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Sample GSM548368 Query DataSets for GSM548368
Status Public on Jun 09, 2010
Title HKU_Liver_0091_AN_RS-259319_22101_S3_UPDATED
Sample type RNA
 
Source name liver
Organism Homo sapiens
Characteristics individual: 91
tissue: adjacent liver non-tumor
Extracted molecule total RNA
Extraction protocol Samples are processed in parallel in 96-well plates to minimize potential variation. Reaction purification is achieved using magnetic binding beads for cDNA and Qiagen RNeasy kits for cRNA purification.
Label biotin
Label protocol The reverse transcription incorporates biotin moieties that are later labeled with phycoerythrin. After amplification, samples are put through a controlled fragmentation to improve hybridization sensitivity and consistency. The labeled molecules are biotinylated-cDNA.
 
Hybridization protocol GeneChip microarrays are loaded with the fragmented target sample/hybridization buffer mix using standard manual techniques. Arrays are hybridized for 18 hours at 45?C with vigorous mixing. Unbound sample is removed and staining is accomplished through the binding of streptavidin conjugated phycoerythrin to the hybridized target. Excess label is removed. Washing and staining steps are performed by the Affymetrix FS450 fluidics station using standard protocols.
Scan protocol Arrays are scanned using a GeneChip Scanner 3000 7G with a 48 array autoloader. The scanner maintains the optimal temperature for the arrays prior to and during scanning.
Description Hepatocellular carcinoma (HCC) is the leading cause of cancer-related deaths worldwide, reflecting the need for a better understanding of hepatocarcinogenesis. In this study, we examined the genome-wide expression profiles of both miRNAs and mRNAs from paired tumor and adjacent non-tumor tissues from a cohort of 96 HCC patients in Hong Kong where hepatitis B virus (HBV) is endemic. The comprehensive analysis of the coordinate expression of miRNAs and mRNAs reveals that miR-122 is under-expressed in HCC and that it is an important regulator for normal mitochondrial metabolism. A decreased level of miR-122 leads to an increase in expression of miR-122 seed-matched genes, a loss of mitochondrial metabolic function, and a decrease in the expression of many miR-122 secondary targets. These secondary targets are prognostic markers for HCC patients. Transcriptome profiling data from an additional 180 HCC and 40 liver cirrhotic patients in the same cohort were used to confirm the anti-correlation of miR-122 primary and secondary target gene sets. To test the HCC findings in normal mouse liver, we used an antagomir against miR-122 and identified altered gene expression profiling by microarray analysis in mouse in vivo experiments. The mouse data recapitulated the human HCC findings. Our anti-miR122 data further provided a direct link between increases in the mRNA levels of miR-122 controlled genes and impairments of mitochondrial metabolism. In summary, we find miR-122 loss may be detrimental to mitochondrial-related metabolisms in sustaining critical liver function and contribute to the morbidity and mortality of liver cancer patients.
Data processing Data were loaded into the Rosetta Resolver? system (Rosetta Biosoftware, Seattle, WA) and processed using the RMA algorithm (http://www.ncbi.nlm.nih.gov/sites/entrez?cmd=Retrieve&db=PubMed&list_uids=12582260). Intensities were calculated based on RMA, a Rosetta-developed error, and a MAS-5 p-value. The Rosetta-developed error is used in the calculation of xdev for the ratio p-values as described in section 2.2 (http://bioinformatics.oxfordjournals.org/cgi/content/full/22/9/1111).
 
Submission date May 29, 2010
Last update date Jun 08, 2010
Contact name Julja Burchard
Organization name Merck & Co., Inc.
Department Computational & Systems Biology
Street address 33 Avenue Louis Pasteur
City Boston
State/province MA
ZIP/Postal code 02176
Country USA
 
Platform ID GPL6793
Series (1)
GSE22058 miR-122 as a Regulator of Mitochondrial Metabolic Gene Network in Hepatocellular Carcinoma

Data table header descriptions
ID_REF Rosetta generated unique probe identifier
VALUE Expression level
PVALUE Rosetta P-value of expression level

Data table
ID_REF VALUE PVALUE
merck-NM_017830_s_at 3703.8594 3.2760e-040
merck-CA841412_a_at 139.5509 1.9568e-027
merck-AF006513_a_at 467.2329 4.4884e-036
merck-NM_015216_at 900.8068 2.7837e-038
merck-DB456483_at 29.1279 1.2835e-009
merck-BU942108_a_at 666.3782 2.0019e-037
merck-NM_012343_at 3062.6575 4.4558e-040
merck-AU129733_a_at 113.3435 3.1974e-025
merck-NM_145266_at 1561.4557 2.4031e-039
merck-AK123757_a_at 269.7576 5.0164e-033
merck-NM_024007_a_at 34.5100 2.7851e-011
merck-ENST00000379938_at 5127.9326 2.1741e-040
merck-BC032062_a_at 25.3460 2.1782e-008
merck-NM_001003698_a_at 77.4668 9.1669e-021
merck-NM_004310_at 154.6628 1.8729e-028
merck-AY046419_a_at 184.5144 4.4496e-030
merck-ENST00000367867_a_at 411.9581 1.7293e-035
merck-NM_145176_at 150.5911 3.4032e-028
merck-NM_018214_at 528.1953 1.3743e-036
merck-NM_001037132_at 29.3450 1.0945e-009

Total number of rows: 43483

Table truncated, full table size 1708 Kbytes.




Supplementary file Size Download File type/resource
GSM548368__52048500761444072208403461267108.CEL.gz 3.6 Mb (ftp)(http) CEL
Processed data included within Sample table

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