Development of Rice Mutants with Enhanced Resilience to Drought Stress and Their Evaluation by Lab Assay, Field, and Multivariate Analysis.

IF 2.3 Q2 BIOLOGY Scientifica Pub Date : 2024-08-29 eCollection Date: 2024-01-01 DOI:10.1155/2024/4373987
Shahwar Fatima, Muhammad Rashid, Amjad Hameed
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Abstract

Drought is one of the foremost devastating abiotic stresses reported for rice crops. To improve the productivity of rice, diversity is being enlarged by induced mutation using a source of gamma rays. But this type of mutation rarely results in fruitful products because the chances of getting the desired mutant are very low. The present study aimed to evaluate the rice mutants against drought or osmotic stress. In this study, three experiments were conducted that comprised of seventy-one mutants originating from different doses of gamma rays (Cs137) along with parent RICF-160 and commercial variety (Kainat) were tested. In the first experiment, germination and seedling attributes were calculated under control and osmotic stress conditions created by using 16% (0.6 MPa) polyethylene glycol (PEG-6000). Results revealed that all the mutants exhibited significant (p < 0.01) responses to PEG-induced osmotic stress. Principal component biplot analysis (PCBA) revealed the first seventeen cumulative PCs with eigenvalues >1 contributed 88%. It was noted that the germination percentage (GP), germination rate (GR), coefficient velocity of germination (CVG), and seed vigor (SV) contributed maximum and positively in PC1. Results showed the highest germination percentage (GP) at 48 hrs in mutant NMSF-11 (88.9%) followed by NMSf-38 (73.3%). Similarly, the germination rate (GR) and coefficient velocity of germination (CVG) were measured highest in NMSF-11 (9.7 and 118.1%), respectively. In stress conditions, the mutants NMSF-35 and NMSF-36 depicted the highest GP, GR, and CVG. The maximum seed vigor (SV), shoot length (SL), root length (RL), and fresh weight (FW) were observed in mutants NMSF-50 and NMSF-51 under both conditions, whereas the mutants NMSF-59, NMSF-60, NMSF-64, and NMSF-67 showed lower values for SV, SL, RL, and FW. In the second experiment, a field trial was conducted at the Nuclear Institute for Agriculture and Biology (NIAB), Faisalabad, in two control and stress sets. A bit different trend was observed among all mutants for agronomic parameters under both conditions. In the third experiment, biochemical profiling was done in Marker Assisted Breeding (MAB) Lab-1, Plant Breeding and Genetics Division. A significant variation was seen in enzymatic antioxidants and chlorophyll content in both control and stress conditions. Under control conditions, the ascorbate peroxidase (APX) content was observed higher in mutant NMSF-49 (106.07 Units/g. f. wt.). In comparison with the stress, the ascorbate peroxidase activity was higher in NMSF-41 (82.34 Units/g. f. wt.). Catalase (CAT) activity was observed maximum in NMSF-29 (17.54 Units/g. f. wt.) and NMSF-40 (14.17 Units/g. f. wt.) under control and stress conditions, respectively. Peroxidase (POD) activity was observed maximum in NMSF-51 (22.55 Units/g. f. wt. and 10.84 Units/g. f. wt.) under control and stress conditions, respectively. In conclusion, to fit in the changing climate conditions for resilient rice crop production, the promising mutant lines may be used to transfer the desirable drought-tolerant/drought-resistant genes in rice germplasm.

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开发抗旱能力更强的水稻突变体,并通过实验室检测、田间试验和多元分析对其进行评估。
据报道,干旱是对水稻作物最具破坏性的非生物胁迫之一。为了提高水稻的产量,人们利用伽马射线源进行诱导突变,从而扩大水稻的多样性。但这种类型的突变很少能产生丰硕的成果,因为获得理想突变体的几率非常低。本研究旨在评估水稻突变体对干旱或渗透胁迫的抗性。本研究共进行了三项实验,其中包括源自不同剂量伽马射线(Cs137)的 71 个突变体,以及母本 RICF-160 和商业品种(Kainat)。在第一项实验中,计算了在对照和使用 16% (0.6 兆帕)聚乙二醇(PEG-6000)产生的渗透胁迫条件下的发芽率和幼苗属性。结果表明,所有突变体对 PEG 诱导的渗透胁迫都有显著的反应(p < 0.01)。主成分双图分析(PCBA)显示,特征值大于 1 的前 17 个累积 PC 贡献了 88%。结果表明,发芽率(GP)、发芽率(GR)、发芽系数(CVG)和种子活力(SV)在 PC1 中的贡献最大且呈正相关。结果显示,突变体 NMSF-11 在 48 小时内的发芽率(GP)最高(88.9%),其次是 NMSf-38(73.3%)。同样,NMSF-11 的发芽率(GR)和发芽速度系数(CVG)也最高(分别为 9.7% 和 118.1%)。在胁迫条件下,突变体 NMSF-35 和 NMSF-36 的 GP、GR 和 CVG 最高。在这两种条件下,突变体NMSF-50和NMSF-51的种子活力(SV)、芽长(SL)、根长(RL)和鲜重(FW)最大,而突变体NMSF-59、NMSF-60、NMSF-64和NMSF-67的SV、SL、RL和FW值较低。在第二项实验中,费萨拉巴德农业与生物核研究所(NIAB)进行了田间试验,分为对照组和胁迫组。在这两种条件下,所有突变体的农艺参数都呈现出略微不同的趋势。在第三项实验中,植物育种和遗传部的标记辅助育种(MAB)实验室-1 进行了生化分析。在对照和胁迫条件下,酶抗氧化剂和叶绿素含量都有明显变化。在对照条件下,突变体 NMSF-49 的抗坏血酸过氧化物酶(APX)含量较高(106.07 单位/克体重)。与胁迫条件相比,NMSF-41 的抗坏血酸过氧化物酶活性更高(82.34 单位/克脂重)。在对照和胁迫条件下,NMSF-29(17.54 单位/克(油脂重量))和 NMSF-40(14.17 单位/克(油脂重量))的过氧化氢酶(CAT)活性分别最高。在对照和胁迫条件下,NMSF-51 的过氧化物酶(POD)活性最高(分别为 22.55 单位/克(油脂)和 10.84 单位/克(油脂))。总之,为了适应不断变化的气候条件,提高水稻作物的抗逆性,可以利用这些有前景的突变株系在水稻种质中转移理想的耐旱/抗旱基因。
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来源期刊
Scientifica
Scientifica BIOLOGY-
CiteScore
6.70
自引率
0.00%
发文量
43
审稿时长
21 weeks
期刊介绍: Scientifica is a peer-reviewed, Open Access journal that publishes research articles, review articles, and clinical studies covering a wide range of subjects in the life sciences, environmental sciences, health sciences, and medicine. The journal is divided into the 65 subject areas.
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