UTHSC Affy MoGene 1.0 ST Spleen (Oct10) RMA
Accession number: GN271 modify this page

Summary Description of Data Set:

Summary:

This is a preliminary release WITH KNOWN ERRORS 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 status of this data set.

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 111 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 data set was first uploaded into GeneNetwork by Arthur Centeno, October 11, 2010 and made accessible without a password to all users on November 1, 2010. The data set still is provisional and contains numerous strain identification errors that have NOT YET BEEN FIXED. Based on an analysis of the top 20 Mendelian loci, the following 21 strains are likely to have been incorrectly identified or assigned in the current release:

  1. BXD8, e.g., Probe set 10450161, 1036098. 10338684
  2. BXD13, e.g., Probe set 10450161, 1036098, 10402390, 10592493, 10342568,
  3. BXD21 (may be ok, only one probe set 10338684 is problematic)
  4. BXD23 (may be ok, only two probe sets 10421128, 10419465 is problematic)
  5. BXD36 (may be ok, only one probe set 10421128 is problematic)
  6. BXD40, e.g., Probe set 10341070
  7. BXD43, e.g., Probe set 10450161, 1036098, 10338684
  8. BXD48, e.g., Probe set 1036098, 10402390, 10514896, 10592493, 10357381, 10342568, 10571444, 10419465
  9. BXD62, e.g., Probe set 1036098, 1036098, 10402390, 10514896, 10592493, 10421128, 10571444
  10. BXD68 (may be ok, only one probe set 10338684 is problematic)
  11. BXD69, e.g., Probe set 10450161
  12. BXD73, e.g., Probe set 10341070, 1036098, 10402390, 10514896, 10587633, 10342568, 10421128
  13. BXD74, e.g., Probe set 10402390
  14. BXD80, e.g., Probe set 10341070, 1036098, 10592493, 10400109, 10338684, 10342568, 10421128, 10419465
  15. BXD83, e.g., Probe set 10450161, 10338684
  16. BXD87 (may be ok, only one probe set 10421128 is problematic)
  17. BXD89, e.g., Probe set 10450161, 1036098, 10402390, 10592493, 10357381, 10419465
  18. BXD93, e.g., Probe set 10402390, 10357381
  19. BALB/cByJ, e.g., Probe set 10388042, 1036098, 10587633, 10357381, 10342568, 10421128
  20. LP/J, e.g., Probe set 10592493
  21. DBA/2J, e.g., Probe set 10592493

Data Status and Use. This is a provisional release that will soon be replaced by a final corrected data set. In the interim this data set is open for exploration and use for focused analysis of single genes. 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

IndexArray IDPhaseStrainAgeSex
1R5583S1129P3/J65F
2R5584S1129P3/J66M
3R5585S1129S1/SvImJ66F
4R5586S1129S1/SvImJ66M
5R5587S1129X1/SvJ65F
6R5588S1129X1/SvJ66M
7R6348S3B6D2F167F
8R6347S3B6D2F162F
9R5590S1B6D2F179M
10R5662S1BALB/cByJ59F
11R5664S1BALB/cByJ59M
12R5591S1BALB/cJ51F
13R5592S1BALB/cJ51M
14R6154S2BTBR T+ tf/J60F
15R6516S3BXD182F
16R6584S3BXD195M
17R5759S1BXD2N/AF
18R5837S1BXD2106M
19R5874S2BXD586F
20R6554S3BXD560M
21R6359S3BXD672F
22R5777S1BXD6149M
23R6364S3BXD876F
24R5637S1BXD871F
25R6365S3BXD876M
26R5746S1BXD970F
27R5981S2BXD967M
28R5980S2BXD967M
29R6182S2BXD1184F
30R6486S3BXD1158M
31R6711S24BXD1271F
32R6608S3BXD1248F
33R5885S2BXD1244M
34R5755S1BXD13160F
35R5887S2BXD1353M
36R6180S2BXD1470F
37R5669S1BXD1491M
38R6456S3BXD1560F
39R6622S3BXD1560F
40R6626S3BXD1560M
41R6181S2BXD1674F
42R6515S3BXD1664M
43R5673S1BXD1880F
44R5674S1BXD1865M
45R6553S3BXD19158F
46R6551S3BXD1960M
47R6643S44BXD2059F
48R6595S3BXD2060M
49R5735S1BXD2164F
50R5892S2BXD2199M
51R5896S2BXD2260F
52R6414S3BXD2273M
53R6550S3BXD2374F
54R6586S3BXD23102F
55R5630S1BXD2471F
56R6356S3BXD2457M
57R6162S2BXD2567F
58R6625S3BXD2567F
59R6642S44BXD2558M
60R5761S1BXD27N/AF
61R5763S1BXD2790M
62R6621S3BXD28113F
63R6548S3BXD2860M
64R6547S3BXD2960F
65R6453S3BXD3148F
66R6452S3BXD3148M
67R6583S3BXD3260F
68R5765S1BXD3271M
69R5689S1BXD3365F
70R6450S3BXD3355M
71R5767S1BXD3472F
72R5900S2BXD3470M
73R6588S3BXD3661F
74R6490S3BXD3663M
75R6417S3BXD3864F
76R6439S3BXD3872M
77R5769S1BXD39N/AF
78R5771S1BXD3974M
79R5773S1BXD40N/AF
80R5775S1BXD40N/AM
81R6494S3BXD4172F
82R5910S2BXD4279F
83R6493S3BXD4269M
84R6341S3BXD4359F
85R6401S3BXD4399M
86R5916S2BXD4379M
87R5839S1BXD44141F
88R5779S1BXD44124M
89R6405S3BXD4558F
90R6610S3BXD4555M
91R5922S2BXD4864F
92R5925S2BXD4860M
93R6719S14BXD4958F
94R6485S3BXD4979M
95R5781S1BXD5061F
96R6464S3BXD5165F
97R6585S3BXD5163M
98R6500S3BXD5558F
99R5938S2BXD5593M
100R6504S3BXD5658F
101R6503S3BXD5658M
102R5783S1BXD60111F
103R5784S1BXD6085M
104R5786S1BXD6186F
105R6449S3BXD6165M
106R6716S14BXD6254F
107R5790S1BXD62115M
108R6519S3BXD6354F
109R6717S14BXD6370M
110R5792S1BXD64167F
111R6641S44BXD6468M
112R6630S3BXD6468M
113R6477S3BXD6558F
114R6628S3BXD6570M
115R6511S3BXD6670F
116R6448S3BXD6661M
117R5794S1BXD66144M
118R6502S3BXD6766F
119R6545S3BXD6761M
120R6337S3BXD6856F
121R6594S3BXD6864M
122R5796S1BXD6985F
123R5798S1BXD6998M
124R6402S3BXD7093F
125R5841S1BXD70121F
126R6592S3BXD7059M
127R6328S3BXD7187F
128R5967S2BXD7164M
129R5969S2BXD7364F
130R5800S1BXD73120M
131R6646S3BXD7440F
132R6524S3BXD7472M
133R6445S3BXD7585F
134R5843S1BXD75103F
135R5845S1BXD75103M
136R6604S3BXD7764F
137R6513S3BXD7772M
138R6582S3BXD78144F
139R6563S3BXD7895M
140R6645S44BXD7966F
141R5806S1BXD7978M
142R5847S1BXD8089F
143R5852S1BXD8079M
144R6562S3BXD8199F
145R6468S3BXD8165M
146R6560S3BXD8285F
147R6512S3BXD8368F
148R5810S1BXD83139M
149R6510S3BXD8487F
150R5970S2BXD84107F
151R6603S3BXD8499M
152R6517S3BXD8558F
153R6718S14BXD8586M
154R5812S1BXD8661F
155R5814S1BXD8659M
156R5816S1BXD87112F
157R6488S3BXD87137M
158R6580S3BXD88125F
159R5977S2BXD8968F
160R5979S2BXD8979M
161R5978S2BXD8979M
162R5818S1BXD90106F
163R5820S1BXD90131M
164R6343S3BXD9262F
165R5984S2BXD9255M
166R6581S3BXD93173M
167R6557S3BXD93126M
168R6509S3BXD9559F
169R5822S1BXD9589M
170R6640S44BXD9670F
171R6514S3BXD9664M
172R6506S3BXD9778F
173R5849S1BXD97130F
174R6591S3BXD97122M
175R5990S2BXD9865F
176R6596S3BXD9867M
177R5993S2BXD9974F
178R5995S2BXD9950M
179R6607S3BXD10075F
180R6411S3BXD100104M
181R6508S3BXD10159F
182R5593S1BXD10159M
183R6523S3BXD10260F
184R6466S3BXD10250M
185R6404S3BXD10372F
186R6609S3BXD10357M
187R6555S3C57BL/10J73M
188R5596S1C57BL/10J73M
189R5597S1C57BL/6ByJ51F
190R5598S1C57BL/6ByJ69M
191R5600S1C57BL/6J79F
192R5599S1C57BL/6J60F
193R6451S3C57BL/6J77M
194R6410S3C57BL/6J85M
195R5603S1C57BLKS/J66F
196R5604S1C57BLKS/J66M
197R5996S2CBA/CaJ66F
198R6349S3CBA/CaJ66M
199R6458S3D2B6F164F
200R6353S3D2B6F160M
201R5605S1DBA/2J79F
202R6446S3DBA/2J83M
203R6597S3FVB/NJ60F
204R5643S1FVB/NJ60F
205R6598S3FVB/NJ60M
206R5606S1ILS74F
207R5607S1ILS74M
208R5610S1ISS97M
209R6627S3KK/HlJ64F
210R6444S3KK/HlJ65M
211R5702S1KK/HlJ61M
212R5613S1LG/J63F
213R5704S1LG/J65M
214R5614S1LP/J65F
215R5615S1LP/J65M
216R6599S3MOLF/EiJ60F
217R6606S3MOLF/EiJ60M
218R6544S3NOD/LtJ77F
219R5709S1NOD/LtJ58M
220R6601S3NZB/BlNJ61F
221R5711S1NZB/BlNJ61F
222R6427S3NZB/BlNJ58M
223R6150S2NZO/HlLtJ71F
224R6155S2NZW/LacJ65F
225R5654S1NZW/LacJ60M
226R5721S1PL/J59M
227R5616S1PWD/PhJ60M
228R5725S1PWK/PhJ121M
229R6174S2SJL/J63F
230R6350S3SJL/J65M
231R6419S3WSB/EiJ60F
232R5620S1WSB/EiJ60M