Insights into leaf morphology, photosynthetic efficiency, and light adaptation in cigar tobacco as light intensity transitions: A comprehensive analysis of transcriptomic, hormonal, and physiological responses
文献类型: 外文期刊
第一作者: Peng, Chuanxi
作者: Peng, Chuanxi;Ren, Xiaochun;Khan, Abdullah;Chen, Keling;Ma, Xinghua;Ren, Xiaochun;Gao, Huajun
作者机构:
关键词: Light intensity; Leaf morphology; Photosynthetic capacity; Hormone signaling pathways; Gene expression
期刊名称:INDUSTRIAL CROPS AND PRODUCTS ( 影响因子:6.2; 五年影响因子:6.2 )
ISSN: 0926-6690
年卷期: 2025 年 230 卷
页码:
收录情况: SCI
摘要: The intensity of light alters leaf morphology and structure by regulating cell proliferation and expansion. However, the mechanisms through which changes in light intensity affect the critical developmental stages of cigar tobacco leaf tissue remain unclear. This study investigates the impact of light intensity variation on leaf tissue structure, hormone levels, photosynthetic capacity, differential metabolic processes, and hormone signaling pathways. The transition to strong light promotes the accumulation of auxin, gibberellin, and cytokinin, accelerating the thickening process of leaf tissues and increasing the thickness of the upper epidermis, palisade tissue, and spongy tissue. Furthermore, intensified light significantly enhances stomatal conductance, intracellular CO2 concentration, and transpiration rate, consequently boosting net photosynthetic rate, and altering the photosynthesis-light response curve by lowering the light compensation point and increasing the light saturation point. Comparative transcriptomic profiling revealed that differentially expressed genes orchestrate light-responsive leaf development through hierarchical regulation of phytohormone signaling pathways and photosynthetic efficiency. Key hormone-related pathways were identified, alongside upregulation of photosynthesis-associated LHCA4, LUCB3, and LHCB6. This study provides novel insights into the physiological, anatomical, and molecular responses of cigar tobacco leaves to variations in light intensity, contributes to a deeper understanding of light-regulated leaf development and offers a foundation for optimizing cultivation practices to increase cigar wrapper quality.
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