Related references
Note: Only part of the references are listed.Lipidated proteins: Spotlight on protein-membrane binding interfaces
Arjun Ray et al.
PROGRESS IN BIOPHYSICS & MOLECULAR BIOLOGY (2017)
Dynamic Protein Acylation: New Suostrates, Vechanisms, and Drug Targets
Thomas Lanyon-Hogg et al.
TRENDS IN BIOCHEMICAL SCIENCES (2017)
Fats and function: protein lipid modifications in plant cell signalling
Dionne Turnbull et al.
CURRENT OPINION IN PLANT BIOLOGY (2017)
Polarly localized kinase SGN1 is required for Casparian strip integrity and positioning
Julien Alassimone et al.
NATURE PLANTS (2016)
Increasing complexity and versatility: How the calcium signaling toolkit was shaped during plant land colonization
Kai H. Edel et al.
CELL CALCIUM (2015)
Vacuolar CBL-CIPK12 Ca2+-Sensor-Kinase Complexes Are Required for Polarized Pollen Tube Growth
Leonie Steinhorst et al.
CURRENT BIOLOGY (2015)
Greasy tactics in the plant-pathogen molecular arms race
Patrick C. Boyle et al.
JOURNAL OF EXPERIMENTAL BOTANY (2015)
Two Distinct Families of Protein Kinases Are Required for Plant Growth under High External Mg2+ Concentrations in Arabidopsis
Junro Mogami et al.
PLANT PHYSIOLOGY (2015)
Tonoplast CBL-CIPK calcium signaling network regulates magnesium homeostasis in Arabidopsis
Ren-Jie Tang et al.
PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA (2015)
The importance of lipid modified proteins in plants
Piers A. Hemsley
NEW PHYTOLOGIST (2015)
The vacuolar calcium sensors CBL2 and CBL3 affect seed size and embryonic development in Arabidopsis thaliana
Christian Eckert et al.
PLANT JOURNAL (2014)
A New -Estradiol-Inducible Vector Set that Facilitates Easy Construction and Efficient Expression of Transgenes Reveals CBL3-Dependent Cytoplasm to Tonoplast Translocation of CIPK5
Kathrin Schluecking et al.
MOLECULAR PLANT (2013)
PROTEIN S-ACYL TRANSFERASE10 Is Critical for Development and Salt Tolerance in Arabidopsis
Liang-Zi Zhou et al.
PLANT CELL (2013)
Putative DHHC-Cysteine-Rich Domain S-Acyltransferase in Plants
Xiaowei Yuan et al.
PLOS ONE (2013)
S-acylation-dependent association of the calcium sensor CBL2 with the vacuolar membrane is essential for proper abscisic acid responses
Oliver Batistic et al.
CELL RESEARCH (2012)
Tonoplast calcium sensors CBL2 and CBL3 control plant growth and ion homeostasis through regulating V-ATPase activity in Arabidopsis
Ren-Jie Tang et al.
CELL RESEARCH (2012)
Phosphorylation of Calcineurin B-like (CBL) Calcium Sensor Proteins by Their CBL-interacting Protein Kinases (CIPKs) Is Required for Full Activity of CBL-CIPK Complexes toward Their Target Proteins
Kenji Hashimoto et al.
JOURNAL OF BIOLOGICAL CHEMISTRY (2012)
Genomics and Localization of the Arabidopsis DHHC-Cysteine-Rich Domain S-Acyltransferase Protein Family
Oliver Batistic
PLANT PHYSIOLOGY (2012)
Calcium decoding mechanisms in plants
Kenji Hashimoto et al.
BIOCHIMIE (2011)
Calcium-dependent modulation and plasma membrane targeting of the AKT2 potassium channel by the CBL4/CIPK6 calcium sensor/protein kinase complex
Katrin Held et al.
CELL RESEARCH (2011)
Phosphorylation of SOS3-Like Calcium-Binding Proteins by Their Interacting SOS2-Like Protein Kinases Is a Common Regulatory Mechanism in Arabidopsis
Wenming Du et al.
PLANT PHYSIOLOGY (2011)
Palmitoylation-dependent association with CD63 targets the Ca2+ sensor synaptotagmin VII to lysosomes
Andrew R. Flannery et al.
JOURNAL OF CELL BIOLOGY (2010)
The Arabidopsis Stem Cell Factor POLTERGEIST Is Membrane Localized and Phospholipid Stimulated
Jennifer M. Gagne et al.
PLANT CELL (2010)
Calcium Signals: The Lead Currency of Plant Information Processing
Joerg Kudla et al.
PLANT CELL (2010)
CBL-mediated targeting of CIPKs facilitates the decoding of calcium signals emanating from distinct cellular stores
Oliver Batistic et al.
PLANT JOURNAL (2010)
The role of the acyl modification, palmitoylation, in Arabidopsis stem cell regulation
Jennifer M. Gagne et al.
PLANT SIGNALING & BEHAVIOR (2010)
Plant calcineurin B-like proteins and their interacting protein kinases
Oliver Batistic et al.
BIOCHIMICA ET BIOPHYSICA ACTA-MOLECULAR CELL RESEARCH (2009)
Molecular Recognition of the Palmitoylation Substrate Vac8 by Its Palmitoyltransferase Pfa3
Marissa J. Nadolski et al.
JOURNAL OF BIOLOGICAL CHEMISTRY (2009)
The CBL-CIPK Ca2+-decoding signaling network: function and perspectives
Stefan Weinl et al.
NEW PHYTOLOGIST (2009)
Dual fatty acyl modification determines the localization and plasma membrane targeting of CBL/CIPK Ca2+ signaling complexes in Arabidopsis
Oliver Batistic et al.
PLANT CELL (2008)
Multicolor bimolecular fluorescence complementation reveals simultaneous formation of alternative CBL/CIPK complexes in planta
Rainer Waadt et al.
PLANT JOURNAL (2008)
Palmitoylation Controls Recycling in Lysosomal Sorting and Trafficking
Peter J. McCormick et al.
TRAFFIC (2008)
Alternative complex formation of the Ca2+-regulated protein kinase CIPK1 controls abscisic acid-dependent and independent stress responses in Arabidopsis
Cecilia D'Angelo et al.
PLANT JOURNAL (2006)
Global analysis of protein palmitoylation in yeast
Amy F. Roth et al.
CELL (2006)
Integration of spatial and temporal information during floral induction in Arabidopsis
PA Wigge et al.
SCIENCE (2005)
Calcium sensors and their interacting protein kinases: Genomics of the Arabidopsis and rice CBL-CIPK signaling networks
U Kolukisaoglu et al.
PLANT PHYSIOLOGY (2004)
Visualization of protein interactions in living plant cells using bimolecular fluorescence complementation
M Walter et al.
PLANT JOURNAL (2004)
The NAF domain defines a novel protein-protein interaction module conserved in Ca2+-regulated kinases
V Albrecht et al.
EMBO JOURNAL (2001)
Complexes of MADS-box proteins are sufficient to convert leaves into floral organs
T Honma et al.
NATURE (2001)
Share Paper
