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Keyword [Stomatal closure]
Result: 41 - 56 | Page: 3 of 3
41. Hydrogen Sulfide Mediated Persulfidation Regulates SnRK2.6 Activity And Promotes ABA-induced Stomatal Closure
42. The Role Of COP1 In Dark-induced Stomatal Closure And Its Relationship With H2O2, NO, FT, TSF And SOC1
43. The Role And Relationship Of OST1, GHR1, GORK And SLAC1 In Ethylene-induced Stomatal Closure
44. The Role And Relationship Of CO2 And ABA In Dark-induced Stomatal Closure
45. StCLE Polypeptides Regulate The Stomatal Movement Of Arabidopsis Thaliana
46. Dark Treatment Activates The Signal Transduction Mechanism Of AtMPK3 And AtMPK6 And The Mechanism Of AtMPK12 In Dark-induced Stomatal Closure
47. The Role Of AtMEK1-AtMPK6 Signaling Cascade In Dark-induced Arabidopsis Stomatal Closure And Its Relationship With H2O2 And NO
48. Ethylene And ABA Induce The Production Of H2O2 And Mediate D-glucose To Induce Stoma Closure
49. Bacillus Spp.improve Disease Resistance And Drought Tolerance Of Plants By Regulating Stomatal Closure
50. HSL3 Regulates Stomatal Closure And The Drought Stress Response By Modulating Hydrogen Peroxide Homeostasis
51. COP1 And HY5 Mediate UV-B-induced Stomatal Closure By Promoting Ethylene Synthesis And Transmitting Ethylene Signaling
52. The Role Of MPK Cascade Pathway In Ethylene-induced Stomatal Closure In Arabidopsis
53. Two BHLH Homologous Genes Negatively Regulate ABA-dependent Drought Response In Arabidopsis Thaliana And Soybean
54. The Role Of H2S In Salt Stress-induced Stomatal Closure And Its Relationship With H2O2 And No In Arabidopsis Thaliana
55. The Role Of CDPKs In Ethylene-induced Stomatal Closure In Arabidopsis And Its Relationship With H2O2 And NO
56. The Role Of Flavonols In The Inhibition Of ABA-induced Stomatal Closure By Ethylene And The Regulatory Mechanism Of Its Synthesis
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