Abstract
Calcium‐dependent protein kinases (CDPKs or CPKs) play important roles in various physiological processes of plants, including growth and development, stress responses and hormone signaling. Although the CDPK gene family has been characterized in several model plants, little is known about this gene family in Hevea brasiliensis (the Para rubber tree). Here, we characterize the entire H. brasiliensis CDPK and CDPK‐related kinase (CRK) gene families comprising 30 CDPK genes (HbCPK1 to 30) and nine CRK genes (HbCRK1 to 9). Structure and phylogeny analyses of these CDPK and CRK genes demonstrate evolutionary conservation in these gene families across H. brasiliensis and other plant species. The expression of HbCPK and HbCRK genes was investigated via Solexa sequencing in a range of experimental conditions (different tissues, phases of leaf development, ethylene treatment, and various abiotic stresses). The results suggest that HbCPK and HbCRK genes are important components in growth, development, and stress responses of H. brasiliensis. Parallel studies on the CDPK and CRK gene families were also extended to five other plant species (Arabidopsis thaliana, Oryza sativa, Populus trichocarpa, Manihot esculenta, and Ricinus communis). The CDPK and CRK genes from different plant species that exhibit similar expression patterns tend to cluster together, suggesting a coevolution of gene structure and expression behavior in higher plants. The results serve as a foundation to further functional studies of these gene families in H. brasiliensis as well as in the whole plant kingdom.
Highlights
Calcium-dependent protein kinases (CDPKs or CPKs) play important roles in various physiological processes of plants, including growth and development, stress responses and hormone signaling
The CDPK gene family has been characterized in several model plants, little is known about this gene family in Hevea brasiliensis
Local blast searches of the genomes were performed by using the published CDPK and CDPK-related kinase (CRK) sequences of three model plants of A. thaliana, O. sativa, and P. trichocarpa as queries [12,26,28,40]. This analysis identified a total of 161 CDPK genes and 45 CRK genes in the six plant species, including 39 H. brasiliensis CDPK and CRK genes (HbCPK1 to 30, and HbCRK1 to 9, Table 1a), 31 M. esculenta genes (MeCPK1 to 22, and MeCRK1 to 9, Table 1b), 21 R. communis genes (RcCPK1 to 16, and RcCRK1 to 5, Table 1c), 42 A. thaliana genes (AtCPK1 to 34, and AtCRK1 to 8, Table S1–4), 39 P. trichocarpa genes (PtCDPK1 to 30, and PtCRK1 to 9, Table S1–5), and 34 O. sativa genes (OsCPK1 to 29, and OsCRK1 to 5, Table S1–6)
Summary
Calcium-dependent protein kinases (CDPKs or CPKs) play important roles in various physiological processes of plants, including growth and development, stress responses and hormone signaling. The results suggest that HbCPK and HbCRK genes are important components in growth, development, and stress responses of H. brasiliensis. Three major classes of Ca2+-binding proteins, including calcium-dependent protein kinases (CDPKs or CPKs), calmodulins. Abbreviations CDPK/CPK, calcium-dependent protein kinase; CRK, CDPK-related kinase; QPCR, real-time quantitative reverse transcription polymerase chain reaction; SRA, Sequence Read Archive. The CDPK proteins have four characterized domains: an N-terminal variable region, a Ser/Thr kinase catalytic domain, an autoregulatory/autoinhibitory domain, and a calmodulin-like domain containing EF-hands for Ca2+ binding [10,11,12]
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