UTHSC Affy MoGene 1.0 ST Spleen (Dec10) RMA
Accession number: GN283 modify this page

Summary Description of Data Set:

Summary:

This is a final quality controlled release of a spleen gene expression data set generated by a DOD-funded consortium (Byrne, Kotb, Williams, and Lu). Please contact Lu Lu or Robert Williams regarding use of this data set. A total of 782 probes are associated with LOD of greater than 10.

Animals were generated at UTHSC by Lu Lu and colleagues. The spleen of untreated young adult mice was profiled using the Affymetrix GeneChip Mouse Gene 1.0 ST array that contains approximately 34,728 probe sets that target approximately 29,000 well defined transcripts (RefSeq mRNA isoforms) and essentially all known protein coding genes in mouse. This array is an "exon style" array with multiple probes in all known exons of each gene (an average of about 27 per gene) and is an abridged version of the Affymetrix Exon 1.0 ST array. However, it also does contain some probes that target non-coding RNAs and even miRNA precursors (search "ncrna").

Animals and Tissue Used to Generate This Set of Data:

Cases. A total of 108 strains, including 81 BXD strains, both parental strains (C57BL/6J and DBA/2J) and both reciprocal F1 hybrids (B6D2F1 and D2B6F1), and 26 other common inbred strains were quantified. In most cases, two arrays were processed per strain--one for males and one for females. All tissue and RNA was extracted by Lu Lu and colleagues. Samples were pooled by sex and usually include at least two cases per sex and strain.

Sex Balance. XX strains have matched male and female samples. XX strains have male only samples (BXDX, XX, XX, XXX and XXX). XX strains have only female samples (BXDXX, XX, and XX.) Please review the expression data for Xist probe set 10606178. This non-coding RNA is expressed highly only in females and can be used to check the sex of a sample or pool of tissue. Ddx3y probe set 10608138 can also be used. This is a Y chromosome gene that is expressed abundantly in male samples and at background levels in female samples.

Sample Processing:

RNA Processing. Total RNA was purified using the RNAeasy micro kit on the QIAcube system (www.qiagen.com). RNA purity and concentration was checked using 260/280 nm absorbance ratio and RNA integrity was analyzed using the Agilent Bioanalyzer 2100 (Agilent Technologies).

Array Processing: All arrays were processed by Lorne Rose in the UTHSC Molecular Resources Center (MRC), Memphis TN. The table below provides a summary of cases, sex, and age. The spleen was dissected by both Dr. Lu Lu and colleagues and Dr. Abdeltawab and colleagues. All arrays were run together (interleaved) as a single large batch.

Experimental Design and Batch Structure:

Data Processing. Array data sets were generated by the vendors GCOS system. Expression values were logged and then were further normalized and rescaled so that the mean value for each array data set is 8 units with a standard deviation of 2 units. Data were processed by Arthur Centeno.

Batch Effects. This data set required some correction for batch effects and the data in this initial release incorporate any additional corrections. There are several additional confounder-like factors that should be considered:

  1. Sex imbalance in the sample: use probe sets for Xist as correction in partial correlation
  2. Background noise factors: examine and use probe sets with very low expression using the search "mean=(3.900 4.135)". This will extract the probe sets with the lowest expression. (Note that the number 54 is less than the total number of cases in this data set; important in computing principal components.) Add these probe sets to your collection window and then compute the correlation matrix. Use the first few principal components as surrogates for nuisance factors in partial correlation analysis. The first principal component of the lowest probe sets in this spleen data set accounts of XX% of the the variance. Mapping of this noise trait can be used to evaluate the effects of shared noise on QTL results. The first principal component in the spleen data set can be mapped as a trait.

Data Release. This final release data set was uploaded into GeneNetwork by Arthur Centeno, December 21, 2010 and made accessible without a password to all users.

The following samples were excluded from the analysis:
R5614S, R6446S, R5885S and R5615S

Data Status and Use. Please contact Robert W. Williams at rwilliams@uthsc.edu regarding use of these data regarding the best citation.
This data set is not yet freely available for global analysis. This data set has not yet been used or described in any publication. Please see the GeneNetwork data sharing policy for more background on data use.

Contact. Please contact Robert W. Williams at rwilliams@uthsc.edu regarding use of these data.

Data Evaluation Summary

  1. eQLTs with LOD >10 (LRS>46.1): n = 638
  2. eQTL with high LOD and LRS: Trait ID 10450161 (H2-Ea-ps) LOD = 51.6, LRS = 237.9
  3. Lowest mean value: Trait ID 10344361, mean = 3.998
  4. Highest mean value: Trait ID 10598025, mean = 14.475 (MT-ND1)
  5. Greatest sex difference: Trait ID: 10606178 (Xist)
  6. Great variation within and among strains: Trait ID 10454192 (Ttr)

Table 1. Updated on 1-14-2011

IndexArray IDStrainSexAgePhase
1R5583S129P3/JF651
2R5584S129P3/JM661
3R5585S129S1/SvImJF661
4R5586S129S1/SvImJM661
5R5587S129X1/SvJF651
6R5588S129X1/SvJM661
7R6347SB6D2F1F622b
8R6348SB6D2F1M672b
9R5590SB6D2F1M791
10R5800SBALB/cByJF1201
11R5664SBALB/cByJM591
12R5591SBALB/cJF511
13R5592SBALB/cJM511
14R6154SBTBR T+ tf/JF602a
15R6516SBXD1F822b
16R6584SBXD1M952b
17R5759SBXD2FN/A1
18R5837SBXD2M1061
19R5874SBXD5F862a
20R6554SBXD5M602b
21R6359SBXD6F722b
22R5777SBXD6M1491
23R6364SBXD8F762b
24R6365SBXD8M762b
25R6581SBXD8M1732b
26R5746SBXD9F701
27R5980SBXD9M672a
28R6182SBXD11F842a
29R6486SBXD11M582b
30R6711S2BXD12F712c
31R6608SBXD12F482b
32R5981SBXD12M672a
33R5755SBXD13F1601
34R6180SBXD14F702a
35R5669SBXD14M911
36R6456SBXD15F602b
37R6622SBXD15F602b
38R6626SBXD15M602b
39R6181SBXD16F742a
40R5662SBXD16M591
41R6515SBXD16M642b
42R5673SBXD18F801
43R5674SBXD18M651
44R6553SBXD19F1582b
45R6551SBXD19M602b
46R5916SBXD19M792a
47R6643S4BXD20F592c
48R6595SBXD20M602b
49R5735SBXD21F641
50R5892SBXD21M992a
51R5896SBXD22M602a
52R6414SBXD22M732b
53R6550SBXD23F742b
54R5630SBXD24F711
55R6356SBXD24M572b
56R6162SBXD25F672a
57R6625SBXD25F672b
58R5978SBXD25M792a
59R6642S4BXD25M582c
60R5761SBXD27F01
61R5763SBXD27M901
62R6621SBXD28F1132b
63R5887SBXD28M532a
64R6548SBXD28M602b
65R6547SBXD29M602b
66R6453SBXD31F482b
67R6452SBXD31M482b
68R6583SBXD32F602b
69R5765SBXD32M711
70R5689SBXD33F651
71R6450SBXD33M552b
72R5767SBXD34M721
73R5900SBXD34M702a
74R6588SBXD36F612b
75R6490SBXD36M632b
76R6417SBXD38F642b
77R6439SBXD38M722b
78R5769SBXD39FN/A1
79R5771SBXD39M741
80R5773SBXD40FN/A1
81R5775SBXD40MN/A1
82R5910SBXD42F792a
83R6493SBXD42M692b
84R6401SBXD43M992b
85R5839SBXD44F1411
86R5779SBXD44M1241
87R6405SBXD45F582b
88R6610SBXD45M552b
89R5922SBXD48F642a
90R6719S1BXD49F582c
91R5925SBXD49M602a
92R6485SBXD49M792b
93R5781SBXD50F611
94R6494SBXD51F722b
95R6464SBXD51F652b
96R6585SBXD51M632b
97R6500SBXD55F582b
98R5938SBXD55M932a
99R6504SBXD56F582b
100R6503SBXD56M582b
101R5783SBXD60F1111
102R5784SBXD60M851
103R5786SBXD61F861
104R6449SBXD61M652b
105R6716S1BXD62F542c
106R6519SBXD63F542b
107R6717S1BXD63M702c
108R5792SBXD64F1671
109R6641S4BXD64M682c
110R6630SBXD64M682b
111R6477SBXD65F582b
112R6628SBXD65M702b
113R6511SBXD66F702b
114R6448SBXD66M612b
115R5794SBXD66M1441
116R6502SBXD67F662b
117R6545SBXD67M612b
118R6337SBXD68F562b
119R6594SBXD68M642b
120R5796SBXD69F851
121R5847SBXD69F891
122R5798SBXD69M981
123R6402SBXD70F932b
124R5841SBXD70F1211
125R6592SBXD70M592b
126R6411SBXD70M1042b
127R6328SBXD71F872b
128R5967SBXD71M642a
129R5969SBXD73F642a
130R5790SBXD73M1151
131R6646SBXD74F402b
132R6524SBXD74M722b
133R6445SBXD75F852b
134R5843SBXD75F1031
135R5845SBXD75M1031
136R6586SBXD77F1022b
137R6604SBXD77F642b
138R6513SBXD77M722b
139R6582SBXD78F1442b
140R6563SBXD78M952b
141R6645S4BXD79F662c
142R5806SBXD79M781
143R5637SBXD80F711
144R5852SBXD80M791
145R6562SBXD81F992b
146R6468SBXD81M652b
147R6560SBXD82F852b
148R5979SBXD83F792a
149R6512SBXD83F682b
150R5810SBXD83M1391
151R6510SBXD84F872b
152R5970SBXD84F1072a
153R6603SBXD84M992b
154R6517SBXD85F582b
155R6718S1BXD85M862c
156R5812SBXD86F611
157R5814SBXD86M591
158R5816SBXD87F1121
159R6488SBXD87M1372b
160R5977SBXD89F682a
161R5818SBXD90F1061
162R5820SBXD90M1311
163R6343SBXD92F622b
164R5984SBXD92M552a
165R6557SBXD93M1262b
166R6509SBXD95F592b
167R5822SBXD95M891
168R6640S4BXD96F702c
169R6514SBXD96M642b
170R6506SBXD97F782b
171R5849SBXD97F1301
172R6591SBXD97M1222b
173R5990SBXD98F652a
174R6596SBXD98M672b
175R5993SBXD99F742a
176R5995SBXD99M502a
177R6580SBXD100F1252b
178R6607SBXD100F752b
179R6508SBXD101F592b
180R5593SBXD101M591
181R6523SBXD102F602b
182R6466SBXD102M502b
183R6609SBXD103M572b
184R6404SBXD103F722b
185R6555SC57BL/10JM732b
186R5596SC57BL/10JM731
187R5597SC57BL/6ByJF511
188R5598SC57BL/6ByJM691
189R5600SC57BL/6JF791
190R5599SC57BL/6JF601
191R6451SC57BL/6JM772b
192R6410SC57BL/6JM852b
193R5603SC57BLKS/JF661
194R5604SC57BLKS/JM661
195R5996SCBA/CaJF662a
196R6349SCBA/CaJM662b
197R6458SD2B6F1F642b
198R6353SD2B6F1M602b
199R5605SDBA/2JF791
200R6597SFVB/NJF602b
201R5643SFVB/NJF601
202R6598SFVB/NJM602b
203R5606SILSF741
204R5607SILSM741
205R5610SISSM971
206R6627SKK/HlJF642b
207R6444SKK/HlJM652b
208R5702SKK/HlJM611
209R5613SLG/JF631
210R5704SLG/JM651
211R6341SMOLF/EiJF592b
212R6599SMOLF/EiJF602b
213R6606SMOLF/EiJM602b
214R6544SNOD/LtJF772b
215R5709SNOD/LtJM581
216R6601SNZB/BiNJF612b
217R5711SNZB/BiNJF611
218R6427SNZB/BiNJM582b
219R6150SNZO/HlLtJF712a
220R6155SNZW/LacJF652a
221R5654SNZW/LacJM601
222R5721SPL/JM591
223R5616SPWD/PhJM601
224R5725SPWK/PHJF1211
225R6174SSJL/JF632a
226R6350SSJL/JM652b
227R6419SWSB/EiJF602b
228R5620SWSB/EiJM601