1 institute for systems biology enabling new genomics technologies in the isb microarray facility b....
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1 Institute for Systems Biology
Enabling new genomics technologies in the ISB Microarray Facility
B. Marzolf1, P. Troisch1
Multiple platforms support varying needs
Institute for Systems Biology 7th Annual International Symposium, Systems Biology and Engineering
We gratefully acknowledge support from NIGMS P50GMO76547
The Microarray Facility at ISB supports multiple platforms to accommodate varying research needs. The platforms differ in probe density, cost and flexibility, giving each unique advantages for varying applications:
•Affymetrix – Highest probe density, lowest flexibility
•Agilent – Medium probe density, high flexibility
•Spotted – Low probe density, high flexibility, lowest cost for low density arrays
Pro
be
den
sity
Relative Cost
10K
AffymetrixMouse/HumanExon
AffymetrixTiling
10M
100K
1M
SpottedHalobacterium
expression
1 1052 3 4 6 7 8 9
AffymetrixMouse/HumanGene ST
AgilentMouse/Human4X
AgilentMouse/HumanmicroRNA
AgilentTiling
Increasing density and vendor competitionreduce per-array costs for expression studies
1000
10000
100000
1000000
10000000
Mar-97 Jul-98 Dec-99 Apr-01 Sep-02 Jan-04 May-05 Oct-06 Feb-08
Date
Fea
ture
/Mic
roar
ray
Spotted
Agilent
Affymetrix Features
Affymetrix Transcripts
Early improvements in microarray probe density were focused on increasing the number of transcripts that could be interrogated per array. Eventually, densities increased to the point where roughly every gene in a mammalian genome could be probed on a single array. Now that densities well exceed whole-genome coverage (for per-gene expression arrays), commercial microarray manufacturers are producing lower-cost, smaller surface area arrays.
Agilent Affymetrix NimbleGen
Agilent synthesizes up to 8 separately hybridizable arrays of up to 15,000 probes each on a single microarray slide. New, lower-priced whole-genome mammalian arrays are available in 4 array slides, with 44,000 probes per array. Having multiple arrays on one slide allows the parallel processing multiple samples, increasing throughput.
Affymetrix synthesizes probes onto a quartz wafer that has a standard size. The wafer can then be sliced into anywhere from 49 to 400 arrays, depending upon the size of each individual array. Each array is packaged in a separate cartridge.
NimbleGen arrays, as with Agilent, have multiple arrays per each slide, with up to 4 (and soon 12) separately hybridizable arrays. The 4-array slides allow up to 72,000 probes per array.
Collaboration with the Informatics CoreNew technologies require new tools for data management and analysis. Infrastructure development is done in close collaboration with the Informatics Core, making internally and externally developed analysis tools more accessible to a varied set of microarray users. GenePattern, a framework created by Broad Institute, is utilized in several of the analysis pipelines.
Affymetrix raw CEL files
Affymetrix Exon Array Normalization
Bioconductor background subtraction, normalization, summarization
Annotation with Synonym Web Service
Annotated expression data
Agilent Multiple Scan Normalization
Raw intensity multi-scan intensity measurements
Choice of Bioconductor normalization methods
Combine scans to extend linear range with Masliner
Normalized data
Tiling microarrays increase in density and range of applications
Tiling microarrays typically utilize the maximum probe densities available on each platform to provide the highest resolution of probe tiling. Initially usage of tiling microarrays focused on chromatin IP on chip (chIP-chip) experiments, but has expanded to include transcriptome structure profiling and more specific assays such as nucleosome mapping.
Transcriptome Nucleosome MappingRNA purification and labeling roughly follow conventional methods, except that specific subpopulations may be selected for:
• polyadenylated RNA
• negative selection for ribosomal RNA
•preservation of small RNAs that may be lost by conventional methods
÷
=
Raw intensities must be corrected for probe-specific effects
RNA
genomic
Signal is plotted against the chromosome and segmented into regions of differing expression
•Cross-link nucleosomes to DNA
•Digest linker DNA between nucleosomes
•Purify out nucleosome-bound DNA
•Label and hybridize
Lee et al., Nature Genetics, September 2007David et al., PNAS, March 2006
Aligning transcription start sites across all verified transcripts and plotting the average nucleosome occupancy reveals a pattern:
Plotting nucleosome positions and tiling data long chromosomes provides additional evidence for non-annotated transcripts
Targeting miRNA in Total RNA Samples on Agilent Microarrays
Existence of miRNA in Samples Check for presence of miRNAs in the total RNA sample using a small RNA Bioanalyzer chip. The miRNAs will produce a shallow peak in the 10nt to 40nt region, followed by a larger tRNA peak and rRNAs.
Labeling of miRNA Agilent uses a direct labeling method without amplification or size fractionation. A total RNA sample of 100ng is treated with calf intestinal alkaline phosphatase (CIP) to dephosphorylate the RNA in preparation for labeling. The sample is heat and DMSO denatured prior to the addition of a Cy3 fluorophore. A single Cy3 fluorophore is attached to the 3’ phosphate of a 3’, 5’-cytidine bisphosphate (pCp-Cy3). The pCp-Cy3 molecule is joined to the 3’ end of a miRNA by T4 RNA ligase. A mini chromatography column is used to desalt and remove any unincorporated pCp-Cy3 molecules.
Total RNA Dephosphorylate Denature Label with pCp-Cy3 Purify Hybridize
Probe Design To increase probe-miRNA specific binding Agilent has – *Added a G residue (shown in black) to the 5’ end of each probe complimentary to the 3’ C residue (green) attached during labeling (diagram A and B) *Devised a 5’ hairpin structure (shown in blue) added to the end of each probe to eliminate the binding of large non-specific pieces of RNA (diagram A and B) *Reduced probe length from the 5’ end of the complimentary miRNA in order to destabilize certain probes
www.agilent.com
www.agilent.com