Abstract
OsCaM61 is one of five calmodulins known to be present in Oryza sativa that relays the increase of cytosolic [Ca(2+)] to downstream targets. OsCaM61 bears a unique C-terminal extension with a prenylation site. Using nuclear magnetic resonance (NMR) spectroscopy we studied the behavior of the calmodulin (CaM) domain and the C-terminal extension of OsCaM61 in the absence and presence of Ca(2+). NMR dynamics data for OsCaM61 indicate that the two lobes of the CaM domain act together unlike the independent behavior of the lobes seen in mammalian CaM and soybean CaM4. Also, data demonstrate that the positively charged nuclear localization signal region in the tail in apo-OsCaM61 is helical, whereas it becomes flexible in the Ca(2+)-saturated protein. The extra helix in apo-OsCaM61 provides additional interactions in the C-lobe and increases the structural stability of the closed apo conformation. This leads to a decrease in the Ca(2+) binding affinity of EF-hands III and IV in OsCaM61. In Ca(2+)-OsCaM61, the basic nuclear localization signal cluster adopts an extended conformation, exposing the C-terminal extension for prenylation or enabling OsCaM61 to be transferred to the nucleus. Moreover, Ser(172) and Ala(173), residues in the tail, interact with different regions of the protein. These interactions affect the ability of OsCaM61 to activate different target proteins. Altogether, our data show that the tail is not simply a linker between the prenyl group and the protein but that it also provides a new regulatory mechanism that some plants have developed to fine-tune Ca(2+) signaling events.
Highlights
Oryza sativa CaM61 (OsCaM61) is a plant CaM bearing a C-terminal extension and a prenylation motif
Using nuclear magnetic resonance (NMR) spectroscopy we studied the behavior of the calmodulin (CaM) domain and the C-terminal extension of OsCaM61 in the absence and presence of Ca2؉
Using {1H}-15N heteronuclear NOE and dynamics data gathered from NMR relaxation measurements, we found that the two lobes of OsCaM61 interact with each other
Summary
OsCaM61 is a plant CaM bearing a C-terminal extension and a prenylation motif. Results: The C-terminal extension is partially helical and interacts with the CaM domain. Ca2ϩ is an important second messenger whose cytosolic concentration in plant cells is increased in response to biotic and abiotic stimuli such as salinity [1], pathogen invasion [2], hormones [3], wounds [4], and developmental cues [5] Parts of these responses are mediated by the ubiquitous Ca2ϩ-binding regulatory protein calmodulin (CaM) that is expressed in all eukaryotic cells. Arabidopsis has 11 CaM genes that generate at least seven distinct isoforms, soybean has at least five genes coding for four proteins [12], and rice has at least five CaMs [13] This shows the importance of these proteins in plant signaling, enabling the cells to respond to diverse stimuli.
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