Improving the efficiency of 384 "mini-tube" technology using mosquito nanlolitre pipetting
Poster Feb 28, 2008
Joby Jenkins, Wayne Bowen, Rob Lewis & Chloe Milburn
384-well plate “mini-tube” consumables have been developed by automation companies such as REMP and The Automation Partnership (TAP) to hold compound samples divided into single-use storage tubes. Each tube holds 40 -75 µL, and is filled, sealed, stored and then thawed just once before use. However, when accessed by conventional pipetting technology, the tube’s practical working volume is as little as 20 µL, which means high compound wastage. The seal must also be pierced prior to pipetting to provide access to the sample.
TTP LabTech’s mosquito® liquid handler uses positive displacement pipetting which makes it uniquely suitable for this niche application. The disposable micropipettes can pierce foil or plastic seals, so there is no need for standalone piercing equipment. The micropipettes can reach to the bottom of 384 mini-tubes, leaving minimal dead volume. Mosquito is also able to dispense nanolitre quantities in order to create multiple miniaturised confirmation assays or serial dilutions from hit samples.
High Throughput Rheological Characterization of Small Volume Biopharmaceutical FormulationsPoster
Importance of assessing viscosity fingerprints of small molecules.READ MORE
Applications of chemically modified synthetic guide RNA for CRISPR-Cas9 genome editingPoster
Our results indicate that MS modifications are required for experiments with co-electroporation of Cas9 mRNA and synthetic gRNA, yet have no impact on editing efficiency when delivered with lipid-based transfection reagents.READ MORE
Highly Accurate HCV Genotyping by Targeted Next Generation SequencingPoster
The recent fast advancement of next generation sequencing (NGS) technologies allowing for unprecedented speed and accuracy in analyzing viral genomes are opening new ways to further improve diagnostic genotyping of HCV.