Module info :: Class dAuvergneGooley03
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Class dAuvergneGooley03

source code


Bibliography container.

Instance Methods [hide private]

Inherited from Ref: __getattr__, cite_html, cite_short

Class Variables [hide private]
  type = 'journal'
hash(x)
  author = 'd\'Auvergne, E. J. and Gooley, P. R.'
hash(x)
  author2 = [['Edward', 'd\'Auvergne', 'E.', 'J.'], ['Paul', 'Go...
hash(x)
  title = 'The use of model selection in the model-free analysis...
hash(x)
  journal = 'J. Biomol. NMR'
hash(x)
  journal_full = 'Journal of Biomolecular NMR'
hash(x)
  volume = '25'
hash(x)
  number = '1'
hash(x)
  pages = '25-39'
hash(x)
  abstract = 'Model-free analysis of NMR relaxation data, which ...
  authoraddress = 'Department of Biochemistry and Molecular Biol...
  keywords = 'Amines ; Diffusion ; *Models, Molecular ; Motion ;...
  doi = '10.1023/A:1021902006114'
hash(x)
  pubmed_id = 12566997
hash(x)
  status = 'published'
hash(x)
  year = 2003
hash(x)

Inherited from Ref: url

Class Variable Details [hide private]

author2

hash(x)

Value:
[['Edward', 'd\'Auvergne', 'E.', 'J.'],
 ['Paul', 'Gooley', 'P.', 'R.']]

title

hash(x)

Value:
'The use of model selection in the model-free analysis of protein dyna\
mics.'

abstract

Value:
'Model-free analysis of NMR relaxation data, which is widely used for \
the study of protein dynamics, consists of the separation of the globa\
l rotational diffusion from internal motions relative to the diffusion\
 frame and the description of these internal motions by amplitude and \
timescale. Five model-free models exist, each of which describes a dif\
ferent type of motion. Model-free analysis requires the selection of t\
he model which best describes the dynamics of the NH bond. It will be \
demonstrated that the model selection technique currently used has two\
...

authoraddress

Value:
'Department of Biochemistry and Molecular Biology, University of Melbo\
urne, Melbourne, Victoria 3010, Australia.'

keywords

Value:
'Amines ; Diffusion ; *Models, Molecular ; Motion ; Nuclear Magnetic R\
esonance, Biomolecular/*methods ; Proteins/*chemistry ; Research Suppo\
rt, Non-U.S. Gov\'t ; Rotation'