Skip to Main Content Area
B. Sc. Biochemistry & Molecular Biology
Browse Learning Outcomes
Daedalus Help:
Currently there is no help available for this page.
Tags to narrow search
(tags which would result in an empty result are excluded from display)
:
#assays
(1)
#energy
(1)
#enzyme
(1)
#experimental technique
(2)
#HPLC
(1)
#mechanism
(2)
#NMR
(4)
#protein
(3)
#quantum mechanism
(2)
#radioactivity
(1)
#Raman
(1)
#single molecule method
(1)
#spectra
(1)
#structure
(1)
#technique
(2)
Selected tags:
#spectroscopy
Analyze optical spectra (absorption, emission, fluorescence anisotropy, LD, CD, IR, Raman) with respect to polypeptide structure and environment and with relation to quantum mechanical basis of a given spectroscopic technique.
[
BIOC 4702
]
Demonstrate understanding of hydrodynamic characterization by NMR (DOSY and spin relaxation), analytical ultracentrifugation and single molecule methods.
[
BIOC 4702
]
Describe effects of spin-relaxation phenomena upon the experimental observable and the manner in which these are modulated by dynamic processes.
[
BIOC 4702
]
Draw energy level diagrams showing the quantum mechanical basis of electronic absorption and emission spectroscopy with specific reference to the Franck-Condon principle.
[
BIOC 4702
]
Explain how given techniques (spectroscopy, radioactivity, HPLC) may be used to measure enzyme activity in direct or indirect assays.
[
BIOC 4701
]
Use vector diagrams to explain the major NMR experiments employed for protein NMR.
[
BIOC 4702
]
Analyze implications of molecular spectroscopy (absorption, emission, CD, NMR) results on polypeptide structure and environment in direct context of the physical basis of the technique in question.
[
BIOC 3700
]
Discriminate and quantify the components of the NMR Hamiltonian in terms of their contribution to the experimental observable in the solution- and solid-state.
[
BIOC 4702
]
Daedalus Menu
Browse
Courses
Learning Outcomes
User login
Username:
*
Password:
*
Create new account
Request new password
