红苋P104种子谷蛋白的电泳分析

通过单向不平变性聚丙烯酰胺凝胶等电聚焦（ＩＥＦ）、十二烷基硫酸钠聚丙烯酰胺凝胶电泳（ＳＤＳ－ＰＡＧＥ）和双向电泳（ＩＥＦ×ＳＤＳ－ＰＡＧＥ）分析了红苋Ｒ１０４种子谷蛋白的亚基组成,亚其分子量和等电点分布。谷蛋白的双向电泳图谱可分辨出１００多个亚基成分,其主要亚基为：５４ｋＤ（ｐＩ７．１５）;３３ｋＤ（ｐＩ５．８２）;３１ｋＤ（ｐＩ６．９２;ｐＩ６．７０;ｐＩ６．６５）;２２ｋＤ（ｐＩ８．３４）;２     

红苋R104种子谷蛋白的电泳分析

通过单向水平变性聚丙烯酰胺凝胶等电聚焦（ＩＥＦ）、十二烷基硫酸钠聚丙烯酰胺凝胶电泳（ＳＤＳ—ＰＡＧＥ）和双向电泳（ＩＥＦ×ＳＤＳ—ＰＡＧＥ）分析了红苋Ｒ１０４种子谷蛋白的亚基组成,亚基分子量和等电点分布。谷蛋白的双向电泳图谱可分辨出１００多个亚基成分．其主要亚基为：５４ｋＤ（ｐＩ７．１５）;３３ｋＤ（ｐＩ５．８２）;３１ｋＤ（ｐＩ６．９２;ｐＩ６．７０;ｐＩ６．６５）;２２ｋＤ（ｐＩ８．３４）;２０ｋＤ（ｐＩ６．９２;ｐＩ６５６）;１８ｋＤ（ｐＩ６．９２;ｐＩ７３５;ｐＩ７．７２;ｐＩ８．０５）。另外,还对ＩＥＦ方法进行了讨论。     

小麦不同细胞质雄性不育系及其保持系萌动胚及幼芽可溶性蛋白等电…

用等电聚焦电泳分析的方法,测定了小麦３种细胞质雄性不育类型（Ａ型、Ｅ型、Ｔ型）及其相应同核保持系萌动胚及动幼芽可溶性蛋白。发现雄性可育系等电点（ｐＩ）为４．９０的蛋白质成数量高于相应的不育系;ｐＩ为６．８５的蛋白质可能是Ｔ型细胞质基因表达的结果;ｐＩ为７．６的蛋白质可能为津丰Ａ不育系特有的区带。表明细胞质来源不同的不育类型,其萌动胚及动芽可溶性蛋白等电聚焦电泳图谱差异明显,有可能作为鉴别它们的依据     

小麦不同细胞质雄性不育系及其保持系萌动胚及幼芽可溶性蛋白等电聚焦电泳分析

用等电聚焦电泳分析的方法,测定了小麦（Ｔｒｉｔｉｃｕｍ ａｅｓｔｉｖｕｍ ）３ 种细胞质雄性不育类型（Ａ 型、Ｅ型、Ｔ型）及其相应同核保持系萌动胚及幼芽可溶性蛋白． 发现雄性可育系等电点（ｐＩ）为４．９０ 的蛋白质合成数量高于相应的不育系;ｐＩ为６．８５ 的蛋白质可能是Ｔ 型细胞质基因表达的结果;ｐＩ为７．６ 的蛋白质可能为津丰Ａ 不育系特有的区带．表明细胞质来源不同的不育类型,其萌动胚及幼芽可溶性蛋白等电聚焦电泳图谱差异明显,有可能作为鉴别它们的依据     

葡萄扇叶病毒外壳蛋白基因的克隆,序列分析及其在大肠杆菌中…

通过ＲＴ－ＰＣＲ方法把葡萄扇叶病毒（ＧＦＬＶ）外壳蛋白基因（ＣＰ ｇｅｎｅ）分成两部分扩增,扩增产物克隆入ｐｇＥＭ－５Ｚｆ（＋）载体,并通过ＢｇｌⅡ位点连接成一完整的外壳蛋白基因,通过序列分析测得全长外壳蛋白基因为１５１２ｂｐ,编码５０４个ＡＡ＇ｓ与国外株系ＧＦＬＶ－Ｆ１３相比,核苷酸同源性为８８．４％,氨基酸同源性为９５．８％。并且这一外壳蛋白基因在大肠杆菌Ｅ． ｃｏｌｉＤＨ－５α中得到了表达。     

人白介素6受体功能区片段在E.coli中的表达

通过ＤＮＡ体外重组技术,以ｐＥＴ－３ｂ为表达载体,构建了重组表达质粒ｐＥＴ－６Ｒ（Ｂ）和ＰＥＴ－６Ｒ（Ｂ）４,分别编码２８ｋＤ和ｈＩＬ－６Ｒ配基结合区片段及其５３ｋＤ的二联体蛋白,并为酶切分析和ＤＮＡ序列分析所证实,ＳＤＳ－ＰＡＧＥ分析表明,含有重组表达质粒的菌株可分别表达出２８ｋＤ的蛋白ｒＩＬ６Ｒ－２８和５３ｋＤ的ｒＩＬ６Ｒ－５３重组蛋白分别占菌体总蛋白的４５％和２９％左右,重组蛋白主要包涵体形     

人白介素6受体功能区片段在E．coli中的表达

通过ＤＮＡ体外重组技术,以ｐＥＴ－３ｂ为表达载体,构建了重组表达质粒ｐＥＴ－６Ｒ（Ｂ）和ＰＥＴ－６Ｒ（Ｂ）４,分别编码２８ｋＤ的ｈＩＬ－６Ｒ配基结合区片段及其５３ｋＤ的二联体蛋白,并为酶切分析和ＤＮＡ序列分析所证实。ＳＤＳ－ＰＡＧＥ分析表明,含有重组表达质粒的菌株可分别表达出２８ｋＤ的蛋白ｒＩＬ６Ｒ－２８和５３ｋＤ的ｒＩＬ６Ｒ－５３。重组蛋白分别占菌体总蛋白的４５％和２９％左右。重组蛋白主要以包涵体形式存在,Ｗｅｓｔｅｒｎ印迹表明重组蛋白具有ＩＬ－６Ｒ的抗原性。     

亚洲棉GAE6—3A上游序列的分离及其在烟草中的表达

根据Ｅ６基因保守域设计引物,ＰＣＲ扩增出亚洲棉（Ｇａｓｓｙｐｉｕｍ ａｒｂｏｒｅｕｍ Ｌ．）ＧＡＥ６基因长约４００ｂｐ片段,序列分析表明该片段与海棉（Ｇ．ｂａｒｇｂａｄｅｎｓｅ）Ｅ６基因同源性达９６．８％。进一步合成２个反向引物协助进行ＰＣＲ－９６孔板筛库分离到亚洲板棉ＧＡＥ６－３Ａ克隆。酶切鉴定其插入片段长约８．０ｋｂ,序列测定及分析结果表明其上游和约１．５ｋｂ,将ＧＡＥ６－３Ａ上游序列克 含有     

两相分配法制备玉米根质膜及其纯度鉴定

用ＤｅｘｔｒａｎＴ５００,ＰＥＧ３３５０两相体系制备玉米根质膜．首先在高盐浓度（２２ｍｍｏｌ／ＬＮａＣｌ）下选用五种不同的聚合物浓度（５．８％、６．０％、６．２％、６．３％、６．４％,Ｗ／Ｗ）,研究了玉米根质膜在两相体系中的分配情况,在此基础上进一步研究了Ｎａ－Ｃｌ浓度（２、４、５、１１、２２ｍｍｏｌ／Ｌ）对玉米根质膜的纯度及得率的影响．结果表明,制备玉米根质膜选用６．２％（Ｗ／Ｗ）聚合物浓度,７．５ｍｍｏｌ／ＬＮａＣｌ的两相体系比较合适．标志酶鉴定及低ｐＨ值磷钨酸染色电镜检测均表明获得了高纯度密实的正向型的质膜囊泡,质膜标志酶ＶＯ３－４－ＡＴＰａｓｅ的活性潜势达８８．９％．     

芥蓝的组织培养和快速繁殖

１植物名称芥蓝（Ｂｒａｓｓｉｃａａｌｂｏｇｌａｂｒａ）优良种株,取自广东汕头白沙蔬菜原种研究所。２材料类别未开花的植株基部腋芽。３培养条件（１）诱导丛生芽培养基为Ｍ１：ＭＳ＋６－ＢＡ２ｍｇ·Ｌ‘（单位下同）＋ＮＡＡ０．２;Ｍ２：ＭＳ＋６－ＢＡ１＋ＮＡＡ０．１;Ｍ３：ＭＳ＋６．ＢＡ１＋ＮＡＡ０．２。上述培养基均含蔗糖３％,琼脂０．８％,ｐＨ５．８～６．０。（２）生根培养基：ＭＳ＋ＮＡＡ０．５＋２％蔗糖＋０．４５％卡拉胶（０．７％琼脂）。培养温度２０～２５℃,光照１２ｈ．ｄ－１,光照度２０００１ｘ４…     

Serial analysis of zein by isoelectric focusing and sodium dodecyl sulfate gel electrophoresis

Zein, the major storage protein of maize (Zea mays L.) endosperm, was extracted from a number of inbreds with alcohol plus a reducing agent. Isoelectric focusing (IEF) separated total zeins into 41 components, while sodium dodecyl sulfate polyacrylamide gel electrophoresis (SDS-PAGE) separated total zeins into about 15 components. Each procedure gave characteristic patterns of zein bands for a number of maize inbreds. IEF and SDS-PAGE were used serially so that each band separated by IEF could be assayed as an individual SDS-PAGE sample. Some IEF bands revealed only a single band after SDS-PAGE, while others revealed two or more bands. A nomenclature system is presented which integrates the two separation systems with information about chromosome locations of zein genes, maize mutations which affect zein synthesis, and inbred sources for different zeins. SDS-PAGE of zein gives apparent molecular masses which vary widely according to the standards used and the properties of the gels, therefore an artificial nomenclature for identifying zein bands after SDS-PAGE is presented. The new nomenclature provides a flexible system which is useful and can be conveniently used in different laboratories.     

Isoelectric focusing and crossed immunoelectrophoresis of heme proteins in the Escherichia coli cytoplasmic membrane.

Isoelectric focusing (IEF), agarose electrophoresis, and crossed immunoelectrophoresis (CIE) were used to resolve the heme-containing proteins of the Escherichia coli cytoplasmic membrane after solubilization by Triton X-100. Two bands in IEF stained for heme with pI values of 4.7 and 5.3. One of the bands, with an isoelectric point of pH 5.3, was present only when the cells were grown to late log or stationary phase and possessed N,N,N,'N'-tetramethyl-p-phenylene-diamine (TMPD) oxidase activity. The pI 4.7 band was present in cells harvested in both mid-log and stationary phases. Agarose electrophoresis, using larger samples, revealed the same two components apparent by IEF, and, in addition, a third component. The heme-containing fractions were extracted after agarose electrophoresis and subjected to further study. The component which was present in cells grown to stationary phase contained hemes b, a1, and d. The other two fractions contained only b heme. One of these corresponded to the component with pI 4.7 in IEF and had catalase activity. Antisera were raised against Triton X-100-solubilized cytoplasmic membranes and against the focused TMPD oxidase complex. With these anti-sera, CIE in the presence of Triton X-100 revealed four precipitin complexes containing heme. Three of these corresponded to the components identified by IEF and agarose electrophoresis. We demonstrate that the combined use of IEF and CIE is valuable for analysis of membrane proteins. In particular, this work represents a substantial initial step toward a structural elucidation of the E. coli aerobic respiratory chain.     

The Partial Characterization of the Major Seed Storage Proteins in Arabidopsis thaliana L.

This study was aimed at the characterization of the major storage proteins in Arabidopsis thaliana. Two major protein fractions, i.e., the fraction Ⅰ and Ⅱ proteins, were isolated from the extract of mature seeds of this plant by molecular seive gel filtration chromatography. Various polyacrylarnide gel electrophoretic techniques were used to study the properties and polypeptide compositions of these two protein fractions. In was shown that during the SDS gel electrophoresis, fraction Ⅰ protein was separated into 6 major bands with the mol. was. of 34, 31, 29, 28 and 19-20 kD, respectively, whereas Fraction Ⅱ protein migrated as 3 low mol. wt. bands (10-12 kD) on the same gel. Non-denaturing native gel electrophoresis revealed that fraction Ⅰ was a neutral protein and Fraction Ⅱ was a positively charged basic protein with an isoelectric point (pI) higher than 8.8. Fraction I protein was further separated into at least 16 polypeptides in isoelectric focusing/SDS two-dimensional gel electrophoresis, i.e. each SDS band contained 3-4 polypeptides with the same mol. wt. but different pis. This suggested a more complex polypeptide composition of this protein. The properties of fraction Ⅰ and Ⅱ proteins were in good accordance with that of the 12s and 1.7s storage globulins in seeds of many other dicotyledonous plants, and therefore had been characterized as the two major seed storage proteins in this species. These two storage globulins were shown to be accumulated within a defined period during the late stage of seed development (12-14 DAF) and became predominant protein components in mature seeds. In the mean time, a few points in relation to the polypeptide composition and subunit molecular configuration of the 12s globulin were noted.     

Multiple zeins from maize endosperms characterized by reversed-phase high performance liquid chromatography

The major storage proteins of maize (Zea mays L.) endosperm are located in protein bodies, and may be separated by sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) into two major classes and four minor classes of polypeptides. The two major classes (commonly known as zeins) have been separated previously into a large number of components by isoelectric focusing (IEF). Reversed-phase high performance liquid chromatography (HPLC) further separated the major classes into additional components, and gave distinctive peaks for each minor zein class. Some IEF bands produced two or more HPLC fractions, while some HPLC fractions produced two or more IEF bands. Apparently identical IEF bands from different inbreds may appear in different fractions after HPLC. Thus the total number of zeins revealed by separations based on apparent size (SDS-PAGE), net charge (IEF), and hydrophobicity (HPLC) is very large. Different laboratories have developed diverse nomenclatures which cause much confusion. A key is presented to provide a flexible and expandable nomenclature for this complex group of proteins.     

Soluble and Particulate Forms of Rat Catechol-O-Methyltransferase Distinguished by Gel Electrophoresis and Immune Fixation

Catechol-O-methyltransferase (COMT) was visualized in homogenates and subcellular fractions of rat tissues, including liver and brain, by gel electrophoresis, electrophoretic transfer of proteins to nitrocellulose (Western blotting), and immune fixation with antiserum to highly purified soluble rat liver COMT. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) of all tissue homogenates examined revealed three major immune-specific proteins with apparent molecular weights 23,000, 26,000, and 66,000 (23K, 26K and 66K). Centrifugation of homogenates at 100,000 X g for 60 min resulted in the enrichment of the 26K species protein in the pellet whereas the 23K and 66K proteins were the predominant forms in the supernatant. The 66K protein appeared in variable amounts depending on the tissue being examined and the length of transfer of protein and is assumed to be an "aggregate" of the smaller form(s). The 26K protein was essentially the only immunoreactive species seen in a purified preparation of rat liver outer mitochondrial membrane. Isoelectric focusing (IEF) under denaturing conditions and two-dimensional gel electrophoresis of brain and liver fractions showed that the 23K protein was resolved into three bands of pI 5.1, 5.2, and 5.3, whereas the 26K protein had a pI of 6.2. Analysis of COMT activity in slices from nondenaturing IEF gels indicated that the pI 5.1-5.3 species are biologically active; the pI 6.2 species could not be detected under these conditions. COMT activity was demonstrated, however, in outer mitochondrial membranes from rat liver, which contain predominantly the 26K, pI 6.2 immunoreactive species. The major form of COMT in all rat tissues examined is "soluble" with an apparent Mr of 23K and a pI of 5.2. The nature of the modifications giving rise to pI 5.1 and 5.3 forms of this enzyme are not clear, nor is the relationship between the 23K and 26K forms. Further studies are needed to elucidate the relationship of immunoreactive forms of COMT to each other, their intracellular location, and their functional significance.     

Differential glycosylation produces heterogeneity in elevated esterases associated with insecticide resistance in the brown planthopper Nilaparvata lugens Stål

The major insecticide resistance mechanism in the brown planthopper Nilaparvata lugens involves overproduction of esterases. Esterases purified from a resistant strain appeared as a ladder of bands on isoelectric focussing (IEF) gels from pI 4.7 to 5.0. Two-dimensional electrophoresis showed that isozymes ranged in size from 66 to 68 kDa with those of lower pI being apparently smaller. All isozymes detected by two-dimensional electrophoresis were glycosylated. N-glycosidase A reduced the number of isozymes on IEF to two, with increased pI and an increased molecular weight of 69 kDa. No O-linked glycans were detected. Deglycosylation had no effect on esterase activity, hence glycosylation is not involved in active site conformation. As N-glycosidase F completely deglycosylated the esterases, none of the glycans has an alpha1,3-bound core fucose. Reactivity with the lectins GNA, MAA and DSA, combined with differential cleavage of N-linked glycans with endoglycosidases F1 and F2, indicated that terminally linked mannose is present in high mannose and/or hybrid type glycans and that terminally linked sialic acid and galactose-beta(1-4)-N-acetylglucosamine are present in biantennary complexes. Neuraminidase treatment had the same effect on pI of isozymes as complete deglycosylation. Therefore, the majority of the heterogeneity of elevated esterases on IEF is due to differential attachment of sialic acid to glycans of the two proteins.     

Dipetalonema viteae: isoelectric focusing and immunochemical studies on somatic extracts of adult worms and microfilariae.

Isoelectric focusing (IEF) of a somatic extract of adult worms (SEAW) yielded nine fractions. Most of the applied protein antigen was recovered in five fractions with pI values of 5.2, 4.4, 4.3, 4.0, and 3.3, respectively. The nine IEF fractions of SEAW gave a total of 37 bands following electrophoresis on polyacrylamide gel (PAGE). IEF fractionation of a somatic extract of microfilariae (SEM) yielded nine fractions. Two fractions with pI values of 4.4 and 3.2, respectively, contained most of the applied protein. The nine IEF fractions of SEM gave a total of 32 bands following PAGE. Crossed immunoelectrophoresis (CI) of SEM and SEAW against serum from hyperinfected hamsters yielded five and eight precipitation peaks, respectively. CI of SEM and SEAW against their homologous rabbit antisera gave 7 and 10 major precipitation peaks, respectively. Immunodiffusion of the nine IEF fractions from both SEM and SEAW against both their homologous and heterologous rabbit antisera indicated three and four precipitin bands peculiar only to SEM and SEAW, respectively. The remaining 23 bands from both preparations showed lines of identity.     

Lipoprotein substrates of lipoprotein lipase and hepatic triacylglycerol lipase from human post-heparin plasma.

The number and the substrate specificities of glutathione thiol esterases of human red blood cells have been investigated by gel electrophoresis and isoelectric focusing and staining methods devised for the location of these enzymes on gels. Several glutathione thiol esterase forms, both unspecific (with respect to the S-acyl group of the substrate) and specific were found. Electrophoresis on both polyacrylamide and agarose gels resolved three enzyme components with apparently similar substrate specificity. Isoelectric focusing in liquid column separated two unspecific thiol esterase components with S-lactoylglutathione (pI = 8.4) and S-propionylglutathione (pI = 8.1) as the best substrates, respectively, and two specific enzymes, S-formylglutathione hydrolase (pI = 5.2) and S-succinylglutathione hydrolase (pI = 9.0). Isoelectric focusing on polyacrylamide gel resolved nine unspecific glutathione thiol esterase bands (between pH values 7.0 and 8.4). Partially purified glyoxalase II (S-2-hydroxyacylglutathione hydrolase, EC 3.1.2.6) from erythrocytes or liver still gave three components on electrophoresis and several activity bands on gel electrofocusing. These results indicate that human red cells contain at least four separate glutathione thiol esterases. Glyoxalase II, one of these enzymes, apparently occurs in multiple forms. These were neither influenced by preptreatment of the samples with neuraminidase or thiols nor were interconvertible during the fractionations.