Abstract
The CONSTANS-like (COL) gene family is one of the plant-specific transcription factor families that play important roles in plant growth and development. However, the knowledge of COLs related in cucumber is limited, and their biological functions, especially in the photoperiod-dependent flowering process, are still unclear. In this study, twelve CsaCOL genes were identified in the cucumber genome. Phylogenetic and conserved motif analyses provided insights into the evolutionary relationship between the CsaCOLs. Further, the comparative genome analysis revealed that COL genes are conserved in different plant species, especially collinearity gene pairs related to CsaCOL5. Ten kinds of cis-acting elements were vividly detected in CsaCOLs promoter regions, including five light-responsive elements, which echo the diurnal rhythm expression patterns of seven CsaCOL genes under SD and LD photoperiod regimes. Combined with the expression data of developmental stage, three CsaCOL genes are involved in the flowering network and play pivotal roles for the floral induction process. Our results provide useful information for further elucidating the structural characteristics, expression patterns, and biological functions of COL family genes in many plants
Highlights
Successful transition from vegetative to reproductive growth is important in a plant life cycle (Srikanth and Schmid 2011)
Twelve putative CsaCOL genes were identified in cucumber by the hidden Markov model (HMM) program and verified by Pfam and blastp database, with all the CsaCOL genes both harboring B-box and CCT domains
The iso-electric points are various between CsaCOL genes, and the minimum and maximum iso-electric points are 5.24 (CsaCOL8) and 8.33 (CsaCOL10) separately
Summary
Successful transition from vegetative to reproductive growth is important in a plant life cycle (Srikanth and Schmid 2011). It is affected by both external and internal factors, and among them, photoperiod (day length) is a pivotal environmental signal associated with inception and process of flowering. CONSTANS (CO) and FLOWERING LOCUS T (FT) genes were considered as the main regulators (Putterill et al 1995; Corbesier et al 2007), and the CO/FT module is conserved in many plants (Song et al 2010).
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