1:30
DNA microarrays
DNA microarrays
A short film about DNA microarrays, and how they are used to show dynamic gene expression levels.
1:18
DNA Test Methods - DNA Microarrays
DNA Test Methods - DNA Microarrays
View the full Interactive Tutorial at: www.phgfoundation.org A DNA "chip" or microarray is prepared on a small solid base such as a piece of glass or nylon divided into a grid of tiny squares. To each square is attached a different and specific piece of DNA, typically a short DNA sequence that can act as a probe for a particular gene. DNA corresponding to thousands of different genes can be accommodated on a single array no bigger than a microscope slide. A single stranded DNA sample of interest is cut up and then washed over the chip. Any sequence in the sample that matches a sequence on the chip will hybridise to it and, if the sample is suitably labeled (usually with a fluorescent tag) the pattern of matches can be visualised and analysed by computer, giving a read-out of the presence or expression level of hundreds of different sequences simultaneously. DNA chips have many potential applications in biology and medicine. For example, they can be used to look for mutations in a gene, to measure how active a set of genes is in a particular cell or tissue type, to analyse how gene activity changes over time, or to compare the genotypes or gene expression profiles of different samples, for example the genotypes of people who do or do not respond to a particular drug, or the gene expression patterns of tumours compared to normal tissue.
1:50
DNA chips and microarrays
DNA chips and microarrays
Description of DNA chips and microarrays and how they are produced and used. One of the many videos available for free from the Howard Hughes Medical Institute.
2:20
Microarrays
Microarrays
www.genomicseducation.ca DNA Microarrays, looking at how the process of Gene Expression Profiling, Protein Microarrays and Comparative Genomic Hybridization Microarrays work.
6:53
Microarray Method for Genetic Testing
Microarray Method for Genetic Testing
Microarray Method for Genetic Testing
0:53
DNA Microarray
DNA Microarray
DNA Microarray Originally created for DNA Interactive ( www.dnai.org ) TRANSCRIPT The grid you can see in this microarray slide is actually composed of 30000 individual DNA dots, each targeted to match a specific human gene. In order to work out which genes are being expressed, messenger RNA is first extracted from the cell sample and copied back to DNA using an enzyme. This DNA, called cDNA, is complementary to the target gene, so we'll associate with it, or hybridize with it, on the slide. After labeling with a fluorescent dye, the cDNA is washed over the slide. The genes currently active in the cell can then be identified by the level of the fluorescence and the color of the spots)
5:52
Array Plate Protein and DNA Microarray Hybridization Station.wmv
Array Plate Protein and DNA Microarray Hybridization Station.wmv
Arrayit's high throughput hybridization instrumentation for microplate formatted microarrays configured in 4x16 and 4x24 multi-well hybridization cassettes. Hybridize and react up to 96 DNA, protein, peptide and carbohydrate microarrays at a time. This digitally controlled peltier heating and cooling (ambient to 100ºC) orbital mixer (300-1500 rpm) can also be used for the full gamut of microarray applications as well as cell studies, RNA transcription, immunoprecipitation, enzyme kinetics, and more. Serum microarrays requires 1 microliter of serum in 75 microliters of reaction buffer. Scan and quantified quicky in ArrayPix Microarray Scanner.
5:52
Array Plate Protein and DNA Microarray Hybridization Station
Array Plate Protein and DNA Microarray Hybridization Station
Array Plate Protein and DNA Microarray Hybridization Station
5:27
Proteomics: Functional Genomics at DNA & RNA Level Transcriptomics SAGE DNA Microarray
Proteomics: Functional Genomics at DNA & RNA Level Transcriptomics SAGE DNA Microarray
Functional Genomics At DNA And RNA Level: We know that for a large number of organisms a complete genome sequence is now available, so in functional genomics by the help of genomic sequence we can excess every single gene to study and evaluate its function at systemic level Transcriptomics: Functional genomics sequences that are based on DNA sequencing and are used to study mRNA expression profiles on a biological scale are known as transcriptomics. The expression profile of a gene can reveal a lot about its functional role in the cell and can also help to identify functional links to other genes. For example, the expression of many genes is restricted to specific cells or developing structures, often showing that these genes have particular functions in those places other genes are expressed in response to external stimuli. Furthermore mutating one gene may affect the expression profile of the others, helping to link those genes into functional pathways and networks. The two major technologies for the large scale expression analysis that emerged from genomics were large scale complementary cDNA sequencing sampling based on standard DNA sequencing methods and the use of DNA array for expression analysis by hybridization. Sequence sampling: Sequence sampling is the direct and fastest way to study transcriptome. In one of the basic approach clones are picked up from cDNA library then theses clones are identified by their comparison with 200 to 300 bp sequence obtained from <b>...</b>
1:20
ZIZ 051 DNA Chip - SD PAL / ZIZ 051 DNA microarrays - SD PAL
ZIZ 051 DNA Chip - SD PAL / ZIZ 051 DNA microarrays - SD PAL
Kategorie C - Liegt zur Lizenzierung ohne Wasserzeichen in folgendem Format vor: 720x576. Die Einbettung mit Wasserzeichen ist kostenlos. English: Category C - full version without watermark 720x576 (check terms and conditions at www.teledesign.de) The version with watermark is for free to embed - Text: Tumor tissue cells change their structure. A tumor cell eliminates all genes that might stop it from growing expansively and activates all genes that are required for growth. Within the single cells the ratio of genetic material and mRNA hence changes. A fact that is used for DNA-chip technology. On the chip surface short DNA sequences are attached that are known to be normally present or transcribed in breast tissue. They are called DNA probes and work like a fishing-rod. One chip can carry up to 100.000 probes Now healthy as well as tumor tissue samples are collected. From those DNA or mRNA is isolated and fluorescence labeled. If a droplet of this solution is brought onto the chip the DNA probes will bind to the complementary DNA and mRNA strands respectively.
20:15
Drought induced gene expression analysis in Arabidopsis by micro array technology
Drought induced gene expression analysis in Arabidopsis by micro array technology
This video gives information about chip based analysis of the genome by high throughput technology. A DNA micro array is a multiplex technology which is evolved from Southern blotting. it is based on the principle of HYBRIDIZATION of cDNA /RNA to the complementary oligo nucleotides of the genome. Micro array chip is consist of consist of an arrayed series of thousands of microscopic spots of DNA oligo nucleotides each containing picomoles (10−12 moles) of a specific DNA sequence, known as probes (or reporters). These can be a short section of a gene or other DNA element that are used to hybridize a cDNA sample under high-stringency conditions. There are various types of microarrays are used such as 1) DNA microarray 2) Protein microarray 3) Tissue Micro array The animation shown in the video is explaining the procedure and mechanism behind the micro array technology. Presented by kamble Viraj Gangadhar MSc Biotechnology (Ist year) CPMB, TNAU Coimbatore-641003
0:43
DNA Microarrays: Sample Quality Control, Array Hybridization and Scanning
DNA Microarrays: Sample Quality Control, Array Hybridization and Scanning
Watch video protocols on JoVE - www.jove.com. Journal of Visualized Experiments (JoVE) is a scientific journal publishing video articles on biological experiments filmed at leading research institutions. JoVE is the first video journal indexed in PubMed. To see more of this protocol go to www.jove.com DNA Microarrays: Sample Quality Control, Array Hybridization and Scanning This video protocol was filmed at the University of California-Davis. Microarray expression profiling of the nervous system provides a powerful approach to identifying gene activities in different stages of development, different physiological or pathological states, response to therapy, and, in general, any condition that is being experimentally tested1. Expression profiling of neural tissues requires isolation of high quality RNA, amplification of the isolated RNA and hybridization to DNA microarrays. In this article we describe protocols for reproducible microarray experiments from brain tumor tissue2. We will start by performing a quality control analysis of isolated RNA samples with Agilent's 2100 Bioanalyzer "lab-on-a-chip" technology. High quality RNA samples are critical for the success of any microarray experiment, and the 2100 Bioanalyzer provides a quick, quantitative measurement of the sample quality. RNA samples are then amplified and labeled by performing reverse transcription to obtain cDNA, followed by in vitro transcription in the presence of labeled nucleotides to produce labeled cRNA <b>...</b>
1:22
Microarray Gene Expression
Microarray Gene Expression
An animated overview of the microarray process for gene expression profiling.
2:36
Microarray Hybridization Cassette AHC1x24
Microarray Hybridization Cassette AHC1x24
Hybridization Cassettes accommodate single glass substrate slide microarrays. A silicone gasket containing 24 wells is held against the glass surface to create individual reaction wells encompassing the printed microarrays. The upper portion of the Hybridization Cassette allows the introduction 24 individual samples, making hybridization cassette 1x24 ideal for DNA and protein microarray research and diagnostics.
2:02
Microarrayer
Microarrayer
A video that shows how DNA microarrays are made. From the Howard Hughes Medical Institute.