Tag Archives: novel drug screening

LC Sciences announced the availability of probe content miRBase 10.0 for their microRNA (miRNA) microarray customers

Taking advantage of its flexible µParaflo™ Chip Technology, Houston based LC Sciences today announced immediate availability of probe content miRBase 10.0 for their microRNA (miRNA) microarray customers. This announcement comes less than a week after Sanger Institute’s update of their sequence database for known miRNAs (miRBase) 1 to version 10.0 (http://microrna.sanger.ac.uk/sequences). As the jump in

version numbers from 9.2 to 10.0 suggests, this update marks a major milestone and features significant changes: 489 new hairpin sequences and 971 novel mature miR and miR* experimentally verified products have been added.

These numbers represent an increase of unique miRNA sequences by 42%. “This exciting increase in data means that researchers using pre-spotted glass arrays with probe content based on versions as recent as 9.1 are missing 49% of mouse, and more than 50% of human sequences, just to give two examples. The other important point is that these sequences are experimentally verified and publicly available data. Unlike with proprietary probe content the researcher has full access and control over the results.” said Chris Hebel, Director of Business Development at LC Sciences.

The importance of this update is emphasized by another aspect of the release: many human, mouse and rat mature miRNAs were renamed and the sequence boundaries changed to reflect the predominant forms identified in recent large-scale cloning studies. The public miRBase sequence database serves as the primary probe content for many commercially available miRNA profiling microarrays. Detection of miRNAs using a microarray offers the opportunity for genome-wide miRNA expression profiling by examining all known miRNA transcripts in a single experiment. However, the continued updating of the database can be problematic for researchers using pre-spotted glass slide arrays as the probe content of the arrays immediately goes out of date whenever a new miRBase version is released. Especially, in a rapidly evolving field as miRNA research it is important to scientists to have the most complete picture of miRNAs expressed in their experimental samples.

LC Sciences miRNA microarrays make use of a microfluidics on-chip synthesis platform, termed µParaFlo™, versus a traditional spotted array based on pre-synthesized oligonucleotides. This on-chip synthesis platform solves the issue of out of date microarrays because made-to-order microarrays can be produced, delivering the most up-to-date research tools to researchers.

In addition to providing much more uniform and reproducible features than a spotted array, on-chip synthesis permits the total customization of content on each individual microarray opening up additional applications such as the discovery of new miRNAs and other small non-coding RNAs.

About microRNA (miRNA)
miRNAs are small non-protein-coding RNA molecules that function as negative regulators of gene expression by base pairing with specific mRNAs. This either inhibits translation or promotes mRNA degradation. About miRBase – The miRBase sequence database is a comprehensive database of miRNA sequence data, annotation, and predicted gene targets and is the primary public repository for these data. Release 10.0 of the database contains 5071 entries representing hairpin precursor miRNAs, expressing 4922 maturemiRNA products, in primates, rodents, birds, fish, worms, flies, plants and viruses (miRBase release summary). miRBase also provides a gene-naming service for assigning official miRNA names to novel miRNAs before they are published. It is freely available to all at http://microrna.sanger.ac.uk/.

About LC Sciences
LC Sciences offers specialty microarray services for nucleic acid/protein profiling and functional analysis, biomarker-discovery, and novel drug screening. Our array service products are based on Atactic Technologies’ µParaflo™ platform technologies that encompass advanced digital chemical synthesis, pico-liter scale biochemical assays, and microfluidic reaction devices containing high density individual 3D chambers.

 

Via EPR Network
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