Koichiro Mizoguchi scite author profile

Floral thermogenesis in plants plays a significant role in their reproductive function. Thermogenic aroids constitute a large family in highly thermogenic angiosperms, many of which possess intense heat-producing abilities. Several genes have been proposed to be involved in floral thermogenesis of aroids, but the biological tools to identify the functions of those genes at cellular and molecular levels are lacking. Among the many thermogenic aroids, we focused on skunk cabbage (Symplocarpus renifolius) because of its ability to produce intense, durable heat and small aboveground parts compared with other thermogenic aroids. In this study, leaf protoplasts were isolated from potted and shoot tip-cultured skunk cabbage plants and used to develop transient assay systems. The isolation protocol included an additional, sucrose gradient centrifugation step, which yielded high-purity protoplasts from both types of plants. The isolation and transfection efficiency of the protoplasts exceeded 1.0 × 105/g fresh weight and 50%, respectively, in both potted and shoot tip-cultured plants. Using this protoplast-based transient expression (PTE) system, we determined the protein localization of three mitochondrial energy-dissipating proteins, SrAOX, SrUCPA, and SrNDA1, fused to green fluorescent protein (GFP). In skunk cabbage leaf protoplasts, these three GFP-fused proteins were localized in MitoTracker-stained mitochondria. However, the green fluorescent particles in protoplasts expressing SrUCPA-GFP were enlarged compared with those in protoplasts expressing SrAOX-GFP and SrNDA1-GFP. Our PTE system is a powerful tool for functional gene analysis not only in thermogenic aroids but also in non-thermogenic aroids.

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Koichiro Mizoguchi

Establishing an efficient protoplast transient expression system for investigation of floral thermogenesis in aroids

Protoplast-Based Transient Expression Combined with Plant Cultivation Systems as a Valuable Tool for Floral Thermogenesis Studies in Aroids

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