BSA reduces inhibition in a TaqMan assay for the detection of Batrachochytrium dendrobatidis

A TaqMan assay for the causative agent of chytridiomycosis in amphibians (Batrachochytrium dendrobatidis) can be inhibited by phenolic compounds, including humic and tannic acids, resulting in false negatives. Bovine serum albumin (BSA) is known to reduce inhibition of PCR when samples are contaminated with these inhibitors. We assessed the effect of BSA in reducing inhibition of the TaqMan assay when analyzing skin swabs for B. dendrobatidis. We found that the addition of BSA to the TaqMan reaction reduced inhibition to insignificant levels. BSA did not appreciably affect the efficiency or analytical sensitivity of the TaqMan reaction in the analysis of standard DNA solutions free from environmental inhibitors. We recommend the addition of 400 ng microl(-1) of BSA to the standard TaqMan assay to reduce inhibition associated with sampling wild amphibians.     

Enhancing PCR amplification and sequencing using DNA-binding proteins

The polymerase chain reaction (PCR) is a powerful core molecular biology technique, which when coupled to chain termination sequencing allows gene and DNA sequence information to be derived rapidly. A number of modifications to the basic PCR format have been developed in an attempt to increase amplification efficiency and the specificity of the reaction. We have applied the use of DNA-binding protein, gene 32 protein from bacteriophage T4 (T4gp32) to increase amplification efficiency with a number of diverse templates. In addition, we have found that using single-stranded DNA-binding protein (SSB) or recA protein in DNA sequencing reactions dramatically increases the resolution of sequencing runs. The use of DNA-binding proteins in amplification and sequencing may prove to be generally applicable in improving the yield and quality of a number of templates from various sources.     

Towards Q-PCR of pathogenic bacteria with improved electrochemical double-tagged genosensing detection

A very sensitive assay for the rapid detection of pathogenic bacteria based on electrochemical genosensing has been designed. The assay was performed by the PCR specific amplification of the eaeA gene, related with the pathogenic activity of Escherichia coli O157:H7. The efficiency and selectivity of the selected primers were firstly studied by using standard Quantitative PCR (Q-PCR) based on TaqMan fluorescent strategy. The bacteria amplicon was detected by using two different electrochemical genosensing strategies, a highly selective biosensor based on a bulk-modified avidin biocomposite (Av-GEB) and a highly sensitive magneto sensor (m-GEC). The electrochemical detection was achieved in both cases by the enzyme marker HRP. The assay showed to be very sensitive, being able to detect 4.5 ng microl(-1) and 0.45 ng microl(-1) of the original bacterial genome after only 10 cycles of PCR amplification, when the first and the second strategies were used, respectively. Moreover, the electrochemical strategies for the detection of the amplicon showed to be more sensitive compared with Q-PCR strategies based on fluorescent labels such as TaqMan probes.     

Preferential interaction of albumin-binding proteins, gp30 and gp18, with conformationally modified albumins. Presence in many cells and tissues with a possible role in catabolism.

Albumin binding to the endothelial surface apparently initiates its transcytosis via plasmalemmal vesicles and also increases capillary permselectivity. Several albumin-binding proteins, which, we call gp60, gp30, and gp18, have been identified; however, their functional relationship to each other is unclear. In this study, we show that gp30 and gp18 are both variably expressed by cultured rat fibroblasts, smooth muscle cells, and endothelial cells and are present in all tissues examined (heart, lung, skeletal muscle, diaphragm, duodenum, kidney, fat, brain, adrenal, pancreas, and liver). The binding of albumin-gold complexes (A-Au) to gp30 and gp18 was compared with that of native and modified albumins. Monomeric native bovine serum albumin (BSA) interacted much less avidly than A-Au and BSA that was chemically modified by formaldehyde (Fm-BSA) or maleic anhydride (Mal-BSA). Mal-BSA and A-Au have similar affinity constants for gp30 and gp18 (KD approximately 3-7 micrograms/ml (50-100 nM)), which is 1000-fold greater than BSA. These interactions were Ca(2+)-independent but sensitive to pH (< 6.0) and high salt concentrations (> or = 1.0 M). Comparative biochemical characterization provided evidence of conformational changes for Mal-BSA, Fm-BSA, and A-Au. Anti-native BSA serum recognizes BSA much more avidly than modified BSA. Mal-BSA, Fm-BSA, and A-Au are much more sensitive to trypsin digestion than BSA. Cellular processing was also examined. A-Au and Mal-BSA bound at the endothelial cell surface were degraded, whereas BSA was not. Our results indicate that: (i) gp30 and gp18, unlike gp60, are expressed in all tissues tested regardless of the type of endothelia lining the microvasculature and the local mechanism of transendothelial albumin transport; (ii) BSA conformationally modified by either surface adsorption or chemical means not only interacts more avidly with gp30 and gp18 than native albumin but also is preferentially degraded by the cells; (iii) A-Au and native albumin are not equivalent probes for detecting albumin interaction sites; and (iv) gp30 and gp18 exhibit binding behavior resembling scavenger receptors. The possible roles of gp30 and gp18 in albumin binding, transcytosis, endocytosis, and even protein catabolism are discussed.     

Improving qPCR efficiency in environmental samples by selective removal of humic acids with DAX-8

Quantitative PCR is becoming the method of choice for the detection of pathogenic microorganisms and other targets in the environment. A major obstacle when amplifying DNA is the presence of inhibiting substances like humic acids that decrease the efficiency of PCR. We combined the polymeric adsorbent Supelite™ DAX-8 with a large-volume (10 mL) nucleic acid extraction method to decrease the humic acid content prior to qPCR quantification in water samples. The method was tested by spiking with humic acid standards and the bacterial surrogate Acinetobacter baylyi ADP1. Improvements in qPCR detection of ADP1 after application of DAX-8 resin (5 and 10 w/v%) were compared with the effects of added bovine serum albumin (BSA) (50, 100 and 200 ng/μL). Both additions improved detection of ADP1 by counteracting inhibitory effects. There were no changes in mean cycle threshold difference (ΔC_T) after application of DAX-8 compared to the control despite some loss of DNA, whereas significant increases occurred for BSA, irrespective of BSA concentration applied. The use of DAX-8 leads to an increase in qPCR amplification efficiency in contrast to BSA. The commonly used method to calculate genomic sample concentrations by comparing measured CT values relative to standard curves is only valid if amplification efficiencies of both are sufficiently similar. DAX-8 can provide this efficiency by removing humic acids permanently from nucleic acid extracts and has the potential to significantly increase the reliability of reported non-detects and measured results obtained by qPCR in environmental monitoring.     

Bovine serum albumin further enhances the effects of organic solvents on increased yield of polymerase chain reaction of GC-rich templates

ABSTRACT: BACKGROUND: While being a standard powerful molecular biology technique, applications of the PCR to the amplification of high GC-rich DNA samples still present challenges which include limited yield and poor specificity of the reaction. Organic solvents, including DMSO and formamide, have been often employed as additives to increase the efficiency of amplification of high GC content (GC > 60%) DNA sequences. Bovine serum albumin (BSA) has been used as an additive in several applications, including restriction enzyme digestions as well as in PCR amplification of templates from environmental samples that contain potential inhibitors such as phenolic compounds. FINDINGS: Significant increase in PCR amplification yields of GC-rich DNA targets ranging in sizes from 0.4 kb to 7.1 kb were achieved by using BSA as a co-additive along with DMSO and formamide. Notably, enhancing effects of BSA occurs in the initial PCR cycles with BSA additions having no detrimental impact on PCR yield or specificity. When a PCR was set up such that the cycling parameters paused after every ten cycles to allow for supplementation of BSA, combining BSA and organic solvent produced significantly higher yields relative to conditions using the solvent alone. The co-enhancing effects of BSA in presence of organic solvents were also obtained in other PCR applications, including site-directed mutagenesis and overlap extension PCR. CONCLUSIONS: BSA significantly enhances PCR amplification yield when used in combination with organic solvents, DMSO or formamide. BSA enhancing effects were obtained in several PCR applications, with DNA templates of high GC content and spanning a broad size range. When added to the reaction buffer, promoting effects of BSA were seen in the first cycles of the PCR, regardless of the size of the DNA to amplify. The strategy outlined here provides a cost-effective alternative for increasing the efficiency of PCR amplification of GC-rich DNA targets over a broad size range.     

牛血清白蛋白在植物RAPD分析中的作用

以水杉、七子花DNA为模板,添加牛血清白蛋白（BSA）,观察其对植物RAPD扩增效果的改善情况。研究显示,在水杉及七子花RAPD扩增体系中,改善RAPD扩增反应的最佳的BSA浓度是不同的,分别为06μg/μl与1μg/μl。另外,BSA还可以封闭乙酰BSA对RAPD扩增反应的抑制作用,降低RAPD反应系统中Taq酶的用量。 Abstract:Using Metasequoia glyptostroboides and Heptacodium miconioides DNA as templates,the effect of bovine serum albumin(BSA) on RAPD in plants was studied.The results showed that suitable concentrations of BSA used in Metasequoia glyptostroboides and Heptacodium miconioides RAPD were different,which were 06μg/μl and 1μg/μl,respectively.The inhibition of acetylated BSA on the amplification of plant RAPD could be relieved by BSA.BSA could reduce the dosage of Taq DNA polymerase.     

一种高效可直接用于PCR分析的土壤总微生物DNA抽提方法

以CTAB-溶菌酶-蛋白酶K-冻融裂解法直接抽提土壤总微生物的基因组DNA,利用G8000沉淀和纯化DNA.结果表明,该方法是一种简便、有效可直接应用于PCR分析的土壤总微生物基因组DNA的抽提方法.采用含聚乙烯吡咯烷酮(PVP)的缓冲液预洗,添加CaCl₂和BSA,可以去除腐殖酸;用PEG8000沉淀DNA,可以提高DNA质量;采用冻融法破碎细胞,CTAB、溶菌酶和蛋白质酶K共同作用以裂解细胞,可以保证获得大片段的DNA,提高DNA产率.用该方法抽提的七子花林下土壤总微生物DNA产率为9.22 μg·g^-1,A260/A280为1.65,可适用于 PCR扩增及扩增rDNA限制酶切分析(ARDRA)技术,适宜的模板DNA浓度为0.67 ng·μl^-1.快速、有效、可直接用于PCR分析的土壤总微生物DNA提取方法的建立,为大规模的土壤微生物分子生态学研究提供了可能.     

Humic substances cause fluorescence inhibition in real-time polymerase chain reaction

Real-time polymerase chain reaction (qPCR) is the cornerstone of DNA analysis, enabling detection and quantification of minute nucleic acid amounts. However, PCR-based analysis is limited, in part, by the presence of inhibitors in the samples. PCR inhibition has been viewed solely as failure to efficiently generate amplicons, that is, amplification inhibition. Humic substances (HS) are well-known inhibitors of PCR amplification. Here we show that HS from environmental samples, specifically humic acid (HA), are very potent detection inhibitors, that is, quench the fluorescence signal of double-stranded DNA (dsDNA) binding dyes. HA quenched the fluorescence of the commonly used qPCR dyes EvaGreen, ResoLight, SYBR Green I, and SYTO 82, generating lowered amplification plots, although amplicon production was unaffected. For EvaGreen, 500 ng of HA quenched nearly all fluorescence, whereas 1000 ng of HA completely inhibited amplification when applying Immolase DNA polymerase with bovine serum albumin (BSA). Fluorescence spectroscopy measurements showed that HA quenching was either static or collisional and indicated that HA bound directly to the dye. Fulvic acid did not act as a qPCR detection inhibitor but inhibited amplification similarly to HA. Hydrolysis probe fluorescence was not quenched by HA. Detection inhibition is an overlooked phenomenon that needs to be considered to allow for development of optimal qPCR assays.     

The N-terminal 31 amino acids of human immunodeficiency virus type 1 envelope protein gp120 contain a potential gp41 contact site.

We have compared the expression of full-length gp160 envelope protein from human immunodeficiency virus type 1 with that of a deletion mutant lacking the N-terminal 31 amino acids of the mature protein (gp160 delta 32). The gp160 and gp160 delta 32 proteins are processed to yield gp41 and gp120 or gp120 delta 32, respectively. In contrast to full-length gp120, gp120 delta 32 failed to associate with gp41 at the cell surface, despite conformational integrity as judged by soluble CD4 binding. Thus, the N-terminal 31 amino acids of gp120, which contain hyperconserved sequences, are likely involved in forming a contact site for gp41.     

Primase-based whole genome amplification

In vitro DNA amplification methods, such as polymerase chain reaction (PCR), rely on synthetic oligonucleotide primers for initiation of the reaction. In vivo, primers are synthesized on-template by DNA primase. The bacteriophage T7 gene 4 protein (gp4) has both primase and helicase activities. In this study, we report the development of a primase-based Whole Genome Amplification (pWGA) method, which utilizes gp4 primase to synthesize primers, eliminating the requirement of adding synthetic primers. Typical yield of pWGA from 1 ng to 10 ng of human genomic DNA input is in the microgram range, reaching over a thousand-fold amplification after 1 h of incubation at 37 degrees C. The amplification bias on human genomic DNA is 6.3-fold among 20 loci on different chromosomes. In addition to amplifying total genomic DNA, pWGA can also be used for detection and quantification of contaminant DNA in a sample when combined with a fluorescent reporter dye. When circular DNA is used as template in pWGA, 10(8)-fold of amplification is observed from as low as 100 copies of input. The high efficiency of pWGA in amplifying circular DNA makes it a potential tool in diagnosis and genotyping of circular human DNA viruses such as human papillomavirus (HPV).     

Dual functions of single-stranded DNA-binding protein in helicase loading at the bacteriophage T4 DNA replication fork

Semi-conservative DNA synthesis reactions catalyzed by the bacteriophage T4 DNA polymerase holoenzyme are initiated by a strand displacement mechanism requiring gp32, the T4 single-stranded DNA (ssDNA)-binding protein, to sequester the displaced strand. After initiation, DNA helicase acquisition by the nascent replication fork leads to a dramatic increase in the rate and processivity of leading strand DNA synthesis. In vitro studies have established that either of two T4-encoded DNA helicases, gp41 or dda, is capable of stimulating strand displacement synthesis. The acquisition of either helicase by the nascent replication fork is modulated by other protein components of the fork including gp32 and, in the case of the gp41 helicase, its mediator/loading protein gp59. Here, we examine the relationships between gp32 and the gp41/gp59 and dda helicase systems, respectively, during T4 replication using altered forms of gp32 defective in either protein-protein or protein-ssDNA interactions. We show that optimal stimulation of DNA synthesis by gp41/gp59 helicase requires gp32-gp59 interactions and is strongly dependent on the stability of ssDNA binding by gp32. Fluorescence assays demonstrate that gp59 binds stoichiometrically to forked DNA molecules; however, gp59-forked DNA complexes are destabilized via protein-protein interactions with the C-terminal "A-domain" fragment of gp32. These and previously published results suggest a model in which a mobile gp59-gp32 cluster bound to lagging strand ssDNA is the target for gp41 helicase assembly. In contrast, stimulation of DNA synthesis by dda helicase requires direct gp32-dda protein-protein interactions and is relatively unaffected by mutations in gp32 that destabilize its ssDNA binding activity. The latter data support a model in which protein-protein interactions with gp32 maintain dda in a proper active state for translocation at the replication fork. The relationship between dda and gp32 proteins in T4 replication appears similar to the relationship observed between the UL9 helicase and ICP8 ssDNA-binding protein in herpesvirus replication.     

Simultaneous interactions of bacteriophage T4 DNA replication proteins gp59 and gp32 with single-stranded (ss) DNA. Co-modulation of ssDNA binding activities in a DNA helicase assembly intermediate.

The T4 gp59 protein is the major accessory protein of the phage's replicative DNA helicase, gp41. gp59 helps load gp41 at DNA replication forks by promoting its assembly onto single-stranded (ss) DNA covered with cooperatively bound molecules of gp32, the T4 single-strand DNA binding protein (ssb). A gp59-gp32-ssDNA ternary complex is an obligatory intermediate in this helicase loading mechanism. Here, we characterize the properties of gp59-gp32-ssDNA complexes and reveal some of the biochemical interactions that occur within them. Our results indicate the following: (i) gp59 is able to co-occupy ssDNA pre-saturated with either gp32 or gp32-A (a truncated gp32 species lacking interactions with gp59); (ii) gp59 destabilizes both gp32-ssDNA and (gp32-A)-ssDNA interactions; (iii) interactions of gp59 with the A-domain of gp32 alter the ssDNA-binding properties of gp59; and (iv) gp59 organizes gp32-ssDNA versus (gp32-A)-ssDNA into morphologically distinct complexes. Our results support a model in which gp59-gp32 interactions are non-essential for the co-occupancy of both proteins on ssDNA but are essential for the formation of structures competent for helicase assembly. The data argue that specific "cross-talk" between gp59 and gp32, involving conformational changes in both, is a key feature of the gp41 helicase assembly pathway.     

美国黑核桃SSR反应体系优化

优化SSR-PCR反应体系是黑核桃（Juglans nigra L.）SSR基因鉴定和群体遗传等研究的基础。本研究通过对PCR反应中Mg²⁺浓度、牛血清白蛋白（Bovine Serum Albumin,BSA）浓度、Taq聚合酶用量、dNTPs浓度、引物浓度和模板DNA量的组合以及PCR程序组合试验,确定了黑核桃SSR的最佳反应体系,即在10 μL的PCR反应体系中,含10 ng模板DNA,0.1 mg·mL^-1牛血清蛋白（BSA）,0.25 mmol·L^-1 dNTPs,1.5 mmol·L^-1 Mg²⁺ 1 μL 10X Taq DNA聚合酶反应缓冲液,0.5 U Taq聚合酶,1.0 mmol·L^-1单对引物（0.5 mmol·L^-13对引物）。SSR-PCR反应扩增程序为：94℃变性3 min;93℃变性15 s,50℃或者53.5℃退火1 min,72℃延伸30 s,32个循环;72℃后延伸10 min,置4℃保存。利用此反应体系对黑核桃进行PCR扩增并电泳检测,其结果清晰、稳定、可靠,适合进一步对黑核桃群体遗传、基因型鉴定和分子生态研究。     

Theory of electrostatically regulated binding of T4 gene 32 protein to single- and double-stranded DNA

Bacteriophage T4 gene 32 protein (gp32) is a single-stranded DNA binding protein, which is essential for DNA replication, recombination, and repair. In a recent article, we described a new method using single DNA molecule stretching measurements to determine the noncooperative association constants K(ds) to double-stranded DNA for gp32 and *I, a truncated form of gp32. In addition, we developed a single molecule method for measuring K(ss), the association constant of these proteins to single-stranded DNA. We found that in low salt both K(ds) and K(ss) have a very weak salt dependence for gp32, whereas for *I the salt dependence remains strong. In this article we propose a model that explains the salt dependence of gp32 and *I binding to single-stranded nucleic acids. The main feature of this model is the strongly salt-dependent removal of the C-terminal domain of gp32 from its nucleic acid binding site that is in pre-equilibrium to protein binding to both double-stranded and single-stranded nucleic acid. We hypothesize that unbinding of the C-terminal domain is associated with counterion condensation of sodium ions onto this part of gp32, which compensates for sodium ion release from the nucleic acid upon its binding to the protein. This results in the salt-independence of gp32 binding to DNA in low salt. The predictions of our model quantitatively describe the large body of thermodynamic and kinetic data from bulk and single molecule experiments on gp32 and *I binding to single-stranded nucleic acids.     

Effect of epidermal growth factor on preimplantation development and its receptor expression in porcine embryos.

The present study aimed to determine the influence of exogenous epidermal growth factor (EGF) on in vitro preimplantation porcine embryo development and its mRNA expression for EGF receptor (EGFR). Oocytes were aspirated from abattoir ovaries, selected and cultured in defined, protein-free media for 44 hr before in vitro fertilization (IVF). Thirty-six hours after IVF, two-cell stage embryos were selected and treated or cultured until embryo treatment. In experiment 1, compact morulae were selected on day 4 after IVF and randomly allocated into 5 groups: NCSU 23 with PVA as group 1; NCSU 23 with PVA and 0.1 ng/ml, 1.0 ng/ml, 10.0 ng/ml EGF as group 2, 3, 4, respectively; NSCU 23 with 0.4% BSA as group 5. In experiment 2, treatment groups were the same as in experiment 1 except that 0.1% crystallized BSA was added to both washing media and all treatment groups instead of PVA. In experiments 3 and 4, two-cell stage embryos were treated and cultured in the same experimental design as experiments 1 and 2, respectively. RT-PCR was used to detect the mRNA expression of EGF receptor in compact morulae and blastocysts. The PCR products were subjected to direct DNA sequencing. There was no significant improvement in the development rate of embryos from compact morulae to blastocysts in the presence of various EGF concentrations (0.1, 1.0, 10.0 ng/ml) versus without EGF addition. They were all significantly lower than those embryos cultured in the continuous presence of 0.4% BSA. However, when a reduced concentration (0.1%) of crystallized BSA was added to all the treatment groups, a significantly lower rate of embryo development was observed in control media (NCSU23 with 0.1% crystallized BSA) compared with those developed in culture media with 0.4% BSA. With the addition of EGF at 10 ng/ml (with 0.1% BSA), embryo development rates were significantly improved over the control group (P < 0.05) and were as good as those rates in 0.4% BSA culture group. When embryos were selected and treated from the 2-cell stage, they did not develop to blastocyst stages after five more days' culture without any protein (BSA) or growth factor addition. When 0.1% BSA was included in the media, blastocyst formation rates were significantly improved by EGF addition at the concentration of both 1.0 or 10 ng/ml (P < 0.05) as compared to 0.0 or 0.1 ng/ml. EGFR mRNA was detected in both compact morulae and blastocyst stages of porcine embryos and confirmed by direct DNA sequencing. Our results indicate that IVM-IVF porcine embryo developmental rates could be improved by the addition of EGF in the culture media with the presence of a reduced amount of defined BSA (>97% albumin). However, EGF alone was not able to elicit any stimulatory effects on embryo development in the absence of protein supplementation. Further studies are needed to investigate the potential synergistic factors in embryo culture media to eventually define the porcine embryo culture media.     

Development of procedures for direct extraction of Cryptosporidium DNA from water concentrates and for relief of PCR inhibitors

Extraction of high-quality DNA is a key step in PCR detection of Cryptosporidium and other pathogens in environmental samples. Currently, Cryptosporidium oocysts in water samples have to be purified from water concentrates before DNA is extracted. This study compared the effectiveness of six DNA extraction methods (DNA extraction with the QIAamp DNA minikit after oocyst purification with immunomagnetic separation and direct DNA extraction methods using the FastDNA SPIN kit for soil, QIAamp DNA stool minikit, UltraClean soil kit, or QIAamp DNA minikit and the traditional phenol-chloroform technique) for the detection of Cryptosporidium with oocyst-seeded samples, DNA-spiked samples, and field water samples. The study also evaluated the effects of different PCR facilitators (nonacetylated bovine serum albumin, the T4 gene 32 protein, and polyvinylpyrrolidone) and treatments (the use of GeneReleaser or ultrafiltration) for the relief from or removal of inhibitors of PCR amplification. The results of seeding and spiking studies showed that PCR inhibitors were presented in all DNA solutions extracted by the six methods. However, the effect of PCR inhibitors could be relieved significantly by the addition of 400 ng of bovine serum albumin/mul or 25 ng of T4 gene 32 protein/mul to the PCR mixture. With the inclusion of bovine serum albumin in the PCR mixture, DNA extracted with the FastDNA SPIN kit for soil without oocyst isolation resulted in PCR performance similar to that produced by the QIAamp DNA minikit after oocysts were purified by immunomagnetic separation.     

Formation of D loops by the UvsX protein of T4 bacteriophage: a comparison of the reaction catalyzed in the presence or absence of gene 32 protein

The UvsX protein of T4 bacteriophage will catalyze the formation of D loops between linear single-stranded DNA (ssDNA) and homologous supercoiled double-stranded DNA (dsDNA) in the absence of T4 gene 32 protein (gp32). This reaction requires one monomer of UvsX protein per three nucleotides of ssDNA so that the ssDNA is completely covered with UvsX protein. Under these conditions, high rates of ATP hydrolysis are observed, and one-third of the products are joined paranemically. The reaction proceeds through a mechanism that creates homology-independent coaggregates of UvsX protein, dsDNA, and ssDNA. When UvsX protein is added to only 1 monomer per 8 nucleotides, but with 1 monomer of gp32 per 12 nucleotides, the rate of ATP hydrolysis is depressed, but D-loop formation is enhanced. Nearly all of the product is bound in plectonemic joints, and no coaggregated intermediates are formed. Coaggregate formation at high concentrations of UvsX protein is not inhibited by the presence of gp32; gp32 simply allows for efficient formation of D loops at such low concentrations of UvsX protein that coaggregates are not constructed. Electron microscopic visualization of the joint structures in this reaction reveals that both gp32 and UvsX protein are bound to the ssDNA. The single-stranded DNA binding (SSB) protein of Escherichia coli will substitute only partially for gp32: in the presence of SSB protein, D-loop formation can be catalyzed at one UvsX protein monomer per eight nucleotides, and it is accomplished without the formation of coaggregates, but a major portion of the product is joined paranemically.     

Inhibition of Cell-Free Human T-Cell Leukemia Virus Type 1 Infection at a Postbinding Step by the Synthetic Peptide Derived from an Ectodomain of the gp21 Transmembrane Glycoprotein

To investigate the roles of human T-cell leukemia virus type 1 (HTLV-1) envelope (Env) proteins gp46 and gp21 in the early steps of infection, the effects of the 23 synthetic peptides covering the entire Env proteins on transmission of cell-free HTLV-1 were examined by PCR and by the plaque assay using a pseudotype of vesicular stomatis virus (VSV) bearing the Env of HTLV-1 [VSV(HTLV-1)]. The synthetic peptide corresponding to amino acids 400 to 429 of the gp21 Env protein (gp21 peptide 400-429, Cys-Arg-Phe-Pro-Asn-Ile-Thr-Asn-Ser-His-Val-Pro-Ile-Leu-Gln-Glu-Arg-P ro-Pro-Leu-Glu-Asn-Arg-Val-Leu-Thr-Gly-Trp-Gly-Leu) strongly inhibited infection of cell-free HTLV-1. By using the mutant peptide, Asn407, Ser408, and Leu413, -419, -424, and -429 were confirmed to be important amino acids for neutralizing activity of the gp21 peptide 400-429. Addition of this peptide before or during adsorption of HTLV-1 at 4 degrees C did not affect its entry. However, HTLV-1 infection was inhibited about 60% when the gp21 peptide 400-429 was added even 30 min after adsorption of HTLV-1 to cells, indicating that the amino acid sequence 400 to 429 on the gp21 Env protein plays an important role at the postbinding step of HTLV-1 infection. In contrast, a monoclonal antibody reported to recognize the gp46 191-196 peptide inhibited the infection of HTLV-1 at the binding step.     

Resonance Raman spectroscopy of complexes of the helix destabilizing proteins GP32 and GP5 with poly(rA) and poly(dA)

The bacteriophage T4 helix destabilizing protein (hdp) gp32 and its complexes with poly(rA) and poly(dA) were studied with ultra-violet resonant Raman spectroscopy. The UV-resonant Raman (UV-RR) spectrum of the complex of gp5, the coat protein of bacteriophage M13, with poly(dA) was also measured and is compared with the spectrum of the gp 32/poly(dA) complex. The excitation wavelength was 245.1 nm. This is on the far UV-side of the first absorption bands of adenine and near a "window" in the protein absorption spectrum. The overlap of fluorescence due to chromophores present in the protein and resonance Raman scattering was prevented by this choice of wavelength. The spectra of the protein/polynucleotide complexes are compared with the native nucleotide spectra measured at varying temperatures. The hyperchromicity which is expected when a nucleotide changes from a stacked to an unstacked conformation was not observed for poly(rA), neither upon temperature increase nor on protein binding. In both cases poly(dA) revealed a clear hyperchromicity. This different behavior of poly(rA) and poly(dA) is probably a consequence of their different conformations. The contributions of the proteins to the spectra is weak except for two bands, at 1550 and 1610 cm-1 due to tryptophan (in case of gp32) and one band near 1610 cm-1 due to tyrosine and phenylalanine.