CN1297817C - 一种分析粉末大豆磷脂成分的方法 - Google Patents
一种分析粉末大豆磷脂成分的方法 Download PDFInfo
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Abstract
一种分析粉末大豆磷脂成分的方法,该方法采用2.5cm×7.5cm的载玻片制成的硅胶板作为薄层层析板,用一种高效展开剂使粉末大豆磷脂成分在2.5cm×7.5cm的载玻片薄层层析板上得到分离。然后用几种显色剂进行组合显色,不需要用价格昂贵的标准品,即可确定粉末大豆磷脂的成分及含量。所需时间仅为20cm×20cm薄层层析板的1/5,展开剂用量仅为5~10ml。
Description
技术领域
本发明涉及产品分析检测领域,尤其涉及对现有粉末大豆磷脂成分的分析方法进行改进和创新,达到快速、简便、低成本地分析粉末大豆磷脂成分的目的。
背景技术
常规定磷法只能分析粉末大豆磷脂样品中总磷脂含量,不能确定粉末大豆磷脂样品中各磷脂成分(卵磷脂、脑磷脂、肌醇磷脂)及其含量。
国外通常采用高效液相色谱或核磁共振31P-NMR法对粉末大豆磷脂成分进行分析,但这两种仪器价格昂贵,普通实验室不具备。所以对粉末大豆磷脂成分进行分析,一直是困扰生产厂家的难题。
普通实验室通常采用薄层层析法对粉末大豆磷脂成分进行分析。其方法是采用20cm×20cm的薄层层析板,将粉末大豆磷脂用溶剂溶解,然后与各磷脂标准品溶液在同一直线处点样、展开(各点相距2~3cm)。用碘蒸汽显色。将粉末大豆磷脂各磷脂成分的斑点与各标准品斑点进行比较,从而确定粉末大豆磷脂的成分,进而确定其含量。该方法需要用到纯的标准品,而这些用于分析检测的纯标准品价格极贵,也很不稳定,难以保存,几乎是一次性使用。其次,20cm×20cm的薄层层析板用于分析需要耗费很长时间,而且展开剂的用量太大,造成很大的浪费和环境污染。
发明内容
根据现有粉末大豆磷脂成分分析方法所存在的上述缺点,本发明所要解决的粉末大豆磷脂成分分析方案是:要提供一种高效展开剂,使粉末大豆磷脂各磷脂成分在很小的薄层层析板上得到快速分离。其次,采用显色剂组合显色法确定各磷脂成分,不用价格昂贵的标准品。
为此,本发明的技术方案是:采用2.5cm×7.5cm的载玻片制成的硅胶板作为薄层层析板,点样后用高效展开剂展开,采用几种显色剂进行组合显色。具体方法是:
称取适量粉末大豆磷脂,用溶剂溶解配制成一定浓度。在距薄板下端0.5~1cm处点样。将已点样的薄层层析板放入到装有展开剂的层析缸中,当展开剂上升到薄层层析板高度的4/5处,取出薄层层析板,将上述薄层层析板在室温下放置几分钟,待溶剂挥发后,用显色剂1喷在薄板上,卵磷脂斑点会显示橙色,而其它磷脂斑点不显色。用显色剂2喷在薄板上,在烘箱中加热几分钟,脑磷脂斑点会显示粉红色。对上述两种显色剂不显色,而对碘蒸汽显色的斑点即为肌醇磷脂。若要进行定量分析,可采用定磷分析法计算各磷脂的含量。
采用本发明方法对粉末大豆磷脂成分进行分析,所需时间仅为20cm×20cm大薄层层析板的1/5,展开剂用量减少了80%。进行定量分析时其结果与用20cm×20cm的大薄层层析板分析结果相同。
本发明所用展开剂如下:
展开剂为氯仿、甲醇、乙酸乙酯和水的混合物,以重量比计算,氯仿含量为20~30%,甲醇含量为50~70%,乙酸乙酯含量为5~10%,水的含量为5~15%,调节pH至2~5。
本发明所用显色剂如下:
1.显色剂1
将醋酸、硝酸铋、碘化钾溶于水中,以重量比计算,醋酸含量控制在0.5~5%,硝酸铋的含量控制在1~10%,碘化钾的含量控制在3~10%。
2.显色剂2
将茚三酮溶于醇中配成0.1~1%的溶液,在此溶液中加入浓度为5~15%醋酸水溶液,以重量比计算,醋酸水溶液的加入量控制在3~15%。
具体实施方式1
粉末大豆磷脂成分的定性分析:用毛细管蘸取粉末大豆磷脂的氯仿浓溶液,在距薄层层析板底部约0.5~1cm处点样。将点样后的薄层层析板放入装有展开剂的烧杯中,烧杯上部用塑料薄膜封口,使溶剂不能挥发出来。待展开剂上升到薄层层析板高度的4/5处时,取出薄层层析板,将此薄层层析板在室温下放置几分钟,待溶剂挥发后,用显色剂1喷在薄板上,卵磷脂斑点会显示橙色,而其它磷脂斑点不显色。然后用显色剂2喷在薄板上,在烘箱中加热几分钟,脑磷脂斑点会显示粉红色。对上述两种显色剂不显色,而对碘蒸汽显棕色的斑点即为肌醇磷脂。
具体实施方式2
粉末大豆磷脂成分的定量分析:准确称取30mg粉末大豆磷脂,用氯仿溶解,制成1%的粉末大豆磷脂氯仿溶液。用微量注射器吸取10μl此溶液,在距搏层层析板底部约0.5~1cm处点样。将点样后的薄层层析板放入装有展开剂的烧杯中,烧杯上部用塑料薄膜封口,使溶剂不能挥发出来。待展开剂上升到薄层层析板高度的4/5处时,取出薄层层析板。将上述薄层层析板在室温下放置几分钟,待溶剂挥发后,用显色剂进行组合显色,采用定磷分析法计算各磷脂的含量。
Claims (1)
1.一种分析粉末大豆磷脂成分的方法,其特征是:用一种高效展开剂,使粉末大豆磷脂成分在2.5cm×7.5cm的载玻片制成的硅胶薄层层析板上得到完全展开和分离,将上述薄层层析板在室温下放置几分钟,待溶剂挥发后,用显色剂1喷在薄板上,显示橙色的斑点为卵磷脂斑点;用显色剂2喷在薄板上,在烘箱中加热几分钟,显示红色的斑点为脑磷脂斑点;对上述两种显色剂不显色而对碘蒸汽显色的斑点为肌醇磷脂斑点,所述高效展开剂是氯仿、甲醇、乙酸乙酯和水的混合物,以重量比计算,氯仿含量为20~30%,甲醇含量为50~70%,乙酸乙酯含量为5~10%,水的含量为5~15%,调节pH至2~5;所述显色剂1是醋酸、硝酸铋、碘化钾混合水溶液,以重量比计算,醋酸含量为0.5~5%,硝酸铋含量为1~10%,碘化钾含量为3~10%;所述显色剂2是浓度为0.1~1%的茚三酮醇溶液中加入浓度为5~15%的醋酸水溶液,以重量比计算,醋酸水溶液的加入量为3~15%。
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Citations (4)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| SU1368779A1 (ru) * | 1986-04-25 | 1988-01-23 | Харьковский государственный университет им.А.М.Горького | Колориметрический способ определени количества фосфолипидов в хроматографических фракци х в тонком слое силикагел |
| RU1778684C (ru) * | 1990-10-10 | 1992-11-30 | Институт физиологии растений им.К.А.Тимирязева | Способ определени границ хроматографических зон отдельных классов фосфолипидов при разделении их смеси методом тонкослойной хроматографии |
| CN1226316A (zh) * | 1996-05-30 | 1999-08-18 | 克里夫兰诊所基金会 | 检测妇科癌症的方法 |
| EP1327142A2 (en) * | 2000-10-19 | 2003-07-16 | Edwards Lifesciences Corporation | Methods for quantitative and qualitative analyses of phospholipids using one-dimensional thin layer chromatography |
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| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| SU1368779A1 (ru) * | 1986-04-25 | 1988-01-23 | Харьковский государственный университет им.А.М.Горького | Колориметрический способ определени количества фосфолипидов в хроматографических фракци х в тонком слое силикагел |
| RU1778684C (ru) * | 1990-10-10 | 1992-11-30 | Институт физиологии растений им.К.А.Тимирязева | Способ определени границ хроматографических зон отдельных классов фосфолипидов при разделении их смеси методом тонкослойной хроматографии |
| CN1226316A (zh) * | 1996-05-30 | 1999-08-18 | 克里夫兰诊所基金会 | 检测妇科癌症的方法 |
| EP1327142A2 (en) * | 2000-10-19 | 2003-07-16 | Edwards Lifesciences Corporation | Methods for quantitative and qualitative analyses of phospholipids using one-dimensional thin layer chromatography |
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