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[[Image:Presentation7.jpg|right|300px]]
[[Image:Presentation7.jpg|right|300px]]
== Platforms ==
The MIT BioMicro Center has extensive experience with several different types of microarray samples and platforms. Microarray labeling and hybridization are typically performed by BioMicro Center technicians, however our scanners, hybridization ovens and wash stations are available by request.  
=== Affymetrix ===
The MIT BioMicro Center preforms expression analysis using Affymetrix arrays. Our service includes:
* Sample labeling and clean up using Affymentrix kits. ([http://www.affymetrix.com/support/downloads/manuals/expression_analysis_technical_manual.pdf Product Manual])
* Array hybridization  
* Data extraction and normalization
We currently use arrays designed for whole transcript expression and 3’ expression analysis arrays for eukaryotic and prokaryotic samples.  We are exploring expanding our services to include SNP and Genotyping analyses. Please visit the [[BioMicroCenter:Ideas|IDEAS CENTER]] if you have input on the types of arrays you would like us to provide.


=== Agilent ===  
== BioMicro Center Services ==
The MIT BioMicro Center hosts a high-throughput Agilent Microarray Scanner, which has ability to measure fluorescence from two dyes simultaneously facilitates differential gene expression studies. We are currently planning to reintroduce Agilent array hybridization services in 2009.
We are currently set up to primarily handle expression analysis. Our service includes:


=== Nimblegen ===
* Evaluation of sample quality using the [[BioMicroCenter:2100BioAnalyzer|Agilent BioAnalyzer 2100]]
The BioMicro Center does not currently support the Nimblegen platform. We are currently discussing upgrading our Agilent Scanner to enable it to scan Nimblegen arrays as well. Anyone interested in using Nimblegen arrays should contact '''Stephen Bell'''.
* Sample labeling and clean up
* Array Hybridization
* Data extraction and normalization
We also have discounts with different vendors and can help you purchase your arrays.
<br>
=== SAMPLE TYPES ===
The BioMicro Center has extensive experience handling samples for expression analysis.


{|border=1
|-
! Eukaryote
! Min.RNA
! Min.Vol.
! Platforms
! Notes
|-
| Prokaryote
| 1 μg
| 6 μL
| Affy or Agilent
| labeling using [http://www.ambion.com/catalog/ProdGrp.html?fkProdGrp=339 Ambion] for Affy arrays
|-
| 3' Array (std)
| 50ng / ''100pg ''
| 6 μL
| Affy or Agilent
| labeling using NuGEN for Affy arrays.
|-
| Exon Array
| 50ng / ''100pg''
| 6 μL
| Affymetrix
| labeling using NuGEN for Affy arrays
|-
| CGH
| 3 μg (DNA)
| 6 μL
| Agilent
| labeling using Agilent's CGH kit
|-
| small RNA
| 1 μg
| 6 μL
| Agilent
| labeling using Agilent's miRNA arrays
|}
<br>


== Sample Submission Guidelines ==
=== SAMPLE SUBMISSION ===


We encourage researchers to contact us several days in advance of sample submission to allow us lead time to purchase any specialized Affymetrix arrays. While we keep a few arrays in stock, most arrays are ordered on an as needed basis. A list of some of the available arrays and their prices can be found [[Media:Affy_Arrays_081218.pdf| in this file]]. Information about Affymetrix arrays is available at http://www.affymetrix.com/products_services/index.affx
We encourage researchers to contact us several days in advance of sample submission to allow us lead time to purchase any specialized Affymetrix or Agilent arrays. While we keep a few arrays in stock, most arrays are ordered on an as needed basis. A list of some of the available arrays and their prices can be found [[Media:Affy_Arrays_081218.pdf| in this file]]. Information about Affymetrix arrays is available at http://www.affymetrix.com/products_services/index.affx


All submissions must be accompanied by a [[BioMicroCenter:Forms#Downloads | Affymetrix Submission Form]].  
All submissions must be accompanied by a [[BioMicroCenter:Forms#Downloads | Affymetrix or Agilent Submission Form]].  
<br>
=== TURN AROUND ===
The BioMicro Center will turn around your samples as quickly as possible. Currently the average turn around time is 1-2 weeks.
<br>


=== Affymetrix Sample Concentrations ===
== ARRAY SELECTION ==
'''ARRAY'''              '''Min.RNA'''  '''CONCENTRATION'''    '''NOTES'''
There are several considerations to take into account in selecting your microarray. We provide support for multiple array platforms from two different manufacturers (Agilent and Affymetrix). Additionally, multiple labeling methods are available for each platform. Each labeling method has different sample requirements and multiple labeling methods should NOT be combined in doing post-hybridization analysis. The BioMicro Center staff is available to discuss the different options available and to assist you in experimental design.
Prokaryote          10 ug    >0.6 ug/ul
Euk. 3' Array        3 ug    >0.3 ug/ul
[[3primeIVT|**New Kit**]]        0.1 ug                    http://www.affymetrix.com/products_services/reagents/specific/3_ivtexpresskit.affx
Euk. Exon Array      2 ug    >0.5 ug/ul


=== Agilent vs. Affymetrix ===
[http://www.affymetrix.com AFFYMETRIX] arrays are very high density arrays of 25mer oligonucleotides built by lithography. An Affymetrix probeset is composed of numerous neighboring perfect match and mismatch probes that are combined and used in the calculation of intensity and relative expression. Affymetrix arrays are the most common arrays used in genomics right now and have a rich bioinformatic architecture that allows for a large number of analyses. While expression arrays are the most common, Affymetrix also creates arrays for SNP calling and ChIP-chip. Affymetrix expression arrays come in two flavors: 3' and exon. 3' arrays use oligo dT priming while exon arrays amplify from the whole RNA using random primers. Affymetrix arrays are one-color arrays and use biotinylated nucleotides in the cRNA/cDNA to recruit HRP-peroxidase to the probes. Affymetrix arrays come as single arrays from a broad list of species. The BioMicro Center has a hybridization oven, two 450 fluidics devices and a 7G scanner for handling Affymetrix arrays.


'''January 2009'''
[http://www.agilent.com AGILENT] arrays are lower density arrays then Affymetrix, but have much longer oligos (60mers) and are printed on glass slides using dot-matrix printing technologies. Because this method does not require the creation of metal plates, novel microarray designs cost no more then designs created by Agilent. Agilent arrays can be used for a variety of assays including gene expression, ChIP-chip, miRNA hybridization, and CGH.  Because of the lower probe density and the longer oligos used, each probe is evaluated separately. [[Image:Multiple_arrays.jpg|right]] Each glass slide can contain multiple identically-sized arrays (2, 4, or 8), reducing the cost per hybridization. Our Agilent scanner (Donated by the Bell lab) was recently upgraded (April 2011) and can handle Agilent arrays of up to 1 million probes per slide.  The new scanner is capable of scanning with 2, 3, 5 or 10 micron resolution, identifying weaker signals and preventing feature saturation. Typical mammalian expression arrays are in a 4x44k or 8x60k format where each slide contains four or eight identical arrays that are separable by a gasket slide. Agilent arrays can be hybridized either as one-color or two-color using Cy5 and Cy3 labeled cRNA/cDNA. We do not currently maintain a stock of Agilent arrays but do have a significant discount on the purchase of arrays.  
** Affymetrix is retiring their old 3' Array kits in September. The [[3primeIVT|new kits]] are faster, require less starting material, and slightly less expensive (prices will be adjusted soon). Please indicate which type of kit you would like to use when submitting your sample.


Information about our evaluation of the new kits is [[3primeIVT|HERE]]
'''As of July 2011, on a per sample basis, Agilent arrays now cost considerably less then Affymetrix Genechips (under $400 per array), but must be processed as whole slides.'''


=== Non-MIT Users ===
Please note that the BioMicro Center no longer supports printing of microarrays in house. Custom oligonuclotide arrays are available from Agilent at the same cost as their commercial arrays using their [http://www.chem.agilent.com/en-US/products/instruments/dnamicroarrays/pages/gp50660.aspx eArray system] (we can [[BioMicroCenter:Computing#BioInformatics_Services|help you]] through the process of designing arrays). For anyone requiring microarray printing, we encourage you to contact [http://jura.wi.mit.edu/genomecorewiki/index.php/Tom_Volkert Tom Volkert at the Whitehead Institute CGT].
Please contact [[BioMicroCenter:People|Manlin Luo]] to arrange a drop off date and time. Samples on dry ice and chips at room temperature with a completed order form are shipped by overnight delivery to:
  MIT BioMicro Center
  Attention: Manlin Luo
  31 Ames Street, Building 68-316
  Cambridge, MA 02139


== Protocol ==
=== Labeling Methods ===


<B><BIG>NEW!</BIG></B>
==== Labeling Kits ====
Affymetrix is switching their labeling kits to a new kit called [http://www.affymetrix.com/products_services/reagents/specific/3_ivtexpresskit.affx 3'IVT Express]<br>
[[Image:BMC_NugenKit.png|right]]
Affymetrix retired their old 3' and Exon Array kits in 2009.  BMC evaluated several new technologies to replace the kits. The newer kits are faster and require less starting material. Based on the type of protocol, we have chosen different kits for amplifying and labeling the RNA.Information on the evaluation can be found '''[[BioMicroCenter:3primeIVT|HERE]].'''. More information about some of our labeling protocols is below.


Information about the new kit can be found [[3primeIVT|HERE]]
* '''Prokaryote arrays''': For both Agilent and Affymetrix, we have had success using the [[http://www.ambion.com/catalog/ProdGrp.html?fkProdGrp=339 Ambion MessageAmp II-Bacteria kits]. These kits require 100ng of total RNA to start with. The RNA is then polyadenylated. The polyA RNA is then reverse transcribed with a T7 containing primer and 2nd strand of DNA is created. The T7 primer is then used to make antisense cRNA incorporating biotinylated or Cy3/Cy5 nucleotides which are hybridized to the arrays. We can use the old Affymetrix labeling system by request.


* '''Agilent Arrays (option 1)''': For Agilent expression, CGH and miRNA arrays our primary labeling kits are purchased directly from Agilent.


== Analysis and Data Retrieval ==
* '''Affymetrix arrays | Agilent Arrays (option 2)''': For standard Affymtrix arrays and for some Agilent arrays we have been using the NuGEN Applause and Ovation-WT systems. This system uses 50-100ng of total RNA as input. A unique feature of the NuGEN kits is that they use cDNA for hybridization instead of cRNA. Several studies have found increased specificity with the NuGEN system(eg. Eklund et al., Nat.Biotech. 2006). Preliminary tests were performed using samples from the White lab and analyzed in collaboration with Charlie Whittaker at the Koch Institute Bioinformatics and Computing Core Facility. The NuGEN kits showed significantly higher sensitivity then the Affymetrix kits coupled with decreased levels of background hybridization. All of the kits showed highly similar changes in expression between two samples, however the absolute level of detected transcripts were quite different. NuGEN kits can be adapted for Agilent arrays much the same way the Ambion prokaryote kits can.


=== Affymetrix Data Analysis ===
* '''Low Concentration Samples''': For very low concentration samples, the BioMicro Center uses the NuGEN [http://www.nugeninc.com/nugen/index.cfm/products/amplification-systems/wt-ovation-pico/ Pico kit]that can handle inputs down to 500pg (~50 cells). NuGEN also sells a [[http://www.nugeninc.com/nugen/index.cfm/products/amplification-systems/wt-ovation-one-direct/ single cell] preparation kit. The Pico kit can be used on Agilent, Affy 3' and Affy exon microarrays.
 
We DO NOT RECOMMEND mixing labeling types within an experiment as we have observed large differences between the absolute intensities of signals between labeling methods.
 
== QUALITY CONTROL ==
The BioMicro Center employs several quality controls as part of microarray analysis
=== RNA ===
All RNA samples are run on the [[BioMicroCenter:2100BioAnalyzer|Agilent BioAnalyzer]] prior to labeling. The BioAnalyzer results are used to determine the concentration of the RNA and the quality of the RNA based on their [[BioMicroCenter:RIN|RNA Integrity Number (RIN)]] score.
 
=== Affymetrix Arrays ===
After scanning, 3' Affymetrix arrays are processed through a number of quality control steps to confirm the quality of the array. These steps create quality control plots that we distribute to the user.
 
==== QC PLOTS ====
In all cases, the plots are guidelines but not absolutes. Differences in the quality of starting RNA or source of the RNA can have a major impact on the plots. Biological replicates should behave similarly and we focus on changes where we find that is not true.
 
The RNA Degradation plot measure the relative intensity of probes at the 5' and 3' end of the average gene. Differences in the reverse transcription step can hive significant effects on the outcome. The precise slope of the line is not as important as having the lines have similar slopes.


BioMicro Center will perform the initial data extraction of your samples using Affymetrix GCOS V.1.4. Affymetrix data is scaled to a average intensity of 500 per chip. Six files for each sample will be sent back to the user:
Normalized Unscaled Standard Error (NUSE), provides a measure of relative chip quality derived from the residuals from the RMA model. NUSE scores above 1.05 or disconnected from the others are generally (though not always) considered poor.


* .exp: Experiment information file
The Affy QC pdf contains a number of metrics including box plots and histograms of intensity, QC scores for spike in controls and interarray correlation.  
* .dat: The image of the scanned probe array.
* .cel: Cell Intensity File derived from  .dat file.
* .chp: Output file generated from the analysis of a probe array.
* .rpt: Report File generated.
* .txt: Text File is the same information as the .chp file in text format.


Additional data analysis help is available on a case by case basis. Please contact [[BioMicroCenter:People|Stuart Levine]] if you need additional help with your analysis.
Fianlly, we use gcRMA for normalization. gcRMA normalized data is included in the data we distribute.


=== Data Transfer ===
==== References ====
These plots are generated using a number of packages from [http://www.bioconductor.org/ bioconductor] including:


You will be notified by email that your data is ready. At that time please pick up any leftover samples and arrays belonging to you. Samples will be held at the facility at -80C for 60 days after your data is generated.  
*affy:Gautier, L., Cope, L., Bolstad, B. M., and Irizarry, R. A. 2004. affy---analysis of Affymetrix GeneChip data at the probe level. Bioinformatics 20, 3 (Feb. 2004), 307-315.
*affyQCReport
*affyPLM: Brettschneider J, Collin F, Bolstad BM, and Speed TP. (2007) Quality assessment for short oligonucleotide arrays. Technometrics.
*LPE:  Nitin Jain, Michael O'Connell and Jae K. Lee. Includes R source code contributed by HyungJun Cho <hcho@virginia.edu> (). LPE: Methods for analyzing microarray data using Local Pooled Error (LPE) method. R package version 1.20.0. http://www.r-project.org,


The data will be placed on our server and can be downloaded by secure FTP or SSH.
SSH can be downloaded from: ftp://metalab.unc.edu/pub/packages/security/ssh/SSHSecureShellClient-3.2.9.exe
Your user name and password will be included in the email. To obtain your data, enter the following in your client:


   Host:       bmc-150.mit.edu
Bioconductor reference:   Bioconductor: Open software development for computational biology and bioinformatics R. Gentleman, V. J. Carey, D. M. Bates, B.Bolstad, M. Dettling, S. Dudoit, B. Ellis, L. Gautier, Y. Ge, and others 2004, Genome Biology, Vol. 5, R80
  user:      provided in email     
  Password:  provided in email


Please contact [[BioMicroCenter:People|Stephen Goldman]] if you have difficulty obtaining your data.  
gcRMA:   Jean(ZHIJIN) Wu and Rafael Irizarry with contributions from James MacDonald Jeff Gentry (). gcrma: Background Adjustment Using Sequence Information. R package version 2.18.1.


== Pricing ==
Prices for sample processing do not include cost of arrays


=== [[BioMicroCenter:MicroArrays|AFFYMETRIX ARRAYS]] ===
=== Agilent Arrays ===
Affymetrix processing prices '''do not''' include the cost of the array.  In order to be sure we have arrays on hand, we encourage users to contact us several days in advance of submitting samples.
- - To Be Added - -


  '''ITEM'''                      '''[[CoreDeps|CORE LAB]]'''      '''MIT'''      '''NON-MIT'''    '''unit'''          '''NOTES'''
== DATA ANALYSIS ==
Affy Expression Processing
    Standard                    $260        $430      $645      per array    *kit will be retired Sep.2009
Affy Exon Processing          $300        $535      $800      per array                   
 
Common Affymetrix Arrays (in stock):
    Human U133 Plus 2.0        $400
    Human U133A 2.0            $250
    Human Exon 1.0 ST          $400
   
    Mouse 430 2.0              $400
    Mouse 430A 2.0              $250
    Mouse Exon 1.0 ST          $400
    Yeast 2.0                  $175
Full Price List:            [[Media:Affy_Arrays_081218.pdf| Affymetrix Prices]]


>> Price of 3' Expression arrays will be decreasing in early 2009 to reflect changes in the hybridization protocol.
=== Affymetrix Data Analysis ===


=== AGILENT SCANNER ===
BioMicro Center uses Affymetrix Expression Console and GCRMA for analysis of Affymetrix data. Several files for each sample will be provided to the user:
Agilent Scanner is available to members of the MIT Community without charge. If you are the first time user, contact [[BioMicroCenter:People|Stephen Goldman]] to set up a bionet account for your data storage. For questions about equipment, contact [[BioMicroCenter:People|Manlin Luo]]


After you have completed your scan, please make sure to sign the scanner record form, which is near the equipment and to remove your files from the computer. CD-Rs are available if needed.
* .exp: Experiment information file
* .dat: The image of the scanned probe array.
* .cel: Cell Intensity File derived from  .dat file.
* .chp: Output file generated from the analysis of a probe array.
* .rpt: Report File generated.
* .txt: Text File is the same information as the .chp file in text format.


=== [[2100BioAnalyzer|AGILENT BIOANALYZER]] ===
Additional data analysis help is available on a case by case basis. Please contact [[BioMicroCenter:People|Stuart Levine]] if you need additional help with your analysis.


  '''ITEM'''                      '''[[CoreDeps|CORE LAB]]'''      '''MIT'''      '''NON-MIT'''    '''unit'''          '''NOTES'''
=== Agilent Data Analysis ===
  RNA                          $10        $10        $15      per sample
Agilent Scanner is available to members of the MIT Community for $50 per scan. We are currently running Feature extractor version 10.5. For questions about equipment, contact [[BioMicroCenter:People|Manlin Luo]] After you have completed your scan, please make sure to sign the scanner record form, which is  near the equipment and to remove your files from the computer. CD-Rs are available if needed.


.
== LINKS ==
=== [[BioMicroCenter:Pricing|PRICES]] ===
=== [[BioMicroCenter:FAQ#NON_MIT_USERS|Information for non-MIT labs]] ===
=== [[BioMicroCenter:FAQ#HOW_DO_I_GET_MY_DATA|Obtaining your results]] ===
You will be notified by email that your data is ready. At that time please pick up any leftover samples and arrays belonging to you. Samples will be held at the facility at -80C for 60 days after your data is generated. Information on downloading your data is in the link above.

Revision as of 05:29, 29 August 2011

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The MIT BioMicro Center has extensive experience with several different types of microarray samples and platforms. Microarray labeling and hybridization are typically performed by BioMicro Center technicians, however our scanners, hybridization ovens and wash stations are available by request.

BioMicro Center Services

We are currently set up to primarily handle expression analysis. Our service includes:

  • Evaluation of sample quality using the Agilent BioAnalyzer 2100
  • Sample labeling and clean up
  • Array Hybridization
  • Data extraction and normalization

We also have discounts with different vendors and can help you purchase your arrays.

SAMPLE TYPES

The BioMicro Center has extensive experience handling samples for expression analysis.

Eukaryote Min.RNA Min.Vol. Platforms Notes
Prokaryote 1 μg 6 μL Affy or Agilent labeling using Ambion for Affy arrays
3' Array (std) 50ng / 100pg 6 μL Affy or Agilent labeling using NuGEN for Affy arrays.
Exon Array 50ng / 100pg 6 μL Affymetrix labeling using NuGEN for Affy arrays
CGH 3 μg (DNA) 6 μL Agilent labeling using Agilent's CGH kit
small RNA 1 μg 6 μL Agilent labeling using Agilent's miRNA arrays


SAMPLE SUBMISSION

We encourage researchers to contact us several days in advance of sample submission to allow us lead time to purchase any specialized Affymetrix or Agilent arrays. While we keep a few arrays in stock, most arrays are ordered on an as needed basis. A list of some of the available arrays and their prices can be found in this file. Information about Affymetrix arrays is available at http://www.affymetrix.com/products_services/index.affx

All submissions must be accompanied by a Affymetrix or Agilent Submission Form.

TURN AROUND

The BioMicro Center will turn around your samples as quickly as possible. Currently the average turn around time is 1-2 weeks.

ARRAY SELECTION

There are several considerations to take into account in selecting your microarray. We provide support for multiple array platforms from two different manufacturers (Agilent and Affymetrix). Additionally, multiple labeling methods are available for each platform. Each labeling method has different sample requirements and multiple labeling methods should NOT be combined in doing post-hybridization analysis. The BioMicro Center staff is available to discuss the different options available and to assist you in experimental design.

Agilent vs. Affymetrix

AFFYMETRIX arrays are very high density arrays of 25mer oligonucleotides built by lithography. An Affymetrix probeset is composed of numerous neighboring perfect match and mismatch probes that are combined and used in the calculation of intensity and relative expression. Affymetrix arrays are the most common arrays used in genomics right now and have a rich bioinformatic architecture that allows for a large number of analyses. While expression arrays are the most common, Affymetrix also creates arrays for SNP calling and ChIP-chip. Affymetrix expression arrays come in two flavors: 3' and exon. 3' arrays use oligo dT priming while exon arrays amplify from the whole RNA using random primers. Affymetrix arrays are one-color arrays and use biotinylated nucleotides in the cRNA/cDNA to recruit HRP-peroxidase to the probes. Affymetrix arrays come as single arrays from a broad list of species. The BioMicro Center has a hybridization oven, two 450 fluidics devices and a 7G scanner for handling Affymetrix arrays.

AGILENT arrays are lower density arrays then Affymetrix, but have much longer oligos (60mers) and are printed on glass slides using dot-matrix printing technologies. Because this method does not require the creation of metal plates, novel microarray designs cost no more then designs created by Agilent. Agilent arrays can be used for a variety of assays including gene expression, ChIP-chip, miRNA hybridization, and CGH. Because of the lower probe density and the longer oligos used, each probe is evaluated separately.

Each glass slide can contain multiple identically-sized arrays (2, 4, or 8), reducing the cost per hybridization. Our Agilent scanner (Donated by the Bell lab) was recently upgraded (April 2011) and can handle Agilent arrays of up to 1 million probes per slide. The new scanner is capable of scanning with 2, 3, 5 or 10 micron resolution, identifying weaker signals and preventing feature saturation. Typical mammalian expression arrays are in a 4x44k or 8x60k format where each slide contains four or eight identical arrays that are separable by a gasket slide. Agilent arrays can be hybridized either as one-color or two-color using Cy5 and Cy3 labeled cRNA/cDNA. We do not currently maintain a stock of Agilent arrays but do have a significant discount on the purchase of arrays.

As of July 2011, on a per sample basis, Agilent arrays now cost considerably less then Affymetrix Genechips (under $400 per array), but must be processed as whole slides.

Please note that the BioMicro Center no longer supports printing of microarrays in house. Custom oligonuclotide arrays are available from Agilent at the same cost as their commercial arrays using their eArray system (we can help you through the process of designing arrays). For anyone requiring microarray printing, we encourage you to contact Tom Volkert at the Whitehead Institute CGT.

Labeling Methods

Labeling Kits

Affymetrix retired their old 3' and Exon Array kits in 2009. BMC evaluated several new technologies to replace the kits. The newer kits are faster and require less starting material. Based on the type of protocol, we have chosen different kits for amplifying and labeling the RNA.Information on the evaluation can be found HERE.. More information about some of our labeling protocols is below.

  • Prokaryote arrays: For both Agilent and Affymetrix, we have had success using the [Ambion MessageAmp II-Bacteria kits. These kits require 100ng of total RNA to start with. The RNA is then polyadenylated. The polyA RNA is then reverse transcribed with a T7 containing primer and 2nd strand of DNA is created. The T7 primer is then used to make antisense cRNA incorporating biotinylated or Cy3/Cy5 nucleotides which are hybridized to the arrays. We can use the old Affymetrix labeling system by request.
  • Agilent Arrays (option 1): For Agilent expression, CGH and miRNA arrays our primary labeling kits are purchased directly from Agilent.
  • Affymetrix arrays | Agilent Arrays (option 2): For standard Affymtrix arrays and for some Agilent arrays we have been using the NuGEN Applause and Ovation-WT systems. This system uses 50-100ng of total RNA as input. A unique feature of the NuGEN kits is that they use cDNA for hybridization instead of cRNA. Several studies have found increased specificity with the NuGEN system(eg. Eklund et al., Nat.Biotech. 2006). Preliminary tests were performed using samples from the White lab and analyzed in collaboration with Charlie Whittaker at the Koch Institute Bioinformatics and Computing Core Facility. The NuGEN kits showed significantly higher sensitivity then the Affymetrix kits coupled with decreased levels of background hybridization. All of the kits showed highly similar changes in expression between two samples, however the absolute level of detected transcripts were quite different. NuGEN kits can be adapted for Agilent arrays much the same way the Ambion prokaryote kits can.
  • Low Concentration Samples: For very low concentration samples, the BioMicro Center uses the NuGEN Pico kitthat can handle inputs down to 500pg (~50 cells). NuGEN also sells a [single cell preparation kit. The Pico kit can be used on Agilent, Affy 3' and Affy exon microarrays.

We DO NOT RECOMMEND mixing labeling types within an experiment as we have observed large differences between the absolute intensities of signals between labeling methods.

QUALITY CONTROL

The BioMicro Center employs several quality controls as part of microarray analysis

RNA

All RNA samples are run on the Agilent BioAnalyzer prior to labeling. The BioAnalyzer results are used to determine the concentration of the RNA and the quality of the RNA based on their RNA Integrity Number (RIN) score.

Affymetrix Arrays

After scanning, 3' Affymetrix arrays are processed through a number of quality control steps to confirm the quality of the array. These steps create quality control plots that we distribute to the user.

QC PLOTS

In all cases, the plots are guidelines but not absolutes. Differences in the quality of starting RNA or source of the RNA can have a major impact on the plots. Biological replicates should behave similarly and we focus on changes where we find that is not true.

The RNA Degradation plot measure the relative intensity of probes at the 5' and 3' end of the average gene. Differences in the reverse transcription step can hive significant effects on the outcome. The precise slope of the line is not as important as having the lines have similar slopes.

Normalized Unscaled Standard Error (NUSE), provides a measure of relative chip quality derived from the residuals from the RMA model. NUSE scores above 1.05 or disconnected from the others are generally (though not always) considered poor.

The Affy QC pdf contains a number of metrics including box plots and histograms of intensity, QC scores for spike in controls and interarray correlation.

Fianlly, we use gcRMA for normalization. gcRMA normalized data is included in the data we distribute.

References

These plots are generated using a number of packages from bioconductor including:

  • affy:Gautier, L., Cope, L., Bolstad, B. M., and Irizarry, R. A. 2004. affy---analysis of Affymetrix GeneChip data at the probe level. Bioinformatics 20, 3 (Feb. 2004), 307-315.
  • affyQCReport
  • affyPLM: Brettschneider J, Collin F, Bolstad BM, and Speed TP. (2007) Quality assessment for short oligonucleotide arrays. Technometrics.
  • LPE: Nitin Jain, Michael O'Connell and Jae K. Lee. Includes R source code contributed by HyungJun Cho <hcho@virginia.edu> (). LPE: Methods for analyzing microarray data using Local Pooled Error (LPE) method. R package version 1.20.0. http://www.r-project.org,


Bioconductor reference: Bioconductor: Open software development for computational biology and bioinformatics R. Gentleman, V. J. Carey, D. M. Bates, B.Bolstad, M. Dettling, S. Dudoit, B. Ellis, L. Gautier, Y. Ge, and others 2004, Genome Biology, Vol. 5, R80

gcRMA: Jean(ZHIJIN) Wu and Rafael Irizarry with contributions from James MacDonald Jeff Gentry (). gcrma: Background Adjustment Using Sequence Information. R package version 2.18.1.


Agilent Arrays

- - To Be Added - -

DATA ANALYSIS

Affymetrix Data Analysis

BioMicro Center uses Affymetrix Expression Console and GCRMA for analysis of Affymetrix data. Several files for each sample will be provided to the user:

  • .exp: Experiment information file
  • .dat: The image of the scanned probe array.
  • .cel: Cell Intensity File derived from .dat file.
  • .chp: Output file generated from the analysis of a probe array.
  • .rpt: Report File generated.
  • .txt: Text File is the same information as the .chp file in text format.

Additional data analysis help is available on a case by case basis. Please contact Stuart Levine if you need additional help with your analysis.

Agilent Data Analysis

Agilent Scanner is available to members of the MIT Community for $50 per scan. We are currently running Feature extractor version 10.5. For questions about equipment, contact Manlin Luo After you have completed your scan, please make sure to sign the scanner record form, which is near the equipment and to remove your files from the computer. CD-Rs are available if needed.

LINKS

PRICES

Information for non-MIT labs

Obtaining your results

You will be notified by email that your data is ready. At that time please pick up any leftover samples and arrays belonging to you. Samples will be held at the facility at -80C for 60 days after your data is generated. Information on downloading your data is in the link above.

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