A versatile gel casting cum electrophoresis apparatus

A simple apparatus for vertical.,in situ, polyacrylamide or agarose gel casting as well as for the subsequent electrophoresis is described. The apparatus is completely leakproof and does not require any special device like clamps, O-rings, gaskets, grease etc. for sealing. Slab gels of various thickness (0.04 to 1.0 cm) can be made and the apparatus can be used for analytical or preparative purposes. Gel rods can also be cast and run in the device. Forward as well as reverse polarity electrophoresis of a sample can be run simultaneously in the apparatus. NCL Communication No.: 3077.     

A correlation between mechanical and electrical properties of the synthetic hydrogel chosen as an experimental model of cytoskeleton

The correlation between the electrochemical (Donnan) potential and volume swelling was studied for synthetic polyelectrolyte hydrogels considered as models of cytoskeleton gel-forming biopolymers. Hydrogels involving polyacrylic and polymethacrylic acids with varying network density were synthesized by a radical polymerization in aqueous solution. Electrical charge was introduced into the gel network by partial neutralization of monomer acids with several alkali and alkali earth (hydr)oxides. The electrochemical (Donnan) potential of synthetic gels was determined using conventional microelectrode tools for cell potential determination. It was demonstrated that the negative electrical potential of many anionic gels with various charges and network densities decreased with the decrease of equilibrium swelling, i.e., with the decrease in water content in the gel. It was shown that a drastic phase transition in the gel structure from a swollen to a compressed state induced by K⁺/Ca²⁺ exchange is accompanied by an analogous decrease in the absolute Donnan potential of the gels. A kinetic study demonstrated that the gel volume changed ahead of its electrical potential. This suggests that the volume phase transition in gel is the main cause of the electrical response. A similarity between the swelling/compression transition in synthetic gels and the volume changes in the cytoskeleton in the vicinity of the cell membrane was demonstrated. Based on the universal analogy between the properties of synthetic and natural polymer gels, a possible involvement of swelling of the gel-like cytoskeleton structures in electrical regulation in the cell was postulated.     

Estimation of polymerization efficiency in the formation of polyacrylamide gel,using continuous optical scanning during polymerization

The Ferguson plot and ‘quantitative’ gel electrophoresis (based on the Ferguson plot) depend on a knowledge of accurate gel concentrations. The easiest way to estimate accuracy of gel concentrations, in terms of the degree of completion of the polymerization reaction which gives rise to a gel, is by spectrophotometry. Making use of the apparatus for continuous optical scanning of polyacrylamide gels, the extent and rate of polymerization of cross-linked polyacrylamide were estimated by measuring the absorbance at 275 mm of the reaction mixture subsequent to free radical initiation of polymerization. Under appropriate conditions of monomer concentration, initiator levels and temperature, absorbance decreased monotonically after alag period of 10 min, and after 20–30 min of reaction the absorbance reached a plateau value which provided a measure of polymerization efficiency. Application of a standard curve of absorbance vs. monomer concentration allowed one to quantitate concentrations of residual monomer throughout the course of polymerization. Under a set of arbitrary polymerization conditions (e.g. 6–20% total gel concentration), the reaction went to 63–96% completion. The rate of polymerization was approximately proportional to the square of the monomer concentration (2nd-order reaction kinetics). Absorbance decrease subsequent to the initiation of the polymerization reaction appeared suitable as a measure of efficiency of polymerization since: (1) absorbance spectra of monomers at 0.5%T and residual monomers in a 10%T gel, at a time when polymerization seemed terminated, coincided; (b) values of residual monomer obtained were reasonable (10–30%); (c) bimolecular reaction kinetics were found, in agreement with expectation; and (c) absorbance of incomplete polymerization mixtures, deficient in either initiators or monomers, was constant with time.     

Enzyme-ligand complexes of pyridoxine 5'-phosphate synthase: implications for substrate binding and catalysis

Pathogenesis in sickle cell disease depends on polymerization of deoxyhemoglobin S into rod-like fibers, forming gels that rigidify red cells and obstruct the systemic microvasculature. Fiber structure, polymerization kinetics and equilibria are well characterized and intimately related to pathogenesis. However, data on gel rheology, the immediate cause of obstruction, are limited, and models for structure and rheology are lacking. The basis of gel rheology, micromechanics of individual fibers, has never been examined. Here, we isolate fibers by selective depolymerization of gels produced under photolytic deliganding of CO hemoglobin S. Using differential interference contrast (DIC) microscopy, we measure spontaneous, thermal fluctuations in fiber shape to obtain bending moduli (kappa) and persistence lengths (lambda(p)). Some fibers being too stiff to decompose shape accurately into Fourier modes, we measure deviations of fiber midpoints from mean positions. Serial deviations, sufficiently separated to be independent, exhibit Gaussian distributions and provide mean-squared fluctuation amplitudes from which kappa and lambda(p) can be calculated. Lambda(p) ranges from 0.24 to 13 mm for the most flexible and stiffest fibers, respectively. This large range reflects formation of fiber bundles. If the most flexible are single fibers, then lambda(p) =13 mm represents a bundle of seven single fibers. Preliminary data on the bending variations of frozen, hydrated single fibers of HbS obtained by electron microscopy indicate that the value 0.24 mm is consistent with the persistence length of single fibers. Young's modulus is 0.10 GPa, less than for structural proteins but much larger than for extensible proteins. We consider how these results, used with models for cross-linking, may apply to macroscopic rheology of hemoglobin S gels. This new technique, combining isolation of hemoglobin S fibers and measurement of micromechanical properties based on thermal fluctuations and midpoint deviations, can be used to study fibers of mutants, hemoglobin A/S, and mixtures and hybrids of hemoglobin S.     

An improved technique for the preparative electrophoresis and electroelution of high molecular weight ribosomal RNA

A new technique for casting flat 0.5% agarose-2.4% acrylamide preparative gels is described in this communication. The casting method presented completely eliminates mechanical problems and technical complications often encountered in producing the homogeneous loading platform critical to the entrance and proper migration of RNA species on low pore composite gels. The gels formed can be used to separate milligram quantities of RNA with excellent resolution and a method for the electroelution of a specific RNA species is also presented.     

Polymerization of acrylamide at acid pH using uranyl nitrate

A new photopolymerizing reagent, uranyl nitrate, is used for the polymerization of acrylamide gels at low pH. The amount of uranyl nitrate (0.2 mg/ml) required for the polymerization of gels at pH 3.0 is considerably less than that of persulfate (7 mg/ml). Use of this reagent obviates the need for the removal of excess of persulfate by preelectrophoresis. The electrophoretic separation of basic proteins in uranium-polymerized gels showed faster movement and better resolution of proteins and proved the gels to be versatile, uniform, and reproducible. Electrophoresis of trypsin in these gels does not affect the enzymatic activity. The catalyst can also be used for the polymerization of gels containing 3 M urea.     

Efficient transfer of proteins from acetic acid-urea and isoelectric-focusing gels to nitrocellulose membrane filters with retention of protein antigenicity

A method which facilitates the rapid and quantitative electrophoretic transfer of proteins from gels not containing sodium dodecyl sulfate (SDS) to nitrocellulose membranes is described. The equilibration of non-SDS-polyacrylamide gel electrophoretic gels in a buffer containing SDS confers a net negative charge to the proteins present, presumably as a result of the formation of SDS-protein complexes. Proteins from gels equilibrated in the SDS buffer and then electroblotted in a Tris-glycine buffer at pH 8.3 are transferred with much greater efficiency than are proteins from untreated gels. The method has been shown to significantly enhance the electrophoretic transfer of polyoma viral proteins resolved in either acetic acid-urea or isoelectric-focusing gels to nitrocellulose membranes, and it is suggested that the method should have universal applicability to all gel electrophoresis systems currently employed. The proteins from isoelectric-focusing gels treated with SDS and transferred to nitrocellulose membranes were found to retain antigenicity to antisera prepared against either denatured or native viral proteins.     

Preparations of continuous gradient gel slabs: a simple technique.

A simple technique is described which allows casting of continuous-pore gradient gel slabs without any special equipment. The gels are not linear but satisfactory for all practical purposes. These gels compare favorably with gels made with gradient mixers and with gels obtained commercially, as has been shown by electrophoresis of standard proteins.     

双向凝胶电泳缺陷胶及其原因

双向凝胶电泳是蛋白质组学研究中的关键技术之一,涉及较多的实验步骤和试剂,常出现缺陷胶而导致实验失败。从数千张电泳胶图中选取了21张典型的缺陷胶图,对它们进行了归类和总结,分析和讨论了形成缺陷胶的多种原因,提出了实验改进的方法和注意事项。     

Scanning electron microscopic observations of polyacrylamide gels.

Structures of polyacrylamide gels have been viewed in a scanning electron microscope. Structures observed after freeze-drying of the gels have been substantiated by different experiments as the preexisting structure of the gels in their state of hydration. Parameters of content and polymerization of polyacrylamide gels have been varied to reveal their effects on the observed morphology. The structural patterns revealed by electron microscopy suggest a model of both the polymerization and the molecular-sieving properties of these gels.     

Electrophoresis in the presence of Coomassie brilliant blue R-250 stains polyacrylamide gels during protein fractionation

A method of staining polyacrylamide gels in which the dye is electrophoresed together with the sample is proposed. The method cuts short and simplifies the conventional electrophoresis procedure by eliminating the separate poststaining step. In the gels run in the presence of sodium dodecyl sulfate, the method produces protein staining patterns which are quantitatively identical to the ones obtained by conventional staining procedure. Additional advantages of the method are easy control over the degree of staining and homogenous staining independent of the gel thickness and concentration of the dye.     

聚皂凝胶对蛋白分子的吸附与释放

以牛血清白蛋白为对象,研究了丙烯酸－丙烯酰胺型９ＰＢｕＡＭＡ）和疏水改性的四乙烯五胺－环（ＨＰＴＥ）聚合物凝胶对蛋白质的及附与释放过程。在吸附过程中,当溶液ＰＨ值在牛血清白蛋白电点（４．７）附近时,凝胶蛋白抽的吸附值最大;而在释放过程中,ＰＨ＝７的释放率远大于其它ＰＨ值时的释放率。实验表明凝胶结构对蛋白质吸附与释放有较大影响。未疏水改性的凝胶与疏水改性的凝胶相比,前 的释放速率约为后者的２倍。结果     

A simple and reliable method for the drying of polyacrylamide slab gels

A simple method for the drying of polyacrylamide slab gels is described. 2-mm thick gels with gradients of 5–20% acrylamide dry without complications. The dried gels are transparent permitting transmission densitometry and fluorography.     

Electrophoresis of proteins and nucleic acids on acrylamide-agarose gels lacking covalent crosslinking

The preparation of acrylamide-agarose gels lacking covalent crosslinking with methylenebisacrylamide is described. These hybrid gels melt at 85 degrees C and, consequently, allow quantitative analysis of tritium-labeled protein after electrophoresis. Recovery of tritium-labeled ribonucleic acids extracted from hybrid gels is 20 to 25% greater than from standard acrylamide-methylenebisacrylamide gels. Standard curves of electrophoretic mobilities as a function of molecular weights of dissociated proteins and ribonucleic acids are compared for acrylamide-agarose gels and acrylamide-methylenebisacrylamide gels.     

Electrophoresis of DNA fragments in gels from acrylamide-rich copolymers

Two polyacrylamide-rich, non-toxic, gelable copolymers have been developed to facilitate the formation of user-cast electrophoresis gels. Gel formation is accomplished with dithiothreitol as the chemical cross-linking agent. The higher molecular weight copolymer is suitable for casting gels of copolymer concentration less than or equal to 8%. Gels of 3% concentration are excellent for resolving dsDNA fragments up to approximately 3000 base pairs. Because the cross-linking chemistry is not thwarted by the presence of urea, it is also possible to cast denaturing gels with these copolymers.     

Gel electrophoresis in studies of protein conformation and folding

Electrophoresis through polyacrylamide gels is a useful method for distinguishing conformational states of proteins and analyzing the thermodynamic and kinetic properties of transitions between conformations. Although the relationship between protein conformation and electrophoretic mobility is quite complex, relative mobilities provide qualitative estimates of compactness. Conformational states which interconvert slowly on the time scale of the electrophoretic separation can often be resolved, and the rates of interconversion can be estimated. If the transitions are more rapid, then the electrophoretic mobility represents the equilibrium distribution of conformations. Protein unfolding transitions induced by urea are readily studied using slab gels containing a gradient of urea concentration perpendicular to the direction of electrophoresis. Protein applied across the top of such a gel migrates in the presence of continuously varying urea concentrations, and a profile of the unfolding transition is generated directly. Transitions induced by other agents could be studied using analogous gradient gels. Electrophoretic methods are especially suited for studying small quantities of protein, and complex mixtures, since the different components can be separated during the electrophoresis.     

Affinity electrophoresis: New simple and general methods of preparation of affinity gels

Two simple and generally applicable methods of preparation of affinity gels for affinity electrophoresis in agarose and polyacrylamide gels are described. In the first method, amino ligands are coupled to periodate-oxidized agarose gel beads (Sepharose 4B), and homogeneous affinity gels are obtained after mixing the melted substituted beads with either melted agarose solution or with the polymerization mixture used for the preparation of polyacrylamide gels. This type of affinity gel was used for affinity electrophoresis of lectins (immobilized p-aminophenyl glycosides), ribonuclease (immobilized uridine 3′,5′-diphosphate 5′-p-aminophenyl ester), trypsin (immobilized p-aminobenzamidine), and double-stranded phage DNA fragments (immobilized acriflavine). Alternatively, heterogeneous affinity gels are prepared from the suspension of ligand-substituted agarose, dextran, or polyacrylamide gel beads in the polymerization solution normally used for preparation of polyacrylamide electrophoretic gels. This technique was used for affinity electrophoresis of lectins, ribonuclease, and trypsin on affinity gels containing appropriate ligands coupled to the gel beads “activated” by various methods. Applicability of affinity gels prepared by the two methods described above for affinity isoelectric focusing is demonstrated.     

Quantitative electrophoretic transfer of DNA from polyacrylamide or agarose gels to nitrocellulose

A method for efficient electrophoretic transfer of DNA fragments from polyacrylamide gels to nitrocellulose sheets was developed. Hybridization to these fragments can be performed by standard techniques. The method is also applicable to agarose gels, allowing this transfer method to be used for DNA ranging from 40 to at least 23,000 bp.     

Electrophoretic transfer of proteins from fixed and stained gels

A procedure by which sodium dodecyl sulfate gels can be fixed and stained with Coomassie blue and subsequently transferred to nitrocellulose for immunostaining is outlined. The procedure involves the complete removal of the stain followed by equilibration of the gel in sodium dodecyl sulfate running buffer. The efficiency of transfer is comparable to unfixed gels and the protein pattern of the transfer appears to be sharper, presumably due to less diffusion during the transfer process. The procedure does not affect the antigenicity of the proteins that have been examined by subsequent immunostaining. This method is particularly useful for situations in which sample size or concentration are limiting factors resulting in insufficient material for duplicate gels.     

Adsorption of trypsin on commercial silica gel

The immobilization of trypsin onto various commercial silica gels was studied. Silica gels were used directly and characterized by mercuric porosimetry. Agitation rates (100–740 rpm) and particles size (35–75 to 250–500 μm) of silica gels did not affect the trypsin immobilization capacity. The pore size (3 to 15 nm) is a limiting factor of the trypsin adsorption onto the mesopores structure of silica gels. The adsorption of trypsin was determined as a function of their initial concentration and multilayer formed at high trypsin concentration.