秘鲁玛咖(Lepidium peruvianum) - III:栽培海拔对四种主要玛咖表型植物化学和遗传差异的影响

H. Meissner, A. Mścisz, M. Baraniak, E. Piątkowska, P. Pisulewski, M. Mrozikiewicz, T. Bobkiewicz‐Kozlowska
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引用次数: 7

摘要

在两项试验中,研究了饮食和硫代葡萄糖苷在四种玛卡表型中的特征,并扩展到DNA序列的测定。在海拔2,800 ~ 4,300 m的秘鲁安第斯山脉4个地理位置较远的地区种植的混合玛卡作物中,分别分离出“黄”、“黑”、“红”和“紫”4种主要表型的下胚轴。结果表明,在海拔较高的地区种植红色和紫色玛卡表型的玛卡,其下胚轴含量显著较高(P0.05),硫代葡萄糖苷含量始终最低。因此,有理由认为,生长红、紫、黑三种表型玛咖的海拔高度可能是其生理功能变化的原因,从而导致不同海拔地区生长的玛咖表型所带来的特定治疗和健康益处不同于预期。虽然很有希望,但DNA序列的差异不够精确,无法区分在相同或地理距离较远的地方种植的四种玛卡表型,并且在不同的海拔收获,这是毫无疑问的。考虑到玛卡种植海拔恶劣环境诱导的次生代谢物的生物合成和适应途径,需要更多的引物和更多的玛卡表型进行进一步的DNA序列研究。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Peruvian Maca (Lepidium peruvianum) – III: The Effects of Cultivation Altitude on Phytochemical and Genetic Differences in the Four Prime Maca Phenotypes
In two trials, dietary and Glucosinolates’ characteristics in four Maca phenotypes have been examined with an extension into the determination of DNA sequences. Hypocotyls of the four prime phenotypes of Peruvian Maca - Lepidium peruvianum Chacon, labelled as “Yellow”, “Black”, “Red” and “Purple” were separated from mixed Maca crops cultivated in four geographically-distant locations in the Peruvian Andes at altitudes between 2,800m and 4,300 m a.s.l. It was found that at higher altitudes where Red and Purple Maca phenotypes were grown, the significantly higher (P<0.05) Glucosinolates’ concentrations, adopted as the marker of Maca physiological activity, were observed with the Purple phenotype showing the highest Glucosinolates’ content at 4,300m a.s.l., followed by the Red-coloured hypocotyls. Black Maca showed a reversal, but also a significant (P<0.05) trend, while the Yellow phenotype showed no visible altitude-inflicted response (P>0.05) and has consistently the lowest Glucosinolates content. Thus, it is reasonable to assume that the altitude at which Red, Purple and Black phenotypes of L. peruvianum are grown, may be responsible for the variation in physiologic functionalities, leading to different than expected specific therapeutic and health benefits induced by Maca phenotypes grown at diverse altitudes. Although promising, insufficiently precise differences in DNA sequences failed to distinguish, without any reasonable doubt, four Maca phenotypes cultivated either in the same or geographically-distant locations, and harvested at different altitudes a.s.l. Further research on DNA sequences is needed, with more primers and larger number of Maca phenotypes, considering biosynthesis of secondary metabolites and adaptation pathways induced by harsh environment at altitudes where Maca is cultivated.
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