Explores the synthesis and applications of polymer brushes, including controlled polymerization techniques and their use in protein microarrays and cell adhesion.
Explores protein mass spectrometry, proteomics techniques, sample preparation, separation methods, quantitative workflows, bioinformatics, and applications in biology.
Introduces BioMEMS, covering applications like DNA separation, protein analysis, and neuroelectronic implants, along with key numbers in biology and challenges in system integration.
Covers the heterogeneous neuroscience data, techniques like microarrays and gene sequencing, data integration, and the importance of metadata in organizing and sharing data.
Explores quantile normalization in genomics, emphasizing data preparation, loading, filtering, and the significance of accurate gene expression analysis.
Covers proteomics techniques and their applications in neuroscience, focusing on mass spectrometry and the challenges of studying proteins in cellular functions.
Covers proteomic applications in neuroscience, focusing on targeted analysis of cortical neurons and their developmental interactions with striatal neurons.
