Control of Fruit Cracking by Shaping Skin Traits – Apple as a Model

IF 6 2区 生物学 Q1 PLANT SCIENCES
I. Ginzberg, R. Stern
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引用次数: 12

Abstract

Abstract Skin cracking limits fruit quality and marketability. Suggested causes are environmental conditions, orchard management, and failure of the skin to resist surface tension due to fruit expansion. Fruit skin is made up of epidermis cells and cuticular matrix. Theoretical and experimental studies of skin mechanics, together with anatomical and molecular comparisons of cracking-susceptible vs. tolerant genotypes, suggest that increased cuticle thickness, high epidermal cell density and strong adhesion between neighboring cells are associated with cracking resistance. Calyx-end cracking disorder in apple is treated with a mixture of gibberellic acids 4 and 7 (GA4 + 7) and the cytokinin 6-benzyladenine (BA) early in fruit development. The treatment not only significantly reduces cracking incidence in the orchard, it also provides information on the cellular and molecular factors determining fruit-skin resistance to growth strain. BA + GA4 + 7 application results in an immediate increase in epidermal cell density that is maintained until fruit maturation. Moreover, the epidermal cells form clusters within the cuticular matrix, which may strengthen the cuticle by adding more cell-wall components and may enhance crack repair. Skin anatomical modifications are complemented by the expression of genes associated with epidermal cell patterning and cuticle formation. Gene-networking analysis supports the interaction between cell-wall synthesis, cuticle-formation, and GA-signaling gene clusters. Overall, data suggest that BA + GA4 + 7 treatment does not modify developmental cues, but promotes or enhances the innate developmental program. This review presents data on BA- and GA4 + 7-induced skin modifications that complement previously suggested models for cracking resistance in fruit. Knowledge gained on apple fruit skin traits may be applied to control cracking in other fruit as well.
通过果皮性状的塑造控制果实开裂——以苹果为例
果皮开裂限制了水果的品质和销路。可能的原因是环境条件,果园管理,以及由于水果膨胀导致皮肤无法抵抗表面张力。果皮由表皮细胞和角质层基质组成。皮肤力学的理论和实验研究,以及开裂易感基因型和耐裂基因型的解剖和分子比较表明,角角层厚度增加、表皮细胞密度高和相邻细胞之间的强粘附性与抗裂性有关。在果实发育早期用赤霉素酸4和7 (GA4 + 7)和细胞分裂素6-苄基腺嘌呤(BA)混合处理苹果花萼末端开裂病。该处理不仅显著降低了果园的开裂发生率,还提供了决定果皮对生长菌株抗性的细胞和分子因素的信息。BA + GA4 + 7的施用导致表皮细胞密度立即增加,并保持到果实成熟。此外,表皮细胞在角质层基质内形成簇状,这可能通过增加细胞壁成分来增强角质层,并可能促进裂缝的修复。与表皮细胞模式和角质层形成相关的基因表达补充了皮肤解剖结构的改变。基因网络分析支持细胞壁合成、角质层形成和ga信号基因簇之间的相互作用。总的来说,数据表明BA + GA4 + 7治疗不会改变发育线索,但会促进或增强先天发育程序。这篇综述介绍了BA-和GA4 + 7诱导的果皮修饰的数据,这些数据补充了之前提出的水果抗裂模型。对苹果果皮性状的研究也可应用于防治其他水果的开裂。
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来源期刊
CiteScore
12.90
自引率
1.40%
发文量
15
审稿时长
>12 weeks
期刊介绍: Critical Reviews in Plant Sciences focuses on presenting in-depth and up-to-date reviews of timely and/or cutting-edge subjects in the broad discipline of plant science, ranging from molecular biology/biochemistry through the areas of cell biology, plant pathology and physiology, genetics, classical botany, and ecology, to practical agricultural applications. Articles in the journal provide an up-to-date literature base for researchers and students, pointing the way towards future research needs. The journal is also a significant source of credible, objective information to aid decision makers at all levels.
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