A new approach to the thermodynamic study of ABO antibodies
Enthalpy change was determined for natural anti-A (B, O subjects) and anti-B (A1, A2, O subjects). Entropy change, free energy change and association constant were calculated according to the law of mass action and the Wurmser method. The concentrations of allohaemagglutinins were measured by the Wi...
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| Published in | Immunology Vol. 37; no. 3; pp. 547 - 553 |
|---|---|
| Main Authors | , |
| Format | Journal Article |
| Language | English |
| Published |
England
01.07.1979
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| Subjects | |
| Online Access | Get full text |
| ISSN | 0019-2805 1365-2567 |
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| Abstract | Enthalpy change was determined for natural anti-A (B, O subjects) and anti-B (A1, A2, O subjects). Entropy change, free energy change and association constant were calculated according to the law of mass action and the Wurmser method. The concentrations of allohaemagglutinins were measured by the Wilkie and Becker method using an autoanalyser. 2-Mercaptoethanol was used to estimate the proportions of IgG and IgM and their respective contribution to the thermodynamic properties. The following results and conclusions were obtained. Individual enthalpy and entrophy changes are different for each subject so that only the average values of these thermodynamic parameters represent a characteristic of the phenotype. There is a correlation between enthalpy and entropy changes and the relative proportion of anti-A or anti-B IgG. There is heterogeneity of the values of association constant. Free energy change is about 10 kcal mol-1 for all anti-A and anti-B; this result confirms the low energy binding between antigen and antibody. All these results confirm the role of environment and red-cell phenotype in the synthesis of allohaemagglutinins. |
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| AbstractList | Enthalpy change was determined for natural anti-A (B, O subjects) and anti-B (A1, A2, O subjects). Entropy change, free energy change and association constant were calculated according to the law of mass action and the Wurmser method. The concentrations of allohaemagglutinins were measured by the Wilkie and Becker method using an autoanalyser. 2-Mercaptoethanol was used to estimate the proportions of IgG and IgM and their respective contribution to the thermodynamic properties. The following results and conclusions were obtained. Individual enthalpy and entrophy changes are different for each subject so that only the average values of these thermodynamic parameters represent a characteristic of the phenotype. There is a correlation between enthalpy and entropy changes and the relative proportion of anti-A or anti-B IgG. There is heterogeneity of the values of association constant. Free energy change is about 10 kcal mol-1 for all anti-A and anti-B; this result confirms the low energy binding between antigen and antibody. All these results confirm the role of environment and red-cell phenotype in the synthesis of allohaemagglutinins.Enthalpy change was determined for natural anti-A (B, O subjects) and anti-B (A1, A2, O subjects). Entropy change, free energy change and association constant were calculated according to the law of mass action and the Wurmser method. The concentrations of allohaemagglutinins were measured by the Wilkie and Becker method using an autoanalyser. 2-Mercaptoethanol was used to estimate the proportions of IgG and IgM and their respective contribution to the thermodynamic properties. The following results and conclusions were obtained. Individual enthalpy and entrophy changes are different for each subject so that only the average values of these thermodynamic parameters represent a characteristic of the phenotype. There is a correlation between enthalpy and entropy changes and the relative proportion of anti-A or anti-B IgG. There is heterogeneity of the values of association constant. Free energy change is about 10 kcal mol-1 for all anti-A and anti-B; this result confirms the low energy binding between antigen and antibody. All these results confirm the role of environment and red-cell phenotype in the synthesis of allohaemagglutinins. Enthalpy change was determined for natural anti-A (B, O subjects) and anti-B (A1, A2, O subjects). Entropy change, free energy change and association constant were calculated according to the law of mass action and the Wurmser method. The concentrations of allohaemagglutinins were measured by the Wilkie and Becker method using an autoanalyser. 2-Mercaptoethanol was used to estimate the proportions of IgG and IgM and their respective contribution to the thermodynamic properties. The following results and conclusions were obtained. Individual enthalpy and entrophy changes are different for each subject so that only the average values of these thermodynamic parameters represent a characteristic of the phenotype. There is a correlation between enthalpy and entropy changes and the relative proportion of anti-A or anti-B IgG. There is heterogeneity of the values of association constant. Free energy change is about 10 kcal mol-1 for all anti-A and anti-B; this result confirms the low energy binding between antigen and antibody. All these results confirm the role of environment and red-cell phenotype in the synthesis of allohaemagglutinins. |
| Author | Rouger, P Salmon, C |
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| References | 13409017 - Science. 1957 Mar 29;125(3248):600-1 1121807 - Vox Sang. 1975;28(5):376-82 14094590 - Nouv Rev Fr Hematol. 1963 Nov-Dec;3:653-62 13591882 - Rev Hematol. 1958 Jul-Sep;13(3):305-10 14496426 - Nouv Rev Fr Hematol. 1961 Nov-Dec;1:847-71 341260 - Rev Fr Transfus Immunohematol. 1977 Dec;20(4):627-57 4979347 - Biochem J. 1969 Apr;112(2):187-94 14354201 - J Immunol. 1955 Mar;74(3):199-204 14354200 - J Immunol. 1955 Mar;74(3):192-8 13673136 - J Exp Med. 1959 Aug 1;110(2):221-44 13059970 - C R Hebd Seances Acad Sci. 1953 Mar 16;236(11):1212-4 4168016 - Immunology. 1967 Sep;13(3):227-34 13125202 - Ann Eugen. 1954 Jan;18(3):183-202 4893685 - J Clin Invest. 1969 Jul;48(7):1280-91 |
| References_xml | – reference: 1121807 - Vox Sang. 1975;28(5):376-82 – reference: 13409017 - Science. 1957 Mar 29;125(3248):600-1 – reference: 14496426 - Nouv Rev Fr Hematol. 1961 Nov-Dec;1:847-71 – reference: 13591882 - Rev Hematol. 1958 Jul-Sep;13(3):305-10 – reference: 14354201 - J Immunol. 1955 Mar;74(3):199-204 – reference: 13059970 - C R Hebd Seances Acad Sci. 1953 Mar 16;236(11):1212-4 – reference: 4979347 - Biochem J. 1969 Apr;112(2):187-94 – reference: 4168016 - Immunology. 1967 Sep;13(3):227-34 – reference: 13673136 - J Exp Med. 1959 Aug 1;110(2):221-44 – reference: 4893685 - J Clin Invest. 1969 Jul;48(7):1280-91 – reference: 13125202 - Ann Eugen. 1954 Jan;18(3):183-202 – reference: 341260 - Rev Fr Transfus Immunohematol. 1977 Dec;20(4):627-57 – reference: 14094590 - Nouv Rev Fr Hematol. 1963 Nov-Dec;3:653-62 – reference: 14354200 - J Immunol. 1955 Mar;74(3):192-8 |
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| SubjectTerms | ABO Blood-Group System - immunology Hemagglutinins - analysis Humans Immunoglobulin G - analysis Immunoglobulin M - analysis Isoantibodies - analysis Isoantibodies - biosynthesis Thermodynamics |
| Title | A new approach to the thermodynamic study of ABO antibodies |
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