- Information
- Symbol: OsDfr,OsA1
- MSU: LOC_Os01g44260
- RAPdb: Os01g0633500
- Publication
- Rice flavonoid pathway genes, OsDfr and OsAns, are induced by dehydration, high salt and ABA, and contain stress responsive promoter elements that interact with the transcription activator, OsC1-MYB, 2004, Plant Science.
- The C-S-A gene system regulates hull pigmentation and reveals evolution of anthocyanin biosynthesis pathway in rice., 2018, J Exp Bot.
- Plasma membrane H +-ATPase overexpression increases rice yield via simultaneous enhancement of nutrient uptake and photosynthesis, 2021, Nat Commun.
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Genbank accession number
- Key message
- The expression pattern of these three genes indicates that the stress responsive accumulation of OsDfr and OsAns transcripts is mediated by the transcription factor, OsC1-MYB
- indica) seedlings under dehydration stress or high salt or abscisic acid (ABA) showed a significant enhancement of transcript level and/or transcript stability of OsDfr and OsAns
- Rice flavonoid pathway genes, OsDfr and OsAns, are induced by dehydration, high salt and ABA, and contain stress responsive promoter elements that interact with the transcription activator, OsC1-MYB
- As a result, OSA1 overexpression in rice plants causes a 33% increase in grain yield and a 46% increase in N use efficiency overall
- Connection
- OsAns, OsDfr~OsA1, Rice flavonoid pathway genes, OsDfr and OsAns, are induced by dehydration, high salt and ABA, and contain stress responsive promoter elements that interact with the transcription activator, OsC1-MYB, The role of the regulatory gene OsC1-Myb, encoding a MYB class of transcription activators in the stress-induced expression of the structural genes, OsDfr and OsAns, was analyzed
- OsAns, OsDfr~OsA1, Rice flavonoid pathway genes, OsDfr and OsAns, are induced by dehydration, high salt and ABA, and contain stress responsive promoter elements that interact with the transcription activator, OsC1-MYB, indica) seedlings under dehydration stress or high salt or abscisic acid (ABA) showed a significant enhancement of transcript level and/or transcript stability of OsDfr and OsAns
- OsAns, OsDfr~OsA1, Rice flavonoid pathway genes, OsDfr and OsAns, are induced by dehydration, high salt and ABA, and contain stress responsive promoter elements that interact with the transcription activator, OsC1-MYB, The expression pattern of these three genes indicates that the stress responsive accumulation of OsDfr and OsAns transcripts is mediated by the transcription factor, OsC1-MYB
- OsAns, OsDfr~OsA1, Rice flavonoid pathway genes, OsDfr and OsAns, are induced by dehydration, high salt and ABA, and contain stress responsive promoter elements that interact with the transcription activator, OsC1-MYB, The 5’ upstream region of the OsDfr and OsAns genes carry several regulatory domains, which share homology with some of the known stress responsive genes in plants
- OsAns, OsDfr~OsA1, Rice flavonoid pathway genes, OsDfr and OsAns, are induced by dehydration, high salt and ABA, and contain stress responsive promoter elements that interact with the transcription activator, OsC1-MYB, In addition, several putative myb and myc responsive domains were identified in the promoter region of the genes, OsDfr and OsAns
- OsAns, OsDfr~OsA1, Rice flavonoid pathway genes, OsDfr and OsAns, are induced by dehydration, high salt and ABA, and contain stress responsive promoter elements that interact with the transcription activator, OsC1-MYB, The recombinant OsC1-MYB protein binds in vitro to the myb responsive elements (MREs) in the OsDfr and OsAns promoters, suggesting that it is a potential transcription activator of stress-induced expression of structural genes of the flavonoid pathway
- OsAns, OsDfr~OsA1, Rice flavonoid pathway genes, OsDfr and OsAns, are induced by dehydration, high salt and ABA, and contain stress responsive promoter elements that interact with the transcription activator, OsC1-MYB, Rice flavonoid pathway genes, OsDfr and OsAns, are induced by dehydration, high salt and ABA, and contain stress responsive promoter elements that interact with the transcription activator, OsC1-MYB
- OSA7~osAHA7~AHA7~LMPA, OsDfr~OsA1, [Isoforms of plasma membrane H+-ATPase in rice root and shoot are differentially induced by starvation and resupply of NO₃⁻ or NH
<82><U+383C><U+3E34>+.](http://www.ncbi.nlm.nih.gov/pubmed?term=Isoforms of plasma membrane H+-ATPase in rice root and shoot are differentially induced by starvation and resupply of NO₃⁻ or NH <82><U+383C><U+3E34>+.%5BTitle%5D), Resupply of NO₃⁻ resulted in induction of the following PM H+-ATPase isoforms, OsA1, OsA2, OsA5 and OsA7 in the shoots and OsA2, OsA5, OsA7 and OsA8 in the roots - OSA7~osAHA7~AHA7~LMPA, OsDfr~OsA1, [Isoforms of plasma membrane H+-ATPase in rice root and shoot are differentially induced by starvation and resupply of NO₃⁻ or NH
<82><U+383C><U+3E34>+.](http://www.ncbi.nlm.nih.gov/pubmed?term=Isoforms of plasma membrane H+-ATPase in rice root and shoot are differentially induced by starvation and resupply of NO₃⁻ or NH <82><U+383C><U+3E34>+.%5BTitle%5D), Resupply of NH <82><U+383C><U+3E34>+ resulted in the induction of the following OsA1, OsA3 and OsA7 isoforms in the roots while OsA1 was induced in the shoots
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