Microscopic and metabolic investigations disclose the factors that lead to skin cracking in chili-type pepper fruit varieties.

IF 7.6 Q1 GENETICS & HEREDITY 园艺研究(英文) Pub Date : 2023-02-28 eCollection Date: 2023-04-01 DOI:10.1093/hr/uhad036
Ofir Marinov, Gal Nomberg, Sutanni Sarkar, Gulab Chand Arya, Eldad Karavani, Einat Zelinger, Ekaterina Manasherova, Hagai Cohen
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引用次数: 2

Abstract

The hydrophobic cuticle encasing the fruit skin surface plays critical roles during fruit development and post-harvest. Skin failure often results in the fruit surface cracking and forming a wound-periderm tissue made of suberin and lignin. The factors that make the fruit skin susceptible to cracking have yet to be fully understood. Herein, we investigated two varieties of chili peppers (Capsicum annuum L.), Numex Garnet, whose fruit has intact skin, and Vezena Slatka, whose fruit has cracked skin. Microscopical observations, gas chromatography-mass spectrometry, biochemical and gene expression assays revealed that Vezena Slatka fruit form a thicker cuticle with greater levels of cutin monomers and hydroxycinnamic acids, and highly express key cutin-related genes. The skin of these fruit also had a lower epidermal cell density due to cells with very large perimeters, and highly express genes involved in epidermal cell differentiation. We demonstrate that skin cracking in the Vezena Slatka fruit is accompanied by a spatial accumulation of lignin-like polyphenolic compounds, without the formation of a typical wound-periderm tissues made of suberized cells. Lastly, we establish that skin cracking in chili-type pepper significantly affects fruit quality during post-harvest storage in a temperature-dependent manner. In conclusion, our data highlight cuticle thickness and epidermal cell density as two critical factors determining fruit skin susceptibility to cracking in chili-type pepper fruit.

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显微镜和代谢研究揭示了导致辣椒类水果品种表皮开裂的因素。
包裹在果皮表面的疏水角质层在果实发育和收获后起着关键作用。皮肤衰竭通常会导致果实表面开裂,并形成由木栓素和木质素组成的伤口周皮组织。使水果皮容易开裂的因素还没有完全了解。在此,我们研究了两个辣椒品种(辣椒属),其果实具有完整的表皮的Numex Garnet和具有破裂表皮的Vezena Slatka。显微镜观察、气相色谱-质谱、生物化学和基因表达分析显示,Vezena Slatka果实形成了更厚的角质层,角质单体和羟基肉桂酸含量更高,并高度表达关键的角质相关基因。这些水果的表皮也具有较低的表皮细胞密度,因为细胞具有非常大的周长,并且高度表达参与表皮细胞分化的基因。我们证明,Vezena Slatka果实的皮肤开裂伴随着木质素样多酚化合物的空间积累,而不会形成由木栓化细胞组成的典型伤口周皮组织。最后,我们确定辣椒型辣椒的表皮开裂以温度依赖的方式显著影响收获后贮藏期间的果实质量。总之,我们的数据强调,角质层厚度和表皮细胞密度是决定辣椒型辣椒果实果皮易开裂的两个关键因素。
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