具有超高抗性淀粉水平的非转基因BEI和BEIIb双突变水稻（Oryza sativa）的生成及淀粉特性分析

Generation and Starch Characterization of Non-Transgenic BEI and BEIIb Double Mutant Rice (Oryza sativa) with Ultra-High Level of Resistant Starch.

作者信息

Miura Satoko, Koyama Nana, Crofts Naoko, Hosaka Yuko, Abe Misato, Fujita Naoko

机构信息

Department of Biological Production, Akita Prefectural University, Akita, 010-0195, Japan.

出版信息

Rice (N Y). 2021 Jan 6;14(1):3. doi: 10.1186/s12284-020-00441-0.

DOI:10.1186/s12284-020-00441-0

PMID:33409744

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7788159/

Abstract

BACKGROUND

Cereals high in resistant starch (RS) are gaining popularity, as their intake is thought to help manage diabetes and prediabetes. Number of patients suffering from diabetes is also increasing in Asian countries where people consume rice as a staple food, hence generation of practically growable high RS rice line has been anticipated. It is known that suppression of starch branching enzyme (BE) IIb increases RS content in cereals. To further increase RS content and for more practical use, we generated a non-transgenic be1 be2b double mutant rice (Oryza sativa) line, which completely lacked both proteins, by crossing a be1 mutant with a be2b mutant.

RESULTS

The be1 be2b mutant showed a decrease in intermediate amylopectin chains and an increase in long amylopectin chains compared with be2b. The amylose content of be1 be2b mutant (51.7%) was the highest among all pre-existing non-transgenic rice lines. To understand the effects of chewing cooked rice and cooking rice flour on RS content, RS content of mashed and un-mashed cooked rice as well as raw and gelatinized rice flour were measured using be1 be2b and its parent mutant lines. The RS contents of mashed cooked rice and raw rice flour of be1 be2b mutant (28.4% and 35.1%, respectively) were 3-fold higher than those of be2b mutant. Gel-filtration analyses of starch treated with digestive enzymes showed that the RS in be1 be2b mutant was composed of the degradation products of amylose and long amylopectin chains. Seed weight of be1 be2b mutant was approximately 60% of the wild type and rather heavier than that of be2b mutant.

CONCLUSIONS

The endosperm starch in be1 be2b double mutant rice were enriched with long amylopectin chains. This led to a great increase in RS content in cooked rice grains and rice flour in be1 be2b compared with be2b single mutant. be1 be2b generated in this study must serve as a good material for an ultra-high RS rice cultivar.

摘要

背景

富含抗性淀粉（RS）的谷物越来越受欢迎，因为人们认为摄入这类谷物有助于控制糖尿病和糖尿病前期。在以大米为主食的亚洲国家，糖尿病患者的数量也在增加，因此人们期待培育出实际可种植的高RS水稻品种。已知抑制淀粉分支酶（BE）IIb可增加谷物中的RS含量。为了进一步提高RS含量并实现更实际的应用，我们通过将be1突变体与be2b突变体杂交，培育出了一种非转基因的be1 be2b双突变水稻（Oryza sativa）品系，该品系完全缺乏这两种蛋白质。

结果

与be2b相比，be1 be2b突变体的中等支链淀粉链减少，长支链淀粉链增加。be1 be2b突变体的直链淀粉含量（51.7%）在所有现有的非转基因水稻品系中最高。为了了解咀嚼煮熟的米饭和煮制米粉对RS含量的影响，我们使用be1 be2b及其亲本突变体系测量了捣碎和未捣碎的煮熟米饭以及生米粉和糊化米粉的RS含量。be1 be2b突变体的捣碎煮熟米饭和生米粉的RS含量（分别为28.4%和35.1%）比be2b突变体高3倍。用消化酶处理淀粉的凝胶过滤分析表明，be1 be2b突变体中的RS由直链淀粉和长支链淀粉链的降解产物组成。be1 be2b突变体的种子重量约为野生型的60%，比be2b突变体的种子稍重。

结论

be1 be2b双突变水稻的胚乳淀粉富含长支链淀粉链。这导致be1 be2b与be2b单突变体相比，煮熟的米粒和米粉中的RS含量大幅增加。本研究中培育出的be1 be2b必定是超高RS水稻品种的优良材料。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1539/7788159/c0ea8df246a6/12284_2020_441_Fig1_HTML.jpg

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具有超高抗性淀粉水平的非转基因BEI和BEIIb双突变水稻（Oryza sativa）的生成及淀粉特性分析

Generation and Starch Characterization of Non-Transgenic BEI and BEIIb Double Mutant Rice (Oryza sativa) with Ultra-High Level of Resistant Starch.

作者信息

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出版信息

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