Explores long-read sequencing techniques using nanopore technology and PacBio sequencing for accurate base determination and reading longer DNA stretches.
Explores single molecule sequencing strategies, including sequencing by synthesis and real-time sequencing based on zero mode waveguides, as well as DNA translocation through nanopores.
Explores tools and models for Next-Generation Sequencing data analysis, covering DNA sequencing technologies, data analysis pipelines, and statistical models.
Covers the heterogeneous neuroscience data, techniques like microarrays and gene sequencing, data integration, and the importance of metadata in organizing and sharing data.
Covers the historical development of genomics, from Sanger sequencing to high-throughput technologies and cost reductions, highlighting the impact of key players like Craig Venter.
Explores the Radiative Transport Equation in tissue optics, covering radiance, photon distribution, and numerical solutions like Monte Carlo simulations.
Explores the evolution of DNA sequencing techniques, from shotgun sequencing to real-time PCR, emphasizing the importance of direct RNA sequencing and the challenges of repetitive DNA sequences.
