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Agilent
Technologies launches ChIP-on-chip microarray platform, enabling researchers to
analyze gene regulation
Palo Alto, Calif., September 12,
2005: Agilent Technologies Inc. (NYSE: A) today
introduced its ChIP-on-chip microarray solution for analyzing activity at
regulatory regions of genomes. The technology, also known as location analysis,
provides insight into key mechanisms of embryonic stem cells and illnesses such
as cancer, cardiovascular disease and central nervous system disorders.
Scientists can also use this technique to develop therapies.
"ChIP" refers to chromatin immunoprecipitation, and "chip" refers to the glass
slides on which the microarrays are printed.
"ChIP-on-chip is an example of Agilent's drive to develop the next generation of
microarray applications," said Fran DiNuzzo, vice president and general manager
of Agilent's Integrated Biology Solutions business. "Emerging applications,
coupled with the ability to design and print microarrays containing up-to-date
content, are the foundation of our genomics program."
"ChIP-on-chip goes beyond gene expression to explore gene regulation activity,"
said Richard Young, Ph.D., of MIT and its Whitehead Institute affiliate.
"Regulatory proteins bind to genomic DNA to control DNA replication and gene
expression, thereby functioning as switches in the regulatory circuitry of
cells. Combine this information with gene expression data and you get
biomarkers."
On September 8, the early online edition of the journal Cell published a paper
by researchers at Dr. Young's Whitehead Institute, describing how they used the
technique to discover the mechanism by which human embryonic stem cells retain
the ability to become any type cell, and how this ability is lost once the cells
begin to differentiate.
The Aug. 26, 2005, issue of Cell (Vol. 122, 517-527) also published a paper by
researchers at the Young lab, describing how they used chromatin
immunoprecipitation with DNA microarrays to produce genome-wide maps of
acetylation and methylation -- regulatory events -- in yeast. The lab studies
yeast to construct testable models to predict how cellular processes are
regulated at the transcription level by the proteins that control gene
expression..
In January 2005, Agilent purchased Computational Biology Corp., which was
founded by Dr. Young to develop ChIP-on-chip technology. He remains a consultant
to Agilent, along with co-founders David Gifford, Ph.D., and Heidi Wyle, Ph.D.
Agilent recently established a center in Cambridge, Mass., primarily to develop
and support ChIP-on-chip and related applications.
Part of the value of Agilent's microarray products is access to the latest probe
databases. The company's eArray online tool enables users to design their own
custom microarrays and then print them on slides using Agilent's highly flexible
SurePrint inkjet technology. This empowers researchers to develop innovative
applications in the highly dynamic genomics environment.
Dr. Young's team at the Whitehead Institute designed the probes and associated
array layouts on the Agilent platform. In addition to using yeast arrays,
numerous researchers have been using Agilent mouse and human promoter and ENCODE
arrays for ChIP-on-chip analysis since January 2005. The probes are designed to
offer broad genome coverage, allowing researchers to study regulatory events on
a genome-wide scale.
"Analyzing transcriptional regulation using location analysis microarrays is a
major aspect of our research into the basic mechanism of lung fibrosis," said
Naftali Kaminski, M.D., director of the Dorothy P. and Richard P. Simmons Center
for Interstitial Lung Disease at the University of Pittsburgh School of
Medicine. "We consider it critical to be able to perform the hybridizations and
visualize and analyze the results in our own lab. This provides us with
immediate access to results, and the ability to troubleshoot day-to-day
experiments rather than being dependent on batch analyses."
Referring to his usage of some of the mammalian designs, Dr. Brian Dynlacht,
director of Genomics Program for New York University's Cancer Institute, said,
"We observe very impressive enrichment upon immunoprecipitation with these
microarrays, and the dynamic range of the signal in the IP channel is excellent.
The background signal is extremely low."
Agilent plans to offer a complete solution for location analysis that includes
reagents, a microarray portfolio and data analysis software.
About Agilent in Genomics
Agilent is a leading provider of microarray-based, genomics research solutions
with more than 500 customers worldwide. Agilent's end-to-end solution includes
reagents for sample preparation and microarray processing; hardware for sample
QC and high-throughput microarray scanning; 60-mer oligo microarrays on
industry-standard 1" x 3" glass slides for gene expression; comparative genomic
hybridization and chromatin immunoprecipitation applications; custom microarray
design services; and industry-leading GeneSpring and Rosetta software products
for data analysis.
About Agilent Technologies
Agilent Technologies Inc. (NYSE: A) is the world's premier measurement company
and a technology leader in communications, electronics, life sciences and
chemical analysis. The company's 28,000 employees serve customers in more than
110 countries. Agilent had net revenue of $7.2 billion in fiscal year 2004.
Information about Agilent is available on the Web at www.agilent.com.
DATELINE: September 12, 2005
CONTACT: Stuart Matlow, +1 408 553 7191,
stuart_matlow@agilent.com
WEB LINK:
http://www.agilent.com/about/newsroom/presrel/2005/12sep-ca05058.html
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