首页> 外文期刊>Plant Science: An International Journal of Experimental Plant Biology >Cloning of FaPAL6 gene from strawberry fruit and characterization of its expression and enzymatic activity in two cultivars with different anthocyanin accumulation.
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Cloning of FaPAL6 gene from strawberry fruit and characterization of its expression and enzymatic activity in two cultivars with different anthocyanin accumulation.

机译:草莓果实中 FaPAL6 基因的克隆及其在花色苷积累量不同的两个品种中的表达和酶活性的表征。

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摘要

The accumulation of anthocyanin pigments is one of the most important traits that turn strawberry fruit attractive to consumers. During ripening, strawberry fruit color development is associated to anthocyanin synthesis through the phenylpropanoid pathway. Phenylalanine ammonia-lyase (PAL) is a key enzyme in this pathway, having a determining role in strawberry fruit quality. In this work, we studied the level of anthocyanins during fruit ripening of two cultivars that differ in color development (Camarosa and Toyonoka). Toyonoka showed a lower anthocyanin accumulation that was limited to external fruit tissue, while Camarosa accumulated higher amount of anthocyanins in both internal and external sections. In addition, we cloned a full-length gene (FaPAL6) and analyzed its expression in different strawberry plant tissues. The expression of this gene is fruit specific, and increases during fruit ripening in both cultivars along with anthocyanin accumulation. The mRNA level of FaPAL6 was higher in Camarosa. PAL enzyme activity increased at similar rates in both cultivars at early ripening stages, but at the end of ripening PAL activity diminished in Toyonoka while it rose markedly in Camarosa. PAL activity was higher in internal fruit tissue, showing no correlation with anthocyanin level of the same section in both cultivars. The higher FaPAL6 expression and activity detected in Camarosa could be associated to the enhanced anthocyanin accumulation found in this cultivar.
机译:花青素色素的积累是使草莓果实吸引消费者的最重要特征之一。在成熟期间,草莓果实的颜色发展与通过苯丙烷途径合成花色苷有关。苯丙氨酸氨裂合酶(PAL)是该途径中的关键酶,对草莓果实品质具有决定性作用。在这项工作中,我们研究了两种颜色发育不同的品种(Camarosa和Toyonoka)的果实成熟过程中的花色苷水平。丰冈市显示出较低的花青素积聚,仅限于外部水果组织,而Camarosa在内部和外部部分均积聚了较高的花青素。此外,我们克隆了一个全长基因( FaPAL6 ),并分析了其在不同草莓植物组织中的表达。该基因的表达是特定于果实的,并且在两个品种的果实成熟期间都随着花青素的积累而增加。 Camarosa中 FaPAL6 的mRNA水平较高。在早熟阶段,两个品种的PAL酶活性均以相似的速率增加,但在成熟期结束时,丰冈市中的PAL活性降低,而在Camarosa中则明显升高。内部水果组织中的PAL活性较高,在两个品种中相同部位的花色苷水平均不相关。在Camarosa中检测到的较高的 FaPAL6 表达和活性可能与该品种的花色苷积累增强有关。

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