Genome-wide characterization of tobacco B-BOX gene family identified two close members play contrast roles under cold stress

Cold stress influences the growth and geographical distribution of plants. Tobacco (Nicotiana tabacum L.), a model in plant biology studies and a world-widely cultivated economic plant from tropical America, exhibits extreme sensitivity to low temperatures. The conserved B-BOX (BBX) transcription factors play vital roles in plant photomorphogenesis and flowering regulation, and their functions in abiotic stresses, including cold stress, have been uncovered recently. However, few studies on tobacco BBX genes have been conducted to date. In this study, 49 non-redundant BBX genes have been identified in the reference tobacco genome. Gene structure, phylogenetic relationship, prediction of cis-regulatory elements in promoters, tissue-specific expression patterns, and response to cold stress were conducted on these BBX gene members. The expression of NtBBX9 and NtBBX11, two close members in the amplified group II, was up-regulated under cold treatments. Overexpression of NtBBX11 embedded the cold tolerance of transgenic plants, while the NtBBX9 overexpressors were susceptible to cold. The NtBBX9 functions as a negative regulator of tobacco response to cold stress, which was confirmed by the phenotype of NtBBX9 RNA-silenced lines. Furthermore, we demonstrated that NtBBX9 and NtBBX11 regulated the cold stress response by alternating the expression of critical cold-regulated genes such as CBFs, LEA14, and LTI65 and reactive oxygen species (ROS) production. The combination of NtBBX9 and NtBBX11 could facilitate tobacco’s rapid response to and recovery from transient cold stress and regulate plant cold-responsive growth in tropical regions.