马铃薯液泡膜糖转运蛋白1在采后冷藏过程中控制块茎糖的积累。

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/uhad035
Tengfei Liu, Md Abu Kawochar, Shahnewaz Begum, Enshuang Wang, Tingting Zhou, Shenglin Jing, Tiantian Liu, Liu Yu, Bihua Nie, Botao Song
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引用次数: 0

摘要

冷诱导增甜(CIS)是冷藏马铃薯(Solanum tuberosum L.)块茎中不理想的糖积累,是马铃薯加工行业中一个严重的采后问题。尽管人们对马铃薯CIS过程中液泡转化酶水解蔗糖的过程有很好的了解,但对采后冷藏过程中蔗糖从胞质溶胶运输到液泡的了解有限。在此,我们报道了在三种马铃薯液泡膜糖转运蛋白(TSTs)中,StTST1在采后冷藏期间在块茎中表现出最高的表达。亚细胞定位分析表明StTST1是液泡膜定位蛋白。StTST1基因敲低降低了低温贮藏期间块茎中还原糖的积累。与野生型相比,由StTST1沉默的块茎生产的薯片在冷藏后显示出显著较低的丙烯酰胺水平和较浅的颜色。转录组分析表明,StTST1的抑制促进冷藏块茎中的淀粉合成并抑制淀粉降解。我们进一步证实,StTST1沉默块茎中蔗糖含量的增加可能导致ABA含量的降低,从而抑制ABA信号通路。我们证明,β-淀粉酶StBAM1在StTST1沉默的块茎中的下调可能由ABA反应元件结合蛋白(AREBs)直接控制。总之,我们已经表明,StTST1在采后冷藏过程中的糖积累和淀粉代谢调节中起着关键作用。因此,我们的发现为提高冷藏块茎的油炸质量和降低薯片中丙烯酰胺含量提供了一种新的策略。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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Potato tonoplast sugar transporter 1 controls tuber sugar accumulation during postharvest cold storage.

Cold-induced sweetening (CIS), the undesirable sugar accumulation in cold-stored potato (Solanum tuberosum L.) tubers, is a severe postharvest issue in the potato processing industry. Although the process of sucrose hydrolysis by vacuolar invertase during potato CIS is well understood, there is limited knowledge about the transportation of sucrose from the cytosol to the vacuole during postharvest cold storage. Here, we report that among the three potato tonoplast sugar transporters (TSTs), StTST1 exhibits the highest expression in tubers during postharvest cold storage. Subcellular localization analysis demonstrates that StTST1 is a tonoplast-localized protein. StTST1 knockdown decreases reducing sugar accumulation in tubers during low-temperature storage. Compared to wild-type, potato chips produced from StTST1-silenced tubers displayed significantly lower acrylamide levels and lighter color after cold storage. Transcriptome analysis manifests that suppression of StTST1 promotes starch synthesis and inhibits starch degradation in cold-stored tubers. We further establish that the increased sucrose content in the StTST1-silenced tubers might cause a decrease in the ABA content, thereby inhibiting the ABA-signaling pathway. We demonstrate that the down-regulation of β-amylase StBAM1 in StTST1-silenced tubers might be directly controlled by ABA-responsive element-binding proteins (AREBs). Altogether, we have shown that StTST1 plays a critical role in sugar accumulation and starch metabolism regulation during postharvest cold storage. Thus, our findings provide a new strategy to improve the frying quality of cold-stored tubers and reduce the acrylamide content in potato chips.

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