Exploring the synergy of enzymes, nutrients, and gene networks in rice starch granule biogenesis.

IF 4 2区 农林科学 Q2 NUTRITION & DIETETICS Frontiers in Nutrition Pub Date : 2024-10-23 eCollection Date: 2024-01-01 DOI:10.3389/fnut.2024.1448450
Sunil Indrajit Warwate, Monika Awana, Swapnil S Thakare, Veda Krishnan, Suresh Kumar, Haritha Bollinedi, Ajay Arora, Amitha Mithra Sevanthi, Mrinmoy Ray, Shelly Praveen, Archana Singh
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Abstract

Introduction: Rice is a primary food source almost for more than 50% of the total world's population. Glycemic index (GI) is high in most of the rice varieties, limiting their consumption by diabetic and obese people. As a result, developing new rice varieties with low GI necessitates a thorough understanding of starch biogenesis gene expression and its interrelationship.

Methods: A total 200 rice genotypes were analyzed for total starch content (TSC), amylopectin content (APC), and amylose content (AC). The clustering of these rice genotypes was done based on their AC. Further, these genotypes were categorized into three groups up to 10% amylose-low, 10-26% amylose-medium, and more than 26% amylose-high. Among them, six genotypes 1 from low AC (NJ-72), 2 from medium AC (UPRI-2003-18, PRR-126), and 3 from high AC (RNRM-7, Urvashi and Ananga) were selected. The genotypes selected from the medium and high AC groups were having 2% amylose variation among themselves respectively and they were further used to study the level of RS, protein content (PC), fatty acid (FA) profiles, and granule morphology along with low group sample.

Results: Resistant starch (RS) content ranged from 0.33-2.75%, and fatty acid profiling revealed high levels of palmitic, linoleic, and oleic acids. The degree of crystallinity and APC% were found to be positively correlated. Ananga, the genotype with the highest RS, displayed compact starch granules. Further, NJ-72 showing low RS and Ananga with high RS were selected for investigation of enzymatic activities of starch biosynthesis, metabolites accumulation, and expressions of 20 starch biogenesis genes in developing endosperm. Starch branching enzymes (SBE) and starch synthase (SS) activities peaked at 13 days after anthesis (DAA), while starch debranching enzymes (DBE) were most active at 18 DAA. In Ananga, TSC, AC, APC, and RS levels progressively increased from 3 to 23 DAA. Ananga showed 1.25-fold upregulation of granule-bound starch synthase I (GBSSI) at 18DAA. Higher expressions of SSI and SBEIIb were observed in NJ-72 at 13DAA. PUL2 was predominantly expressed followed by ISA1. GBSSI was positively correlated with both AC and RS while SS, SBE, and DBE were positively related to APC.

Conclusion: This research could lead to the development of rice varieties with improved nutritional qualities, such as higher RS content, which is beneficial for human health due to its role in lowering glycemic response and promoting gut health. Additionally, the study provides insights into how the modulation of key genes and enzymes can affect starch composition, offering strategies to breed rice varieties tailored for specific dietary needs or industrial applications.

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探索水稻淀粉粒生物发生过程中酶、营养物质和基因网络的协同作用。
导言:大米几乎是全球 50%以上人口的主要食物来源。大多数大米品种的血糖生成指数(GI)较高,限制了糖尿病患者和肥胖者的食用。因此,要培育低血糖生成指数的水稻新品种,就必须深入了解淀粉生物发生基因的表达及其相互关系:方法:共分析了 200 个水稻基因型的总淀粉含量(TSC)、直链淀粉含量(APC)和直链淀粉含量(AC)。根据直链淀粉含量对这些水稻基因型进行了聚类。此外,这些基因型还被分为低直链淀粉含量 10%以下、中直链淀粉含量 10-26%和高直链淀粉含量 26%以上三个组。其中,低直链淀粉基因型 1 个(NJ-72)、中等直链淀粉基因型 2 个(UPRI-2003-18、PRR-126)和高直链淀粉基因型 3 个(RNRM-7、Urvashi 和 Ananga)共 6 个。从中等淀粉含量组和高淀粉含量组中选出的基因型之间的直链淀粉变异率分别为 2%,它们与低淀粉含量组样品一起被进一步用于研究抗性淀粉(RS)水平、蛋白质含量(PC)、脂肪酸(FA)概况和颗粒形态:抗性淀粉(RS)含量为 0.33-2.75%,脂肪酸图谱显示棕榈酸、亚油酸和油酸含量较高。结晶度和 APC% 呈正相关。RS 值最高的基因型 Ananga 显示出紧密的淀粉颗粒。此外,还选择了 RS 值较低的 NJ-72 和 RS 值较高的 Ananga 来研究发育中胚乳中淀粉生物合成的酶活性、代谢物积累以及 20 个淀粉生物发生基因的表达。淀粉分支酶(SBE)和淀粉合成酶(SS)的活性在花后 13 天达到峰值,而淀粉去支链酶(DBE)的活性在花后 18 天达到最高。在安南藻中,TSC、AC、APC 和 RS 的水平从大花后 3 天到 23 天逐渐增加。在 18 DAA 时,安南藻的颗粒结合淀粉合成酶 I(GBSSI)上调了 1.25 倍。在 13DAA 时,在 NJ-72 中观察到 SSI 和 SBEIIb 的较高表达。PUL2主要表达,其次是ISA1。GBSSI 与 AC 和 RS 呈正相关,而 SS、SBE 和 DBE 与 APC 呈正相关:这项研究可开发出具有更好营养品质的水稻品种,如更高的 RS 含量,由于 RS 在降低血糖反应和促进肠道健康方面的作用,RS 对人类健康有益。此外,这项研究还提供了关于关键基因和酶的调节如何影响淀粉组成的见解,为培育适合特定饮食需求或工业应用的水稻品种提供了策略。
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来源期刊
Frontiers in Nutrition
Frontiers in Nutrition Agricultural and Biological Sciences-Food Science
CiteScore
5.20
自引率
8.00%
发文量
2891
审稿时长
12 weeks
期刊介绍: No subject pertains more to human life than nutrition. The aim of Frontiers in Nutrition is to integrate major scientific disciplines in this vast field in order to address the most relevant and pertinent questions and developments. Our ambition is to create an integrated podium based on original research, clinical trials, and contemporary reviews to build a reputable knowledge forum in the domains of human health, dietary behaviors, agronomy & 21st century food science. Through the recognized open-access Frontiers platform we welcome manuscripts to our dedicated sections relating to different areas in the field of nutrition with a focus on human health. Specialty sections in Frontiers in Nutrition include, for example, Clinical Nutrition, Nutrition & Sustainable Diets, Nutrition and Food Science Technology, Nutrition Methodology, Sport & Exercise Nutrition, Food Chemistry, and Nutritional Immunology. Based on the publication of rigorous scientific research, we thrive to achieve a visible impact on the global nutrition agenda addressing the grand challenges of our time, including obesity, malnutrition, hunger, food waste, sustainability and consumer health.
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