Products - Printed Microarrays - Discover Chips™

Discover Chips™ are oligonucleotide microarrays containing 380 gene sequences selected from major cellular pathways for broad coverage of physiological and transcriptional information. Four ArrayControls™ are included among the 380 gene sequences, to ensure hybridization specificity and to allow users to spike in control mRNAs for greater quantification. Each oligonucleotide sequence is printed in duplicate for tight CVs. Discover Chips™ are available for human, mouse, rat and Arabidopsis, allowing users to explore biology in biology’s most highly studied organisms. Long oligos were designed using the ArrayIt® Oligo Design Directive and manufacturing is performed in class 100 cleanrooms using the ArrayIt® patented printing technology, along with advanced surfaces and print buffers. These attributes combine to afford Discover Chips™ of incomparable quality.

Figure 1. Discover Chips™ contain 768 oligonucleotide features representing 384 oligonucleotides printed in duplicate in a 9 x 9 mm area on 25 x 76 mm atomically flat glass substrate slide. Spot spacing is 187 µm and each Discover Chips™ microarray is bar-coded for ease of identification and sample tracking. Discover Chips™ are compatible with every major brand of hybridization station, processing hardware, microarray scanner, and quantification and data mining software for ultimate user flexibility.

Short Protocol (Steps 1-6)
1. Process the ArrayIt® Discover Chips™ microarray to remove excess target sequences.
2. Block the microarray surface to reduce background fluorescence.
3. Hybridize the microarray with a labeled probe mixture.
4. Wash the microarray to remove unbound probe molecules.
5. Scan the microarray to detect fluorescent signals.
6. Quantify and model the Discover Chips™ data.

Complete Protocol (Steps 1-6)
1. Process the Discover Chips™ microarray to remove excess target sequences. Remove the Discover Chips™ microarray from the package and place it the rack of an ArrayIt® High-Throughput Wash Station. Process the microarray by washing for 5 min in 2X SSC + 0.1% SDS, 5 min in 2X SSC, and 1 min in 0.1X SSC. Transfer the microarray to a steel slide rack and place in boiling dH₂O for 30 sec. Transfer the microarray to 100% ethanol for 10 sec. Spin the microarray dry for 10 sec using an ArrayIt® Microarray High-Speed Centrifuge. These steps remove excess oligonucleotides from the microarray surface and prepare the microarray for the blocking step.

2. Block the microarray surface to reduce background fluorescence. Obtain a 22 x 22 mm glass cover slip and make sure the cover slip is clean and free of oils and particulates. Cover slips can be washed using ArrayIt® Micro Cleaning Solution. Place 10 µl of 1X ArrayIt® BlockIt™ Blocking Solution under a 22 x 22 mm cover slip and block the Discover Chips™ microarray surface for 60 min at room temperature. To block a large number of Discover Chips™ microarrays simultaneously, blocking may also be performed in batch using 1X ArrayIt® BlockIt™ Blocking Solution in an ArrayIt® High-Throughput Wash Station. Batch blocking is also performed for 60 min at room temperature. After the 60 min blocking step, place the Discover Chips™ microarray into High-Throughput Wash Station and wash for 1 min in dH₂O. Spin the microarray dry for 10 sec using an ArrayIt® Microarray High-Speed Centrifuge.

3. Hybridize the microarray with a labeled probe mixture. Prepare labeled probe mixtures by labeling messenger RNA (mRNA) with fluorescent nucleotides, amino-allyl derivatives, and other types of nucleotides. Labeling may be performed using reverse transcriptase to generate labeled cDNA. Amplified RNA (aRNA) may also be labeled using T7 polymerase and other approaches. ArrayIt® Discover Chips™ microarrays contain sense-strand target sequences bound to the glass substrate, so hybridization requires that the probe molecules contain anti-sense cDNA and RNA sequences. Suspend 1.0 µg of labeled cDNA or RNA in 10 µl of 1X HybIt® Hybridization Solution and hybridize the microarray for 3 hours at 65°C under at 22 x 22 mm glass cover slip. The labeled cDNA or RNA may also be suspended in 10 µl of 1X HybIt® 2 Hybridization Solution and hybridized for 3 hours at 42°C under a 22 x 22 mm glass cover slip. Hybridizations are performed using ArrayIt® Hybridization Cassettes submerged in a water bath set at 65°C (HybIt®) or 42°C (HybIt® 2).

4. Wash the microarray to remove unbound probe molecules. Immediately following the hybridization step, quickly remove the microarray from the ArrayIt® Hybridization Cassette and place it in a ArrayIt® High-Throughput Wash Station containing 500 ml of 1X ArrayIt® Wash Buffer A. Wash the Discover Chips™ microarray in Wash Buffer A for 5 min at room temperature, making sure to remove the glass cover slip from the surface as quickly as possible in the first wash. Transfer the microarray to a second ArrayIt® High-Throughput Wash Station containing 500 ml of 1X ArrayIt® Wash Buffer B and wash the Discover Chips™ microarray for 5 min at room temperature. Transfer the microarray to a third ArrayIt® High-Throughput Wash Station containing 500 ml of 1X ArrayIt® Wash Buffer C and wash the Discover Chips™ microarray in Wash Buffer C for 5 min at room temperature. After the three wash steps, dry the microarray for 10 sec using an ArrayIt® Microarray High-Speed Centrifuge.

5. Scan the microarray to detect fluorescent signals. Place the ArrayIt® Discover Chips™ microarray into an ArrayIt® InnoScan® Microarray Scanner or a SpotLight™ Microarray Scanner and scan the microarray to detect green (e.g. Cy3) and red (e.g. Cy5) fluorescent signals. Scanner settings should be set to capture as many unsaturated spots as possible. Multiple images can be acquired and saved to increase the dynamic range of the assay. The 380 gene sequences from human (DCH), mouse (DCM), rat (DCR) or Arabidopsis (DCA) should appear as duplicate spots in a 9 x 9 mm area at the top of the glass substrate slide, as depicted as shown in Fig. 1. Scanned images should be saved as standard 16-bit TIFF format for data analysis.

6. Quantify and model the Discover Chips™ data. Quantify the fluorescent signals obtained at each printed location and save the data in a tab-delimited format. These data can be combined with the gene annotations provided in links below. Accession numbers for each Discover Chips™ gene can be used to explore the biochemical function of each gene. Databases containing expression profiles from multiple Discover Chips™ microarrays can provide insights into signaling pathways and other physiologically important processes.

Gene Lists and Annotations
The following links provide gene and annotation information for our Discover Chips™ products.

Human Discover Chip Spot Map

Mouse Discover Chip Spot Map

Oligo Information Human Rat Mouse

Rat Discover Chip Spot Map

The following links provide gene and annotation information for our Discover Chips™ products in the GAL format.

Ordering Information

Product Description Catalog ID Price per microaray (US dollars)* Human Discover Chips™ ArrayIt® Human Discover Chips™ microarray containing 380 long oligonucleotides representing 380 human genes from major gene categories, four Ambion controls, each element printed in duplicate in class 100 cleanrooms for incomparable quality, glass substrate slide microarray format compatible with all major brands for microarray scanner, 1 each. DCH $108.90 Rat Discover Chips™ ArrayIt® Rat Discover Chips™ microarray containing 380 long oligonucleotides representing 380 rat genes from major gene categories, four Ambion controls, each element printed in duplicate in class 100 cleanrooms for incomparable quality, glass substrate slide microarray format compatible with all major brands for microarray scanner, 1 each. DCR $108.90 Mouse Discover Chips™ ArrayIt® Mouse Discover Chips™ microarray containing 380 long oligonucleotides representing 380 mouse genes from major gene categories, four Ambion controls, each element printed in duplicate in class 100 cleanrooms for incomparable quality, glass substrate slide microarray format compatible with all major brands for microarray scanner, 1 each. DCM $108.90 Arabidopsis Discover Chips™ ArrayIt® Arabidopsis Discover Chips™ microarray containing 380 long oligonucleotides representing 380 Arabidopsis genes from major gene categories, four Ambion controls, each element printed in duplicate in class 100 cleanrooms for incomparable quality, glass substrate slide microarray format compatible with all major brands for microarray scanner, 1 each. DCA $108.90 Quantity Discounts: 10-29 = 5% discount 30-49 = 10% discount 50-100 = 15% discount >100 = Inquire

*To order ArrayIt® brand products call 408-744-1331, fax 408-744-1711, email arrayit@arrayit.com or click on the Purchase buttons to proceed directly to the Shop Site.

*International pricing may vary as much as 30% (or more depending on country) due to import duties, stocking fees and technical support.

Storage Conditions
ArrayIt® Discover Chips™ microarrays are manufactured and packaged in state-of-the-art class 100 Cleanroom facilities and are stable at room temperature (25°C) for 6 months from the date of receipt. Store in the white substrate slide box and avoid exposure to elevated temperature, humidity, and dust.

Warranty
ArrayIt® Discover Chips™ microarrays have been scientifically developed and manufactured in a state-of-the-art class 100 Cleanrooms. Discover Chips™ are sold for research purposes. Extreme care and exact attention should be practiced in the use of the materials described herein. All TeleChem products are subject to extensive quality control and are guaranteed to perform as described when used properly. Any problems with these products should be reported to TeleChem immediately. Our liability is limited to the replacement of the product, or a full refund. Any misuse of this product is the full responsibility of the user, and TeleChem makes no warranty or guarantee under such circumstances.

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