Assembling and Analyzing SNPs, Genes and Gene Ontology for Multiple Next-Gen Sequencing Samples on a Desktop Computer
EP11605 - Company: DNASTAR, Inc. - Author(s):Thomas Schwei1, Timothy Durfee PhD1, Amber Pollack-Berti PhD1, Katherine Maxfield1, Matthew Keyser1, Daniel Nash1, Jennifer Stieren1, Schuyler Baldwin1, Richard Nelson PhD1, Kenneth Dullea1, John Schroeder1, Pavel Pinkas PhD1, Guy Plunkett III PhD1,2, Frederick Blattner PhD1,2,3 Affiliations 1 DNASTAR, Inc., Madison, Wisconsin, USA 2 University of Wisconsin, Department of Genetics, Madison, Wisconsin, USA 3 Scarab Genomics LLC, Madison, Wisconsin, USA

DNASTAR offers software for assembling and analyzing sequence data from all major next-gen sequencing platforms supporting key workflows on a desktop computer, including reference-guided and de novo genome and transcriptome assembly and analysis, metagenomics sample assembly, targeted resequencing, exome assembly, and RNA-Seq, ChIP-Seq and miRNA alignment and analysis. An advanced application integrating powerful functionality in the software includes assembling and analyzing multiple samples u

Rails and anchors: guiding and trapping drops in 2D using wells of surface energy
EP11604 - Company: LadHyx - Author(s):Rémi Dangla, LadHyx, Ecole Polytechnique, Palaiseau, France Etienne Fradet, LadHyx, Ecole Polytechnique, Palaiseau, France Sungyon Lee, Department of Mathematics, UCLA Chalres Baroud, Ecole Polytechnique, Palaiseau France

We present a method to control nanolitre drops confined in a wide and thin microchannels, by etching fine patterns into the channel’s top surface. It relies on the fact that the droplets reduce their surface energy as they enter into a local depression. The resulting gain in free energy pulls them into the groove. We show experimentally that localized holes can be used as anchors for holding drops, while linear patterns can be used as rails to guide them along complex trajectories. The anchor

Protein E of Haemophilus influenzae is highly conserved; A new family of adhesins
EP11600 - Company: Lund University - Author(s):Birendra Singh, Maria Laura Perez Vidakovics, Marta Brant, Bjorn Hallstrom and Kristian Riesbeck

Protein E of Haemophilus influenzae is highly conserved; A new family of adhesins

Haemophilus influenzae Protein E is a highly conserved ubiquitous adhesin
EP11599 - Company: Lund University - Author(s):Karolina Olsson, Marta Brant, Birendra Singh, and Kristian Riesbeck

Haemophilus influenzae Protein E is a highly conserved ubiquitous adhesin

CztABCD of Haemophilus influenzae is a high affinity Cu++/Zn++ ABC transporter
EP11598 - Company: Lund University - Author(s):Birendra Singh, Sara Linse and Kristian Riesbeck

CztABCD of Haemophilus influenzae is a high affinity Cu++/Zn++ ABC transporter

A novel stem cell cryopreservation platform provides significantly improved hESC viability and proliferative capacity relative to standard freezing methods.
EP11594 - Company: BioCision - Author(s):Brian Schryver (1),Maria Thompson (1), Desmond Raitt (1), Aurelio Bonavia (1), and Rolf Ehrhardt (1) (1) BioCision LLC 12 East Sir Francis Drake Blvd. Suite B Larkspur, CA 94939 USA Tel: 1.888.478.2221 John Gardner (2), Catherine Fyfe (2) (2) Roslin Cellab. Roslin Biocentre Roslin, Midlothian, Scotland EH25 9PP Email: info@roslincellab.com

The ability to cryopreserve stem cells in a manner that allows their efficient recovery and maintains their growth characteristics, karyotype and pluripotency is critical for their use in clinical and research applications and represents a real constraint on their future expanded use. Here BioCision sought to compare several standard methods of cell cryopreservation with a new alcohol-free controlled-rate freezing process. Current methods of stem cell cryopreservation include costly electronic

 1 - 6 of 906 Next