Comparative transcriptomic and proteomic profiling reveals molecular models of light signal regulation of shade tolerance in bowl lotus (Nelumbo nucifera)

Bowl lotus is categorized as a heliophyte, and shaded environments can severely retard its development and blossoming. We conducted a comparative omics study of light response difference between two cultivars, ‘HongYunDieYing’ (shade tolerant) and ‘YingYing’ (shade intolerant), to understand the mechanisms behind the shade tolerance response. The results indicated that ‘HongYunDieYing’ had a faster light signal response than that in ‘YingYing’. Furthermore, 214 proteins in ‘HongYunDieYing’ and 171 proteins in ‘YingYing’ were differentially expressed at both the transcriptional and protein levels. These correlated members were mainly involved in photosynthesis, metabolism, secondary metabolites, ribosome, and protein biosynthesis. However, glycolysis/gluconeogenesis, carbon metabolism, fatty acid metabolism, glutathione metabolism, and hormone signaling, were unique to ‘HongYunDieYing’. The molecular model of light signal regulation of shade tolerance was constructed: the upstream light signal transduction related gene (cryptochrome 1, phytohormone B, phytochrome-interacting factor 3/5, ELONGATED HYPOCOTYL 5, and SUPPRESSOR OF PHYA-1) played a decisive role in regulating shade tolerance traits. Some transcription factors (MYBs, bHLHs and WRKYs) and hormone signaling (auxin, gibberellin and ethylene) were involved in mediating light signaling to regulate downstream biological events. These regulators and biological processes synergistically regulated the shade tolerance of lotus. Lotus requires sufficient sunlight for growth and development, and shaded environments will severely retard lotus growth and blossoming. At present, there are few reports on the systematic identification and characterization of light signal response-related regulators in lotus. This study focuses on the comparative analysis two bowl lotus cultivars with the different shade tolerance traits at transcriptome and proteome levels to uncover the novel insight of the light signal-related biological network and potential candidates involved in the mechanism. The results provide a theoretical basis for the bowl lotus breeding and the expansion of its applications. [Display omitted] •Cry1, phyB, PIFs, HY5, and SPA1 are light signaling center-related genes in lotus.•Essential transcription factors mainly include MYB90, MYB1R1, bHLHs, and WRKYs.•Auxin, GA, and ETH signaling participated in light signal transduction.•Downstream events mainly include flowering, metabolism, and flavonoid biosynth