蛹虫草中硒的赋存形态及蛋白硒分析

为研究蛹虫草中硒的赋存形态,并进一步探究蛹虫草硒蛋白组分中硒含量的分布,以蛹虫草子实体为研究对象,用DAN荧光法测定了硒含量,用连续提取法进行了蛋白硒分析。结果表明,蛹虫草最高硒含量为89.486mg·kg-1,有机硒占85.96%;蛹虫草中蛋白硒、多糖硒和核酸硒分别占有机硒的71.4%~77.1%、19.7%~32.3%和0.138%~2.727%;在硒蛋白组分中虫草盐溶性蛋白、水溶性蛋白、醇溶性蛋白和碱溶性蛋白结合硒分别占总蛋白硒的55.13%~56.80%、20.47%~24.60%、15.30%~16.49%和2.99%~3.35%。蛹虫草具有很强的富硒能力;在蛹虫草子实体中,有机硒主要与蛋白质、多糖、核酸等生物大分子结合,其中蛋白质结合硒是硒的主要赋存形态;在蛋白质组分中,又以盐溶性蛋白质结合硒量最多。     

富硒蛹虫草试样中硒的形态分析

本文采用连续浸提法研究了富硒蛹虫草中硒的赋存形态。结果表明,碱溶态>盐溶态>水溶态>醇溶态>残渣态。可见,碱浸取是获取植物蛋白的有效途径,在富硒蛹虫草试样中硒主要以硒蛋白的形式存在。     

体积排阻色谱-电感耦合等离子体质谱分析富硒大米含硒蛋白组成

建立体积排阻色谱-电感耦合等离子体质谱(SEC-HPLC-ICP-MS)联用技术分析富硒大米含硒蛋白组成方法。通过水提、盐提、碱提和醇提方法提取,并用丙酮沉淀蛋白,硒的回收率分别为9.6%,16.8%,48.2%和14.9%,纯化后的蛋白结合硒的量由大到小依次为碱溶谷蛋白>球蛋白>醇溶蛋白>清蛋白。蛋白液经SEC-HPLC-ICP-MS检测,通过蛋白色谱峰(λ=280 nm)和ICP-MS硒峰(78Se)对比分析,利用分子量标准曲线测定出4类蛋白中含硒蛋白的分子量。结果表明,富硒大米中清蛋白和醇溶蛋白并不是硒的主要存在蛋白。硒主要存在于>7 kDa的碱溶谷蛋白和球蛋白,其中碱溶含硒蛋白主要组分F1分子量为199.8 kDa。     

高效液相色谱-等离子体质谱联用方法研究富硒大米中硒的形态

根据Osborne溶解性蛋白质分类法,用去离子水、2%NaCl溶液、70%乙醇、0.5%KOH4种溶液分别提取出大米中相应的清蛋白、球蛋白、醇溶蛋白及谷蛋白。利用电感耦合等离子质谱(ICP-MS)测量各类蛋白提取液中的硒含量;用色谱与质谱联用法对大米蛋白提取液中含硒蛋白组分及含硒氨基酸组成进行初步分析。结果表明:大米中的硒主要与蛋白质结合,在4类蛋白提取液中硒含量由高到低的分布顺序为:谷蛋白、醇溶蛋白、清蛋白和球蛋白。清蛋白提取液中,分子量为12.6 kDa蛋白是主要的含硒蛋白组分;大米中约30%的硒以硒代半胱氨酸形式存在。     

HPLC-ICP-MS联用技术在富硒金针菇硒的形态分析中的应用

从富硒培养的金针菇中分离得到含硒化合物, 并采用SE-HPLC-ICP-MS联机技术对浸提液中的含硒化合物进行分离分析; 同时对样品中的硒蛋白在特定条件下水解, 采用RP-HPLC-ICP-MS联机技术对水解液中硒代氨基酸进行确认, 并测定其中硒的含量. 结果表明, 可溶态硒是富硒金针菇中硒的主要存在形式, 其中小分子含硒有机化合物中的含硒量占浸提液中硒的71.87%; 而含硒蛋白所占比例为4.88%; 进一步确定富硒金针菇中含有硒代胱氨酸、硒代蛋氨酸和由二者组成的含硒多肽等, 各形态硒的含量为总硒量的12.3%, 17.6%和36.8%. 本方法将具有高效分离能力的色谱技术与高灵敏度的元素检测技术成功结合, 用于含硒生物分子中硒的在线分析, 具有快速、灵敏及准确等特点.     

La(NO3)3对蛹虫草活性物质含量的影响EI北大核心CSCD

蛹虫草是一种著名的药用和食用真菌,研究者们常在培养基中添加亚硒酸钠、Fe SO4等无机物来提高蛹虫草活性物质的含量。本文采用高效液相色谱法和紫外分光光度法测定了La(NO3)3处理后蛹虫草活性物质的含量,探究La(NO3)3对蛹虫草活性物质含量的影响。结果表明,在实验浓度范围内,10,50和200 mg·L-1这3个浓度对蛹虫草的活性物质含量影响较大。La(NO3)3浓度为10 mg·L-1时,对喷司他丁、虫草酸和多糖合成具有促进作用,其含量分别为空白组的6.2倍、2.4倍和1.3倍,La(NO3)3对蛹虫草的腺苷和N6-2-羟乙基腺苷合成具有抑制作用,其含量仅为空白组的24.29%和16.87%。La(NO3)3浓度为50 mg·L-1时,对虫草素合成具有显著促进作用,其含量为空白组的8.2倍,La(NO3)3对多糖合成具有抑制作用,其含量仅为空白组的73.14%。La(NO3)3浓度为200 mg·L-1时,对腺苷和N6-2-羟乙基腺苷合成具有促进作用,其含量分别为空白组的1.5倍和2.6倍。La(NO3)3对麦角甾醇和蛋白质的含量未产生显著影响(P>0.05)。     

富硒蛹虫草的抗氧化活性研究

采用现代分离技术从富硒蛹虫草中提取硒多糖,然后以苯酚-硫酸法、电感耦合等离子体质谱（ICP—MS）法对硒多糖中多糖含量和硒含量进行测定;在Fenton体系的最佳实验条件下,研究了硒多糖对羟自由基的清除作用及硒多糖对支撑磷脂双层膜（Supported Bilayer Lipid Membranes,s—BLM）的保护作用。结果表明：硒多糖清除羟自由基的效果比与之相同浓度的无机硒、多糖都要明显。其中硒多糖对羟自由基的最高清除率可达38．02％,硒多糖具有很强的抗脂质过氧化、保护支撑磷脂双层膜的作用。     

富硒香菇规模化栽培实验及其富硒规律研究

为了了解规模化栽培后富硒香菇的产量(生物学效率)及富硒规律,通过香菇栽培基质添加模式,采取规模化生产进行富硒香菇栽培实验,选取不同浓度硒营养强化剂对香菇品种“向阳二号”和“9608”进行添加,测定相对应的香菇生物学效率以及第一潮次和第二潮次的总硒及硒代氨基酸的含量。实验发现“向阳二号”香菇,在硒添加量较低(0～6 mg/kg)时,香菇的生物转化率基本不随硒添加量的增加而改变,当硒添加量继续增加(10～60 mg/kg)时,香菇的生物转化率整体低于低添加量;“9608”香菇,随着硒添加量的增加(0～60 mg/kg),香菇的生物转化率表现出微弱的增加趋势,但差异性不显著;而两种不同品种、潮次香菇的总硒及硒代氨基酸含量均随着硒添加量的增加而提高,但硒代氨基酸占总硒的比例变化趋势却有所不同,在66.7%～85.4%。此外,对于不同品种的香菇,其第一潮次总硒含量在硒的添加量0～20 mg/kg的范围内呈现良好的规律性,总硒是基质(风干)中硒含量的约4～5倍。可见,按照拟定的规模化栽培模式进行生产栽培,可以得到总硒含量稳定、硒代氨基酸占总硒比>65%的富硒香菇产品,对富硒香菇产业的发展有一...     

柱前衍生化-HPLC法测定恩施3种富硒蔬菜中硒氨基酸

采用HPLC与ICP-MS间隙联用的方法,以柱前衍生化-HPLC法进行定性定量分析,使用ICP-MS鉴定,建立一种富硒蔬菜中硒氨基酸的分离检测方法。结果表明:所测定的硒代氨基酸在其线性范围内呈现良好的线性关系(R2>0.999)。该方法中硒代蛋氨酸和硒代胱氨酸的检出限分别为0.204 mg/L和0.680 mg/L,加标回收率分别为97.4%和94.0%,RSD分别为2.1%和0.69%。检测恩施富硒蔬菜样品,白菜、萝卜叶和苋菜含有硒代蛋氨酸和硒代胱氨酸。此方法可用于富硒蔬菜中硒代氨基酸的含量检测。     

氢化物发生-原子荧光光谱法测定北虫草中总硒和无机硒

北虫草试样经硝酸-高氯酸(5+1)混合酸消解,用原子荧光光谱法测定总硒的含量;北虫草试样用盐酸浸提,用原子荧光光谱法测定无机硒的含量。使用溶于5g.L-1氢氧化钾溶液中的20g.L-1硼氢化钾溶液使与溶液中硒离子反应生成氢化物。分析中采用载气及屏蔽气的流量依次为500mL.min-1及1 000mL.min-1。荧光强度与硒的质量浓度在100μg·L-1以内呈线性关系,方法的检出限(3s/k)为0.2μg·L-1。应用此法测定北虫草中硒的含量,总砷测定值的相对标准偏差(n=5)在3.4%～3.9%之间,无机硒的平均回收率为103%。     

Analysis of the selenium species distribution in cow blood by size exclusion liquid chromatography–inductively coupled plasma collision cell mass spectrometry (SEC–ICPccMS)

A method for performing rapid semiquantitative screening of the distribution of Se species in the blood of cows fed with a diet enriched in selenized yeast was optimized. The method was based on direct injection of a blood sample onto a high resolution size exclusion chromatographic column and fractionation of the selenium species. Selenium was detected on-line by ICP-MS with a collision cell. The concentrations of selenized haemoglobin and free selenomethionine were estimated using the chromatogram. The method was applied to a study involving 15 control and 15 treated dairy cows at four different supplementation time points. The increase in the selenomethionine and selenized haemoglobin was a linear function of the total selenium concentration. A threshold value of 600 ng ml(-1) of total Se was established beyond which selenomethionine could not be incorporated into the protein. No inorganic selenium was found to be present. The total selenium in cow blood correlated well with that in milk. The selenium supplementation did not change the protein distribution profiles for other essential elements (Cu, Fe, Mn, Zn).     

Investigation of the recovery of selenomethionine from selenized yeast by two-dimensional LC–ICP MS

Determination of selenomethionine in selenized yeast by HPLC–ICP MS has been revisited with the focus on recovery of this amino acid during the proteolytic digestion and chromatography steps. Recovery of the extracted selenium from an anion-exchange column was 100% but selenomethionine quantified by the method of standard additions accounted only for 67% of the selenium injected. Analysis (by size-exclusion LC–ICP MS) of the eluate collected before and after the selenomethionine peak showed the presence of oxidized selenomethionine (ca. 3%) and selenomethionine likely to be unspecifically associated with the biological matrix continuum (ca. 11%). This finding was validated by two-dimensional LC–ICP MS using a different elution order, i.e. size-exclusion anion-exchange. The approach developed enabled demonstration that more than 80% of selenium in the selenized yeast is actually present in the form of selenomethionine and suggests that many results reported elsewhere for the concentration of this vital amino acid in selenized yeast may be negatively biased. The research also provided insight into speciation of selenium in the solid residue after proteolytic extraction but the additional amount of selenomethionine recovered was negligible (<1.5%).     

Speciation and bioavailability of selenium in yeast-based intervention agents used in cancer chemoprevention studies

This study investigated the speciation and bioavailability of selenium in yeast-based intervention agents from multiple manufacturers from several time points. Sources of selenized yeast included Nutrition 21 (San Diego, CA), which supplied the Nutritional Prevention of Cancer (NPC) Trial from 1981-1996; Cypress Systems (Fresno, CA; 1997-1999); and Pharma Nord (Vejle, Denmark; 1999-2000), which supplied the Prevention of Cancer by Intervention by Selenium (PRECISE) Trial pilot studies. The low-molecular-selenium species were liberated from the samples by proteolytic hydrolysis followed by separation by ion exchange liquid chromatography and detection by inductively coupled plasma-mass spectrometry. The results for the NPC tablets showed that selenomethionine, together with 3 unidentified selenium compounds, were predominant in the sample hydrolysates. The relative amounts of the 4 selenium species varied (p < 0.05) among several of the 7 tablet batches used during the course of the NPC Trial. In comparison, 5 batches of more recently produced selenized yeasts, which were used as a source of selenium in the PRECISE and other trials, contained less of the unknown compounds and more selenomethionine at 54-60% of the total selenium in the yeasts. One batch of yeast, however (from 1985), which originated from the same producer as the yeast used in the NPC tablets, contained only 27% of selenium in the sample as selenomethionine. Human subjects receiving 200 microg selenium/day in the UK PRECISE Pilot Trial showed a higher concentration (p < 0.01) and higher increase from baseline in plasma selenium than did the same dosage used in the NPC Trial. Differences in intake, speciation, or bioavailability of selenium from the yeast-based supplements in the population groups studied may explain this. Furthermore, the selenium concentration in whole blood from the Danish PRECISE Pilot Trial was higher (p < 0.001) than that obtained with synthetic L-selenomethionine in a comparable group of Danes, both groups having been treated with 300 microg selenium/day.     

Speciation of selenium in selenium-enriched shiitake mushroom, Lentinula edodes

The major selenium compound in an aqueous extract of the most popular mushroom in Eastern Asian countries, shiitake (Lentinula edodes), fortified with selenium (Se) was identified by means of hyphenated techniques, i.e. HPLC-inductively coupled argon plasma mass spectrometry and HPLC-electrospray ionization mass spectrometry (HPLC–ICP MS and HPLC–ESI MS). Sixty-eight per cent of the total Se in the selenized shiitake was extracted with water, and 49.8% of the Se in the water extract was eluted in the high molecular mass fraction (>40,000 kDa) before incubation at 37 °C. After incubation, 40.6% of the Se in the water extract was eluted in a lower molecular mass fraction and the Se eluted in the high molecular mass fraction had decreased to 14.0%, suggesting that the major selenium compound in the water extract was initially in a form bound to macromolecule(s) and was then enzymatically liberated from the macromolecule(s). The retention time of the liberated selenium compound in HPLC–ICP MS matched that of selenomethionine (SeMet), and the masses of molecular and fragment ions detected by HPLC–ESI MS also suggested that the selenium compound was SeMet. The selenized shiitake accumulated Se as SeMet, and SeMet might be bound to the water extractable high molecular mass protein(s).Electronic Supplementary Material Supplementary material is available for this article at     

盐酸还原-氢化物原子荧光法测定人工北虫草中的硒

为建立氢化物原子荧光法测定人工北虫草中硒的方法,用浓盐酸替换硫脲-抗坏血酸对硒的预还原,考察了酸介质、KBH4质量浓度及共存元素的影响和干扰消除的方法,确定了最佳测定条件。结果表明,在最佳实验条件下,硒的最低检出限为0.2μg/L,RSD为1.9%~2.3%,回收率为108%~109%,该法具有简便,快速、灵敏度、准确度高、干扰少等优点。实际样品显示人工北虫草中含有丰富的硒。     

Improving selenium extraction by sequential enzymatic processes for Se-speciation of selenium-enriched Agaricus bisporus

Sample preparation methods based on the use of proteolytic and cell wall digesting enzymes for the speciation analysis of selenized mushroom were investigated. The sample (Agaricus bisporus; 160 microg total Se per g sample) was grown on compost supplemented with selenized yeast. Experiments were carried out to elucidate the possible role of the cell wall digesting enzymes--Lysing enzyme and Driselase--in the improvement of extraction efficiency with and without inhibiting proteolysis during cell wall digestion. A 3-step procedure applying Lysing enzyme and pronase gave the highest extraction efficiency (89%); however, the best species recovery was achieved by a one-step proteolytic procedure. All the procedures of selenium speciation were controlled by independent ICP-AES analysis measuring the total amount of selenium.     

甲壳素类液晶高分子的研究Ⅳ.脱乙酰度对壳聚糖液晶性的影响

通过壳聚糖乙酰化法制备了不同脱乙酰度的壳聚糖 ,并研究了脱乙酰度这一结构因素对壳聚糖溶致液晶性的影响 .观察到脱乙酰度为 5 0 %左右时 ,壳聚糖在水中和二氯乙酸中的溶致液晶临界浓度最高 .壳聚糖在水中的溶致液晶临界浓度远低于在二氯乙酸中的临界浓度 .