OSMADS58

2015-01-20 | Categories genes  | Tags floral  stamen  pollen  sterility  flower  sterile  anther  meristem  lemma  floral meristem  development  ovule  tapetum  tapetum degeneration 

• Information
  • Symbol: OSMADS58
  • MSU: LOC_Os05g11414
  • RAPdb: Os05g0203800
• Publication
  • Male-sterile and cleistogamous phenotypes in tall fescue induced by chimeric repressors of SUPERWOMAN1 and OsMADS58, 2012, Plant Sci.
  • Functional analysis of all AGAMOUS subfamily members in rice reveals their roles in reproductive organ identity determination and meristem determinacy, 2011, Plant Cell.
  • Functional diversification of the two C-class MADS box genes OSMADS3 and OSMADS58 in Oryza sativa, 2006, Plant Cell.
  • Rice MADS6 interacts with the floral homeotic genes SUPERWOMAN1, MADS3, MADS58, MADS13, and DROOPING LEAF in specifying floral organ identities and meristem fate, 2011, Plant Cell.
  • A gene expression profiling of early rice stamen development that reveals inhibition of photosynthetic genesby OsMADS58., 2015, Mol Plant.
  • OsMADS32 Regulates Rice Floral Patterning through Interactions with Multiple Floral Homeotic Genes, 2020, J Exp Bot.
  • Characterization of a new rice OsMADS1 null mutant generated by homologous recombination-mediated gene targeting, 2021, Planta.
  • OsMADS58 Stabilizes Gene Regulatory Circuits during Rice Stamen Development., 2022, Plants (Basel).
• Genbank accession number
  • AB232157
• Key message
  • By contrast, RNA-silenced lines of OSMADS58 develop astonishing flowers that reiterate a set of floral organs, including lodicules, stamens, and carpel-like organs, suggesting that determinacy of the floral meristem is severely affected
  • The transgenic rice expressing OsMADS58SRDX had reiterated formation of lodicule-like organs instead of stamens and carpel, a typical phenotype of ag mutant
  • Although the transgenic tall fescue did not have the stamen alterations seen in SPW1SRDX and OsMADS58SRDX rice, they either produced no pollen or produced immature pollen; thus, the anthers were not dehiscent and the plants were male-sterile
  • We first introduced Os12g0207000SRDX, Os01g0886200SRDX and OsMADS58SRDX into rice for evaluation of their abilities to induce male sterility
  • We also obtained a mild phenotype of OsMADS58SRDX tall fescue, which exhibited only the male sterility
  • Male-sterile and cleistogamous phenotypes in tall fescue induced by chimeric repressors of SUPERWOMAN1 and OsMADS58
  • Some lines of OsMADS58SRDX tall fescue showed a cleistogamous phenotype in which the lodicules were homeotically transformed into lemma-like organs
  • Furthermore, our results indicate important roles of OsMADS32 in defining stamen, pistil and ovule development through physical and genetic interactions with OsMADS1, OsMADS58 and OsMADS13, and in specifying floral meristem identity with OsMADS6, OsMADS3 and OsMADS58 respectively
  • Rice (Oryza sativa) OsMADS58 is a C-class MADS box protein, and characterization of a transposon insertion mutant osmads58 suggested that OsMADS58 plays a role in stamen development
  • This CRISPR mutant line exhibited stronger changes in expression of OsMADS58 target genes compared with the osmads58 dSpm (transposon insertion) line, along with changes in multiple pathways related to early stamen development
  • These findings strongly suggest that the pleiotropic effects of OsMADS58 on stamen development derive from a potential role in stabilizing gene regulatory circuits during early stamen development
  • Here, we report that the CRISPR knockout mutant osmads58 exhibits complex altered phenotypes, including anomalous diploid germ cells, aberrant meiosis, and delayed tapetum degeneration
  • OsMADS58 Stabilizes Gene Regulatory Circuits during Rice Stamen Development.
• Connection
  • OSMADS3, OSMADS58, Functional diversification of the two C-class MADS box genes OSMADS3 and OSMADS58 in Oryza sativa, To examine the conservation and diversification of C-class gene function in monocots, we analyzed two C-class genes in rice (Oryza sativa), OSMADS3 and OSMADS58, which may have arisen by gene duplication before divergence of rice and maize (Zea mays)
  • OSMADS3, OSMADS58, Functional diversification of the two C-class MADS box genes OSMADS3 and OSMADS58 in Oryza sativa, , the functions regulated by AG have been partially partitioned into two paralogous genes, OSMADS3 and OSMADS58, which were produced by a recent gene duplication event in plant evolution)
  • OSMADS3, OSMADS58, Functional diversification of the two C-class MADS box genes OSMADS3 and OSMADS58 in Oryza sativa, Functional diversification of the two C-class MADS box genes OSMADS3 and OSMADS58 in Oryza sativa
  • CCP1~DFO1~EMF1~OsEMF1, OSMADS58, CURVED CHIMERIC PALEA 1 encoding an EMF1-like protein maintains epigenetic repression of OsMADS58 in rice palea development., We found that OsMADS58, a C-class gene responsible for carpel morphogenesis, was ectopically expressed in the ccp1palea, indicating that the ccp1 palea was misspecified and partially acquired carpel-like identity
  • CCP1~DFO1~EMF1~OsEMF1, OSMADS58, CURVED CHIMERIC PALEA 1 encoding an EMF1-like protein maintains epigenetic repression of OsMADS58 in rice palea development., Constitutive expression of OsMADS58 in the wild-type rice plants caused morphological abnormality of palea similar to that of ccp1, whereas OsMADS58 knockdown by RNAi in ccp1 could rescue the abnormal phenotype of mutant palea, suggesting that the repression of OsMADS58 expression by CCP1 is critical for palea development
  • CCP1~DFO1~EMF1~OsEMF1, OSMADS58, CURVED CHIMERIC PALEA 1 encoding an EMF1-like protein maintains epigenetic repression of OsMADS58 in rice palea development., Taken together, our results show that CCP1 plays an important role in palea development through maintaining H3K27me3-mediated epigenetic silence of the carpel identity-specifying gene OsMADS58, shedding light on the epigenetic mechanism in floral organ development
  • OsLG3b~OsMADS1~LHS1~AFO, OSMADS58, Interactions of OsMADS1 with Floral Homeotic Genes in Rice Flower Development., The physical and genetic interaction of OsMADS1 and OsMADS3 is essential for floral meristem activity maintenance and organ identity specification; while OsMADS1 physically and genetically interacts with OsMADS58 in regulating floral meristem determinacy and suppressing spikelet meristem reversion
  • CFO1~OsMADS32, OSMADS58, OsMADS32 Regulates Rice Floral Patterning through Interactions with Multiple Floral Homeotic Genes, Furthermore, our results indicate important roles of OsMADS32 in defining stamen, pistil and ovule development through physical and genetic interactions with OsMADS1, OsMADS58 and OsMADS13, and in specifying floral meristem identity with OsMADS6, OsMADS3 and OsMADS58 respectively
  • OSMADS58, OsMADS6~MFO1~AFG1, OsMADS32 Regulates Rice Floral Patterning through Interactions with Multiple Floral Homeotic Genes, Furthermore, our results indicate important roles of OsMADS32 in defining stamen, pistil and ovule development through physical and genetic interactions with OsMADS1, OsMADS58 and OsMADS13, and in specifying floral meristem identity with OsMADS6, OsMADS3 and OsMADS58 respectively
  • OsLG3b~OsMADS1~LHS1~AFO, OSMADS58, OsMADS32 Regulates Rice Floral Patterning through Interactions with Multiple Floral Homeotic Genes, Furthermore, our results indicate important roles of OsMADS32 in defining stamen, pistil and ovule development through physical and genetic interactions with OsMADS1, OsMADS58 and OsMADS13, and in specifying floral meristem identity with OsMADS6, OsMADS3 and OsMADS58 respectively
  • OsMADS13, OSMADS58, OsMADS32 Regulates Rice Floral Patterning through Interactions with Multiple Floral Homeotic Genes, Furthermore, our results indicate important roles of OsMADS32 in defining stamen, pistil and ovule development through physical and genetic interactions with OsMADS1, OsMADS58 and OsMADS13, and in specifying floral meristem identity with OsMADS6, OsMADS3 and OsMADS58 respectively
  • OSMADS3, OSMADS58, OsMADS32 Regulates Rice Floral Patterning through Interactions with Multiple Floral Homeotic Genes, Furthermore, our results indicate important roles of OsMADS32 in defining stamen, pistil and ovule development through physical and genetic interactions with OsMADS1, OsMADS58 and OsMADS13, and in specifying floral meristem identity with OsMADS6, OsMADS3 and OsMADS58 respectively
  • OsLG3b~OsMADS1~LHS1~AFO, OSMADS58, Characterization of a new rice OsMADS1 null mutant generated by homologous recombination-mediated gene targeting, Our data suggest, OsMADS1 commits and maintains determinate floret development by regulating floral meristem termination, carpel and ovule differentiation genes (OsMADS58, OsMADS13) while its modulation of genes such as OsMADS15, OsIG1 and OsMADS32 could be relevant in the differentiation and development of palea
  • CFO1~OsMADS32, OSMADS58, Characterization of a new rice OsMADS1 null mutant generated by homologous recombination-mediated gene targeting, Our data suggest, OsMADS1 commits and maintains determinate floret development by regulating floral meristem termination, carpel and ovule differentiation genes (OsMADS58, OsMADS13) while its modulation of genes such as OsMADS15, OsIG1 and OsMADS32 could be relevant in the differentiation and development of palea
  • OsIG1, OSMADS58, Characterization of a new rice OsMADS1 null mutant generated by homologous recombination-mediated gene targeting, Our data suggest, OsMADS1 commits and maintains determinate floret development by regulating floral meristem termination, carpel and ovule differentiation genes (OsMADS58, OsMADS13) while its modulation of genes such as OsMADS15, OsIG1 and OsMADS32 could be relevant in the differentiation and development of palea
  • OsMADS13, OSMADS58, Characterization of a new rice OsMADS1 null mutant generated by homologous recombination-mediated gene targeting, Our data suggest, OsMADS1 commits and maintains determinate floret development by regulating floral meristem termination, carpel and ovule differentiation genes (OsMADS58, OsMADS13) while its modulation of genes such as OsMADS15, OsIG1 and OsMADS32 could be relevant in the differentiation and development of palea
  • OsMADS15~DEP, OSMADS58, Characterization of a new rice OsMADS1 null mutant generated by homologous recombination-mediated gene targeting, Our data suggest, OsMADS1 commits and maintains determinate floret development by regulating floral meristem termination, carpel and ovule differentiation genes (OsMADS58, OsMADS13) while its modulation of genes such as OsMADS15, OsIG1 and OsMADS32 could be relevant in the differentiation and development of palea
  • FON2~FON4~TG1, OSMADS58, Interactions between FLORAL ORGAN NUMBER4 and floral homeotic genes in regulating rice flower development., Here, we report the genetic interactions between FON4 and floral homeotic genes OsMADS15 (an A-class gene), OsMADS16 (also called SUPERWOMAN1, SPW1, a B-class gene), OsMADS3 and OsMADS58 (C-class genes), OsMADS13 (a D-class gene), and OsMADS1 (an E-class gene) during flower development
  • FON2~FON4~TG1, OSMADS58, Interactions between FLORAL ORGAN NUMBER4 and floral homeotic genes in regulating rice flower development., Double mutant combinations of fon4 with osmads3, osmads58, osmads13, and osmads1 displayed enhanced defects in FM determinacy and identity, respectively, indicating that FON4 and these genes synergistically control FM activity

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