GenoExplorer™ microRNA System

GenoExplorer™ microRNA Probe Set

GenoExplorer™ microRNA probe set provides specific and functionally validated miRNA probes for microarrays. Probes were designed based on the full miRNA sequences, computed with their lengths, Tm, and secondary structure. The probes are amine-modified oligonucleotides and they are ideally suited for most types of slide chemical substrates (eg. epoxy, aldehyde and NHS ester). The probe set contains both mature and precursor miRNA sequences as well as multiple positive and negative controls. Probe set features

  • GenoExplorer™ microRNA probe set provides specific and functionally validated miRNA probes for microarrays
  • Probes were designed based on the full miRNA sequences, computed with their lengths, Tm, and secondary structure
  • The probes are amine-modified oligonucleotides and they are ideally suited for most types of slide chemical substrates (eg. epoxy, aldehyde and NHS ester)
  • The probe set contains updated miRNA sequences with mature and most precursor probes as well as multiple positive and negative controls.
Cat #Product NameDescriptionSizePrice
1401CGenoExplorer™ microRNA probe set - human1 complete GenoExplorer™ microRNA probe set for human in 384-well plates500 pmolUS$2,000
1411CGenoExplorer™ microRNA probe set - mouse/rat1 complete GenoExplorer™ microRNA probe set for mouse in 384-well plates500 pmolUS$2,000
1421CGenoExplorer™ microRNA probe set - C. elegans1 complete GenoExplorer™ microRNA probe set for C. elegans in a 384-well plate500 pmolUS$2,000
1431CGenoExplorer™ microRNA probe set - Drosophila melanogaster1 complete GenoExplorer™ microRNA probe set for Drosophila melanogaster in a 384-well plate500 pmolUS$2,000
1441CGenoExplorer™ microRNA probe set - Arabidopsis thaliana1 complete GenoExplorer™ microRNA probe set for Arabidopsis thaliana in a 384-well plate500 pmolUS$2,000
1499GenoExplorer™ microRNA for other species1 complete GenoExplorer™ microRNA probe set in 384-well platesCall for pricing

Technical Resources

Assay performance and technical bulletins provide experiment data on product performance

General information about the product kits describes product design and assay performance

Probe list on arrays (for Catalog 1100C's, 1200C's and 1400C's representing Sanger miRBase)

General information about full service describes product design and assay performance. Full service data output format demonstrates data output and format

Full service data output format demonstrates data output and format

Selected recent publications (GenoSensor reference):

• Park JH et al. Murine hepatic miRNAs expression and regulation of gene expression in diet-induced obese mice. Mol. Cells 2011; 31:33-38.

• Foss KM et al. miR-1254 and miR-574-5p: serum-based microRNA biomarkers for early-stage non-small cell lung cancer. J Thoracic Oncol 2011; 6(3):482-8.

• Arora S et al. MicroRNA-328 is associated with (non-small) cell lung cancer (NSCLC) brain metastasis and mediates NSCLC migration. Intl J Cancer 2011; 128(11): Mar 29.

• Leeper NJ et al. MicroRNA-26a is a novel regulator of vascular smooth muscle cell function. J Cellular Physiol 2011; 226(4):1035-43.

• Lu C and Souret F. High-throughput approaches for miRNA expression analysis. Plant MicroRNAs 2010; 592:107-25.

• Mouillet JF et al. MiR-205 silences MED1 in hypoxic primary human trophoblasts. FASEB J 2010; 24(6):2030-9.

• Ranade AR et al. MicroRNA 92a-2*: a biomarker predictive for chemoresistance and prognostic for survival in patients with small cell lung cancer. J Thoracic Oncol 2010; 5(8):1273-8.

• Li G et al. Modulation of inflammatory markers by miR-146a during replicative senescence in trabecular meshwork cells. Invest Ophthalmol Vis Sci 2010; Jan 6

• Hanoun N et al. The silencing of microRNA 148a production by DNA hypermethylation is an early event in pancreatic cancinogenesis. Clin Chem 2010; Apr 29

• Liang Z et al. Involvement of miR-326 in chemotherapy resistance of breast cancer. Biochem Pharmacol 2010; 79(6):817-24

• Igoucheva O and Alexeev V MicroRNA-dependent regulation of cKit in cutaneous melanoma. Biochem Biophys Res Comm 2009; 379(3):790-4.

• Liu X et al. MicroRNA-222 regulates cell invasion by targeting matrix metalloproteinase 1 (MMP1) and manganese superoxide dismutase 2 (SOD2) in tongue squamous cell carcinoma cell lines. Cancer Genomics Proteomics 2009; 6(3):131-9.

• Nasser S et al. Identifying miRNA and imaging features associated with metastasis of lung cancer to the brain. IEEE 2009

• Blow N. Small RNAs: biology’s brave new world. Nature Methods 2009; 6(3):232-5.

• Liu X et al. microRNA-138 suppresses invasion and promotes apoptosis in head and neck squamous cell carcin. Cancer Lett2009; 286(2):217-22

• Lee S-O et al. MicroRNA15a modulates expression of the cell-cycle regulator Cdc25A and affects hepatic cystogenesis in a rat model of polycystic kidney diseases. J Clin Invest 2008; 18(11):3714-24

• Chang SS et al. miRNA alterations inhead and neck squamous cell carcinoma. Int J Cancer 2008; 123,2791-7

• Park CS and Tang SJ. Regulation of microRNA Expression by Induction of Bidirectional Synaptic Plasticity. J Mol Neurosci. 2008; Nov 8

• Goff LA et al. The analysis of microRNAs in stem cells. Stem Cell Res Therap 2008; 1:141-67.

• Chang HY et al. Microarray analysis of stem cells and their differentiation. Essential stem cell methods 2008; Chapter 12.

• Chen X-M et al. A cellular miRNA, let-7i, regulates toll-like receptor 4 expression and contributes to cholangiocyte immune responses against Cryptosporidium parvum infection. J. Biol. Chem. 2007; July 27

• Baroukh N etc. MicroRNA-124a regulates Foxa2 expression and intracellular signaling in pancreatic beta -cells lines. J Biol Chem 2007; Apr 26

• Donker RB et al. The expression of argonaute2 and related microRNA biogenesis proteins in normal and hypoxic trophoblasts. Mol Hum Reprod 2007; 13(4):273-9.

• Mott JL et al. Mir-29 regulates Mcl-1 protein expression and apoptosismer-29 downregulates Mcl-1. Oncogene 2007; 26:6133-40.

• Weston MD et al. MicroRNA gene expression in the mouse inner ear.
Brain Res 2006; 1111(1)95-104

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