Structural Proteins of Mammalian Oncogenic RNA Viruses: Murine Leukemia Virus Neutralization by Antisera Prepared Against Purified Envelope Glycoprotein

Goat and rabbit antisera prepared against a purified Rauscher murine leukemia virus glycoprotein (gp69/71) rapidly neutralized spleen focus-forming virus in Rauscher and Friend virus preparations. Absorption studies revealed that most of the neutralizing activity of goat anti-Rauscher virus gp69/71 serum was directed against type- and group-specific determinants.     

Structural Studies of Avian Myeloblastosis Virus: Comparison of Polypeptides in Virion and Core Component by Dodecyl Sulfate-Polyacrylamide Gel Electrophoresis

Two different systems of dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) in separate laboratories detected analogous patterns of dye bands in virions of avian myeloblastosis virus (AMV). At least 11 of the dye bands co-migrated with the major polypeptides reported in Rous sarcoma virus. Particles with the morphology of the AMV core component, obtained after exposure of AMV to the nonionic surfactant Sterox SL, contained major polypeptides p12, p27, p60, p64, p91, and p98. The polypeptide p12 has been previously shown to be the major constituent of the inner ribonucleoprotein (RNP) of the AMV core, and has been designated p12(N). Two RNP polypeptides, p64 and p91, co-electrophoresed with purified AMV DNA polymerase and have now been designated p64(P) and p91(P). The polypeptide p27 has been identified as a probable constituent of the core shell, and has accordingly now been designated p27(C). In comparison to virions of AMV, the AMV core component contained a greatly reduced amount of polypeptide p15 and appeared to lack a major polypeptide, p19. Consequently, these polypeptides may be associated either with the exterior of the core shell or the interior of the viral envelope. Glycopeptides were not detected in AMV cores, in agreement with earlier reports that they reside in external projections from the viral envelope.     

Structural Proteins of Adenovirus-Associated Viruses

The structural proteins of adenovirus-associated virus (AAV) types 1, 2, and 3 were analyzed by acrylamide gel electrophoresis. In each case, one major protein (C) and two minor proteins (A and B) were identified. Component C had an estimated molecular weight of 62,000 daltons, and the molecular weights of components A and B were found to be 87,000 and 73,000 daltons, respectively. Coelectrophoresis of adenovirus and AAV proteins revealed an overlap only between the adenovirus fiber-penton component and the AAV C polypeptide. Among AAV serotypes, homologous components were electrophoretically identical, except that the C component of AAV-2 was of slightly lower molecular weight than the C components of AAV-1 and AAV-3. The relative incorporation of (14)C-arginine and (14)C-mixed amino acids into the three polypeptides of AAV-2 was similar, indicating an absence of an arginine-rich component. In addition, AAV-2 was found to have a substantially lower arginine content than helper adenoviruses.     

Immunological Cross-Reactions Between Two Low-Molecular-Weight Polypeptides from A Murine Type C Virus

Two low-molecular-weight type-specific virion polypeptides from the Kirsten strain of Murine leukemia virus, polypeptides p10 and p12, are immunologically related by radioimmunoassay competition techniques.     

Antisera Raised Against the Drug Imipramine

Antisera against 2-aminoimipramine covalently coupled to albumin have been raised in two rabbits. Both antisera bind imipramine and related tricyclic compounds as if to a single class of sites with high affinity and high titres. Displacement/inhibition assays showed that the affinities of various tricyclic compounds for the antisera showed a good correlation with the affinities of these drugs for the tricyclic antidepressant inhibitory sites on plasma-membrane 5-hydroxytryptamine carriers of human platelets and rat brain cortex. 5-Hydroxytryptamine and 5-hydroxytryptamine-uptake-selective drugs did not inhibit [3H]imipramine binding to antisera. The anti-imipramine antibodies were purified using imipramine-Sepharose affinity chromatography and were shown to be IgG class by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and protein A-Sepharose precipitation.     

兔出血症病毒主要结构多肽的氨基酸分析

兔出血症病毒主要结构多肽的氨基酸分析王恒安,杜念兴,徐为燕（南京农业大学,南京２１００９５）关键词兔出血症病毒,结构多肽,氨基酸分析有关兔出血症病毒（ＲＨＤＶ）结构多肽的报道很多,有认为只有１条,有报道４条的,也有报道多达６条的。但其主要结构多肽为分...     

草鱼出血病病毒多肽的免疫原性

采用中和试验比较了草鱼出血病病毒ＧＣＨＶ８７３的１１个多肽的免疫原性,确定了主要中和抗原。纯化的单个病毒多肽免疫家兔获得抗血清,多太ＶＰ１、ＶＰ５、ＶＰ６和ＶＰ９的抗血清具有中和效价,而ＶＰ２、ＶＰ３、ＶＰ４、ＶＰ８、ＶＰ１０和ＶＰ１１则不能诱生中和抗体。其中ＶＰ５的抗血清中和效价最高,因此,ＶＰ６极可能是病毒多肽中的主要中和抗原。     

An Analysis of the Interaction of Sodium Dodecyl Sulfate with Lysozyme

The interaction of SDS with lysozyme was analyzed with enzyme activity and with NMR, fluorescence, and UV difference spectroscopies using various alkyl sulfates and variously modified lysozymes. SDS formed a stable complex with lysozyme without causing a gross conformational change in the enzyme molecule. Some SDS molecules bound to the active site cleft of lysozyme and therefore strongly inhibited the activity of lysozyme. Hydrophobic regions and positive charges for protein side, and a hydrophobic tail (possibly more than 8 carbons in alkyl chain) and a negative charge for detergent side were required for the formation of the complex.     

Polypeptides of the oxygen-evolving photosystem II complex. Immunological detection and biogenesis

Oxygen-evolving photosystem II complex was isolated from spinach chloroplasts. The individual polypeptides of the complex were isolated from sodium dodecyl sulfate (SDS)-polyacrylamide gels and antibodies were raised in rabbits against these polypeptides. After washing of the isolation complex by 0.8 M Tris to release the extrinsic proteins, a distinct diffused protein band was revealed at the position of 33 kDa in SDS gels containing 4 M urea. When this band was electroeluted from the gel and subsequently electrophoresed on SDS gels, three distinct protein bands became apparent. Antibodies raised against each one of these polypeptides cross-reacted with the other two polypeptides to varying degrees but not with the other subunits of the complex. The three polypeptides were denoted as 34, 33, and 32 kDa and the 33 being the herbicide-binding protein. Using the antibodies, the relative amounts of the photosystem II polypeptides were followed during greening of etiolated spinach seedlings. While all three extrinsic polypeptides were present in etiolated leaves at relatively high amounts, the other polypeptides could not be detected prior to an approximate 6-h illumination period. Further illumination induced the appearance of all of the rest of the subunits in a relatively similar rate. The oxygen evolution activity was developed parallel to the increase in the amounts of these polypeptides. Therefore, the assembly of the active photosystem II during greening is a two-step process in contrast with the photosystem I reaction center, which is assembled step by step, and the rest of the chloroplast protein complexes, which are assembled by a concerted mechanism.     

海藻酸钠与十二烷基聚氧乙烯醚硫酸钠复配体系泡沫及流变性能的研究

采用罗氏泡沫仪和流变仪对海藻酸钠(NaAlg)/十二烷基聚氧乙烯醚硫酸钠(AES)复配体系的起泡稳泡性能及流变行为进行研究,以探索NaAlg对AES起泡稳定性的影响及作用机理。泡沫性能试验显示,NaAlg的加入,提高了AES溶液的起泡能力及泡沫稳定性,溶液的pH值由7.0降到5.0,混合体系的起泡稳泡性明显增加。流变性研究展示,随着NaAlg浓度的增加,溶液的粘度呈增大的趋势,溶液总体呈现牛顿流体性质,当NaAlg浓度大于0.5%时,低剪切速率区,溶液仍呈现牛顿流体性质,而在高剪切速率区,有剪切变稀的现象出现。总体来看,各试液的G’相似文献   

Purification of Theiler''s Murine Encephalomyelitis Virus and Analysis of the Structural Virion Polypeptides: Correlation of the Polypeptide Profile with Virulence

Theiler's murine encephalomyelitis viruses (TMEV) are separable into two groups based on their biological behavior: those highly virulent isolates which are unable to cause persistent infection and the less virulent isolates which regularly produce persistent central nervous system infection in mice. Two highly virulent and five less virulent TMEV were found to have the same buoyant density (1.34 g/ml) on isopycnic centrifugation and virion structure by electron microscopy. Negatively stained virus particles purified in Cs(2)SO(4) gradients appeared to have icosahedral symmetry and measured 28 nm in diameter. Mature virions were found to possess three major structural polypeptides, VP1, VP2 and VP3, in the range of 25,000 to 35,000 daltons, and a smaller fourth major polypeptide, VP4, of 6,000 daltons on sodium dodecyl sulfate-polyacrylamide gel electrophoresis. The precursor of VP2 and VP4, VP0, which is a minor polypeptide of mature picornavirus particles, was also identified. However, a slight but consistent difference in several of the capsid polypeptides between the highly virulent and less virulent TMEV was found. VP1 was slightly larger (34,000 versus 33,500 daltons) and VP2 was slightly smaller (31,000 versus 32,000 daltons) for the highly virulent strains compared to the same polypeptide species in the less virulent viruses. VP0 was also slightly smaller (35,500 versus 36,000 daltons) for the highly virulent isolates compared to their less virulent counterparts. Finally, trypsin which was used initially in our purification procedure resulted in preferential cleavage of a 2,000-molecular-weight fragment or fragments from VP1 of only the less virulent isolates.