Your search keyword '"Jonsson, Bengt-Harald"' showing total 6 results

1. Some properties of site-specific mutants of human carbonic anhydrase II having active-site residues characterizing carbonic anhydrase III.

Author

Ren, Xilin, Jonsson, Bengt-Harald, and Lindskog, Sven

Subjects

*AMINO acids, *ORGANIC acids, *CARBONYL compounds, *SULFONAMIDES, *CHLORAMINE-T, *ISOENZYMES

Abstract

Four amino acid residues, His64, Asn67, Leu198 and Va1207, in the active site of human carbonic anhydrase H, have been replaced by Lys64, Arg67, Phe198 and Ile207, which are characteristic for the muscle-specific, low-activity isoenzyme form, carbonic anhydrase III. The aim of the investigation has been to test if any of these residues, or a combination of them, is important for the low CO2 hydration activity, low esterase activity, low pKa for the pH/rate profile and low affinity for sulfonamide inhibitors characterizing carbonic anhydrases III. However, no evidence for such critical roles was found. A combination of Lys64 and Arg67 appears to result in a decrease in CO2 hydration activity, but even the quadruple mutant having all four changes is only eight times less active (kcat/Km) than unmodified isoenzyme II, in contrast to isoenzyme III which is nearly 300 times less active than isoenzyme II. The 4-nitrophenyl acetate hydrolase activity of the quadruple mutant is sevenfold lower than that of unmodified isoenzyme IJ, while the active site of isoenzyme III hardly catalyzes the hydrolysis of this ester at all. The pKa controlling the esterase activity of the quadruple mutant is 6.2, which should be compared to a value of 6.8 for unmodified isoenzyme II, and about 5 for isoenzyme III. While isoenzyme III binds sulfonamide inhibitors 10³ - 104 times less strongly than iso enzyme [1, only [Asn-67 → Arg]isoenzyme II shows a weaker binding of the investigated sulfonamide, dansylamide, but only by a factor of two. Some of the other mutants show enhanced affinities, up to nearly fourfold for the double mutant with Phe198 and Ile207. It is speculated that additional differences between the active sites of isoenzyme II and III might be important for the precise orientations and interactions of the side chains of isoenzyme-III-specific amino acid residues. [ABSTRACT FROM AUTHOR]

Published

1991

2. Fine tuning of the catalytic properties of human carbonic anhydrase II.

Author

Behravan, Guy, Jonsson, Bengt-Harald, and Lindskog, Sven

Subjects

*CARBONIC anhydrase, *AMINO acids, *SITE-specific mutagenesis, *CHEMICAL mutagenesis, *BIOCHEMISTRY, *ENZYMES

Abstract

The active-site residue Thr200 in human carbonic anhydrase II has been replaced by several different amino acids by site-directed mutagenesis. The CO2 hydration and 4-nitrophenyl acetate hydrolase activities of these variants have been measured, as well as inhibition by the monovalent anion, SCN-. The results show that the replacement of Thr200 with Ser or Ala has no significant effect on the catalyzed rates of CO2 hydration. Also, variants with Asn200 and Gly200 have high activities, whereas the activities of variants with Val, Ile or Arg at position 200 are reduced by factors of 2-3 compared to the unmodified enzyme. The variant with Asp200 has a very low activity in both reactions studied, while most of the other variants have enhanced esterase activities, Thr200→Arg isoenzyme II as much as sevenfold. The Asp200 variant has a low affinity for SCN- as well as for a sulfonamide inhibitor, whereas all the other variants bind SCN- more strongly than unmodified enzyme. While His200 characterizes carbonic anhydrases I, the presence of Arg, Val or Ile as well as His at position 200 in human isoenzyme II seems to result in isoenzyme-I-like functional properties. [ABSTRACT FROM AUTHOR]

Published

1991

3. Structural and functional differences between carbonic anhydrase isoenzymes I and II as studied by site-directed mutagenesis.

Author

Behravan, Gity, Jonasson, Per, Jonsson, Bengt-Harald, and Lindskog, Sven

Subjects

CARBONIC anhydrase, MUTAGENESIS, AMINO acids, ISOENZYMES, HYDRATION, ESTERASES, GENETIC mutation

Abstract

Site-specific mutagenesis has been used to replace amino acid residues in the active site of human carbonic anhydrase II with residues characterizing carbonic anhydrases I. Previous studies of [Thr200→ His]isoenzyme II [Behravan, G., Jonsson, B.-H. & Lindskog, S. (1990) Eur. J. Biochem. 190, 351–357] showed that His200 is important for the specific catalytic properties of isoenzymes I. In this paper some properties of two single mutants, Asn62 → Val and Asn67 → His, as well as a double mutant, Asn67 → His/Thr200 → His, are described. The results show that neither Va162 nor His67 give rise to isoenzyme-I-like properties, while the double mutant behaves like the single mutant with His200. At pH 8.9, the variant with Va162 has a higher value of kcat/Km for CO2 hydration than unmodified isoenzyme II, whereas the variant with His67 has an enhanced kcat value. The replacement of Asn62 with Val results in a 20% increase of the 4-nitrophenyl acetate hydrolase activity. For the double mutant, the esterase activity is quite close to that calculated on the assumption that the effects of the two single mutations on the free energy of activation are additive. [ABSTRACT FROM AUTHOR]

Published

1991

4. GuHCl and NaCl-dependent Hydrogen Exchange in MerP Reveals a Well-defined Core with an Unusual Exchange Pattern

Author

Brorsson, Ann-Christin, Lundqvist, Martin, Sethson, Ingmar, and Jonsson, Bengt-Harald

Subjects

*ION exchange (Chemistry), *AMINO acids, *GUANIDINES, *MERCURY compounds

Abstract

We have analysed hydrogen exchange at amide groups to characterise the energy landscape of the 72 amino acid residue protein MerP. From the guanidine hydrochloride (GuHCl) dependence of exchange in the pre-transitional region we have determined free energy values of exchange (ΔG HX) and corresponding m-values for individual amide protons. Detailed analysis of the exchange patterns indicates that for one set of amide protons there is a weak dependence on denaturant, indicating that the exchange is dominated by local fluctuations. For another set of amide protons a linear, but much stronger, denaturant dependence is observed. Notably, the plots of free energy of exchange versus [GuHCl] for 16 amide protons show pronounced upward curvature, and a close inspection of the structure shows that these residues form a well-defined core in the protein. The hydrogen exchange that was measured at various concentrations of NaCl shows an apparent selective stabilisation of this core. Detailed analysis of this exchange pattern indicates that it may originate from selective destabilisation of the unfolded state by guanidinium ions and/or selective stabilisation of the core in the native state by chloride ions. [Copyright &y& Elsevier]

Published

2006

5. The Binding of Human Carbonic Anhydrase II by Functionalized Folded Polypeptide Receptors

Author

Andersson, Theresa, Lundquist, Martin, Dolphin, Gunnar T., Enander, Karin, Jonsson, Bengt-Harald, Nilsson, Jonas W., and Baltzer, Lars

Subjects

*CARBONIC anhydrase, *TRANSCRIPTION factors, *AMINO acids, *ZINC

Abstract

Summary: Several receptors for human carbonic anhydrase II (HCAII) have been prepared by covalently attaching benzenesulfonamide carboxylates via aliphatic aminocarboxylic acid spacers of variable length to the side chain of a lysine residue in a designed 42 residue helix-loop-helix motif. The sulfonamide group binds to the active site zinc ion of human carbonic anhydrase II located in a 15 Å deep cleft. The dissociation constants of the receptor-HCAII complexes were found to be in the range from low micromolar to better than 20 nM, with the lowest affinities found for spacers with less than five methylene groups and the highest affinity found for the spacer with seven methylene groups. The results suggest that the binding is a cooperative event in which both the sulfonamide residue and the helix-loop-helix motif contribute to the overall affinity. [Copyright &y& Elsevier]

Published

2005

6. The “Two-state Folder” MerP Forms Partially Unfolded Structures that Show Temperature Dependent Hydrogen Exchange

Author

Brorsson, Ann-Christin, Kjellson, Annika, Aronsson, Göran, Sethson, Ingmar, Hambraeus, Charlotta, and Jonsson, Bengt-Harald

Subjects

*AMINO acids, *TEMPERATURE, *SPECTRUM analysis, *GUANIDINES

Abstract

We have analysed the folding energy landscape of the 72 amino acid protein MerP by monitoring native state hydrogen exchange as a function of temperature in the range of 7–55 °C. The temperature dependence of the hydrogen exchange has allowed us to determine ΔG, ΔH and ΔCp values for the conformational processes that permit hydrogen exchange. When studied with the traditional probes, fluorescence and CD, MerP appears to behave as a typical two-state protein, but the results from the hydrogen exchange analysis reveal a much more complex energy landscape. Analysis at the individual amino acid level show that exchange is allowed from an ensemble of partially unfolded structures (i.e. intermediates) in which the stabilities at the amino acid level form a broad distribution throughout the protein. The formation of partially unfolded structures might contribute to the unusually slow folding of MerP. [Copyright &y& Elsevier]

Published

2004