- Information
- Symbol: SLC1
- MSU: LOC_Os08g44590
- RAPdb: Os08g0560000
- Publication
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Genbank accession number
- Key message
- Down-regulation of SLC1 and SLC2 at the same time in the SLC1-SLC2 RNAi lines resulted in a severe defect in early leaf development
- Two dioxygenases, SLC1 and SLC2, play essential roles in shoot development of rice.
- Here, we report that two dioxygenase-encoding genes, SLC1 (slender and crinklyleaf 1) and SLC2 (slender and crinklyleaf 2), play essential roles in shoot development and SA production in rice (Oryza sativa)
- Collectively, our data revealed the importance of SLC1 and SLC2 in the shoot development of rice
- Disruption of SLC1 or SLC2 led to dwarf plants
- Enhanced SA level in the SLC1-OE plants and decreased SA level in the slc1 and slc2 mutants were scored
- Connection
- OSH1~Oskn1, SLC1, Two dioxygenases, SLC1 and SLC2, play essential roles in shoot development of rice., The results from exploring the putative interacting proteins for SLC1 indicated that, either the KNOX1- or ELK-domain of OSH1 (homeobox1) is sufficient for accomplishing the interaction between SLC1 and OSH1
- OsSLC1, SLC1, OsSLC1 Encodes a Pentatricopeptide Repeat Protein Essential for Early Chloroplast Development and Seedling Survival., Map-based cloning of OsSLC1 revealed that a single base (G) deletion was detected in the first exon of Os06g0710800 in the slc1 mutant, which caused a premature stop codon
- OsSLC1, SLC1, OsSLC1 Encodes a Pentatricopeptide Repeat Protein Essential for Early Chloroplast Development and Seedling Survival., Knockout and complementation experiments further confirmed that OsSLC1 is responsible for the seedling-lethal chlorosis phenotype in the slc1 mutant
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