Fluorescence data analysis on gel-based biochips

A series of biochip readers developed for gel-based biochips includes three imaging models and a novel nonimaging biochip scanner. The imaging readers, ranging from a research-grade versatile reader to a simple portable one, use wide-field objectives and 12-bit digital large-coupled device cameras for parallel addressing of multiple array elements. This feature is valuable for monitoring the kinetics of sample interaction with immobilized probes. Depending on the model and the label used, the sensitivity of these readers approaches 0.3 amol of a labeled sample per gel element. In the selective scanner, both the spot size of the excitation laser beam and the detector field of view match the size of the biochip array elements so that the whole row of the array can be read in a single scan. The portable version reads 50-mm long, 150-element, one-dimensional arrays in 5 s. With a dynamic range of 4000:1, a sensitivity of 1-5 amol of a labeled sample per gel element, and a data format facilitating online processing, the scanner is an attractive, inexpensive solution for biomedical diagnostics. Fluorophores for sample labeling were compared experimentally in terms of detection sensitivity, influence on duplex stability, and suitability for multilabel analysis and thermodynamic studies. Texas Red and tetracarboxyphenylporphyn proved to be the best choice for two-wavelength analysis using the imaging readers.     

Biophysical methods for biochip analysis. Use of wide-field digital fluorescence microscopy

This paper discusses the development of biophysical methods for biochip analysis. A scheme and construction of a biochip analyzer based on wide-field digital fluorescence microscopy are described. The analyzer is designed to register images of biological microchips labeled with fluorescent dyes. The device developed is useful for high-sensitivity throughput recording of analyses with biochips after interaction of immobilized probes with fluorescently labeled sample molecules as well as it provides a higher rate of the analysis compared with laser scanning devices. With this analyzer, the scope where biological microchips can be applied becomes wider, development of new protocols of the analyses is possible and standard analyses run faster with the use of biochips, the expenses for performing routine analyses can be reduced.     

Russia's protected areas: a survey and identification of development problems

Natural habitat preservation, i.e. the creation and management of Protected Natural Areas (PNAs), is one of the most important forms of biodiversity conservation. The most widespread types of PNAs in Russia are Zakazniks (State Nature Refuges) and Natural Monuments, but unlike Zapovedniks (State Nature Reserves) these types of Russian PNAs are little-known to foreign ecologists. Thus the main attention of this article is given to the problems of Zakazniks and Natural Monuments while other types of Russian PNAs are mentioned briefly. In many regions of Russia, Zakazniks and Natural Monuments are considered to be the core components for the regional protection of biodiversity. Non-Governmental Organizations play an important role in the creation and management of PNAs. The recent sudden change of circumstances in Russia have given rise to many problems which threaten the existence of Zakazniks and Natural Monuments. Possible means of saving these PNAs include: (i) promoting the interest of local people in protecting biodiversity; and (ii) supporting local authorities, and public initiatives and regional programmes in the creation of local PNA networks.     

Detection of single-nucleotide polymorphisms in the <Emphasis Type="Italic">p53</Emphasis> gene by LDR/RCA in hydrogel microarrays

To find single-nucleotide polymorphisms (SNPs) in the human genome, three modern technologies of molecular genetic analysis were combined: the ligase detection reaction (LDR), rolling circle amplification (RCA), and immobilized microarray of gel elements (IMAGE). SNPs were detected in target DNA by selective ligation of allele-specific nucleotides in microarrays. The ligation product was assayed in microarray gel pads by RCA. Two variants of microarray analysis were compared. One included selective ligation of short oligonu-cleotides immobilized in a microarray with subsequent amplification with a preformed circular probe (a common circle). The probe was especially designed for human genome research. The other variant employed immobilized allele-specific padlock probes, which could be circularized as a result of selective ligation. Codon 72 SNP of the human p53 gene was used as a model. RCA in microarrays proved to be a quantitative assay and, in combination with LDR, allowed efficient discrimination of alleles. The principles and prospects of LDR/RCA in microarrays are discussed.Translated from Molekulyarnaya Biologiya, Vol. 39, No. 1, 2005, pp. 30–39.Original Russian Text Copyright © 2005 by Kashkin, Strizhkov, Gryadunov, Surzhikov, Grechishnikova, Kreindlin, Chupeeva, Evseev, Turygin, Mirzabekov.     

Optical properties of fluorochromes promising for use in biological microchips

Fourteen fluorochromes (free and oligonucleotide-bound) and five ligands commonly used to quantitatively assess DNA duplexes or complexes with proteins in microchips were studied by measuring their fluorescence excitation and emission spectra. The spectral changes are described that were caused by oligonucleotide binding, solution hybridization, or varying the temperature. The data are discussed from the standpoint of applicability and limitations of the fluorochromes and the ligands in qualitative and quantitative assays for DNA duplexes in microchips.     

Effects of various fluorochromes and competition between labeled oligonucleotides on their hybridization to oligonucleotides immobilized on biological microchips

Some technical tips are described on how to improve the discrimination between perfect and imperfect duplexes formed by hybridization of fluorescently labeled oligonucleotides to biological microchips. Model experiments were performed to assess the precision of the method. Effects of labeling on the efficiency of hybridization and some properties of competitive hybridization were studied using short synthetic oligonucleotides and three most popular fluorochromes as examples.