Muyembe Diana Kavidia, Zhang Miao, Sun Hong-Nan, Mu Tai-Hua
Laboratory of Food Chemistry and Nutrition Science, Institute of Food Science and Technology, Chinese Academy of Agricultural Sciences, Key Laboratory of Agro-Products Processing, Ministry of Agriculture and Rural Affairs, Beijing, China.
J Sci Food Agric. 2025 Mar 15;105(4):2271-2281. doi: 10.1002/jsfa.13997. Epub 2024 Oct 31.
The identification of adulterated sweet potato vermicelli faces significant challenges, seriously hindering the development of the vermicelli industry. Herein, we investigate effects of energy-gathered ultrasound (EGU) and energy-divergent ultrasound (EDU) (30, 40 and 50 W L) on structure, DNA extraction and adulterated quantification of sweet potato vermicelli and its starch, thereby exploring their potential in adulteration of sweet potato vermicelli.
EGU-assisted modified cetyltrimethylammonium bromide (CTAB) protocol with β-mercaptoethanol significantly improved DNA extraction from sweet potato vermicelli (223.7-249.2 ng μL) and its starch (133.4-186.4 ng μL), followed by EDU-assisted DNA extraction from sweet potato vermicelli (115.1-209.3 ng μL) and its starch (33.4-61.0 ng μL). Both EGU and EDU treatments resulted in the destruction of microstructure and crystalline structure, as well as changes in pasting and thermal properties of sweet potato vermicelli and its starch. Real-time polymerase chain reaction (PCR) amplification results revealed that EGU and EDU enhanced the efficiency of DNA amplification, and EDU showed smaller cycle threshold (C) values than EGU. In addition, EDU-assisted CTAB protocol combined with real-time PCR could detect levels of less than 1% of cassava and maize starches in sweet potato vermicelli.
EDU-assisted CTAB protocol combined with real-time PCR shows promise as a sensitive and reliable analytical tool for vermicelli adulteration. © 2024 Society of Chemical Industry.
掺假红薯粉丝的鉴定面临重大挑战,严重阻碍了粉丝行业的发展。在此,我们研究了聚能超声(EGU)和发散能超声(EDU)(30、40和50 W/L)对红薯粉丝及其淀粉的结构、DNA提取和掺假定量的影响,从而探索它们在红薯粉丝掺假方面的潜力。
聚能超声辅助的十六烷基三甲基溴化铵(CTAB)改良方法并添加β-巯基乙醇显著提高了从红薯粉丝(223.7 - 249.2 ng/μL)及其淀粉(133.4 - 186.4 ng/μL)中提取DNA的效率,其次是发散能超声辅助从红薯粉丝(115.1 - 209.3 ng/μL)及其淀粉(33.4 - 61.0 ng/μL)中提取DNA。聚能超声和发散能超声处理均导致红薯粉丝及其淀粉的微观结构和晶体结构遭到破坏,以及糊化和热性能发生变化。实时聚合酶链反应(PCR)扩增结果表明,聚能超声和发散能超声提高了DNA扩增效率,且发散能超声的循环阈值(C)值比聚能超声小。此外,发散能超声辅助的CTAB方法结合实时PCR能够检测出红薯粉丝中含量低于1%的木薯和玉米淀粉。
发散能超声辅助的CTAB方法结合实时PCR有望成为一种灵敏可靠的粉丝掺假分析工具。© 2024化学工业协会。
