Shape of Ocr, the gene 0.3 protein of bacteriophage T7: modeling based on light scattering experiments

Ocr, the first protein expressed by bacteriophage T7, inhibits type Iota DNA restriction enzymes by preventing them from binding to DNA. This inhibition allows the phage to successfully infect the host. The shape of ocr is modeled on the basis of static and dynamic light scattering measurements. The static light scattering data confirm previous observations that ocr exists in solution as a dimer. The diffusion constant determined by dynamic light scattering indicates a nonspherical shape of the ocr dimer. Hydrodynamic models of ellipsoids are presented, and it is argued that ocr is best described by a prolate ellipsoid with dimensions of 10.4 nm by 2.6 nm. The size and shape predicted by this model are consistent with ocr acting as a mimic of the DNA structure bound by type Iota restriction enzymes.     

通过构建轻链二级库对人源抗TNF-α抗体进行亲和力成熟

通过构建轻链二级库的方法,对人源抗ＴＮＦ－α单抗Ｆａｂ进行轻链置换,并筛选出具有更高亲和力的人源抗ＴＮＦ－α单抗的Ｆａｂ。首先用ＲＴ－ＰＣＲ技术扩增正常人全套抗体轻链基因,并与已获得的人源抗ＴＮＦ－α单抗的重链基因配对,构建人源抗ＴＮＦ－α噬菌体抗体轻链二级库,然后筛选与ＴＮＦ－α具有更高亲和力的克隆,经过三轮的生物淘筛（ｂｉｏｐａｎｎｉｎｇ）,获得了比原来的人源抗ＴＮＦ－α单抗Ｆａｂ具有更高亲和     

Mapping protein–ligand interactions using whole genome phage display libraries

The function of many genes cannot be deduced from sequence similarity, and biochemical methods are usually required. Whole genome sequences can be thought of as not only a set of genes but also collections of functional domains. These domains can be studied by affinity methods whereby identification of the ligand can provide information on biochemical function. To take advantage of this method, one must express all functional domains in a form suitable for affinity studies. Phage display technology provides a means for accomplishing this. The pJuFo phage display system, based on the interaction between the leucine zippers Jun and Fos, has been modified and used to create a genomic phage display library from Escherichia coli MG1655. The system has been tested by using the library to map the dominant binding epitopes for an anti-RecA protein polyclonal antibody sera. This methodology provides a general biochemical approach to functional analysis of protein–ligand interactions on a genome-wide basis.     

Detection of weakly interacting anti-carbohydrate scFv phages using surface plasmon resonance

Methods to characterise and confirm specificity of scFv displayed on phages are important during panning procedures, especially when selecting for antibody fragments with weak affinities in the millimole to micromole range. In this report the surface plasmon resonance (SPR) biosensor was used to study and verify specificity of phages displaying weak anti-carbohydrate scFvs. The variable immunoglobulin light (VL) and heavy (VH) chain genes of the weak monoclonal antibody 39.5 were amplified and cloned into a phagemid and displayed as a scFv-pIII fusion protein on filamentous phage. This monoclonal antibody recognises with weak affinity the structural sequence Glcalpha1-4Glc present in a variety of carbohydrate molecules. Injection of the 39.5 phages over a biosensor chip immobilised with a (Glc)4-BSA conjugate confirmed selective binding of the scFv to its antigen. Inhibition studies verified the specificity. These results clearly show that SPR technology can be used to evaluate in terms of binding and specificity weakly interacting scFv displayed on the phage surface.     

High-throughput method for ranking the affinity of peptide ligands selected from phage display libraries

The use of phage display peptide libraries allows rapid isolation of peptide ligands for any target selector molecule. However, due to differences in peptide expression and the heterogeneity of the phage preparations, there is no easy way to compare the binding properties of the selected clones, which operates as a major "bottleneck" of the technology. Here, we present the development of a new type of library that allows rapid comparison of the relative affinity of the selected peptides in a high-throughput screening format. As a model system, a phage display peptide library constructed on a phagemid vector that contains the bacterial alkaline phosphatase gene (BAP) was selected with an antiherbicide antibody. Due to the intrinsic switching capacity of the library, the selected peptides were transferred "en masse" from the phage coat protein to BAP. This was coupled to an optimized affinity ELISA where normalized amounts of the peptide-BAP fusion allow direct comparison of the binding properties of hundreds of peptide ligands. The system was validated by plasmon surface resonance experiments using synthetic peptides, showing that the method discriminates among the affinities of the peptides within 3 orders of magnitude. In addition, the peptide-BAP protein can find direct application as a tracer reagent.     

Phage display combinatorial libraries of short peptides: ligand selection for protein purification

A library of heptapeptides displayed on the surface of filamentous phage M13 was evaluated as a potential source of affinity ligands for the purification of Rhizomucor miehei lipase. Two independent selection (biopanning) protocols were employed: the enzyme was either physically adsorbed on polystyrene or chemically immobilized on small magnetic beads. From screening with the polystyrene-adsorbed lipase it was found that there was a rapid enrichment of the library with “doublet” clones i.e. the phage species which carried two consecutive sequences of heptapeptides, whilst no such clones were observed from the screening using lipase attached to magnetic beads. The binding of the best clones to the enzyme was unambiguously confirmed by ELISA. However the synthetic heptapeptide of identical sequence to the best “monomeric” clone did not act as a satisfactory affinity ligand after immobilization on Sepharose. This indicated that the interaction with lipase was due to both the heptapeptide and the presence of a part of the phage coat protein. This conclusion was further verified by immobilizing the whole phage on the surface of magnetic beads and using the resulting conjugate as an affinity adsorbent. The scope of application of this methodology and the possibility of preparing phage-based affinity materials are briefly discussed.     

An efficient phage plaque screen for the random mutational analysis of the interaction of HIV-1 gp120 with human CD4.

A lambda phage expression methodology was adapted to dissect protein/ligand interactions efficiently through the creation and rapid screening of large numbers of mutants. Here we describe the method and its specific application to the interaction between the external envelope glycoprotein of the human immunodeficiency virus (HIV-1), gp120, and the human cell surface protein CD4. Random substitutions were introduced throughout the gp120 binding region (amino acids 38-62) in the amino-terminal domain of CD4 by oligonucleotide mutagenesis. These mutations were expressed within phage plaques and directly screened for their effect on binding of gp120 using a modified phage plaque lift procedure. Plaques showing increased, decreased, and no effect on binding were identified and mutations were verified by sequence analysis. In this manner, 25 unique mutations were identified that altered CD4 binding to gp120. A new site was identified at which mutations reduced binding to gp120 and several novel amino acid substitutions were defined at sites previously implicated in binding. Of particular interest, this in vitro genetic approach identified a mutation which significantly increased binding to gp120. The phenotypes of several of these mutants were further characterized by quantitative measurement of their binding affinity. The results confirmed the accuracy of the phenotypic selection and demonstrated that the sensitivity of the system allowed detection of a 3-4-fold increase or decrease in affinity. In the context of the recently determined atomic structure of CD4, these results further implicate residues in the CDR2-like region and in an adjacent loop in recognition of gp120. This methodology should be generally applicable to other high affinity protein/ligand interactions that are compatible with expression in Escherichia coli.     

Filamentous bacteriophage display of a bifunctional protein A::scFv fusion

Filamentous bacteriophage display is a powerful and widely used technology for the selection of affinity ligands. However, the commonly used phagemid systems result in the production of a population of phage of which those displaying the ligand of interest represent only a small proportion. Through simple dilution and nonspecific binding effects, the presence of large numbers of ligand-free phage reduces the likelihood that weak binders will be successfully selected from a ligand library. To provide a means of avoiding such problems, we have introduced an affinity handle into the phage that permits the purification of ligand-displaying phage. The IgG binding domains ofStaphylococcus ciureus protein A (SpA) were fused to a ligand (single chain Fv[scFv]) which is displayed as a fusion with the phage surface protein ApIII. Phage-displaying SpA were separated by affinity chromatography using immobilized human IgG from non-displaying phage and the purified phage were shown to possess functional scFv. Comparisons of fusion proteins in which either the scFv or the affinity handle occupied the amino terminus of the fusion protein showed that, whereas SpA function was unaffected by position, scFv function was compromised when the scFv did not occupy the amino terminus.     

Bottom-up assembly of hydrogels from bacteriophage and Au nanoparticles: the effect of cis- and trans-acting factors

Hydrogels have become a promising research focus because of their potential for biomedical application. Here we explore the long-range, electrostatic interactions by following the effect of trans-acting (pH) and cis-acting factors (peptide mutation) on the formation of Au-phage hydrogels. These bioinorganic hydrogels can be generated from the bottom-up assembly of Au nanoparticles (Au NP) with either native or mutant bacteriophage (phage) through electrostatic interaction of the phage pVIII major capsid proteins (pVIII). The cis-acting factor consists of a peptide extension displayed on the pVIII that mutates the phage. Our results show that pH can dictate the direct-assembly and stability of Au-phage hydrogels in spite of the differences between the native and the mutant pVIII. The first step in characterizing the interactions of Au NP with phage was to generate a molecular model that identified the charge distribution and structure of the native and mutant pVIII. This model indicated that the mutant peptide extension carried a higher positive charge relative to the native pVIII at all pHs. Next, by monitoring the Au-phage interaction by means of optical microscopy, elastic light scattering, fractal dimension analysis as well as Uv-vis and surface plasmon resonance spectroscopy, we show that the positive charge of the mutant peptide extension favors the opposite charge affinity between the phage and Au NP as the pH is decreased. These results show the versatility of this assembly method, where the stability of these hydrogels can be achieved by either adjusting the pH or by changing the composition of the phage pVIII without the need of phage display libraries.     

Mechanism of functioning of specific sites of interdomain D-E binding of fibrin molecules: interaction of fibrinogen with the N-terminal disulfide node of fibrin

The intermolecular noncovalent binding of complementary fibrin polymerization sites localized in fibrin domains D and E was investigated in the model system. In this system fibrinogen molecules represent the active D domains and the N-terminal disulphide knot of fibrin (N-DSK) represents the active E domain. Quantitative definition of insoluble fibrinogen and N-DSK copolymer and light scattering data of their mixtures before the appearance of visible precipitate show that complexing of these structures decreases with an increase of the temperature and ionic strength. The character of this dependence permits certain conclusions to be made on the functioning mechanism for two types of the D-E binding sites. These conclusions are based on an idea of their different affinity. The interdomain binding is primarily realized by D1-E1 sites which are characterized by a high affinity and work mainly on the basis of electrostatic forces. This binding directs the D2-E2 binding which is characterized by lower affinity and which determines the final degree of fibrinogen and N-DSK complexing. These sites function mainly by the H-binding.     

Preparation and characterization of scFv for affinity purification of reteplase

The work was to explore the feasibility of protein affinity purification using ligand isolated from phage library. Reteplase was used as the model protein and a humanized semi-synthetic single chain fragment variable phage library as the source of ligand. After four rounds of biopanning, reteplase-specific phage clones were greatly enriched. The scFv gene from the best phage clone was inserted to pET-29a and expressed in E. coli Rosseta. After purification by nickel-affinity and refolding, this scFv protein was proven to recognize reteplase specifically and sensitively in ELISA and dot-blotting. Its binding constant to reteplase was 1.84x10(-8) M, measured by surface plasmon resonance. After immobilized on Sepharose 4B, the scFv was used for the affinity purification of reteplase from milk. It was found that reteplase was highly purified from the starting material. In conclusion, it has been demonstrated that humanized scFv prepared with this approach could be used as a practical affinity ligand for efficient and cost-effective purification of reteplase, as well as other therapeutic proteins.     

P-糖蛋白的表达及其结合肽的筛选

为获得P 糖蛋白胞外段 ,构建了高效表达载体pGEX Pgp ,转化大肠杆菌DH5α ,进行表达、鉴定及纯化 ,以获得的融合蛋白为靶蛋白 ,筛选噬菌体随机 12肽库 ,免疫细胞化学方法进行鉴定 .SDS PAGE分析 ,表达出约 30kD大小的蛋白 ;从噬菌体随机肽库中筛选获得了与P 糖蛋白特异性结合的噬菌体阳性克隆 ,测序获得了其特异性结合肽序列 :NDGLLFTWQPSP .免疫细胞化学结果显示 :筛选得到的噬菌体阳性克隆可与耐药细胞BIU 87 ADM结合 ,而与敏感细胞BIU 87不结合 .结果表明 ,筛选获得的结合肽可与耐药的肿瘤细胞结合 ,表现出一定的肿瘤特异性 .P 糖蛋白结合肽的筛选 ,为进行人膀胱癌多药耐药的靶向治疗等工作奠定了基础 .     

The effect of salt and phage concentrations on the binding sensitivity of magnetoelastic biosensors for Bacillus anthracis detection

This article presents an investigation of the effect of salt and phage concentrations on the binding affinity of magnetoelastic (ME) biosensors. The sensors were fabricated by immobilizing filamentous phage on the ME platform surface for the detection of Bacillus anthracis spores. In response to the binding of spores to the phage on the ME biosensor, a corresponding decrease occurs in resonance frequency. Transmission electron microscopy (TEM) was used to verify the structure of phage under different combinations of salt/phage concentration. The chemistry of the phage solution alters phage bundling characteristics and, hence, influences both the sensitivity and detection limit of the ME biosensors. The frequency responses of the sensors were measured to determine the effects of salt concentration on the sensors' performance. Scanning electron microscopy (SEM) was used to confirm and quantify the binding of spores to the sensor surface. This showed that 420 mM salt at a phage concentration of 1 x 10(11) vir/mL results in an optimal distribution of immobilized phages on the sensor surface, consequently promoting better binding of spores to the biosensor's surface. Additionally, the sensors immobilized with phage under this condition were exposed to B. anthracis spores in different concentrations ranging from 5 x 10(1) to 5 x 10(8) cfu/mL in a flowing system. The results showed that the sensitivity of this ME biosensor was 202 Hz/decade.     

A system for the directed evolution of the insecticidal protein from Bacillus thuringiensis

Theoretically, the activity of AB-type toxin molecules such as the insecticidal toxin (Cry toxin) from B. thuringiensis, which have one active site and two binding site, is improved in parallel with the binding affinity to its receptor. In this experiment, we tried to devise a method for the directed evolution of Cry toxins to increase the binding affinity to the insect receptor. Using a commercial T7 phage-display system, we expressed Cry1Aa toxin on the phage surface as fusions with the capsid protein 10B. These recombinant phages bound to a cadherin-like protein that is one of the Cry1Aa toxin receptors in the model target insect Bombyx mori. The apparent affinity of Cry1Aa-expressing phage for the receptor was higher than that of Cry1Ab-expressing phage. Phages expressing Cry1Aa were isolated from a mixed suspension of phages expressing Cry1Ab and concentrated by up to 130,000-fold. Finally, random mutations were made in amino acid residues 369–375 in domain 2 of Cry1Aa toxin, the mutant toxins were expressed on phages, and the resulting phage library was screened with cadherin-like protein-coated beads. As a result, phages expressing abnormal or low-affinity mutant toxins were excluded, and phages with high-affinity mutant toxins were selected. These results indicate that a method combining T7 phage display with selection using cadherin-like protein-coated magnetic beads can be used to increase the activity of easily obtained, low-activity Cry toxins from bacteria.     

Crystal structure of an in vitro affinity- and specificity-matured anti-testosterone Fab in complex with testosterone. Improved affinity results from small structural changes within the variable domains

A highly selective, high affinity recombinant anti-testosterone Fab fragment has been generated by stepwise optimization of the complementarity-determining regions (CDRs) by random mutagenesis and phage display selection of a monoclonal antibody (3-C(4)F(5)). The best mutant (77 Fab) was obtained by evaluating the additivity effects of different independently selected CDR mutations. The 77 Fab contains 20 mutations and has about 40-fold increased affinity (K(d) = 3 x 10(-10) m) when compared with the wild-type (3-C(4)F(5)) Fab. To obtain structural insight into factors, which are needed to improve binding properties, we have determined the crystal structures of the mutant 77 Fab fragment with (2.15 A) and without testosterone (2.10 A) and compared these with previously determined wild-type structures. The overall testosterone binding of the 77 Fab is similar to that of the wild-type. The improved affinity and specificity of the 77 Fab fragment are due to more comprehensive packing of the testosterone with the protein, which is the result of small structural changes within the variable domains. Only one important binding site residue Glu-95 of the heavy chain CDR3 is mutated to alanine in the 77 Fab fragment. This mutation, originally selected from the phage library based on improved specificity, provides more free space for the testosterone D-ring. The light chain CDR1 of 77 Fab containing eight mutations has the most significant effect on the improved affinity, although it has no direct contact with the testosterone. The mutations of CDR-L1 cause a rearrangement in its conformation, leading to an overall fine reshaping of the binding site.     

亲和层析法用于噬菌体抗体库的筛选

本研究报道一种基于固定化金属亲和层析(IMAC)的噬菌体抗体库液相筛选方法。将纯化的带有His标签的抗原与噬菌体抗体库混合,噬菌体抗体与抗原充分结合后再加入亲和介质,使噬菌体抗体抗原复合物通过His标签与介质结合,然后通过充分洗涤去除非特异性噬菌体抗体,最后将特异性噬菌体抗体洗脱下来,感染TG1,进行下一轮筛选。整个筛选过程中抗原与抗体的结合在液相中完成,不仅消除了固相介质对抗原表位的影响,也更有利于噬菌体抗体与抗原的充分作用。将此方法应用于HEV NE2蛋白特异性人源噬菌体抗体的筛选,抗原竞争ELISA,阳性血清阻断,可溶性单链抗体表达检测及测序结果表明,最终获得2个特异性人源抗体。     

A Protocol for Phage Display and Affinity Selection Using Recombinant Protein Baits

Using recombinant phage as a scaffold to present various protein portions encoded by a directionally cloned cDNA library to immobilized bait molecules is an efficient means to discover interactions. The technique has largely been used to discover protein-protein interactions but the bait molecule to be challenged need not be restricted to proteins. The protocol presented here has been optimized to allow a modest number of baits to be screened in replicates to maximize the identification of independent clones presenting the same protein. This permits greater confidence that interacting proteins identified are legitimate interactors of the bait molecule. Monitoring the phage titer after each affinity selection round provides information on how the affinity selection is progressing as well as on the efficacy of negative controls. One means of titering the phage, and how and what to prepare in advance to allow this process to progress as efficiently as possible, is presented. Attributes of amplicons retrieved following isolation of independent plaque are highlighted that can be used to ascertain how well the affinity selection has progressed. Trouble shooting techniques to minimize false positives or to bypass persistently recovered phage are explained. Means of reducing viral contamination flare up are discussed.     

胰凝乳蛋白酶短肽抑制剂的筛选和活性分析

报道了一种从噬菌体肽库中筛选胰凝乳蛋白酶短肽抑制剂的新方法．在通常的亲和富集筛选的基础上,利用胰凝乳蛋白酶自身的水解活力切割掉结合的底物噬菌体,再经抑制活力分析得到抑制性噬菌体克隆．这样筛得的噬菌体克隆具有明显的胰凝乳蛋白酶结合活力和抑制活力,ＤＮＡ序列分析发现其保守序列为（Ｓ／Ｔ）ＲＶＰＲ（Ｒ／Ｈ）．按此序列化学合成的短肽Ａｃ－ＡＳＲＶＰＲＲＧ－ＮＨ２、Ａｃ－ＡＳＲＶＰＲＨＧ－ＮＨ２同样表现出对胰凝乳蛋白酶的抑制作用．该方法为蛋白酶短肽抑制剂的筛选提供了一条有效途径