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Publication Part Number: 5990-6274EN | 19 Dec 2011 |
File Size:
1 MB
A key factor controlling the dynamic range of signal intensity in microarray experiments is probe sequence fidelity. Agilent’s SurePrint inkjet oligonucleotide synthesis process dramatically increases the sequence fidelity of probe synthesis, resulting in over five orders of magnitude of dynamic ...
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Publication Part Number: 5989-9159EN | 17 Jul 2011 |
File Size:
384 KB
Genomic instability is a classic hallmark of cancer and genetic disorders. Microarray-based comparative genomic hybridization (aCGH) has become the accepted technique for studying DNA sequence copy number alterations. While DNA extracted from freshly frozen tissues is optimal for aCGH analysis, i...
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Publication Part Number: 5989-7120EN | 20 Jun 2011 |
File Size:
4 MB
Labeling Kit) and ULS (Genomic DNA High-Throughput ULS Labeling Kit) methodologies have been developed and validated with VWorks Automation Control software. The new workfl ow, compatible with both SurePrint HD and G3 microarrays, enables superior performance across the entire Agilent CGH/ CNV po...
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Publication Part Number: 5990-4660EN | 20 Jun 2011 |
File Size:
445 KB
Genomic instability is a classic hallmark of cancer and genetic disorders. The Agilent Oligonucleotide array-based Comparative Genomic Hybridization (aCGH) platform lets you profile DNA copy number variations on a highthroughput and genome-wide scale. We have developed a rapid, low-input whole ge...
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Publication Part Number: 5989-6624EN | 20 Jun 2011 |
File Size:
1 MB
Genomic instability is a classic hallmark of cancer and genetic disorders. The Agilent Oligonucleotide array-based Comparative Genomic Hybridization (aCGH) platform lets you profile DNA copy number variations on a high- throughput and genome-wide scale. We have developed a rapid, low-input whole ...
Application |
Publication Part Number: 5989-6624EN | 20 Jun 2011 |
File Size:
1 MB