Two types of GLR channels cooperate differently in light and dark growth of Arabidopsis seedlings

[1]  J. Feijó,et al.  Structure of the Arabidopsis thaliana glutamate receptor-like channel GLR3.4. , 2023, Biophysical journal.

[2]  O. Kniemeyer,et al.  CORK1, A LRR-Malectin Receptor Kinase, Is Required for Cellooligomer-Induced Responses in Arabidopsis thaliana , 2022, Cells.

[3]  M. Bonza,et al.  Signaling by plant glutamate receptor-like channels: What else! , 2022, Current opinion in plant biology.

[4]  Jan J. Lyczakowski,et al.  Upregulation of GLRs expression by light in Arabidopsis leaves , 2022, BMC plant biology.

[5]  J. Feijó,et al.  Structure of the Arabidopsis Glutamate Receptor-like Channel GLR3.2 Ligand-Binding Domain. , 2020, Structure.

[6]  G. Ahammed,et al.  Tomato GLR3.3 and GLR3.5 mediate cold acclimation-induced chilling tolerance by regulating apoplastic H2 O2 production and redox homeostasis. , 2019, Plant, cell & environment.

[7]  C. Foyer,et al.  Systemic Root-Shoot Signaling Drives Jasmonate-Based Root Defense against Nematodes , 2019, Current Biology.

[8]  J. Feijó,et al.  Comparing plant and animal glutamate receptors: common traits but different fates? , 2018, Journal of experimental botany.

[9]  R. Nicoll A Brief History of Long-Term Potentiation , 2017, Neuron.

[10]  C. Chien,et al.  The Arabidopsis glutamate receptor-like gene GLR3.6 controls root development by repressing the Kip-related protein gene KRP4. , 2016, Journal of experimental botany.

[11]  D. Yue,et al.  Phytotoxicity of dimethyl sulfoxide (DMSO) to rice seedlings , 2016, International Journal of Environmental Science and Technology.

[12]  Chhavi Aggarwal,et al.  Phosphoinositides Play Differential Roles in Regulating Phototropin1- and Phototropin2-Mediated Chloroplast Movements in Arabidopsis , 2013, PloS one.

[13]  Amir H Assadi,et al.  Detection of a Gravitropism Phenotype in glutamate receptor-like 3.3 Mutants of Arabidopsis thaliana Using Machine Vision and Computation , 2010, Genetics.

[14]  Michael Hollmann,et al.  Arabidopsis thaliana glutamate receptor ion channel function demonstrated by ion pore transplantation. , 2008, Journal of molecular biology.

[15]  M. Tester,et al.  Evidence that L-glutamate can act as an exogenous signal to modulate root growth and branching in Arabidopsis thaliana. , 2006, Plant & cell physiology.

[16]  X. Deng,et al.  A Rice Glutamate Receptor–Like Gene Is Critical for the Division and Survival of Individual Cells in the Root Apical Meristem[W] , 2005, The Plant Cell Online.

[17]  M. Tester,et al.  Glutamate activates cation currents in the plasma membrane of Arabidopsis root cells , 2004, Planta.

[18]  E. Liscum Faculty Opinions recommendation of Primary inhibition of hypocotyl growth and phototropism depend differently on phototropin-mediated increases in cytoplasmic calcium induced by blue light. , 2004 .

[19]  P. White,et al.  The Voltage-Independent Cation Channel in the Plasma Membrane of Wheat Roots Is Permeable to Divalent Cations and May Be Involved in Cytosolic Ca2+ Homeostasis1 , 2002, Plant Physiology.

[20]  K. Folta,et al.  Unexpected roles for cryptochrome 2 and phototropin revealed by high-resolution analysis of blue light-mediated hypocotyl growth inhibition. , 2001, The Plant journal : for cell and molecular biology.

[21]  J. Ecker,et al.  Phototropin-related NPL1 controls chloroplast relocation induced by blue light , 2001, Nature.

[22]  G. Coruzzi,et al.  Arabidopsis Mutants Resistant to S(+)-β-Methyl-α, β-Diaminopropionic Acid, a Cycad-Derived Glutamate Receptor Agonist , 2000 .

[23]  G. Coruzzi,et al.  Molecular evolution of glutamate receptors: a primitive signaling mechanism that existed before plants and animals diverged. , 1999, Molecular biology and evolution.

[24]  T. Mockler,et al.  Antagonistic actions of Arabidopsis cryptochromes and phytochrome B in the regulation of floral induction. , 1999, Development.

[25]  E. Spalding,et al.  Two genetically separable phases of growth inhibition induced by blue light in Arabidopsis seedlings. , 1998, Plant physiology.

[26]  T. Mockler,et al.  Regulation of flowering time by Arabidopsis photoreceptors. , 1998, Science.

[27]  B. Sakmann,et al.  Relative abundance of subunit mRNAs determines gating and Ca2+ permeability of AMPA receptors in principal neurons and interneurons in rat CNS , 1995, Neuron.

[28]  J. Chory,et al.  Isolation and Initial Characterization of Arabidopsis Mutants That Are Deficient in Phytochrome A , 1993, Plant physiology.

[29]  J. Chory,et al.  Mutations in the gene for the red/far-red light receptor phytochrome B alter cell elongation and physiological responses throughout Arabidopsis development. , 1993, The Plant cell.