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  2. Advances in enzymology and related areas of molecular biology. Preface.
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  4. Volume 636. Tumor Immunology and Immunotherapy - Integrated Methods Part B
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Current Issue The latest published issue of Biochemistry. Jon R. Publication Date Web : August 21, Publication Date Web : August 30, Matthew J. Mcleod Anthony P. Krismanich Abdeljalil Assoud Gary I. Publication Date Web : August 28, Samantha J. Ziegler Yingxia Hu Swapnil C. Publication Date Web : August 26, David Britt Thomas L.

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Stay Connected Connect with us! Electric transport processes and properties Mass transfer Aggregation 92 Heat transfer 48 Energy transfer 45 Permeability 23 Surface Surface structure Adsorption Surface reaction 34 Desorption 32 Surface energy 22 Wetting 15 Surface analysis 7 Surface recombination 3 Quantum mechanics Quantum mechanical methods Potential energy Quantum transition Wave function 7 Tunneling 6 Zero point energy 5 Spin 2 Quantum theory 2 Mean-field theory 1 Thermodynamics Physical chem.

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Thermodynamic properties Free energy Enthalpy Entropy 55 Calorimetry 18 Equilibrium 15 Phase diagram 15 Thermodynamic simulation 6 Equation of state 2 Chemical kinetics Reaction kinetics Catalysis Reaction mechanism Reaction rate theory 57 Molecular dynamics 40 Biophysical chemistry Structure-activity relationship Protein structure Nucleic acid structure 60 Biological transport 44 Enzyme kinetics 41 Biological membrane 35 Protein folding 15 Electrochemistry Physical chem. Solid state electrochemistry Redox potential 47 Electrochemical cells 19 Electrolysis 12 Photoelectrochemistry 2 Spectroelectrochemistry 1 Spectroscopy Physical chem.

Luminescence spectroscopy Raman spectroscopy 40 X-ray spectroscopy 22 UV-visible spectroscopy 19 Fourier-transform spectroscopy 16 IR spectroscopy 14 Emission spectroscopy 3 Atomic spectroscopy 2 Absorption spectroscopy 1 Resonance spectroscopy 1 Solution chemistry Solvation 95 Hydrothermal reaction 26 Ionic strength 25 Solid solutions 7 Solvothermal reaction 7 Thermodynamic activity 5 Electrolytic solutions 4 Vapor pressure 4 Osmotic coefficient 2 Azeotropes 1 Osmotic pressure 1 Nonelectrolytic solutions 1 Clusters Nanoclusters Metal clusters 6 Cluster ions 4 Self-assembly Radiation Electromagnetic wave Laser radiation 17 Solar radiation 9 Cosmic ray 1 Photochemistry Physical chem.

Redox reaction Electron transfer Addition reaction 56 Elimination reaction 42 Hydrogenation 37 Hydrothermal reaction 26 Metathesis 10 Insertion reaction 10 Photochemical redox reaction 2 Sensors Fluorescence Luminescence Solid state chemistry Thin films Semiconductors 63 Magnetic materials 27 Ceramics 12 Fullerenes 12 Amorphous materials 11 Alloys 5 Superconductors 2 Polymers Polysiloxanes 33 Aluminoxanes 2 Theory Magnetism Semiconductors 63 Anisotropy 24 Tunneling 6 Paramagnetism 6 Ferromagnetism 3 Single-molecule magnets 1 Spectroscopy Inorg. Group 16 compounds 48 Group 13 compounds 14 Group 15 compounds 14 Group 14 compounds 5 Alkali metals 1 Supramolecular chemistry Inorg.

Metal-organic frameworks 40 Supramolecular structure 38 Rotaxanes 2 Electrochemistry 47 Organometallic compounds Bond activation 17 Carbene complexes 13 Sandwich compounds 5 Metallacycles 5 Small molecule activation Inorg. Photosensitizers 18 Photochemical reduction 15 Photooxidation 7 Photodegradation 3 Photochemical reactivity 1 Photochemical dechlorination 1 Combinatorial chemistry Multicomponent reaction 16 Solid phase synthesis 10 Ugi reaction 3 Three-component coupling reaction 1 Natural products Total synthesis 2 Stereochemistry Regiochemistry 3 Supramolecular chemistry Org.

Rotaxanes 2 Analytical chemistry Analytical apparatus Sensors Microfluidic devices 15 Lab-on-a-chip 11 Microscopy Electron microscopy 65 Fluorescence microscopy 53 IR microscopy 1 Imaging Fluorescence imaging 81 Biological imaging 27 Tomography 16 Electrochemical analysis Separation science Extraction 34 Liquid chromatography 21 Gas chromatography 2 Spectroscopy Anal. Redox reaction Addition reaction 56 Elimination reaction 42 Hydrogenation 37 Metathesis 10 Insertion reaction 10 Catalysis Spectroscopy Organomet.

Group 16 compounds 48 Group 13 compounds 14 Group 15 compounds 14 Group 14 compounds 5 Alkali metals 1 Coordination chemistry Organomet. Coordination compounds 17 Coordinative substitution reaction 5 Electrochemistry 47 Small molecule activation Organomet. Nanoparticles Nanocomposites Nanocrystals 66 Quantum dots 65 Nanowires 34 Pharmaceutical carriers 24 Two-dimensional materials 19 Nanoporous materials 17 Carbon nanostructured materials 5 Semiconducting nanostructured materials 2 Nanofabrication 45 Plasmonic and Photonic Structures and Devices 34 Nanodevices Quantum devices 3 Nanoreactors 2 Nanosensors 2 Nanocatalysis 2 Nanofluidics 2 Theoretical and Computational Chemistry Theory Theo.

Quantum mechanics Statistical mechanics 2 Group theory 1 Transition state theory 1 Computational chemistry and modeling Quantum mechanical methods Molecular dynamics simulation Molecular docking 64 Molecular modeling 52 Monte Carlo simulation 15 Molecular mechanics 7 Neural network modeling 6 Solvation models 2 Computational fluid dynamics 1 Chemical engineering and Industrial chemistry Transport phenomena Chem.

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Mass transfer Heat transfer 48 Fluid mechanics 8 Thermodynamics Chem. Each book in the series provides a clear, concise, and easy-to-follow layout, which is ideal for use as a reference source, on-the-bench, or as a student tutorial. Methods of Cell Separation brings to the attention of researchers at all levels the variety of methods available for separating viable populations of cells. Methods are grouped into 3 categories based on the criteria of separation, namely; size or density; non-specific surface properties; and specific surface properties. The principle of each method is described together with general and, where possible, specific protocols for conducting cell separation experiments.

A central theme of the book is the separation of populations of blood lymphocytes which is used as an example for each method. Methods of Cell Separation is distinguished by three powerful assets: descriptions of the majority of cell separation methods currently being used; details of the experimental procedures involved in each method; and comparisons of the different methods for separating cell populations with particular reference to blood lymphocytes.

Kasrayan, A. Persson, et al. Lenz, B. Mohr, H. Zipse, C-H bond activation in ribonucleotide reductases - do short, strong hydrogen bonds play a role? Persson, M. Eriksson, et al. Siegbahn, Theoretical study of the substrate mechanism of ribonucleotide reductase, Journal of the American Chemical Society, Volume , Issue 33 , August , Pages Siegbahn, L. Elford, B.

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Larsen, B. Swarts, M. Aquino, et al. Young, G. Schochetman, et al. Gale, J. Hynes, Effects of certain arylhydroxaniic acids on deoxyribonucleic acid synthesis by Ehrlich Ascites tumor cells in vitro, Journal of Medicinal Chemistry, Volume 11, Issue 1 , January , Pages Hynes, et al.

Tihan, H. Elford, et al. Carmichael, B. Cantwell, et al. Veale, J. Carmichael, et al. Rubens, S. Kaye, et al. Swarts, A. Sykes, Towards an understanding of the reactivity of E. Ban, E. Olah, et al. Rajwade, R. Pande, et al. Khare, R.

Advances in enzymology and related areas of molecular biology. Preface.

Khanam, S. Bag, et al. Henderson, C. Evans, et al. Failes, M. Hall, et al. Clarke, F. Zhu, et al. Gielen, M. Biesemans, et al. Nath, S. Pokharia, et al. Yang, M. Li, M. Shang, J. Wu, et al. Zhao, T. Liang, et al. Cui, et al. Gajewska, K. Luzyanin, et al. Shang, X. Meng, et al. Li, Y. Li, et al. Wang, Y. Lu, et al. Wu, H. Yin, et al. Shotor, K. Kassim, H. Bahron, A. Tajuddin, F. Yusof, C. Marmion, N. Wang, W. Liu, et al. Brown, N. Fitzpatrick, et al. Lipscomb, Two-metal ion mechanism of bovine lens leucine aminopeptidase: active site solvent structure and binding mode of L-Leucinal, a gem-diolate transition state analogue, by X-ray crystallography, Biochemistry, Volume 34, Issue 45 , November , Pages Roderick, B.

Matthews, Structure of the cobalt-dependent methionine aminopeptidase from Escherichia coli: a new type of proteolytic enzyme. Biochemistry, Volume 32, Issue 15 , April , Pages Kanyo, L. Scolnick, et al.

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Dixon, C. Gazzola, et al. A metalloenzyme. A simple biological role for nickel? Muri, M. Nieto, et al. Parker, E. Lunney, et al. Toba, K. Damodaran, et al. Pearson, L. Michel, et al. Santos, R. Grazina, et al. Mobley, R. Hausinger, Microbial ureases: significance, regulation, and molecular characterization, Microbiology and Molecular Biology Reviews, Volume 53, Issue 1 , March , Pages Mobley, M. Island, et al. Smoot, H. Mobley, et al. Takishima, T. Suga, et al. The complete amino acid sequence, limited proteolysis and reactive cysteine residues, European Journal of Biochemistry, Volume , Issue 1 , July , Pages Jabri, M.

Carr, et al. Ciurli, S. Benini, et al. Milios, E. Manessi-Zoupa, et al. Stemmler, J. Kampf, et al. Brown, W. Glass, et al. Brown, G. Clarkson, et al.

Volume 636. Tumor Immunology and Immunotherapy - Integrated Methods Part B

Kobashi, K. Kumaki, et al. Chambers, L. Matrisian, Changing views of the role of matrix metalloproteinases in metastasis, Journal of the National Cancer Institute, Volume 89, Issue 17 , September , Pages Egeblad, Z. Hu, P. Finnin, J. Donigian, et al. Natchus, R. Bookland, et al. Puerta, S. Cohen, Elucidating drug-metalloprotein interactions with tris pyrazolyl borate model complexes, Inorganic Chemistry, Volume 41, Issue 20 , October , pages Rossello, E. Nuti, et al. Babine, S. Bender, Molecular recognition of protein-ligand complexes: applications to drug design, Chemical Reviews, Volume 97, Issue 5 , August , Pages Cross, J.

Duca, et al. Failes, T. Chevrier, H. Involvement in catalysis of Glu and two zinc ions of the co-catalytic unit, European Journal of Biochemistry, Volume , Issue 2 , April , Pages Holland, H. Hynes, Hydroxylamine derivatives as potential antimalarial agents. Mayhew, L. Mampuru, et al. Mayhew, J.

Volume 635. Tumor Immunology and Immunotherapy – Integrated Methods Part A

Phillips, et al. Mayhew, O. Oakley, et al. Mayhew, R. Sumpter, et al.