Data Set Group2: INIA Adrenal Affy MoGene 1.0ST (Jun12)
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| Contact Information |
Robert Williams
University of Tennessee Health Science Center
71 S Manassas St, Room 405 TSRB
Memphis, TN 38163 USA
Tel. 901 448-7050
rwilliams@uthsc.edu
Website
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| Download datasets and supplementary data files |
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| Specifics of this Data Set: |
None
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| Summary: |
| Preliminary data WITH ERRORS of strain assignment as of July 20, 2012.
Original Assignment had 253 probe sets with LRS >46.
Corrections on Adrenal Data on July 25, 2012:
R6963A(BXD31).....it should be BXD34
R7018A(BXD85).....it should be BXD95
R7152A(C57BL/6J)...it should be B6D2F1
R7020A(BXD70).......it should be BXD65
229 probe sets with LRS >46 after the corrections above from S. Roy of July 25, July 26 AM.
More corrections from S. Roy (5 PM July 26)
R6965A(BXD42).........should be BXD2
R6973A(BXD12).........should be BXD8
R6985A(BXD34).........should be BXD8
R7151A(BXD99)..........should be BXD42
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| About the cases used to generate this set of data: |
| Young adult mice raised in specific pathogen-free vivarium at UTHSC.
Table 1. Final strain correction by Khyobeni Mozhui on Mar 28, 2013.
| Index |
Sample ID |
Strain |
Tissue |
Sex |
| 1 |
R6947A |
BXD48 |
Adrenal |
M |
| 2 |
R6948A |
BXD90 |
Adrenal |
M |
| 3 |
R6949A |
BXD97 |
Adrenal |
M |
| 4 |
R6950A |
BXD87 |
Adrenal |
M |
| 5 |
R6952A |
BXD83 |
Adrenal |
F |
| 6 |
R6953A |
BXD67 |
Adrenal |
M |
| 7 |
R6954A |
BXD56 |
Adrenal |
M |
| 8 |
R6955A |
BXD48 |
Adrenal |
F |
| 9 |
R6956A |
BXD90 |
Adrenal |
F |
| 10 |
R6957A |
BXD89 |
Adrenal |
M |
| 11 |
R6958A |
BXD65 |
Adrenal |
M |
| 12 |
R6959A |
BXD65 |
Adrenal |
F |
| 13 |
R6960A |
BXD63 |
Adrenal |
F |
| 14 |
R6961A |
BXD63 |
Adrenal |
M |
| 15 |
R6963A |
BXD31 |
Adrenal |
M |
| 16 |
R6964A |
BXD31 |
Adrenal |
F |
| 17 |
R6965A |
BXD1 |
Adrenal |
F |
| 18 |
R6966A |
BXD1 |
Adrenal |
F |
| 19 |
R6967A |
BXD24 |
Adrenal |
F |
| 20 |
R6968A |
BXD34 |
Adrenal |
M |
| 21 |
R6969A |
BXD1 |
Adrenal |
M |
| 22 |
R6971A |
BXD27 |
Adrenal |
F |
| 23 |
R6972A |
BXD29 |
Adrenal |
M |
| 24 |
R6973A |
BXD12 |
Adrenal |
F |
| 25 |
R6974A |
BXD14 |
Adrenal |
F |
| 26 |
R6975A |
BXD99 |
Adrenal |
F |
| 27 |
R6976A |
BXD32 |
Adrenal |
F |
| 28 |
R6977A |
BXD97 |
Adrenal |
F |
| 29 |
R6978A |
BXD84 |
Adrenal |
M |
| 30 |
R6979A |
BXD39 |
Adrenal |
M |
| 31 |
R6980A |
BXD24 |
Adrenal |
M |
| 32 |
R6981A |
BXD50 |
Adrenal |
F |
| 33 |
R6982A |
BXD75 |
Adrenal |
M |
| 34 |
R6983A |
BXD42 |
Adrenal |
M |
| 35 |
R6984A |
BXD39 |
Adrenal |
F |
| 36 |
R6985A |
BXD34 |
Adrenal |
F |
| 37 |
R6986A |
BXD87 |
Adrenal |
F |
| 38 |
R6987A |
BXD50 |
Adrenal |
M |
| 39 |
R6989A |
BXD62 |
Adrenal |
M |
| 40 |
R6990A |
BXD70 |
Adrenal |
M |
| 41 |
R6991A |
BXD64 |
Adrenal |
F |
| 42 |
R6992A |
BXD84 |
Adrenal |
F |
| 43 |
R6993A |
BXD100 |
Adrenal |
F |
| 44 |
R6994A |
BXD62 |
Adrenal |
F |
| 45 |
R6996A |
BXD95 |
Adrenal |
M |
| 46 |
R6998A |
BXD32 |
Adrenal |
M |
| 47 |
R6999A |
BXD101 |
Adrenal |
F |
| 48 |
R7000A |
BXD49 |
Adrenal |
M |
| 49 |
R7002A |
BXD11 |
Adrenal |
M |
| 50 |
R7003A |
BXD100 |
Adrenal |
M |
| 51 |
R7004A |
BXD43 |
Adrenal |
F |
| 52 |
R7005A |
BXD103 |
Adrenal |
M |
| 53 |
R7006A |
BXD73 |
Adrenal |
F |
| 54 |
R7008A |
BXD43 |
Adrenal |
M |
| 55 |
R7009A |
BXD102 |
Adrenal |
F |
| 56 |
R7010A |
BXD69 |
Adrenal |
F |
| 57 |
R7011A |
BXD60 |
Adrenal |
M |
| 58 |
R7012A |
BXD45 |
Adrenal |
F |
| 59 |
R7013A |
BXD79 |
Adrenal |
M |
| 60 |
R7014A |
BXD40 |
Adrenal |
M |
| 61 |
R7015A |
BXD79 |
Adrenal |
F |
| 62 |
R7016A |
BXD40 |
Adrenal |
F |
| 63 |
R7017A |
BXD68 |
Adrenal |
F |
| 64 |
R7018A |
BXD85 |
Adrenal |
F |
| 65 |
R7019A |
BXD44 |
Adrenal |
F |
| 66 |
R7020A |
BXD70 |
Adrenal |
F |
| 67 |
R7021A |
BXD68 |
Adrenal |
M |
| 68 |
R7023A |
BXD44 |
Adrenal |
M |
| 69 |
R7024A |
BXD95 |
Adrenal |
F |
| 70 |
R7025A |
BXD56 |
Adrenal |
F |
| 71 |
R7032A |
BXD103 |
Adrenal |
F |
| 72 |
R7034A |
BXD24 |
Adrenal |
F |
| 73 |
R7035A |
BXD101 |
Adrenal |
M |
| 74 |
R7036A |
BXD29 |
Adrenal |
F |
| 75 |
R7037A |
BXD60 |
Adrenal |
F |
| 76 |
R7038A |
BXD69 |
Adrenal |
M |
| 77 |
R7039A |
BXD73 |
Adrenal |
M |
| 78 |
R7040A |
BXD80 |
Adrenal |
M |
| 79 |
R7041A |
BXD11 |
Adrenal |
F |
| 80 |
R7042A |
BXD74 |
Adrenal |
F |
| 81 |
R7043A |
BXD67 |
Adrenal |
F |
| 82 |
R7044A |
BXD67 |
Adrenal |
M |
| 83 |
R7046A |
C57BL/6J |
Adrenal |
F |
| 84 |
R7047A |
D2B6F1 |
Adrenal |
F |
| 85 |
R7048A |
B6D2F1 |
Adrenal |
M |
| 86 |
R7051A |
BXD80 |
Adrenal |
F |
| 87 |
R7053A |
BXD102 |
Adrenal |
M |
| 88 |
R7054A |
BXD49 |
Adrenal |
F |
| 89 |
R7055A |
BXD77 |
Adrenal |
F |
| 90 |
R7056A |
BXD77 |
Adrenal |
M |
| 91 |
R7057A |
BXD66 |
Adrenal |
M |
| 92 |
R7058A |
BXD66 |
Adrenal |
F |
| 93 |
R7059A |
BXD45 |
Adrenal |
F |
| 94 |
R7145A |
BXD67 |
Adrenal |
M |
| 95 |
R7147A |
BXD85 |
Adrenal |
M |
| 96 |
R7148A |
DBA/2J |
Adrenal |
F |
| 97 |
R7149A |
D2B6F1 |
Adrenal |
M |
| 98 |
R7150A |
D2B6F1 |
Adrenal |
F |
| 99 |
R7151A |
BXD27 |
Adrenal |
M |
| 100 |
R7152A |
B6D2F1 |
Adrenal |
M |
| 101 |
R7153A |
DBA/2J |
Adrenal |
M |
| 102 |
R7159A |
C57BL/6J |
Adrenal |
F |
| 103 |
R7161A |
C57BL/6J |
Adrenal |
M |
| 104 |
R7164A |
B6D2F1 |
Adrenal |
F |
| 105 |
R7166A |
B6D2F1 |
Adrenal |
M |
| 106 |
R7167A |
DBA/2J |
Adrenal |
F |
| 107 |
R7168A |
DBA/2J |
Adrenal |
M |
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| About the tissue used to generate this set of data: |
| Whole adrenal gland. Dissections by Khyobeni Mozhui, Jesse Ingels, and Adrienne Adler at UTHSC.
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| About the array platform: |
| The GeneChip® Mouse Gene 1.0 ST Array is the latest product in the family of Affymetrix expression arrays offering whole-transcript coverage. Each of the 28,853 genes is represented on the array by approximately 27 probes spread across the full length of the gene, providing a more complete and more accurate picture of gene expression than 3'-based expression array designs. The small format of the array makes it a cost-effective expression profiling solution for new microarray users. Sense DNA targets are generated from as little as 100ng of total RNA. The Gene 1.0 ST Array is part of a complete solution for gene expression analysis that includes Whole Transcript (WT) Sense Target Labeling and Control Reagents, fluidics and scanning instrumentation and basic analysis software. The array contains the most up-to-date content of well-annotated genes, and data is analyzed using a simple workflow. The Gene 1.0 ST Array uses a subset of probes from the Mouse Exon 1.0 ST Array and covers only well-annotated content. Like the Exon 1.0 ST Array, "gene-level" analysis of multiple probes on different exons is summarized into an expression value representing all transcripts from the same gene.
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| About data values and data processing: |
| Conventional Affymetrix gene level probe summarization (RMA) followed by log2 transformation and standard GeneNetwork variance stabilization (2z +8). The z scores are multiplied by 2 and we then add a value of 8 to all values. This eliminates negative values and results in a scale of expression for which 1 unit is roughly equivalent to a two fold absolute difference in mRNA concentration.
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| Notes: |
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| Experiment Type: |
| Normative expression in the adrenals (whole organ) of young adult mice. In general, a sex-balanced samples (one array from male cases, one array from female cases) for BXD and parental strains.
Part of a systematic genetic analysis of the hypothalamus-pituitary-adrenal axis in the BXD family of strains.
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| Contributor: |
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| Citation: |
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| Data source acknowledgment: |
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| Study Id: |
145
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