COLD1 Confers Chilling Tolerance in Rice

“…This model is supported by genetic, biochemical, and electrophysiological evidence. It has also been proposed that COLD1/RGA1 represents a potential calcium permeable channel, or part thereof, as the lack of COLD1 affects calcium signaling upon cold stress in rice (Ma et al ; Manishankar and Kudla ; Shi and Gong ; Shi and Yang ; Li and Lin ). Structure‐function studies of COLD1/RGA1 may help to understand how this protein complex is involved with calcium channels.…”

“…Recently, significant advances have been made regarding the understanding of plant cold‐signaling perception and transduction (Ding et al ; Ma et al ; Hong et al ; Jiang et al ; Li et al ; Liu et al ; Zhang et al ; Zhao et al ; Ding et al ). In the currently accepted model for temperature sensing, a fluctuation in temperature causes a change in membrane fluidity, and rearrangement of the cytoskeleton, which is followed by an influx of calcium which triggers downstream responses to confer cold tolerance (Sangwan et al ; Zhang et al ; Ma et al ; Zhu ). In these downstream responses, the typical transcriptional regulation pathway includes C‐repeat binding factor (CBF)‐dependent or CBF‐independent pathways.…”

Cold signaling in plants: Insights into mechanisms and regulation

“…This model is supported by genetic, biochemical, and electrophysiological evidence. It has also been proposed that COLD1/RGA1 represents a potential calcium permeable channel, or part thereof, as the lack of COLD1 affects calcium signaling upon cold stress in rice (Ma et al ; Manishankar and Kudla ; Shi and Gong ; Shi and Yang ; Li and Lin ). Structure‐function studies of COLD1/RGA1 may help to understand how this protein complex is involved with calcium channels.…”

“…Recently, significant advances have been made regarding the understanding of plant cold‐signaling perception and transduction (Ding et al ; Ma et al ; Hong et al ; Jiang et al ; Li et al ; Liu et al ; Zhang et al ; Zhao et al ; Ding et al ). In the currently accepted model for temperature sensing, a fluctuation in temperature causes a change in membrane fluidity, and rearrangement of the cytoskeleton, which is followed by an influx of calcium which triggers downstream responses to confer cold tolerance (Sangwan et al ; Zhang et al ; Ma et al ; Zhu ). In these downstream responses, the typical transcriptional regulation pathway includes C‐repeat binding factor (CBF)‐dependent or CBF‐independent pathways.…”

Cold signaling in plants: Insights into mechanisms and regulation

“…However, rice lacks the homologs of RGS1 (Urano et al ; Urano and Jones ). Rice COLD1 also is a GTPase accelerating protein (Ma et al ), although it lacks sequence similarity with RGS1. COLD1 corresponds to an important QTL of cold tolerance (Ma et al ).…”

Control of grain size by G protein signaling in rice

“…Ca 2þ is well known as a ubiquitous second messenger (Luan, 2009) and is in response to abiotic stimulations such as cold shock (Knight et al, 1991), oxidative stress (Price et al, 1994), gibberellic acid (Bush, 1996), chilling cold (Ma et al, 2015), and heat shock (Liu et al, 2003). Transient increases of Ca 2þ concentration proceeds as calcium oscillations, which presents unique temporal and spatial information and determines the specificity of the physiological response (Luan, 2009).…”

Ca 2+ and CaM are involved in Al 3+ pretreatment-promoted fluoride accumulation in tea plants ( Camellia sinesis L.)