|Acoustophoretic microfluidic device for high throughput DNA sequencing|
V.V Unnikuttan1, H.N Unni 1
Multiphysics modelling for acoustic standing wave technology combined with micro-technology which can be used for manipulation and concentration on typical Lab-on-Chip devices for DNA sequencing.
|Innovative technology that enables RNAi in difficult to transfect cells|
Christina Yamada, Kathryn Robinson, Allison St. Amand, Zaklina Strezoska, Greg Wardle, Anastasia Khvorova, Devin Leake
Investigations at Dharmacon have led to the development of innovative siRNA molecules that can be delivered into difficult-to-transfect cells without additional lipid reagents, virus, or instruments. This technology, Accell siRNA reagents, enables gene knockdown for functional genomic studies in a wide variety of cell types. In some instances, cells can be continuously dosed with Accell siRNAs to enable target gene knockdown for extended durations.
|A Microwave/Microfluidics Integrated Label-Free Detection and Content Sensing System for Point-of-Care Applications|
Gurkan Yesiloz, Muhammed S. Boybay, Carolyn L. Ren
This poster presents a droplet-based microfluidic device integrated with a microwave wave sensor, which is also a heater, for simultaneous sensing and heating of individual nanoliter-sized droplets.
|THe AtSCL26 transcription factor controls cross-talk between GA and N root architecture in Arabidopsis thaliana roots|
Beatriz Lagunas, Anthony D. Carter, Dafyd Jenkins and Miriam Gifford
Phenotypic and molecular evidence supports the hypothesis that developmental program enabling nodule formation arose during evolution from a lateral root ‘blueprint’ pre-existing in all higher plants . We reasoned that analyzing Arabidopsis genes orthologous to regulators of nodulation could shed insight on control of lateral root development. This led us to the discovery that an Arabidopsis GRAS family transcription factor controls lateral root development under specific nitrogen conditions.
|LOHA Comprehensive Assay for Single Nucleotide Polymorphism, Copy Number Variants and Loss of Heterozygosity Using SureSelect Target Enrichment|
Kyeong Soo Jeong, Arjun Vadapalli, Ashutosh Ashutosh, Paula Costa, Brian Peter, Stephanie Fulmer-Smentek, Magnus Isaksson, Jayati Ghosh, Douglas Roberts, Holly Hogrefe
Here we describe a comprehensive assay that enables researchers to identify SNP, INDEL, CNV, and LOH using SureSelect target enrichment. This design can be employed as a standalone entity or in concert with other bait designs for SNP and INDEL detection. We also describe methods for data analysis and visualization.
|SOFT DEVICES FOR HEALTHCARE MONITORING APPLICATIONS|
Laura López, Carlos Carenas, Carme de Haro, Cristina Casellas, Elisenda Reixach, Marta Cot, Rosa Rodriguez, Paul Lacharmoise, Úrbez Santana
Printed Electronics allow the creation of new and innovative functionalized textile products, in the demanding and highly specialized world of Medical Devices. The main aim of this whole new sector is to produce wearable, conformable, flexible and low-cost textile-based devices bringing innovative solutions to different markets.
|Polymer Microarrays for Biomaterial Development|
Simmonte, M.J.1, Dhaliwal, K.2, Cuschieri, K.3, Graham, S.V.4, Bradley, M.1
The application of polymer microarrays in the discovery of biocompatible and bioactive substrates. Progress towards biomaterial development for the treatment of SIRS (systemic inflammatory response syndrome), and improving cervical cytology.
|Human iPSC-derived hepatocytes and cardiomyocytes for drug toxicity testing|
AnnandRR; Vardaro R; Hamilton B; Akakira R; Tamura K; Yoshida S; Lin YC; Toyoda D; Kogami H; Okuda Y; Watanabe T; Inamura M
Human iPS-derived hepatocytes (ReproHepato™) and cardiomyocytes (ReproCardio 2™) are useful for in vitro toxicity assays.
|Improved Small RNA Library Preparation Workflow for Next-Generation Sequencing|
Sabrina Shore, Jordana Henderson, Anton McCaffrey, Gerald Zon, Richard Hogrefe
We describe an optimized small RNA NGS library prep workflow using chemically modified adapters which suppresses adapter dimers, allows for RNA inputs down to 1 ng and eliminates the need for a gel purification step, thus allowing full automation not previously possible.
|A novel multi-organ microfluidic chip: on the way to the complexity of a living organism|
Timur R Samatov, Svetlana A Tonevitskaya, Natalya Pulkova, Evgeny A Tonevitsky
A novel physiologically relevant multi-organ chip is developed capable of culturing up to six different organotypic models integrated into a single microfluidic circuit.
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