OsGH3-2,OsGH3.2

2015-01-20 | Categories genes  | Tags auxin  drought  iaa  ABA  dwarf  homeostasis  crown root  cold tolerance  root  crown  root hair  seed  abscisic acid  IAA  mycorrhizal symbiosis 

• Information
  • Symbol: OsGH3-2,OsGH3.2
  • MSU: LOC_Os01g55940
  • RAPdb: Os01g0764800
• Publication
  • The auxin-responsive GH3 gene family in rice Oryza sativa, 2006, Funct Integr Genomics.
  • A GH3 family member, OsGH3-2, modulates auxin and abscisic acid levels and differentially affects drought and cold tolerance in rice, 2012, J Exp Bot.
  • ‘Evidence of an auxin signal pathway, microRNA167-ARF8-GH3, and its response to exogenous auxin in cultured rice cells’, 2006, Nucleic Acids Res.
  • Manipulating broad-spectrum disease resistance by suppressing pathogen-induced auxin accumulation in rice, 2011, Plant Physiol.
  • Rice GH3 gene family: regulators of growth and development, 2011, Plant Signal Behav.
  • SPOC domain-containing protein Leaf inclination3 interacts with LIP1 to regulate rice leaf inclination through auxin signaling., 2018, PLoS Genet.
  • OsGRETCHENHAGEN3-2 modulates rice seed storability via accumulation of abscisic acid and protective substances, 2021, Plant Physiol.
  • Dual Roles of OsGH3.2 in Modulating Rice Root Morphology and Affecting Arbuscular Mycorrhizal Symbiosis., 2022, Front Plant Sci.
• Genbank accession number
  • AK102809
• Key message
  • This study provides an evidence in which the exogeneous auxin signal is transduced to OsGH3-2 through miR167 and ARF8 in sequence
  • This proposed auxin signal transduction pathway, auxin-miR167-ARF8-OsGH3-2, could be, in conjunction with the other microRNA-mediated auxin signals, an important one for responding to exogeneous auxin and for determining the cellular free auxin level which guides appropriate auxin responses
  • Expression of OsGH3-2 was induced by drought but was suppressed by cold
  • It was conclude that OsGH3-2 modulates both endogenous free IAA and ABA homeostasis and differentially affects drought and cold tolerance in rice
  • A GH3 family member, OsGH3-2, modulates auxin and abscisic acid levels and differentially affects drought and cold tolerance in rice
  • Here, it is reported that a GH3 family gene, OsGH3-2, encoding an enzyme catalysing IAA conjugation to amino acids, is involved in the modulation of ABA level and stress tolerance
  • Overexpression of OsGH3-2 in rice caused significant morphological aberrations related to IAA deficiency, such as dwarfism, smaller leaves, and fewer crown roots and root hairs
  • It was also shown that expression of OsGH3-2, an rice IAA-conjugating enzyme, was positively regulated by ARF8
  • OsGH3-2 was dominantly expressed in the developing seeds and catalyzed IAA conjugation to amino acids, forming inactive auxin
  • OsGH3-2 was identified by performing a genome-wide association study in rice germplasms with linkage mapping in chromosome substitution segment lines, contributing to the wide variation of seed viability in the populations after long periods of storage and artificial ageing
  • Transgenic overexpression, knockout and knockdown experiments demonstrated that OsGH3-2 affected seed storability by regulating the accumulation level of abscisic acid
  • Overexpression of OsGH3-2 significantly decreased seed storability, while knockout or knockdown of the gene enhanced seed storability compared with the wild type
  • OsGH3-2 acted as a negative regulator of seed storability by modulating many genes related to the abscisic acid pathway and probably subsequently late embryogenesis-abundant proteins at the transcription level
  • Dual Roles of OsGH3.2 in Modulating Rice Root Morphology and Affecting Arbuscular Mycorrhizal Symbiosis.
• Connection
  • ARF8, OsGH3-2~OsGH3.2, ‘Evidence of an auxin signal pathway, microRNA167-ARF8-GH3, and its response to exogenous auxin in cultured rice cells’, It was also shown that expression of OsGH3-2, an rice IAA-conjugating enzyme, was positively regulated by ARF8
  • ARF8, OsGH3-2~OsGH3.2, ‘Evidence of an auxin signal pathway, microRNA167-ARF8-GH3, and its response to exogenous auxin in cultured rice cells’, Delivery of synthesized miR167 into cells led to decrease of both ARF8 mRNA and OsGH3-2 mRNA
  • ARF8, OsGH3-2~OsGH3.2, ‘Evidence of an auxin signal pathway, microRNA167-ARF8-GH3, and its response to exogenous auxin in cultured rice cells’, This study provides an evidence in which the exogeneous auxin signal is transduced to OsGH3-2 through miR167 and ARF8 in sequence
  • ARF8, OsGH3-2~OsGH3.2, ‘Evidence of an auxin signal pathway, microRNA167-ARF8-GH3, and its response to exogenous auxin in cultured rice cells’, This proposed auxin signal transduction pathway, auxin-miR167-ARF8-OsGH3-2, could be, in conjunction with the other microRNA-mediated auxin signals, an important one for responding to exogeneous auxin and for determining the cellular free auxin level which guides appropriate auxin responses
  • OsbZIP49, OsGH3-2~OsGH3.2, Transcription Factor OsbZIP49 Controls Tiller Angle and Plant Architecture through the Induction of Indole-3-acetic Acid-amido Synthetases in Rice., Additionally, we provide evidence that OsbZIP49 activates the expression of indole-3-acetic acid-amido synthetases OsGH3-2 and OsGH3-13 by directly binding to TGACG motifs located within the promoters of both genes
  • OsbZIP49, OsGH3-2~OsGH3.2, Transcription Factor OsbZIP49 Controls Tiller Angle and Plant Architecture through the Induction of Indole-3-acetic Acid-amido Synthetases in Rice., Knockout of OsbZIP49 led to reduced expression of both OsGH3-2 and OsGH3-13 within the shoot base, and increased accumulation of IAA and increased OsIAA20 expression levels were observed in transformants following gravistimulation
  • OsGH3-2~OsGH3.2, OsGH3.13~TLD1~OsGH3-13, Transcription Factor OsbZIP49 Controls Tiller Angle and Plant Architecture through the Induction of Indole-3-acetic Acid-amido Synthetases in Rice., Additionally, we provide evidence that OsbZIP49 activates the expression of indole-3-acetic acid-amido synthetases OsGH3-2 and OsGH3-13 by directly binding to TGACG motifs located within the promoters of both genes
  • OsGH3-2~OsGH3.2, OsGH3.13~TLD1~OsGH3-13, Transcription Factor OsbZIP49 Controls Tiller Angle and Plant Architecture through the Induction of Indole-3-acetic Acid-amido Synthetases in Rice., Knockout of OsbZIP49 led to reduced expression of both OsGH3-2 and OsGH3-13 within the shoot base, and increased accumulation of IAA and increased OsIAA20 expression levels were observed in transformants following gravistimulation
  • OsGH3-2~OsGH3.2, OsIAA20, Transcription Factor OsbZIP49 Controls Tiller Angle and Plant Architecture through the Induction of Indole-3-acetic Acid-amido Synthetases in Rice., Knockout of OsbZIP49 led to reduced expression of both OsGH3-2 and OsGH3-13 within the shoot base, and increased accumulation of IAA and increased OsIAA20 expression levels were observed in transformants following gravistimulation
  • OsGH3-2~OsGH3.2, OsIAA20, Transcription Factor OsbZIP49 Controls Tiller Angle and Plant Architecture through the Induction of Indole-3-acetic Acid-amido Synthetases in Rice, Knockout of OsbZIP49 led to reduced expression of both OsGH3-2 and OsGH3-13 within the shoot base, and increased accumulation of IAA and increased OsIAA20 expression levels were observed in transformants following gravistimulation.

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