OsEIN2

• Symbol: OsEIN2
• MSU: LOC_Os07g06130
• RAPdb: Os07g0155600

• ACO1, a gene for aminocyclopropane-1-carboxylate oxidase: effects on internode elongation at the heading stage in rice, 2010, Plant Cell Environ.
• OsEIN2 is a positive component in ethylene signaling in rice, 2004, Plant and Cell Physiology.
• The Polycistronic miR166k-166h Positively Regulates Rice Immunity via Post-transcriptional Control ofEIN2., 2018, Front Plant Sci.
• Dual impact of ambient humidity on the virulence of Magnaporthe oryzae and basal resistance in rice., 2022, Plant Cell Environ.

Genbank accession number

• Interestingly, expression of the ACC synthase gene ACS1 and ethylene signalling gene OsEIN2 was up-regulated in the aco1 mutants
• In the OsEIN2 antisense plants, the expression levels of two ethylene-responsive genes, SC129 and SC255, were decreased compared with the wild types
• These results suggest that OsEIN2 is a positive component of the ethylene-signaling pathway in rice, just as AtEIN2 is in Arabidopsis
• OsEIN2 is a positive component in ethylene signaling in rice
• Knock out of ethylene signaling genes OsEIL1 and OsEIN2 or exogenous application of 1-methylcyclopropene (ethylene inhibitor) and ethephon (ethylene analogues) eliminated the difference of blast resistance between the 70% and 90% relative humidity conditions, suggesting that the activation of ethylene signaling contributes to humidity-modulated basal resistance against M

• OsACO1, OsEIN2, ACO1, a gene for aminocyclopropane-1-carboxylate oxidase: effects on internode elongation at the heading stage in rice, Interestingly, expression of the ACC synthase gene ACS1 and ethylene signalling gene OsEIN2 was up-regulated in the aco1 mutants
• OsACO1, OsEIN2, ACO1, a gene for aminocyclopropane-1-carboxylate oxidase: effects on internode elongation at the heading stage in rice, This study suggests that the ACO1 has a little effect on internode elongation at the heading stage, and that up-regulation of the ACS1 and OsEIN2 expression may attenuate inhibition of internode elongation
• OsACS1~OsASC1, OsEIN2, ACO1, a gene for aminocyclopropane-1-carboxylate oxidase: effects on internode elongation at the heading stage in rice, Interestingly, expression of the ACC synthase gene ACS1 and ethylene signalling gene OsEIN2 was up-regulated in the aco1 mutants
• OsACS1~OsASC1, OsEIN2, ACO1, a gene for aminocyclopropane-1-carboxylate oxidase: effects on internode elongation at the heading stage in rice, This study suggests that the ACO1 has a little effect on internode elongation at the heading stage, and that up-regulation of the ACS1 and OsEIN2 expression may attenuate inhibition of internode elongation
• MHZ4, OsEIN2, Ethylene-Induced Inhibition of Root Growth Requires Abscisic Acid Function in Rice Oryza sativa L. Seedlings, In coleoptile, MHZ4-dependent ABA pathway acts at or upstream of OsEIN2 to negatively regulate coleoptile ethylene response, possibly by affecting OsEIN2 expression.
• OsEIL1~MHZ6, OsEIN2, Activation of ethylene signaling pathways enhances disease resistance by regulating ROS and phytoalexin production in rice., Ethylene signaling components OsEIN2 and the downstream transcription factor OsEIL1 positively regulated disease resistance
• MHZ3, OsEIN2, Membrane protein MHZ3 stabilizes OsEIN2 in rice by interacting with its Nramp-like domain., Membrane protein MHZ3 stabilizes OsEIN2 in rice by interacting with its Nramp-like domain.
• MHZ3, OsEIN2, Membrane protein MHZ3 stabilizes OsEIN2 in rice by interacting with its Nramp-like domain., MHZ3 physically interacts with OsEIN2, and both the N- and C-termini of MHZ3 specifically associate with the OsEIN2 Nramp-like domain
• MHZ3, OsEIN2, Membrane protein MHZ3 stabilizes OsEIN2 in rice by interacting with its Nramp-like domain., Loss ofmhz3function reduces OsEIN2 abundance and attenuates ethylene-induced OsEIN2 accumulation, whereasMHZ3overexpression elevates the abundance of both wild-type and mutated OsEIN2 proteins, suggesting that MHZ3 is required for proper accumulation of OsEIN2 protein
• MHZ3, OsEIN2, Membrane protein MHZ3 stabilizes OsEIN2 in rice by interacting with its Nramp-like domain., The association of MHZ3 with the Nramp-like domain is crucial for OsEIN2 accumulation, demonstrating the significance of the OsEIN2 transmembrane domains in ethylene signaling
• MHZ3, OsEIN2, Membrane protein MHZ3 stabilizes OsEIN2 in rice by interacting with its Nramp-like domain., Moreover, MHZ3 negatively modulates OsEIN2 ubiquitination, protecting OsEIN2 from proteasome-mediated degradation
• MHZ3, OsEIN2, Membrane protein MHZ3 stabilizes OsEIN2 in rice by interacting with its Nramp-like domain., Together, these results suggest that ethylene-induced MHZ3 stabilizes OsEIN2 likely by binding to its Nramp-like domain and impeding protein ubiquitination to facilitate ethylene signal transduction
• OsACS1~OsASC1, OsEIN2, Priming effect of root-applied silicon on the enhancement of induced resistance to the root-knot nematode Meloidogyne graminicola in rice., Increased resistance in rice was correlated with higher transcript levels of defense-related genes (OsERF1, OsEIN2 and OsACS1) in the ethylene (ET) pathway
• MHZ1~OsHK1~HK1, OsEIN2, Histidine kinase MHZ1/OsHK1 interacts with ethylene receptors to regulate root growth in rice., Genetic analyses suggest that MHZ1/OsHK1 acts at the level of ethylene perception and works together with the OsEIN2-mediated pathway to regulate root growth.
• MHZ11, OsEIN2, The GDSL Lipase MHZ11 Modulates Ethylene Signaling in Rice Roots., Genetically, MHZ11 acts at the ethylene receptor OsERS2 upstream of OsCTR2 and OsEIN2
• OsAHL1~AHL1, OsEIN2, MoIug4 is a novel secreted effector promoting rice blast by counteracting host OsAHL1-regulated ethylene gene transcription., OsAHL1 exhibits transcriptional regulatory activities by binding the OsEIN2 promoter region, similar to MoIug4
• OsAHL1~AHL1, OsEIN2, MoIug4 is a novel secreted effector promoting rice blast by counteracting host OsAHL1-regulated ethylene gene transcription., Intriguingly, we found that MoIug4 exhibits a higher binding affinity than OsAHL1 to the OsEIN2 promoter, suggesting differential regulatory specificities
• OsEIL1~MHZ6, OsEIN2, Dual impact of ambient humidity on the virulence of Magnaporthe oryzae and basal resistance in rice., Knock out of ethylene signaling genes OsEIL1 and OsEIN2 or exogenous application of 1-methylcyclopropene (ethylene inhibitor) and ethephon (ethylene analogues) eliminated the difference of blast resistance between the 70% and 90% relative humidity conditions, suggesting that the activation of ethylene signaling contributes to humidity-modulated basal resistance against M