TY - JOUR
T1 - Thermal transitions in the structure of tubulin - Environments of aromatic aminoacids
AU - Mozo-Villarías, A.
AU - Morros, A.
AU - Andreu, J. M.
PY - 1991/5/1
Y1 - 1991/5/1
N2 - The environment of aromatic aminoacids in the thermal transition of brain tubulin has been studied by several spectroscopic techniques (Fourth Derivative, Difference Absorption, Fluorescence and Circular Ditchroism), in order to study its denaturation. An irreversible, temperature-induced, structural transition was found at around 48°C. In order to establish the relative degree of hydrophobicity of tubulin aromatic residues, before and after the thermal transition, difference and fourth derivative absorption spectra at different temperatures were compared with spectra of tyrosine and tryptophan model compounds in different media. It was found that at high temperatures, tubulin acquires a partially denatured stable state, with a significant amount of residual structure still preserved. This state is characterized by a general increase of the exposure of tyrosine residues to the medium, while the environment of tryptophans becomes more hydrophobic. © 1991 Springer-Verlag.
AB - The environment of aromatic aminoacids in the thermal transition of brain tubulin has been studied by several spectroscopic techniques (Fourth Derivative, Difference Absorption, Fluorescence and Circular Ditchroism), in order to study its denaturation. An irreversible, temperature-induced, structural transition was found at around 48°C. In order to establish the relative degree of hydrophobicity of tubulin aromatic residues, before and after the thermal transition, difference and fourth derivative absorption spectra at different temperatures were compared with spectra of tyrosine and tryptophan model compounds in different media. It was found that at high temperatures, tubulin acquires a partially denatured stable state, with a significant amount of residual structure still preserved. This state is characterized by a general increase of the exposure of tyrosine residues to the medium, while the environment of tryptophans becomes more hydrophobic. © 1991 Springer-Verlag.
KW - Circular dichroism
KW - Difference absorption
KW - Fluorescence
KW - Fourth derivative spectrophotometry
KW - Hydrophobicity
KW - Structural transition
KW - Thermal denaturation
KW - Tubulin
U2 - 10.1007/BF00183318
DO - 10.1007/BF00183318
M3 - Article
SN - 0175-7571
VL - 19
SP - 295
EP - 300
JO - European Biophysics Journal
JF - European Biophysics Journal
IS - 6
ER -