Mobilizing the seed storage oil in milk thistle (Silybum marianum) can supply energy for seed germination and early seedling growth and apply as TAGs breakdown marker

Q3 Agricultural and Biological Sciences

Oil Crop Science Pub Date : 2023-10-01 DOI:10.1016/j.ocsci.2023.09.004

Mohammad Shahin Daneshmandi , Maryam Mohammadi , Maryam Asadi , Adele Robati

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Abstract

Milk thistle (Silybum marianum) is a crucial medicinal plant containing a large amount of oil. In the study, the changes in storage oil during seed germination and seedling transition from heterotrophic phases were investigated. The results showed that seed oil decreased from 19.53% to 0.88% on the 7th day of seedling development. Oil hydrolysis continued until the 4th day of germination with a low slope, but then increased the use of oils in seed germination end seedling growth metabolism. The results indicated that the quantitative changes in fatty acids, presented at lower amount, were relatively higher than dominant fatty acids. There were decreasing phenolic content in the developing seedlings, but overall, lowest level of total phenolic content can be attributed to the control (30.52 mg· 100 g· Oil⁻¹). In contrast, the maximum peroxide value (2.58 meq· kg Oil⁻¹) in the developing seedling was observed on the last day of the experiment. The results showed that there was a significant correlation between saturated fatty acid, unsaturated fatty acid, and lipase activity. However, the correlation between lipase activity and polyunsaturated fatty acids was significantly higher than between lipase activity and monounsaturated fatty acids (R² = 90% and R² = 77%, respectively). Therefore, the lipolysis process acts selectively in milk thistle oils. According to the results, C12:0 exhibits a greater impact on the early seedling growth rather than on the germination process and is one of the determining factors in the transition from heterotroph to autotroph. Also, it can be a marker for TAGs breakdown.

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调动水飞蓟种子储油可为种子萌发和幼苗早期生长提供能量，并可作为标签分解标志物

水飞蓟(Silybum marianum)是一种重要的富含油脂的药用植物。研究了种子萌发和异养期幼苗过渡过程中贮藏油的变化。结果表明，在幼苗发育第7天，种子油含量较对照降低了19.53% ~ 0.88%;油脂水解持续至萌发第4天，且水解斜率较低，但随后增加了油脂在种子萌发末期幼苗生长代谢中的利用。结果表明，相对于优势脂肪酸，低量脂肪酸的定量变化相对较高。在发育中的幼苗中，总酚含量呈下降趋势，但总体而言，总酚含量最低的是对照(30.52 mg)。100g油−1)。相比之下，最大过氧化值为2.58 meq。在试验的最后一天观察发育中的幼苗的kg Oil−1)。结果表明，饱和脂肪酸、不饱和脂肪酸与脂肪酶活性呈显著相关。但脂肪酶活性与多不饱和脂肪酸的相关性显著高于与单不饱和脂肪酸的相关性(R2 = 90%， R2 = 77%)。因此，脂解过程选择性地在水飞蓟油中起作用。结果表明，C12:0对幼苗早期生长的影响大于对萌发过程的影响，是异养型向自养型过渡的决定因素之一。此外，它还可以作为标签分解的标记。

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