Autoclave method for rapid preparation of bacterial PCR-template DNA

An autoclave method for preparing bacterial DNA for PCR template is presented, it eliminates the use of detergents, organic solvents, and mechanical cellular disruption approaches, thereby significantly reducing processing time and costs while increasing reproducibility. Bacteria are lysed by rapid heating and depressurization in an autoclave. The lysate, cleared by microcentrifugation, was either used directly in the PCR reaction, or concentrated by ultrafiltration. This approach was compared with seven established methods of DNA template preparation from four bacterial sources which included boiling Triton X-100 and SDS, bead beating, lysozyme/proteinase K, and CTAB lysis method components. Bacteria examined were Enterococcus and Escherichia coli, a natural marine bacterial community and an Antarctic cyanobacterial-mat. DNAs were tested for their suitability as PCR templates by repetitive element random amplified polymorphic DNA (RAPD) and denaturing gradient gel electrophoresis (DGGE) analysis. The autoclave method produced PCR amplifiable template comparable or superior to the other methods, with greater reproducibility, much shorter processing time, and at a significantly lower cost.     

Hydrophobic interactions in the major groove can influence DNA local structure

We have considered hydrophobic interactions among aliphatic hydrocarbon groups in A/T sequences. The slightly overwound sequences (T)n.(A)n yield structures with tightly stacked methyl groups along one side of the major groove. The sequence TTAA may yield a sharp bend by folding together the two pairs of stacked methyls on the opposite sides of the major groove. Thus the sequence can affect the formation of either a smooth bend or a sharp kink. These sequence dependent local conformations may be related to a number of biological results.     

Characteristic of segments of transgenic animal genomes, adjacent to integrated sequences of foreign DNA

DNAs of seven transgenic mice and one transgenic rabbit was divided into fractions according to reassociation kinetics and GC-content. Moderate and/or frequent (reverse) repeated sequences of the genome were revealed in all cases next to different transgenes. DNA fractions containing foreign sequences differed by the GC-content in different transgenic animals.     

一种快速提取丝状真菌染色体DNA的方法

介绍了一种适用于丝状真菌染色体DNA大片段的快速提取方法,该方法以(100mM Tris,100mM NaGl,50mM EDTA-Na2 2%SDS,pH值9.0)为提取液,经石英砂研磨破壁.应用该方法成功地提取了粗糙脉胞菌(Neurospora crassa)、米曲霉(Aspergillus oryzae)、产黄青霉(Penicillium chrysogenum)和头孢霉菌(Cep- halosporium sp.)等4种不同丝状真菌的染色体DNA大片段,且所提DNA片段均大于20kb,可直接用于限制性酶切、PCR等分子生物学研究.     

Simple preparation method of PCR fragments for automated DNA sequencing

In an effort to find a simple and inexpensive purification method of polymerase chain reaction (PCR) reaction before cycle sequencing reaction, we compared a commercial system with a precipitation protocol performed in our laboratory. We found that, particularly with small PCR products, our method works with greater success than the method compared. Our precipitation method may be used on a larger PCR fragment before cycle sequencing reaction as well. Furthermore, it has the advantage of being simple as the well-known dilution method; in contrast to the dilution method, the precipitation method removes excess primers as well as possible primer dimers.     

Interpretation of two-stage experiments in animal studies

Two-stage experiments allow results to be analysed at the end of the first stage and the second stage to be omitted if the preliminary conclusions are clear-cut. They thus offer the potential to reduce the number of experimental animals. However, using standard P values to assess the significance of results at the end of either stage will lead to an increase in risk of false positive conclusions. This paper provides a possible protocol for two-stage experiments and a method for adjusting P values. It is shown that, for experiments with reasonable power (>80%), the expected reduction in animal numbers will be at least 20%.     

A rapid and simple method for DNA preparation fromCandida utilis

A method for the extraction of genomic DNA from the industrial yeastCandida utilis is described. The method is rapid, simple and produces DNA that is sufficiently pure for restriction analysis and should be suitable for Southern blotting and the construction of gene libraries.     

A lipid-based method for the preparation of a piezoelectric DNA biosensor

A piezoelectric DNA biosensor was prepared by immobilizing DNA probes on a quartz crystal microbalance (QCM) using a lipid-based method. A QCM electrode was coated with a hybrid bilayer membrane composed of an octadecanethiol monolayer and a lipid monolayer containing biotinylated lipids to establish biotin groups on the electrode surface. A DNA biosensor was prepared by sequentially immobilizing avidin and the biotinylated probe. The DNA biosensor was stable throughout repeated surface regeneration and showed higher sensitivity than that prepared by the conventional chemical method using diimide. We also optimized the surface regeneration conditions and flow rate for flow injection analysis.     

Use of factorial designs to optimize animal experiments and reduce animal use

Optimization of experiments, such as those used in drug discovery, can lead to useful savings of scientific resources. Factors such as sex, strain, and age of the animals and protocol-specific factors such as timing and methods of administering treatments can have an important influence on the response of animals to experimental treatments. Factorial experimental designs can be used to explore which factors and what levels of these factors will maximize the difference between a vehicle control and a known positive control treatment. This information can then be used to design more efficient experiments, either by reducing the numbers of animals used or by increasing the sensitivity so that smaller biological effects can be detected. A factorial experimental design approach is more effective and efficient than the older approach of varying one factor at a time. Two examples of real factorial experiments reveal how using this approach can potentially lead to a reduction in animal use and savings in financial and scientific resources without loss of scientific validity.     

A new non-linear normalization method for reducing variability in DNA microarray experiments

Background  

Microarray data are subject to multiple sources of variation, of which biological sources are of interest whereas most others are only confounding. Recent work has identified systematic sources of variation that are intensity-dependent and non-linear in nature. Systematic sources of variation are not limited to the differing properties of the cyanine dyes Cy5 and Cy3 as observed in cDNA arrays, but are the general case for both oligonucleotide microarray (Affymetrix GeneChips) and cDNA microarray data. Current normalization techniques are most often linear and therefore not capable of fully correcting for these effects.