Sanger sequencing methods represent the most popular in a range of «first - generation»
nucleic acid sequencing technologies.
Not exact matches
A new
nucleic acid sequencing platform, the Sequel System, provides higher throughput, more scalability, a reduced footprint, and lower
sequencing project costs compared to the PacBio RS II System, while maintaining the existing benefits of single molecule, real - time (SMRT)
technology.
Modern molecular
technologies (genomics and other omics), through comparing
nucleic acid and amino
acid sequences across living species, are enabling the identification of genetic components and patterns stingily conserved by evolution, from those in which times of evolutionary branching of the tree of life can be inferred.
Over the past decade due to the deep -
sequencing technologies, we have studied the characterization of
nucleic acid alterations in a wide range of cancers generating a large body of information on how cancer develops and evolves.
In the 11 years before joining the CNAG he worked at the Centre National de Génotypage of the Commissariat à l'Energie Atomique in Evry, France, first as Head of
Technology Development and later as Associate Director under Prof. Mark Lathrop.His research interests are high - throughput
nucleic acid analysis,
sequencing, SNP genotyping, genomics, genetics,
nucleic acid and protein analysis methods (molecular biological techniques and chemical modification), implementation of methods, automation and analysis.