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Jayanth Krishnan Mt. Sinai ChIP-on-chip 7/13/09 Summary What is ChIP-on-chip? ChIP-on-chip, also known as genome-wide location analysis, is a technique that is used by scientists in order to investigate Protein-DNA interactions. This technique combines elements from chromatin immunoprecipitation (ChIP) with microarray technology (chip) hence giving it the name ChIP-on-chip. ChIP-on chip is most widely used in order to identify where the binding sites are for a given protein. Once these binding sites are found, scientists may have the opportunity to gain great knowledge on the functions of various transcriptional regulators and perhaps identify many different functional elements which include promoters, enhancers, sequences that control DNA replication etc. DNA replication and recombination are also uses of ChIP-on chip, however the technique is most well known to identify binding sites for given transcription factors. The discovery of the binding sites of the model organism budding yeast or Saccharomyces cerevisiae was when the ChIP-on-chip technique was first successfully used. DNA microarrays – The technological platform for ChIP-on-chip ChIP-on chip experiments are conducted on DNA microarrays. The only difference between a standard microarray and a DNA microarray is DNA is being measured or somehow being used in the detection system. A microarray is basically a tool that draws connections based on expression. It consists of a vast number of microscopic spots of DNA oligonucleotides which have been bound at high density whose purpose is to hybridize the cDNA. Basically using hybridization probes and fluorescent tags expression of various genes can be observed. Regarding ChIP-on-chip experiments DNA sequences for a given protein are isolated by immunoprecipitation, then parts of the sequences are hybridized by the microarray and the protein binding sites can be identified. A DNA Microarray Experiment 1. Prepare your DNA chip using your chosen target DNAs. 2. Generate a hybridization solution containing a mixture of fluorescently labeled cDNAs. 3. Incubate your hybridization mixture containing fluorescently labeled cDNAs with your DNA chip. 4. Detect bound cDNA using laser technology and store data in a computer. 5. Analyze data using computational methods. http://www.ncbi.nlm.nih.gov/About/primer/microarrays.html Pros and Cons of ChIP-on-chip Although ChIP-on-chip can identify binding sites and chromatin modifications it can be quite expensive. DNA microarrays are often very expensive for a laboratory to afford. Another disadvantage in the technique is in order to obtain meaningful results experiments must be run several times. Also the size of the DNA fragments is a constraint (usually the minimum size is around 200bp). Also this technique has been limited only to the mammalian genomes. Antibodies are also a limiting factor, only certain antibodies are recognized by this technique. The ChIP-on-chip experiment Wet Lab Dry Lab Part 1: Wet Lab 1) Choose a protein and crosslink it to DNA site (formaldehyde fixation usually used) 2) Cells must be Lysed and DNA is sonicated and a Protein-DNA complex is formed 3) Complex is filtered using antibody complementary to the chosen protein (immunoprecipitation) 4) The complex is reverse cross linked; purifying the DNA 5) Fragments are labeled with a fluorescent tag 6) Fragments poured into the microarray where they essentially go and find their complementary single stranded DNA once found they hybridize and form a double stranded DNA fragment. 7) Lastly base pairs attach at the snip sites Part 2: Dry Lab 1) Areas of successful hybridization will emit fluorescence which is captured by a camera. 2) Data is then converted into numbers 3) Algorithms that normalize the data will provide proper statistical evidence to the experimenter 4) They using a peak software such as mpeak one can identify where the protein binding sites are located. Extra Links PubMed Home PubMed Central Homepage DNA microarray - Wikipedia, the free encyclopedia ChIP-on-chip - Wikipedia, the free encyclopedia Immunoprecipitation - Wikipedia, the free encyclopedia Oligonucleotide - Wikipedia, the free encyclopedia Saccharomyces cerevisiae - Wikipedia, the free encyclopedia Proteome - Wikipedia, the free encyclopedia Northern blot - Wikipedia, the free encyclopedia Telomerase - Wikipedia, the free encyclopedia CHIP_zmdl_1036.pdf (application/pdf Object) Mining ChIP-chip data for transcription factor and cofactor binding sites -- Smith et al. 21 (Supplement 1): i403 -- Bioinformatics Mapping of transcription factor binding regions in mammalian cells by ChIP: Comparison of array- and sequencing-based technologies Transcriptional Regulatory Network Microarrays Factsheet ChIP on Chip Ming's Homepage CHIP Bioinformatics | Mapper lecture13.pdf (application/pdf Object) Michael J. Buck cmb.2006.13.579 (application/pdf Object)
