Polynucleotides are long strands of DNA or RNA and the rapid identification, multiplication, and analysis of these biomolecules is essential to modern life science and health applications. This technology family is a collection of methods in which polynucleotides can be studied with increased speed and automation. These technologies use microfluidic devices with integrated electronics to combine and streamline multiple biochemistry techniques that would otherwise take days to complete. These technologies have the ability to separate, concentrate, and amplify polynucleotides, to quickly detect single-nucleotide polymorphisms (SNPs), to develop chemically binding polynucleotides (known as aptamers), and to perform single-cell gene expression profiling, among other applications. These technologies have the potential to deliver high-quality results on extremely reduced time scales.
The use of these technologies as labs on chips is advantageous because it requires small reagent amounts, is highly automated, and delivers rapid analyses. Consider, in particular, systematic evolution of ligands by exponential enrichment (SELEX). This is a way to develop strands of short polynucleotides, oligonucleotide aptamers, which bind to biological targets much like antibodies. Traditionally, such development is extremely labor intensive and the screening of appropriate aptamers can take months to complete. With the family of technologies reported here, SELEX may be completed in one day, with minimal hands-on time. This could allow for the rapid development of entire collections of aptamers that bind to any desired target. Further, this technology advances the detection of SNPs via the single base extension (SBE) technique. Normally, the numerous steps of SBE are carried out on different instruments requiring manual intervention at each step. The technologies reported here can yield a single microfluidic device that executes the entire SBE process from start to finish. This represents a significant improvement in efficiency.
These technologies, which decrease cost and improve throughput by orders of magnitude, have been demonstrated with proof-of-concept devices and are seeking further commercialization.
Patent Pending (WO/2016/065242)
Patent Pending (US 20140295424)
Patent Pending (WO/2013/044240/A1)
Tech Ventures Reference: IR M11-110, CU12181, CU12097, CU12184, CU12179, CU15100, CU15099, CU15020, CU15165, CU15101, CU14218