响应面法优化酶法水解大豆异黄酮糖苷

采用 Design-Expert 软件中 Central Composite Design（CCD）响应面分析方法对β-葡萄糖苷酶水解大豆异黄酮糖苷的4个主要因素（水解温度、水解时间、pH 以及加酶量）进行优化。方差分析发现,影响大豆异黄酮糖苷水解最主要的因素有温度、水解时间和 pH。对各因素进行回归拟合,得到最佳实验条件分别为：温度46．2℃,反应时间94 min,pH 5．1,酶量61单位,此时大豆异黄酮苷元含量达到0．096 g·L－1,比优化前提高了22％。     

Malonyl Isoflavone Glycosides in Soybean Seeds (Glycine max Merrill)

The isoflavone constituents in soybean seeds were investigated, and 9 kinds of isoflavone glycosides were isolated from the hypocotyls of soybean seeds. Three kinds were proved to be malonylated soybean isoflavones named 6″-O-malonyldaidzin, 6″-O-malonylglycitin and 6″-O-malonylgenistin by UV, MS, IR and NMR. The malonylated isoflavone glycosides as major isoflavone constituents in soybean seed were thermally unstable, and were converted into their corresponding isoflavone glycosides. All of the isoflavone components produced intensely undesirable taste effects such as bitter, astringent and dry mouth feeling.     

一种快速、无损大豆种子DNA提取方法的建立和应用

基因分型是进行植物基因功能的遗传分析和分子标记辅助育种的重要环节。该研究以大豆(Glycine max)成熟种子为材料, 建立了通过钻孔采集样品、快速提取DNA进行基因型鉴定的方法。用此方法, 一个熟练的工作人员可以在1个小时内完成120个样品的采集和DNA提取; 同时种子钻孔取样后, 不会对大豆种子的萌发造成影响。利用该方法获得的DNA可满足PCR扩增的要求。实验重复性好, 成功率在98%以上。这种快速且无损的大豆种子基因型鉴定方法可以用于鉴定杂交种子、品种纯度以及遗传分析等研究工作。     

单宁酶的固定化及其在酯型儿茶素水解反应中的应用

采用自制的壳聚糖为载体对单宁酶（ＴＡ）固定化,ＴＡ与壳聚糖配比１：２．５,３０℃固定２ｈ,活力回收达２３．６％～３３．１％;偶联效率为８４．９％～８８．０％。固定化单宁酶（ＩＴＡ）的表观Ｋｍ值（以没食子酸丙酯为底物）为２２．２×１０－６ｍｏｌ／Ｌ,ＴＡ的Ｋｍ值（以没食子酸丙酯为底物）为１０×１０－６ｍｏｌ／Ｌ,ＴＡ和ＩＴＡ的最适反应温度分别为４０℃和５０℃;６０℃处理１５ｍｉｎ,残存活性分别为１３．６％和６０．３％。ＴＡ和ＩＴＡ的最适ｐＨ值分别为５．８和６．４;ＴＡ在ｐＨ４．８～７．８活力稳定,而ＩＴＡ活力稳定范围在ｐＨ４．８～６．８．ＩＴＡ作用于ＥＧＣＧ的半衰期为７８．７ｈ,ＥＧＣＧ水解率达９０．３％。对茶多酚提取物进行水解,其所含的酯型儿茶素ＥＧＣＧ和ＥＣＧ水解率分别为９６．４％和９６．８％,非酯型儿茶素ＥＧＣ和ＥＣ的含量显著增加。     

A Simple One-Step PCR Walking Method and Its Application of Bacterial rRNA for Sequencing Identification

There are many PCR walking methods applied currently, and they all have examples of successful application in organisms which are more complex than bacteria. However, to a certain extent, it will be more convenient for researchers if the complicated operation and poor specificity for bacteria can be improved. Here, we introduced an improved one-step PCR walking method of bacteria. Using a specific primer of the known sequence together with a universal semirandom primer, the unknown sequence adjacent to a known sequence can be obtained easily by just one ordinary round PCR. The products can be gel purified and directly sequenced. Specific primers were designed according to the gene sequence of bacterial rRNA, and the variable and adjacent gene sequences were obtained by this method. The sequence analysis of the product showed that it can improve the resolution of bacterial identification to the species level.     

A Simple One-Step PCR Walking Method and Its Application of Bacterial rRNA for Sequencing Identification

There are many PCR walking methods applied currently, and they all have examples of successful application in organisms which are more complex than bacteria. However, to a certain extent, it will be more convenient for researchers if the complicated operation and poor specificity for bacteria can be improved. Here, we introduced an improved one-step PCR walking method of bacteria. Using a specific primer of the known sequence together with a universal semi-random primer, the unknown sequence adjacent to a known sequence can be obtained easily by just one ordinary round PCR. The products can be gel-purified and directly sequenced. Specific primers were designed according to the gene sequence of bacterial rRNA, and the variable and adjacent gene sequences were obtained by this method. The sequence analysis of the product showed that it can improve the resolution of bacterial identification to the species level.     

A Simple Purification Method for Chloroperoxidase and Its Use in Organic Media

A simple two-step purification method for chloroperoxidase from Caldariomyces fumago has been developed. After filtration of the mycelium the enzyme was bound to a DEAE Sepharose fast flow column. The enzyme was eluted with a 20–200 mM phosphate buffer, pH=5.8. After gel filtration on a Superose 12 HPLC column pure enzyme was obtained. Instead of gel filtration it was also possible to purify the enzyme by concentration over a membrane filter, 10 K cutoff. Concentration to 8% of the original volume yielded an enzyme preparation with R_z=1.31^b in 77% yield. The enzyme was active in t-butyl alcohol/water mixtures up to 70% t-butyl alcohol. The sulfoxidation of thioanisole proceeded readily (conversion > 99%) and with high enantioselectivity (>99%) in t-butyl alochol/water mixtures.     

黑龙江省野生和栽培大豆异黄酮与其组分相关性分析

利用高效液相色谱法（HPLC）检测了黑龙江省556份不同生态区以及不同类型大豆的异黄酮、大豆苷和染料木苷含量,其中野生大豆243份,栽培大豆313份。结果表明：野生大豆异黄酮含量高于栽培大豆,同时筛选出高异黄酮含量种质3份,低异黄酮含量种质2份。异黄酮、大豆苷和染料木苷含量三者问的相关分析表明,大豆异黄酮含量与大豆苷含量及染料木苷含量、大豆苷含量与染料木苷含量均呈极显著正相关。     

一种构建新型T载体的简便方法及应用

T载体能够用于PCR产物的快速克隆且易于操作。以常用的克隆载体pGEM-3zf(+)为出发材料,将其进行改造为通用的T载体。通过一步反向PCR方法在该载体中插入带有Xcm I酶切位点的一段序列,在Xcm I酶的切割下产生两端含有T核苷酸的线型核苷酸序列,最终获得用于克隆PCR产物的T载体。外源基因xdh克隆试验表明该载体构建成功,此载体完全可以用于PCR产物的基因克隆试验,为相关载体的改造提供了思路。     

Isoflavone Aglycon Produced by Culture of Soybean Extracts with Basidiomycetes and Its Anti-angiogenic Activity

Soybean extracts (SBE) containing isoflavone glycosides were cultured with Ganoderma lucidum mycelia producing β-glucosidase. The anti-angiogenic effects of the cultivated product, containing rich in genistein, named GCP (genistein combined polysaccharide), were assessed with chick chorioallantoic membranes (CAM) and a mouse dorsal air-sac model. β-Glucosidase produced by the mycelia converted the isoflavone glycosides into aglycons. A test of volunteers showed that serum concentrations of genistein in the subjects treated with GCP (n=4) at 3 h after administration were significantly higher than those in the subjects treated with SBE (n=4).

GCP inhibited angiogenesis in CAM, and the activity of GCP was greater than that of SBE. GCP inhibited the formation of new vessels induced by colon carcinoma cells in vivo.     

Heterosis and Combining Ability Estimates in Isoflavone Content Using Different Parental Soybean Accessions: Wild Soybean,a Valuable Germplasm for Soybean Breeding

Isoflavone, a group of secondary metabolites in soybean, is beneficial to human health. Improving isoflavone content in soybean seeds has become one of the most important breeding objectives. However, the narrow genetic base of soybean cultivars hampered crop improvement. Wild soybean is an extraordinarily important gene pool for soybean breeding. In order to select an optimal germplasm for breeding programs to increase isoflavone concentration, 36 F1 soybean progenies from different parental accessions (cultivars, wild, Semi-wild and Interspecific) with various total isoflavone (TIF) concentration (High, Middle, Low) were analyzed for their isoflavone content. Results showed that male parents, except for Cultivars, showed positive GCA effects. In particular, wild soybean had higher positive GCA effects for TIF concentration. Both MP and BP heterosis value declined in the hybrid in which male parents were wild soybean, semi-wild soybean, interspecific offspring and cultivar in turn. In general, combining ability and heterosis in hybrids which had relative higher TIF concentration level parents showed better performance than those which had lower TIF concentration level parents. These results indicated characteristics of isoflavone content were mainly governed by additive type of gene action, and wild relatives could be utilized for breeding of soybean cultivars with this trait. A promising combination was found as the best potential hybrid for isoflavone content improvement.     

Development and Application of a Whole-Genome Simple Sequence Repeat Panel for High-Throughput Genotyping in Soybean

Among commonly applied molecular markers, simple sequence repeats (SSRs, or microsatellites) possess advantages such as a high level of polymorphism and codominant pattern of inheritance at individual loci. To facilitate systematic and rapid genetic mapping in soybean, we designed a genotyping panel comprised 304 SSR markers selected for allelic diversity and chromosomal location so as to provide wide coverage. Most primer pairs for the markers in the panel were redesigned to yield amplicons of 80–600 bp in multiplex polymerase chain reaction (PCR) and fluorescence-based sequencer analysis, and they were labelled with one of four different fluorescent dyes. Multiplex PCR with sets of six to eight primer pairs per reaction generated allelic data for 283 of the 304 SSR loci in three different mapping populations, with the loci mapping to the same positions as previously determined. Four SSRs on each chromosome were analysed for allelic diversity in 87 diverse soybean germplasms with four-plex PCR. These 80 loci showed an average allele number and polymorphic information content value of 14.8 and 0.78, respectively. The high level of polymorphism, ease of analysis, and high accuracy of the SSR genotyping panel should render it widely applicable to soybean genetics and breeding.     

A Simple Method for Handling Grids

A simple method for handling electron microscope grids is described here. While assuring their identification and safety, this method provides improved handling, temporary storage, and identification of grids bearing ultra-thin sections, and in addition, provides a novel method for preparing bulk samples. Grids are attached at their edges to the weakly adhesive surface of a “Post-it” note pad which sits in a petri dish. The grids are safely immobilized on the pad, classified based on their location, and identified by convenient pad notation. Grid manipulation and identification are simplified using this device, which is easily assembled from readily available and inexpensive materials.     

一种快速mRNA差异显示技术及用于分离辐射诱导转录子

介绍一种从不同类型细胞或不同生长状态细胞中分离差异表达基因的快速ｍＲＮＡ差异显示技术．其特点是不用同位素标记,操作简便,在普通琼脂糖凝胶电泳中就能分辨差异显示的ｃＤＮＡ带,便于ＤＮＡ回收和进一步重组克隆．用此方法成功地分离到电离辐射诱导转录子．     

Isolation of Vi Antigen and a Simple Method for Its Measurement

Vi antigen was purified from saline extract of Citrobacter strain 5396/38 by enzymatic digestion, concentration with ethanol, and precipitation with hexadecyltrimethylammonium bromide. The Vi antigen prepared by this method was 18 and 230 times more protective in mice than two other preparations isolated by an earlier method utilizing acid hydrolysis. A sensitive and specific method of electroimmunodiffusion was described for measurement of Vi antigen.     

一种简单、快速提取DNA的方法

随着分子生物学研究的迅速发展,提取ＤＮＡ已成为一项常规实验。用经典方法提取ＤＮＡ［１］,先用蛋白酶Ｋ、ＳＤＳ消化,然后用酚、氯仿抽提,乙醇沉淀,耗时较多,提取液需要多次转移,易引起交叉污染和ＤＮＡ丢失。本文利用硅藻（ｄｉａｔｏｍ）能够特异性吸附核酸的...     

大豆籽粒发育过程中异黄酮合成相关酶基因的表达模式与异黄酮积累的相关分析

利用高效液相色谱法和实时定量PCR方法,分别测定了2个异黄酮含量显著差异的大豆品种鲁黑豆2号(LHD2)和南汇早黑豆(NHZ)在子粒发育过程中的异黄酮含量变化以及异黄酮合成相关酶基因的表达模式变化,试图分析异黄酮积累与各基因表达量变化的相关关系。结果表明在大豆子粒发育过程中,异黄酮含量逐渐升高,而不同异黄酮合成相关酶基因的表达趋势不同,CHS7、CHS8、CHR、CHI1A和IFS2的表达趋势与异黄酮积累模式基本一致,而IFS1和CHI1B1的表达趋势与异黄酮积累模式相反。IFR的表达模式在2个大豆品种中存在相反的趋势,在LHD2中与异黄酮组分积累趋势相反,而在NHZ中与异黄酮组分积累趋势相同。结果还表明,同一基因家族中不同基因在子粒发育过程中的表达量也存在差异。查尔酮合酶基因家族中CHS7和CHS8以及查尔酮异构酶基因家族的CHI1A的表达水平相对其他成员较高,异黄酮合酶基因家族中IFS2的表达量显著高于IFS1的表达量,预示这些基因家族在大豆子粒异黄酮积累过程中存在功能分化。此外,各基因表达模式与异黄酮积累的相关分析结果表明,不同基因表达模式与异黄酮积累的相关性在2个品种中也不尽相同。LHD2中CHS7、CHS8和IFS2在子粒发育过程中的表达量变化与不同异黄酮组分呈显著正相关,CHI1B1基因的表达量变化与不同异黄酮组分呈显著负相关。而在NHZ中,IFR在子粒发育过程中的表达量变化与多个异黄酮组分呈显著正相关。这预示了不同大豆品种异黄酮含量差异的潜在遗传基础。各异黄酮合成相关酶基因表达量变化的相关分析表明,在2个品种中,苯丙氨酸水解酶PAL1与4CL,4CL与CHS2以及CHS1与IFS2基因的表达量均呈现显著正相关。表明这些基因可能通过协同作用共同调控异黄酮的合成与积累。这些结果为今后利用基因工程提高大豆异黄酮含量奠定了基础。