野苋菜的氨基酸含量与营养评价

野苋菜含有１８种氨基酸,其中有营养必需的８种氨基酸。含硫氨基酸ＡＡＳ＝０．５１,为第一限制氨基酸。Ｅ／Ｅ＋Ｎ＝４１．６％,Ｅ／Ｎ＝０．７１,接近ＷＨＯ／ＦＡＯ提出的参考蛋白模式。     

急性肝损伤大鼠模型的血浆氨基酸代谢变化模式

以Ｄ－氨基半乳糖（Ｄ－Ｇａｌａｃｔｏｓａｍｉｎｅ,Ｄ－ＧａｌＮ）造成急性肝损伤（急性肝炎、急性肝坏死）大鼠模型后、对照观察了急性肝损伤大鼠血浆氨基酸的变化,建立了大鼠急性肝损伤时血浆氨基酸的变化模式并对其发生机理进行了探讨。大鼠血浆氨基酸的测定采用聚酰薄层荧光分析技术,其测定结果是：急性肝炎组,酪氨酸（Ｔｙｒ）、天冬氨酸（Ａｓｐ）、谷氨酰胺（Ｇｌｎ）和鸟氨酸（Ｏｒｎ）升高,精氨酸（Ａｒｇ）下降,其余氨基酸无显著变化。急性肝坏死组,除Ａｒｇ显著下降外,其余所有氨基酸都显著升高,而两组支链氨基酸（ＢＣＡＡ）／芳香族氨基酸（ＡＡＡ）克分子比值均显著下降。     

肝硬化与肝癌患者血浆游离氨基酸水平分析

采用高效液相色谱法分析了２５例肝硬化和１５例肝癌患者空腹血浆游离氨基酸水平的变化。结果表明,二者支链氨基酸（ＢＣＡＡ）如Ｖａｌ、Ｉｌｅ呈下降趋势,而芳香族氨基酸（ＡＡＡ）如Ｔｙｒ、Ｐｈｅ则呈上升趋势,ＢＣＡＡ／ＡＡＡ分子比值下降。丙氨酸（Ａｌａ）、蛋氨酸（Ｍｅｔ）、谷氨酰胺（Ｇｌｎ）及天门冬氨酸（Ａｓｐ）明显上升。其变化趋势二者存在差别。     

中华鳖氨基酸和微量元素的分析与研究

本文对中华鳖的氨基酸、维生素、微量元素等营养物质进行了分析，并与其它十种水产品进行了比较，通过对中华鳖的化学分（ＣＳ）、氨基酸分（ＡＳ）和必需氨基酸指数（ＥＡＡＩ）的计算可知，中华鳖的微量元素构成较为合理，氨基酸构成与ＦＡＯ模式近似。     

鸡冠花叶蛋白质营养价值的评价研究

应用模糊识别法和氨基酸比值系数法,分别以鸡蛋蛋白南为标准蛋白,以ＷＨＯ／ＦＡＯ氨基酸参考模式为评价标准,对３种鸡冠花叶蛋白质营养价值进行了全面评价,并与１０种常见叶菜蛋白进行对照比较。结果表明,３种鸡冠花叶（干品）蛋白质含量为２３．７％￣２７．４％,蛋白质中氨基酸种类齐全,其含量为８３．４７％￣８６．９４％,必需氨基酸（ＥＡＡ）占总氨基酸量的４０．２％￣４１．７％,第一限制性氨基酸为含硫氨基酸（Ｍ     

高效液相色谱法对农业样品中氨基酸含量的测定

介绍了采用一种新型的国产氨基酸色谱柱ＹＷＧＡ—Ａ柱,对与农业有关的多种样品进行氨基酸测定的方法。这种色谱柱可使全部氨基酸得到完全的分离,且柱效高,柱压低,价格便宜。农业样品的品种多,比较复杂,文中还对不同样品的前处理做了简要叙述。氨基酸的分析方法采用的是柱前衍生ＯＰＡ法,还对此方法测定中的一些问题进行了讨论。     

三联体密码子在mRNA二级结构中的分布

对编码成熟肽的ｍＲＮＡ二级结构的分析显示,每个密码子在ｍＲＮＡ二级结构中的位置有一定的倾向性,这种倾向性似乎与相应氨基酸的构象性质相一致。大多数编码疏水氨基酸的密码子位于ｍＲＮＡ二级结构中较稳定的茎区;反之,大多数编码亲水氨基酸的密码子位于柔性的环区。这个结果支持了最近得到的关于ｍＲＮＡ与蛋白质之间存在丰三维结构信息传递的结论。     

硒蛋白合成的特殊机制

硒蛋白含有一种特殊氨基酸--硒代半胱氨酸。在翻译阶段,该氨基酸从硒蛋白ｍＲＮＡ编码区的ＵＧＡ密码子处掺入多肽链。已证明它由丝氨酸和活性硒供体分子合成。一种独特的ｔＲＮＡ、某些特殊蛋白质因子以及硒蛋白ｍＲＮＡ的特殊二级结构是ＵＧＡ解读为硒代半胱氨酸所必需的。     

硒蛋白合成的特殊机制

硒蛋白含有一种特殊氨基酸－硒代半胱氨酸。在翻译阶段,该氨基酸从硒蛋白ｍＲＮＡ编码区的ＵＧＡ密码子处掺入多肽链。已证明它由丝氨酸和活性硒供体分子合成。一种独特的ｔＲＮＡ,某些特殊蛋白质因子以及硒蛋白ｍＲＮＡ的特殊二级结构是ＵＧＡ解读为硒代半胱氨酸所必需的。     

组蛋白脱乙酰化酶—1保守氨基酸中组氨酸定点突变的建立

为了研究蛋白脱乙酰化酶－１（ＨＤＡＣ１）保守氨基酸中组氨酸的定点突变对其功能的影响,需要建立ＨＤＡＣ１保守组氨酸定点突变的突变子。在克隆野生型ＨＤＡＣ１ｃＤＮＡ的基础上,利用Ａｌ－ｔｅｒｅｄ ＳｉｔｅⅡ体外突变系统对ＨＤＡＣ１保守氨基酸中的３个组氨酸位点进行突变,并用全自动测序鉴定。结果分别获得了ＨＤＡＣ１的Ｈ１４０Ｆ、Ｈ１７８Ｆ、Ｈ１７９Ｆ的定点突变子,为进一步研究ＨＤＡＣ１保守氨基酸定点突变对     

Serum trace element and amino acid profile in children with cerebral palsy

BackgroundThe existing data demonstrate that both trace elements and amino acids play a significant role in neurodevelopment and brain functioning. Certain studies have demonstrated alteration of micronutrient status in children with cerebral palsy, although multiple inconsistencies exist.The objectiveof the present study was to assess serum trace element and mineral, as well as amino acid levels in children with cerebral palsy.Methods71 children with cerebral palsy (39 boys and 32 girls, 5.7 ± 2.3 y.o.) and 84 healthy children (51 boys and 33 girls, 5.4 ± 2.3 y.o.) were enrolled in the present study. Serum trace element and mineral levels were assessed using inductively-coupled plasma mass-spectrometry (ICP-MS). Amino acid profile was evaluated by means of high-pressure liquid chromatography (HPLC).ResultsChildren with cerebral palsy are characterized by significantly lower Cu and Zn levels by 6% and 8%, whereas serum I concentration exceeded the control values by 7%. A tendency to increased serum Mn and Se levels was also observed in patients with cerebral palsy. Serum citrulline, leucine, tyrosine, and valine levels were 15 %, 23 %, 15 %, and 11 % lower than those in healthy controls. Nearly twofold lower levels of serum proline were accompanied by a 44 % elevation of hydroxyproline concentrations when compared to the control values. In multiple regression model serum I, Zn, and hydroxyproline levels were found to be independently associated with the presence of cerebral palsy. Correlation analysis demonstrated a significant correlation between Cu, Mn, Se, I, and Zn levels with hydroxyproline and citrulline concentrations.ConclusionThe observed alterations in trace element and amino acid metabolism may contribute to neurological deterioration in cerebral palsy. However, the cross-sectional design of the study does not allow to estimate the causal trilateral relationships between cerebral palsy, altered trace element, and amino acid metabolism.     

低温贮藏期间百合鳞茎中的游离氨基酸组分和含量变化

百合鳞茎的游离氨基酸主要集中在顶芽和内部鳞片等幼嫩组织中,含量最高、变化最大的是精氨酸.谷氨酸族的氨基酸在鳞茎代谢中起重要作用.顶芽的氨基酸总量及精氨酸含量随贮藏温度的升高而增加.贮藏过程中,鳞茎盘的氨基酸含量下降,顶芽和贮备组织中其含量有明显升高的过程.贮藏前期34 d内游离氨基酸含量发生显著变化.     

A novel photoprotein from oceanic squid (Symplectoteuthis oualaniensis) with sequence similarity to mammalian carbon-nitrogen hydrolase domains

A 60-kDa photoprotein was selectively extracted from squid photogenic organ with 0.6 M KCl solution at pH 6 as luminescence-active forms. The photoprotein with fluorescence chromophore was eluted from size-exclusion HPLC mainly as oligomeric forms (about 200 kDa or more) with a trace amount of monomeric form of about 60 kDa. A limited tryptic digestion of the KCl-extract induced the cleavage into a 40-kDa fragment and a 16-kDa N-terminal fragment and the conversion to the monomeric form which still retained luminescence activity. Under UV light the 60-kDa protein and its 40-kDa fragment emitted fluorescence. Immunoblot analysis using specific antibody showed specific expression of the 60-kDa protein in the photogenic organ. Amino acid sequences of the 60-kDa photoprotein, its 40- and 16-kDa fragments, and six peptides from the Lys-C digest revealed no sequence similarity to known photoproteins but significant similarity to the carbon-nitrogen hydrolase domain found in mammalian biotinidase and vanin (pantetheinase).     

Degradation of lignocellulosic residues by polyporus versicolor and the effect of moisture contents and phenolic compounds

Polyporus versicolor was selected to find out its ability to degrade four different lignocellulosic residues (angiospermic wood sawdust, sugarcane bagasse, paddy and wheat straw) under semisolid conditions. The production of laccase was also studied on these substrates. Sawdust suffered a maximum lignin loss though overall reduction in weight was maximum in paddy straw. Addition of malt extract and certain phenolic compounds (gallic acid, tannic acid and orcinol) favoured ligninolysis in sawdust. A moisture level of 5 ml/g of sawdust was found to be the most suitable for degradation whereas laccase yield increased with further rise in moisture content.     

Comparison of crop productivity and soil microbial activity among different fertilization patterns in red upland and paddy soils

Soil enzyme activity and microorganism community can be changed through different long-term fertilization patterns. However, the effect of different fertilization practices on soil microorganisms might differ among crop systems. The objective of the study was to reveal the change of soil enzyme activity and soil microorganism community in different fertilizations both in upland and paddy soils. Therefore, based on long-term fertilization experiments in upland soil started in 1986 and adjacent paddy soil experiment commenced in 1981, with both consisting of 4 treatments: Control (no fertilization), N (only nitrogen fertilizer), NPK (nitrogen, phosphate and potassium fertilizers) and NPKM (nitrogen, phosphate and potassium fertilizers plus organic manure), grain yield, soil fertility, activities of soil urease, catalase, acid phosphatase, microorganism community (the number of bacteria, fungus and actinomycete) were analyzed. The result showed that: the highest grain yield was attained under the application of chemical fertilizers plus manure, as compared with Control, NPKM significantly increased the grain yield by 908.63% in corn and 118.80% in rice (p < 0.05). Meanwhile, NPKM treatment increased significantly soil organic matter and nutrient contents in upland and paddy soils. Interestingly, there was no significant difference in soil pH among all the treatments of paddy soil, but in upland, NPKM increased pH in comparison to Control by 23.06% (1.15 units of pH). Compared with Control, soil urease, catalase activities, bacteria and actinomycete numbers of NPKM were increased by 321.39%, 129.64%, 229.79%, 85.81% in upland soil, and 25.11%, 251.12%, 292.83%, 196.34% in paddy soil. However, in paddy soil, the soil acid phosphatase activity of Control, NPK and NPKM treatments were higher than upland soil by 34.87%, 44.81%, 52.73% and 30.11%. Then, the soil fungus and actinomycete numbers of paddy soil were lower than upland soil by 20.20% and 88.29%. Therefore, it indicated that long-term application of chemical and organic fertilizers delivered highest productivity in both experiment but the effect of fertilizer practices differed between land uses.     

Influence of organic and inorganic growth supplements on the aerobic biodegradation of chlorobenzoic acids

The effect of yeast extract and its less complex substituents on the rate of aerobic dechlorination of 2-chlorobenzoic acid (2-ClBzOH) and 2,5-dichlorobenzoic acid (2,5-Cl₂BzOH) by Pseudomonas sp. CPE2 strain, and of 3-chlorobenzoic acid (3-ClBzOH), 4-chlorobenzoic acid (4-ClBzOH) and 3,4-dichlorobenzoic acid (3,4-Cl₂BzOH) by Alcaligenes sp. CPE3 strain were investigated. Yeast extract at 50 mg/l increased the average dechlorination rate of 200 mg/l of 4-ClBzOH, 2,5-Cl₂BzOH, 3,4-Cl₂BzOH, 3-ClBzOH and 2-ClBzOH by about 75%, 70%, 55%, 7%, and 1%, respectively. However, in the presence of yeast extract the specific dechlorination activity of CPE2 and CPE3 cells (per unit biomass) was always lower than without yeast extract, although it increased significantly during the exponential growth phase. When a mixed vitamin solution or a mixed trace element solution was used instead of yeast extract the rate of 4-ClBzOH dechlorination increased by 30%–35%, whereas the rate of 2,5-Cl₂BzOH and 3,4-Cl₂BzOH dechlorination increased by only 2%–10%. The presence of vitamins or trace elements also resulted in a specific dechlorination activity that was generally higher than that observed for the same cells grown solely on chlorobenzoic acid. The results of this work indicate that yeast extract, a complex mixture of readily oxidizable carbon sources, vitamins, and trace elements, enhances the growth and the dechlorination activity of CPE2 and CPE3 cells, thus resulting in an overall increase in the rate of chlorobenzoic acid utilization and dechlorination.     

Effects of Combined Abiotic Stresses on Growth,Trace Element Accumulation,and Phytohormone Regulation in Two Halophytic Species

Trace element contamination of lands is a serious environmental problem that limits yield and threatens human health. To study the combined effect of high salinity and toxic levels of trace elements on halophytes, the performance of two marsh species, Atriplex halimus and Suaeda fruticosa, grown for 1 month with an irrigation solution supplemented with 200 mM NaCl and 400 μM Cd²⁺ or 400 μM Cu²⁺ was evaluated. The effect of the combined stress conditions on hormone signaling was also assessed. Biomass production and chlorophyll content decreased under Cd²⁺ stress in both species, whereas Cu²⁺ had a lower impact on plant performance. The different plant sensibilities to the two trace elements assayed indicate that each metal has a different effect on plants. Furthermore, the deleterious effect of metal toxicity was alleviated when NaCl was added to the irrigation solution, demonstrating that NaCl improves plant performance and tolerance of halophytic species to cope with trace element intoxication. Results show that both species accumulated important quantities of Cd²⁺ and Cu²⁺ in roots (Cd²⁺: 2,690–3,130 μg g^?1 DW and Cu²⁺: 2,070–2,770 μg g^?1 DW); this finding allows us to classify these species among the hyperaccumulator plants. Cd²⁺ and Cu²⁺ differently affected endogenous phytohormone contents in both species. Data suggest an essential involvement of roots on the regulation of tolerance to trace elements. Therefore, indole-3-acetic acid levels increased in roots of both species irrigated with high levels of Cd²⁺, which suggests that the auxin may stimulate root promotion and growth under these stress conditions. Other compounds, classically considered as “stress hormones” showed very different patterns of accumulation. Whereas, salicylic acid (SA) levels in roots and leaves increased in response to Cd²⁺, root contents of jasmonic acid (JA), and abscisic acid (ABA) decreased. In leaves, the rambling pattern of accumulation observed for JA and ABA suggested the lack of a specific role in regulation against trace element toxicity. Together, data suggest that SA could act as a specific signal that detects trace element toxicity, whereas JA and ABA promote general responses against abiotic stress.     

Anaerobic co-digestion of food waste and piggery wastewater: focusing on the role of trace elements

The objective of this study was to evaluate the feasibility of anaerobic co-digestion of food waste and piggery wastewater, and to identify the key factors governing the co-digestion performance. The analytical results indicated that the food waste contained higher energy potential and lower concentrations of trace elements than the piggery wastewater. Anaerobic co-digestion showed a significantly improved biogas productivity and process stability. The results of co-digestion of the food waste with the different fractions of the piggery wastewater suggested that trace element might be the reason for enhancing the co-digestion performance. By supplementing the trace elements, a long-term anaerobic digestion of the food waste only resulted in a high methane yield of 0.396 m³/kg VS_added and 75.6% of VS destruction with no significant volatile fatty acid accumulation. These results suggested that the typical Korean food waste was deficient with some trace elements required for anaerobic digestion.     

Trace element changes in sclerotic heart valves from patients are expressed in their blood

The pathogenesis of some heart diseases has been associated with changes in the balance of certain trace elements. However, whether blood trace element changes exist that are related to changes in the cardiovascular system are, in most cases, unknown. In this study, blood trace element levels were analysed in 46 patients with non-rheumatic aortic valve sclerosis that were previously shown to have a disturbed trace element balance in their valve tissue, including 11/15 elements. Results showed significant changes of blood levels of 8/15 trace elements in these patients when compared with blood levels in 46 healthy controls. Of these elements, Cd and Mg were the only elements that increased in both blood and valves. Cu and Se were increased in blood but decreased in valves, whereas Co and Zn were decreased in blood but increased in valves. Several elements (As, Ca, Fe, Pb, and V) were unchanged in blood although changed in valves. Although Mn and Hg showed changes in blood, this was not evident in the valves. Al and Ag were the only elements that did not change in both blood and valves. Significant covariation in blood and valve levels was only observed for Al and Pb. The recorded pattern of trace element changes indicates a complex competition/exchange between body compartments in this disease, where the increased blood Cu/Zn ratio suggests an ongoing infectious/inflammatory process.     

氨基酸Schiff碱及其金属配合物的抑菌抗癌活性的研究进展

氨基酸Ｓｃｈｉｆｆ碱及其金属配合物具有良好的生理、生物活性,本文就近年来国内外在氨基酸Ｓｃｈｉｆ碱及其金属配合的抑菌抗癌活性的研究进展方面进行了综述