Module info :: Class dAuvergneGooley07
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Class dAuvergneGooley07

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 = 'Set theory formulation of the model-free problem and ...
hash(x)
  journal = 'Mol. Biosys.'
hash(x)
  journal_full = 'Molecular BioSystems'
hash(x)
  volume = '3'
hash(x)
  number = '7'
hash(x)
  pages = '483-494'
hash(x)
  abstract = 'Model-free analysis of NMR relaxation data, which ...
  authoraddress = 'Department of Biochemistry and Molecular Biol...
  keywords = 'Magnetic Resonance Spectroscopy/*methods ; *Models...
  doi = '10.1039/b702202f'
hash(x)
  pubmed_id = 17579774
hash(x)
  status = 'published'
hash(x)
  year = 2007
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:
'Set theory formulation of the model-free problem and the diffusion se\
eded model-free paradigm.'

abstract

Value:
'Model-free analysis of NMR relaxation data, which describes the motio\
n of individual atoms, is a problem intricately linked to the Brownian\
 rotational diffusion of the macromolecule. The diffusion tensor param\
eters strongly influence the optimisation of the various model-free mo\
dels and the subsequent model selection between them. Finding the opti\
mal model of the dynamics of the system among the numerous diffusion a\
nd model-free models is hence quite complex. Using set theory, the ent\
irety of this global problem has been encapsulated by the universal se\
...

authoraddress

Value:
'Department of Biochemistry and Molecular Biology, Bio21 Institute of \
Biotechnology and Molecular Science, University of Melbourne, Parkvill\
e, Melbourne, Victoria 3010, Australia.'

keywords

Value:
'Magnetic Resonance Spectroscopy/*methods ; *Models, Theoretical ; Pro\
teins/chemistry ; Thermodynamics'