Abstract
Cyclins, together with highly conserved cyclin-dependent kinases (CDKs), play an important role in the process of cell cycle in plants, but less is known about the functions of cyclins in legume plants, especially Medicago truncatula. Our genome-wide analysis identified 58, 103, and 51 cyclin members in the M. truncatula, Glycine max, and Phaseolus vulgaris genomes. Phylogenetic analysis suggested that these cyclins could be classified into 10 types, and the CycB-like types (CycBL1-BL8) were the specific subgroups in M. truncatula, which was one reason for the expansion of the B-type in M. truncatula. All putative cyclin genes were mapped onto their own chromosomes of each genome, and 9 segmental duplication gene pairs involving 20 genes were identified in M. truncatula cyclins. Determined by quantitative real-time PCR, the expression profiling suggested that 57 cyclins in M. truncatula were differentially expressed in 9 different tissues, while a few genes were expressed in some specific tissues. Using the publicly available RNAseq data, the expression of Mtcyclins in the wild-type strain A17 and three nodule mutants during rhizobial infection showed that 23 cyclins were highly upregulated in the nodulation (Nod) factor-hypersensitive mutant sickle (skl) mutant after 12 h of rhizobium inoculation. Among these cyclins, six cyclin genes were also specifically expressed in roots and nodules, which might play specific roles in the various phases of Nod factor-mediated cell cycle activation and nodule development. Our results provide information about the cyclin gene family in legume plants, serving as a guide for further functional research on plant cyclins.
Highlights
Cell division is the most basal process in biological growth and development
We investigated the synteny of cyclin genes among the M. truncatula, Arabidopsis, soybean and common bean genomes (Table S5)
Phylogenetic analysis indicated that all putative legume cyclins were classified into ten types (A, B,C, D, H, L, T, U, SDS, and J18-types), sharing the same types with Arabidopsis, whereas the D-type was the largest clade in the legume species, and the CycB-like types, including CycBL;1-8, were specific to Medicago, lacking any clear homologues in Arabidopsis, common bean and soybean
Summary
Cell division is the most basal process in biological growth and development. Any discussion of the role of cell division in plant development and growth requires a thorough understanding of the basic machinery that controls the cell cycle [1]. Catalytic activities of CDKs were regulated in a complex manner, including cyclin binding and activation; CDK phosphorylation/dephosphorylation; direct binding of the CDK inhibitor protein (CKI) and CDK subunit (CKS); proteolysis; intracellular trafficking; and homologs of retinoblastoma protein (Rb), E2F transcription factors (E2F), and the dimerization partner (DP) pathway [1,2,3,4,5,6,7,8]. Among these protein factors, CDKs and cyclins are the most important cell cycle regulation proteins [9].
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