Journal
BIOCHEMISTRY
Volume 39, Issue 24, Pages 7145-7152Publisher
AMER CHEMICAL SOC
DOI: 10.1021/bi992823a
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- NIGMS NIH HHS [GM38549] Funding Source: Medline
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The near-UV magnetic circular dichroism spectroscopy of the aromatic amino acid bands of hemoglobin was investigated as a potential probe of structural changes at the alpha(1)beta(2) interface during the allosteric transition, Allosteric effecters were used to direct carp and chemically modified human hemoglobins into the R (relaxed) or T (tense) state in order to determine the heme-ligation-independent spectral characteristics of the quaternary states. The tryptophan magnetic circular dichroism (MCD) peak observed at 293 nm in the R state of N-ethylsuccinimide- (NES-) des-Arg-modified human hemoglobin (Hb) was shifted to a slightly longer wavelength in the T state, consistent with the shift expected for tryptophan acting as a proton donor in a T-state hydrogen bond. Moreover, the increase observed in the T-state MCD intensity of this band relative to the R-state intensity was consistent with the effect expected for proton donation by tryptophan on the basis of the Michl perimeter model of aromatic MCD. The peak-to-trough magnitude of the R - T MCD difference spectrum is equal to 30% of the total R-state peak intensity contributed by all six tryptophans present in the human tetramer; the relative magnitude specific to the two beta 37 tryptophans undergoing conformational change is estimated accordingly to be 3 times larger. The Trp-beta 37 spectral shift, about 200 cm(-1), is in good agreement with the shifts observed in other W-bonded proton donors and provides corroborating spectral evidence for the formation in solution of a T-state Trp beta 37-Asp alpha 94 hydrogen bond observed in X-ray diffraction studies of deoxyHb crystals.
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