Protein NMR Spectroscopy: Principles and Practice combines a comprehensive theoretical treatment of high resolution NMR spectroscopy with an extensive. Spectroscopy. Protein NMR Spectroscopy - 2nd Edition - ISBN: , Principles and Practice DRM-free (EPub, PDF, Mobi). 4 J. Cavanagh, W. J. Fairbrother, A. G. Palmer, N. J. Skelton, Protein NMR spectroscopy, principles and practice Academic Press protein structures are.
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Bitumen tests. CE : Masonry Design Background on stones, bricks, tiles, cement, steel, concrete, paints and polymers with relevant discussions of IS code provisions; concrete mix design; durability of concrete. Basic structural behavior and design of low-rise bearing wall buildings; Basic material properties; Strength design of unreinforced masonry elements; Allowable stress design of unreinforced masonry elements; Introduction to reinforced masonry; Introduction to confined masonry.
CE : Field Survey Project Survey camp of days: Total station survey, Geological survey, Creating survey map of the area including information about geological features at the site.
Identification of different rock types and landforms in the area. CE : Comprehensive Project - 1 A big construction project will be considered and will be sub-divided into several components. The teams will be required to merge their designs of individual components of the entire project towards the end and present a consolidated plan, design and construction plan of the entire project.
CE : Geotechnical Engineering Geotechnical investigations, reconnaissance and investigation plan, drilling, sampling, field-tests, groundwater level, laboratory tests, etc. CE : Applied Hydraulic Transients Transients in pipe flows: Causes of transients; Governing equations; Method of characteristics, Transients caused by centrifugal pumps, Hydraulic transients in long oil pipelines, Resonance in pressurized piping system, Methods to control transients, surge tanks.
Transients in open channel flows: Causes of transients, Governing equations, Method of characteristics, Explicit and Implicit Finite Difference methods, Sediment routing, Coordinate transformation and two-Dimensional flow simulations, VOF method for surface tracking.
CE : Structural Engineering In-Practice 2 — 0 — 2 — 6 — 4 Structural engineering historical background; Construction materials; Review of structural analysis; Simplified analysis; Computer analysis vs. CE Analysis and Design of Foundation Systems Stress-strain behavior of soils, CU and CD tests, p-q space, stress path; Constitutive models, Design of shallow foundations, Isolated and combined footings, Rafts; Design of deep foundations, piles, piled rafts, well foundations; Foundation optimization, Soil dynamics, Machine foundations.
Geotechnical Investigation and design project: field and laboratory tests, interpretations, reporting, design parameters, analysis and design of foundation system. CE : Rock Mechanics Engineering properties and classification of intact rock and rock masses; Geophysical methods and deformability tests in rock mass; Estimation of stresses in rock mass; Rock tunneling; Stability of rock slopes; Drilling and Blasting for underground and open excavations; Grouting in rocks; Rock reinforcement; Rock foundation.
General issues: top-down versus bottom-up processing, online processing, integration of multiple sources of information.
Methodology and issues in the development and evaluation of cognitive models: Which psychological data are relevant? What predictions are made by a model? How could these be tested? Modelling techniques: in the assignments, students will experiment with both symbolic rule based and subsymbolic probabilistic cognitive models.
Philosophical foundations of cognitive science; fundamental presuppositions in cognitive science; development of cognitive science; fundamental questions on mind, brain and behavior Computational approaches; multidisciplinary approaches and paradigms in cognitive science Research frameworks.
CG Fundamentals of Cognitive Psychology Complexity involved in mental processes; Perception and attention; Basic processes in vision. Object and face recognition; Attention and performance; Learning, memory and forgetting. Language and thinking; Language comprehension and production; Reading and speech perception; Judgment and decision making; Cognition and emotion CG Fundamental Neuroscience Foundational principles of neuroscience Cellular basis of nervous system function Neural circuits and systems The structure and function of the motor system Cognitive neuroscience and higher order brain function Attention, language, memory and executive functions Neuroanatomy and damage to the nervous system.
CG Experimental Techniques in Cognitive Science Course contents: Introduction to experimental design — Hypothesis; Independent and dependent variables; principles of Reaction Time studies. Applying statistical techniques — lab based module primarily intended to create a practical awareness of statistical testing.
This will include many example data datasets and deciding what an effective test is and how to do it. Data interpretation — what does significant statistical results mean. How does these numbers inform about mental processes.
Writing — Including effective writing techniques; how to report statistics. Hands on experience in different behavioural and imaging methodology including eyetracking, EEG etc CG Evolutionary Neuropsychology Paleoneuropsychology is the study the evolution of the structures and functions of the human brain.
It is an emerging multidisciplinary science that spans the fields of anthropology, archaeology, cognitive neuroscience, and psychology. This course is designed as introduction to the specific structures and functions of the human brain with particular attention to empirical brain research advances since It is also designed as an introduction to the evolution of the human brain size, shape, neurons, chemical neurotransmitters, etc.
Semiotic and cognitive perspectives The contemporary debates about the relationship between cultural and verbal vs non-verbal cognition.
CG : An Introduction to Cognitive Linguistics Tools of linguistic description; From grammar to bio-linguistics - an overview; A theory of language structure as a theory of knowledge of language; A Model of linguistic structure: Universal Grammar and the grammars of a particular language; A traditional Indian and a modern approach to meaning in language in use; Understanding metaphor; Cognitive narratology. CG : Classics in Brain Science Half semester course examining, at an advanced level, classic research that has shaped current understanding of brain function.
Following topics will be covered: 1.
Generation and transmission of neuronal signals 2. Intercellular communication 3. Vision 4.
Proprioception Processing of somatosensory information and organization of somatosensory cortex. Classic experiments by Vallbo, Matthews and Willis 5. Spinal Reflexes Classic experiments on reflex circuit organization by Sherrington, which won him the Nobel prize; work by Matthews, Eccles and Lundberg on reflex physiology.
Control of voluntary movement organization of motor cortex, descending projections from motor cortical areas, movement planning and control all examined via studies of Evarts, Georgopoulos, Strick and Kalaska 7. CG : Perception and Attention Information processing view and ecological approach to perception; The visual anatomy and physiology; Psychophysical methods; Perception of color, motion and depth; Theories of attention — FIT, CODE, TVA etc; Mechanisms of selection; locus of control; Inhibitory processes in selection etc; Experimental paradigms cueing, visual search, and phenomena like in attentional blindness and attentional blink CG : Learning and Memory Psychological theories of learning, behavioral and cognitive approach to learning.
Classical conditioning, reinforcement learning and Motor learning. Types of Associations, Biological constraints on classical conditioning. Procedures of shaping behavior, Role of reinforcer. Theories of memory, Storage, Encoding and retrieval, Types of Memory, techniques of testing memory. Localization of memory, Mechanisms of Memory, memory disorders Neurobiology of learning and memory, functional network of brain areas involved in learning and memory CG : Behavioral Economics Introduction: Historical development of the field, interdisciplinary perspectives linking psychology, economics and neuroscience, Overview of the field with real life examples.
Modes of thought, Heuristics and biases: Modes of thought intuitive and deliberative , heuristics anchoring and availability, representativeness , Biases Framing effects, mental accounting , taming intuitive heuristics, self-regulation in the brain, The positive side of heuristic decision making.
Choice under certainty - concept of preference in rational choice theory, revealed preference, decision making under certainty. Choice under uncertainty — The concept of value and utility under uncertainty, psychological weighting of probabilities, deciding about prospects, gains and losses, Neural representations of subjective value and choices in the brain.
Thinking over time - Discounted utility, hyperbolic discounting, affective forecasting biases, retrospective experiential biases for value computation.
Applying behavioral economics - Marketing examples from prospect theory, choice architecture, Real examples of nudges for better health, wealth and happiness. CG : Consumer decision making Preliminaries: Introduction to consumer behavior, attention and perception, memory, motivations, valuation, self-conceptualization, framework of consumer decision making; Product search: Information search and sampling, processing limitations and overload, decision strategies and heuristics, contingent decision making and selection, influence of brands; Price perception: Conception of price as a stimulus, reference prices and thresholds, theories of price perception, processing price frames, judgments based on price, influence of price changes; Consumers through the lens of the econometric method: Introduction to rational choice framework, preferences, demand curves and decisions, applications of rational choice and demand; Consumers through the lens of marketing research: Introduction to marketing research, measuring pre and post download behavior, pricing strategies, sample insights and case studies.
NMR is suitable to monitor, over a wide range of frequencies, protein fluctuations that play a crucial role in their biological function. In the last section of this review, intrinsically disordered proteins, which have escaped the attention of classical structural biology, are discussed in the perspective of NMR, one of the rare available techniques able to describe structural ensembles.
However, it took more than 60 years to reach this interdisciplinary status. The discovery of nuclear magnetic resonance was made independently by two groups of prominent scientists, Felix Bloch et al. This first observation of the chemical shift was confirmed one year later by the detection of three lines in the spectrum of ethanol.
These double resonance methods were also used to detect spin—spin coupling, the other types of interaction between nuclei and in , Freeman and Whiffen 5 analyzed the spin—spin coupling network in 2-furoic acid. Stronger electromagnets were designed to reach MHz for the 1H frequency until the emergence of superconducting magnets in the early s.
The first MHz spectrum of ethanol 6 was published in after solving a great deal of technical challenges such as magnet homogeneity and stability. The ability to excite simultaneously and then unravel all signals was a methodological breakthrough that opens the door to the development of numerous pulse sequences. In , exploratory studies were undertaken on small biological molecules such as common amino-acids and the first spectrum of bovine pancreatic ribonuclease 8 was recorded at 40 MHz.
After failing to observe a spectrum in H2O, these authors reported a 1H spectrum in D2O that exhibited four lines corresponding to the various types of protons aromatic and aliphatic. Most of the research in the s was carried out on synthetic or natural peptides and on some paramagnetic proteins such as cytochrome c and myoglobin, where some resonances fall outside of the standard range of chemical shift. The greatest hurdle was the suppression of the water signal that is several orders of magnitude larger than the signal of interest.
Ernst et al.