The CONSTANS-like (COL) genes play an important role in the photoperiodic flowering pathway. Poplar is a perennial woody plant with a long juvenile phase, but the molecular characterization of COL genes in Populus is limited. In this study, 14 COL genes were identified in the Populus genome. Phylogenetic analysis indicated the PtCOL proteins were divided into three subgroups, and the members of each subgroup had similar gene structure and motif composition. Chromosome distribution analysis showed that 14 PtCOL genes were distributed on 10 chromosomes. Multiple sequence alignment indicated that these proteins contained a highly conserved B-box1 and a conserved CCT domain, but the B-box2 structure was divided into three different types. Promoter analysis found that there were several light-responsive cis-elements in the PtCOL genes. Furthermore, tissue-specific expression showed that all nine PtCOL genes were widely expressed in various tissues and organs of Populus, and were preferentially expressed in the leaves. Additionally, the transcription level of PtCOL exhibited a diurnal oscillation pattern in different light conditions. This study not only provided comprehensive information for further analysis of the function of the PtCOL gene family, but also revealed the biological roles of PtCOL genes in the photoperiod-dependent flowering process of Populus.
Keywords: CONSTANS-like; Expression pattern; Genome-wide analysis; Photoperiod; Populus.
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