LPA1

2015-01-20 | Categories genes  | Tags tiller  tiller angle  ethylene  sheath  leaf  growth  lamina  shoot  architecture  auxin  BR  seed  grain  resistance  grain yield  drought  tolerance  grain filling  yield  drought tolerance  dwarf  drought resistance  grain-filling 

• Information
  • Symbol: LPA1
  • MSU: LOC_Os03g13400
  • RAPdb: Os03g0237250
• Publication
  • Loose Plant Architecture1, an INDETERMINATE DOMAIN protein involved in shoot gravitropism, regulates plant architecture in rice, 2013, Plant Physiol.
  • Loose Plant Architecture1 LPA1 determines lamina joint bending by suppressing auxin signalling that interacts with C-22-hydroxylated and 6-deoxo brassinosteroids in rice., 2016, J Exp Bot.
  • Overexpression of Loose Plant Architecture 1 increases planting density and resistance to sheath blight disease via activation of PIN-FORMED 1a in rice., 2019, Plant Biotechnol J.
  • Novel allelic variant of Lpa1 gene associated with a significant reduction in seed phytic acid content in rice Oryza sativa L.., 2019, PLoS One.
  • Narrow lpa1 Metaxylems Enhance Drought Tolerance and Optimize Water Use for Grain Filling in Dwarf Rice., 2022, Front Plant Sci.
• Genbank accession number
  • JQ681528
• Key message
  • LPA1 regulates tiller angle and leaf angle by controlling the adaxial growth of tiller node and lamina joint
  • LPA1 is localized in the nucleus and functions as an active transcriptional repressor, an activity mainly conferred by a conserved ethylene response factor-associated amphiphilic repression-like motif
  • Expression pattern analysis suggested that LPA1 influences plant architecture by affecting the gravitropism of leaf sheath pulvinus and lamina joint
  • Here, we report the cloning and characterization of the Loose Plant Architecture1 (LPA1) gene in rice, the functional ortholog of the AtIDD15/SHOOT GRAVITROPISM5 (SGR5) gene in Arabidopsis (Arabidopsis thaliana)
  • LPA1 was also found to affect shoot gravitropism
  • Genetic and biochemical data indicate that LPA1 suppresses the auxin signalling that interacts with C-22-hydroxylated and 6-deoxo BRs, which regulates lamina inclination independently of OsBRI1
  • RNA sequencing analysis and qRT-PCR indicate that LPA1 influences the expression of three OsPIN genes (OsPIN1a, OsPIN1c and OsPIN3a), which suggests that auxin flux might be an important factor in LPA1-mediated lamina inclination in rice
  • Mutant lpa1 plants are hypersensitive to indole-3-acetic acid (IAA) during the lamina inclination response, which is suppressed by the brassinazole (Brz) inhibitor of C-22 hydroxylase involved in BR synthesis
  • This study explores the role of LPA1 in determining lamina inclination in rice
  • LPA1 acts as a positive regulator to suppress lamina bending
  • A strong synergic effect is detected between lpa1 and d2 (the defective mutant for catalysis of C-23-hydroxylated BRs) during IAA-mediated lamina inclination
  • Novel allelic variant of Lpa1 gene associated with a significant reduction in seed phytic acid content in rice (Oryza sativa L.).
  • LPA1 expressed in pre-vascular cells of leaf primordia regulates genes associated with carbohydrate metabolism and cell enlargement
  • Narrow lpa1 Metaxylems Enhance Drought Tolerance and Optimize Water Use for Grain Filling in Dwarf Rice.
  • Narrow metaxylem of lpa1 exhibit leaves curling on sunny day and convey drought tolerance but reduce grain yield in mature plants
  • However, the genetic combination of lpa1 with semi-dwarf mutant (dep1-ko or d2) offer optimal water supply and drought resistance without impacting grain-filling rates
  • We performed genetic combination of lpa1 with semi-dwarf mutant to offer the optimum rice architecture for more efficient water use
• Connection
  • LPA1, ONAC106, Rice ONAC106 inhibits leaf senescence and increases salt tolerance and tiller angle., Using yeast one-hybrid assays, we found that ONAC106 binds to the promoter regions of SGR, NYC1, OsNAC5, and LPA1
  • D2~CYP90D2~SMG11~OsD2, LPA1, Loose Plant Architecture1 LPA1 determines lamina joint bending by suppressing auxin signalling that interacts with C-22-hydroxylated and 6-deoxo brassinosteroids in rice., A strong synergic effect is detected between lpa1 and d2 (the defective mutant for catalysis of C-23-hydroxylated BRs) during IAA-mediated lamina inclination
  • D61~OsBRI1~OsBRKq1~HFR131, LPA1, Loose Plant Architecture1 LPA1 determines lamina joint bending by suppressing auxin signalling that interacts with C-22-hydroxylated and 6-deoxo brassinosteroids in rice., Genetic and biochemical data indicate that LPA1 suppresses the auxin signalling that interacts with C-22-hydroxylated and 6-deoxo BRs, which regulates lamina inclination independently of OsBRI1
  • D61~OsBRI1~OsBRKq1~HFR131, LPA1, Loose Plant Architecture1 LPA1 determines lamina joint bending by suppressing auxin signalling that interacts with C-22-hydroxylated and 6-deoxo brassinosteroids in rice., No significant interaction between LPA1 and OsBRI1 was identified
  • LPA1, OsMRP5, Mutations of the multi-drug resistance-associated protein ABC transporter gene 5 result in reduction of phytic acid in rice seeds., In this study, we mapped the XS-lpa2-1 gene to a region on chromosome 3 between microsatellite markers RM14360 and RM1332, where the rice orthologue (OsMRP5) of the maize lpa1 gene is located
  • D2~CYP90D2~SMG11~OsD2, LPA1, Narrow lpa1 Metaxylems Enhance Drought Tolerance and Optimize Water Use for Grain Filling in Dwarf Rice., However, the genetic combination of lpa1 with semi-dwarf mutant (dep1-ko or d2) offer optimal water supply and drought resistance without impacting grain-filling rates

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