354 pages | 24 Color Illus. | 117 B/W Illus.
In this, the post-genomic age, our knowledge of biological systems continues to expand and progress. As the research becomes more focused, so too does the data. Genomic research progresses to proteomics and brings us to a deeper understanding of the behavior and function of protein clusters. And now proteomics gives way to neuroproteomics as we begin to unravel the complex mysteries of neurological diseases that less than a generation ago seemed opaque to our inquiries, if not altogether intractable.
Edited by Dr. Oscar Alzate, Neuroproteomics is the newest volume in the CRC Press Frontiers of Neuroscience Series. With an extensive background in mathematics and physics, Dr. Alzate exemplifies the newest generation of biological systems researchers. He organizes research and data contributed from all across the world to present an overview of neuroproteomics that is practical and progressive.
Bolstered by each new discovery, researchers employing multiple methods of inquiry gain a deeper understanding of the key biological problems related to brain function, brain structure, and the complexity of the nervous system. This in turn is leading to new understanding about diseases of neurological deficit such as Parkinson’s and Alzheimer’s.
Approaches discussed in the book include mass spectrometry, electrophoresis, chromatography, surface plasmon resonance, protein arrays, immunoblotting, computational proteomics, and molecular imaging. Writing about their own work, leading researchers detail the principles, approaches, and difficulties of the various techniques, demonstrating the questions that neuroproteomics can answer and those it raises.
New challenges wait, not the least of which is the identification of potential methods to regulate the structures and functions of key protein interaction networks. Ultimately, those building on the foundation presented here will advance our understanding of the brain and show us ways to abate the suffering caused by neurological and mental diseases.
Neuroproteomics encapsulates some of the key areas in which proteomic technologies are making an impact in neuroscience. … the clear potential of neuroproteomics is well presented in this book. …
—Expert Review of Proteomics, June 2010, Vol. 7, No. 3
Neuroproteomics, Oscar Alzate
Banking Tissue for Neurodegenerative Research, John F. Ervin
Multidimensional Techniques in Protein Separations for Neuroproteomics, Carol Haney Ball and Petra Levine Roulhac
2-D Fluorescence Difference Gel Electrophoresis (DIGE) in Neuroproteomics, Roberto Diez, Michael Herbstreith, Cristina Osorio, and Oscar Alzate
Mass Spectrometry for Proteomics, Carol E. Parker, Maria R. Warren, and Viorel Mocanu
Mass Spectrometry for Post-Translational Modifications, Carol E. Parker, Viorel Mocanu, Mihaela Mocanu, Nedyalka Dicheva, and Maria R. Warren
MALDI Imaging and Profiling Mass Spectrometry in Neuroproteomics, Malin Andersson, Per Andren, and Richard M. Caprioli
Protein Interaction Networks, Alexei Vazquez
Knowledge-Based Analysis of Protein Interaction Networks in Neurodegenerative Diseases, Minoru Kanehisa, Vachiranee Limviphuvadh, and Mao Tanabe
Redox Proteomics of Oxidatively Modified Brain Proteins in Mild Cognitive Impairment, Tanea T. Reed, Rukhsana Sultana, and D. Allan Butterfield
Neuroproteomics in the Neocortex of Mammals: Molecular Fingerprints of Cortical Plasticity, Lieselotte Cnops, Tjing-Tjing Hu, Gert Van den Bergh, and Lutgarde Arckens
A Neuroproteomic Approach to Understanding Visual Cortical Development, Leonard E. White
Behaviorally Regulated mRNA and Protein Expression in the Songbird Brain, Miriam V. Rivas and Erich D. Jarvis
Proteomics of Experience–Dependent Plasticity in the Songbird Auditory Forebrain, Raphael Pinaud, Oscar Alzate, and Liisa A. Tremere
Applications of Proteomics to Nerve Regeneration Research, Mark W. Massing, Grant A. Robinson, Christine E. Marx, Oscar Alzate, and Roger D. Madison