Hilda L. Hui scite author profile

Functionally distinct conformations of HbA (human adult hemoglobin) were probed using deoxy and diliganded derivatives of symmetric Fe-Zn hybrids of HbA. To expand the range of accessible structures, different environments were utilized including solution, sol-gel encapsulation, and crystals. Further structural and functional modulation was achieved by the addition of allosteric effectors. Functional characterization included oxygen affinity measurements, CO combination rates, and geminate and bimolecular CO recombination, after photodissociation. The conformational properties were studied using visible resonance Raman spectroscopy as a probe of local tertiary structure at the iron-containing hemes and UV resonance Raman spectroscopy as a probe of elements of the globin known to be sensitive to quaternary structure. The combined results show a pattern in which there is a progression of conformational and functional properties that are consistent with a picture in which the T quaternary structure can accommodate a range of tertiary conformations (plasticity). At one end of the distribution is the equilibrium deoxy T state conformation that has the lowest ligand reactivity. At the other end of the distribution are T state conformations with higher ligand reactivity that exhibit "loosened" T state constraints within the globin including the alpha(1)beta(2) interface and reduced proximal strain at the heme.

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Human hemoglobin expression in Escherichia coli: importance of optimal codon usage

Hernan

Hui

Andracki

et al. 1992

Biochemistry

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The overexpression of a nonfusion product of human beta-globin in Escherichia coli from its cDNA sequence has been accomplished for the first time. Expression of beta-globin from its native cDNA required the use of the strong bacteriophage T7 promoter. In this system, beta-globin accumulated to approximately 10% of total E. coli proteins. alpha-Globin was not expressed in the T7 system using the native cDNA. For the expression of alpha-globin, synthetic genes containing optimal E. coli codons were constructed. Neither synthetic alpha- nor beta-globin gene alone was expressed from the lac or tac promoter. Globin expression was achieved when the two synthetic alpha- and beta-globin genes were combined as an operon downstream of the lac promoter. The two proteins combined intracellularly with endogenous heme, which was concomitantly overproduced to yield tetrameric hemoglobin as roughly 5-10% of total E. coli protein. Cloning the alpha- and beta-globin cDNAs in a construct identical with the lac promoter did not yield globin production, establishing the requirement for optimal codon usage. The recombinant beta-globin from the T7 expression system was purified and reconstituted in vitro with heme and native alpha chains. N-terminal analyses showed that the beta-globin produced in the T7 system and the tetrameric hemoglobin produced from the synthetic genes contained an additional beta 1 methionine residue. Two additional mutants, beta 1 Val----Met and beta 1 Val----Ala were produced using the T7 system. Functional and structural properties of the purified hemoglobins will be discussed in the following papers.

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Mutational Effects at the Subunit Interfaces of Human Hemoglobin: Evidence for a Unique Sensitivity of the T Quaternary State to Changes in the Hinge Region of the α1β2 Interface

Noble¹,

Hui²,

Kwiatkowski³

et al. 2001

Biochemistry

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A set of variant human hemoglobins, each with an Ala or Gly substitution at a single residue, has been prepared, and the kinetics of their reactions with carbon monoxide have been measured. This reaction is rate-limited by the binding of the first CO to the deoxygenated T state of the protein. The magnitudes of the effects of the mutations on CO combination vary widely, and, with the exception of beta Y145, the residues with the most significant effects on these kinetics are found in the hinge region of the alpha 1 beta 2 interface. Mixed-metal hybrids, with zinc protoporphyrin IX in place of heme on both alpha or both beta subunits, were prepared for beta W37E, beta W37A, alpha Y140G, and alpha Y140A, hinge region variants causing large kinetic changes, and for beta Y145G. Such hybrids permit measurements of the kinetics of CO binding to only the heme-containing alpha or beta subunits within the unliganded hemoglobin tetramer. Mutations at beta 37 and alpha 140 have global effects on the T state, increasing the rates of CO binding to both types of subunits. Mutation of beta Y145 has a large effect on the beta subunits in the deoxygenated T state, but very little effect on the alpha subunits. Oxygen equilibria measurements on the crystalline T state of beta W37E also indicate large affinity increases in both subunits of this variant. The overall oxygen equilibria of the variant hemoglobins in solution are sensitive to numerous variables besides the properties of the deoxygenated T state. In contrast to CO combination kinetics, the residues whose alterations cause the largest changes in overall oxygen equilibria in solution are scattered seemingly randomly within the alpha 1 beta 2 interface.

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Hilda L. Hui

Functional and Spectroscopic Characterization of Half-Liganded Iron−Zinc Hybrid Hemoglobin: Evidence for Conformational Plasticity within the T State^,

Human hemoglobin expression in Escherichia coli: importance of optimal codon usage

Mutational Effects at the Subunit Interfaces of Human Hemoglobin: Evidence for a Unique Sensitivity of the T Quaternary State to Changes in the Hinge Region of the α1β2 Interface

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Hilda L. Hui

Functional and Spectroscopic Characterization of Half-Liganded Iron−Zinc Hybrid Hemoglobin: Evidence for Conformational Plasticity within the T State,

Human hemoglobin expression in Escherichia coli: importance of optimal codon usage

Mutational Effects at the Subunit Interfaces of Human Hemoglobin: Evidence for a Unique Sensitivity of the T Quaternary State to Changes in the Hinge Region of the α1β2 Interface

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Product

Resources

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Functional and Spectroscopic Characterization of Half-Liganded Iron−Zinc Hybrid Hemoglobin: Evidence for Conformational Plasticity within the T State^,