLKAHLGGRTTVEFLQTEGHLPHLSAPSLLAQVLRRALARY* - >LOC_Os03g10620.2
MLRSTHPPPSSPSSSSSGGGGGGGSSASSSSEKTMVGGGGGGGGGSGSAAPSGAKLLQILNVRVVGSGERVVVLSHGFGTDQSAWSRVLPYLTRDHRVVLYDLVCAGSVNPDHFDFRRYDNLDAYVDDLLAILDALRIPRCAFVGHSVSAMIGILASIRRPDLFAKLVLIGASPRFLNDSDYHGGFELEEIQQVFDAMGANYSAWATGYAPLAVGADVPAAVQEFSRTLFNMRPDISLHVCQTVFKTDLRGVLGMVRAPCVVVQTTRDVSVPASVAAYLKAHLGGRTTVEFLQTEGHLPHLSAPSLLAQVLRRALARY* - >LOC_Os03g10620.1
MLRSTHPPPSSPSSSSSGGGGGGGSSASSSSEKTMVGGGGGGGGGSGSAAPSGAKLLQILNVRVVGSGERVVVLSHGFGTDQSAWSRVLPYLTRDHRVVLYDLVCAGSVNPDHFDFRRYDNLDAYVDDLLAILDALRIPRCAFVGHSVSAMIGILASIRRPDLFAKLVLIGASPRFLNDSDYHGGFELEEIQQVFDAMGANYSAWATGYAPLAVGADVPAAVQEFSRTLFNMRPDISLHVCQTVFKTDLRGVLGMVRAPCVVVQTTRDVSVPASVAAYLKAHLGGRTTVEFLQTEGHLPHLSAPSLLAQVLRRALARY*