File:Plant ILK Structural Features.jpg
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[edit]DescriptionPlant ILK Structural Features.jpg |
English: FIGURE 1. Structural features of the Arabidopsis ILKs using eukaryotic linear motifs. (B) Predicted 3D structures of ILKs ankyrin repeats. (C) Superimposed ILKs’ 3D structures. The structures are colored to represent the succession of secondary structure elements (N-terminal/blue to C-terminal/red). The structural superposition of the PHYRE2 predicted 3D structures and alignments were performed using the ‘Iterative fit’ function of the Swiss-PDB Viewer 4.1.0. (Guex and Peitsch, 1997). (D) The alignment displays the amino acid sequence in each ILK. ‘∗/.’ indicate identical/similar residues. The predicted secondary structure is displayed below the alignment (h: α-helices, s: strands). The ankyrin repeats (ARs) are shown below and highlighted on the secondary structure alignment. |
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TITLE=Insights into the Structure, Function, and Ion-Mediated Signaling Pathways Transduced by Plant Integrin-Linked Kinases JOURNAL=Frontiers in Plant Science VOLUME=8 YEAR=2017 PAGES=376 URL=https://www.frontiersin.org/article/10.3389/fpls.2017.00376 DOI=10.3389/fpls.2017.00376 ISSN=1664-462X ABSTRACT=Kinases facilitate detection of extracellular signals and set in motion cellular responses for plant adaptation and survival. Some of the energy utilized for kinase signal processing is produced through the activity of ion transporters. Additionally, the synergy between cellular ions and signal transduction influences plant response to pathogens, and their growth and development. In plants, the signaling elements that connect cell wall and membrane sensors with ion homeostasis and transport-mediated processes are largely unknown. Current research indicates that plant Integrin-Linked Kinases (ILKs), a subfamily Raf-like MAP2K Kinases, may have evolved to fulfill this role. In this review, we explore new findings on plant ILKs placing a particular |
Author | AUTHOR=Popescu Sorina C., Brauer Elizabeth K., Dimlioglu Gizem, Popescu George V. |
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