Molecular Biology, Biochemistry and Biophysics / Molekularbiologie, Biochemie und Biophysik, 9.
CONTENTS NOTE
Text of Note
I Introduction --; Some Basic Introductory Data on Human Immunoglobulins --; II Basic Data Concerning Genetic Human Immunoglobulin Markers --; Techniques --; Nomenclature --; Introductory Survey of Main Genetic Ig Factors --; III Interpretation of Immunological Concepts and of Notational Terms in Structural Concepts --; Chemical Correlate of Descriptive Terms --; Some Pitfalls in the Interpretation of Statistics of Immunologic Findings in Terms of Chemical Structure, as Elucidated by Studies of the Gm System. Degree of Complexity --; IV The Formal Genetics of the Gm and Inv Systems --; Lack of Evidence for Excessive Mutability within the Gm and Inv Systems --; Linkage Relations between the Gm System and Other Polymorphic Systems, in Particular Inv --; Associations between Particular Gm Factors Due to the Presence of Determinants on the Same H-Polypeptide Chain. The Distribution of Gm Factors among the IgG Molecules within a Given Individual --; Associations between Particular Gm Factors Observed in Segregation Studies in Families --; The Gm Chromosome Segment as a Compound of Several Loci, Each Related to an IgG Subclass --; The Question of Crossing Over between IgG Loci --; "Gm-" Alleles and Their Interpretation --; Evaluation --; The Formal Genetics of the Inv System --; V Human Anti-Human-Gammaglobulins, Their Specificity and Function. Genetic Ig Factors and Tolerance --; Categories of Human Anti-Human-Ig --; The Concept of Allosteric Change as Applied to Immunologic Reactions, in Particular to the Anti-Antibody of Milgrom Type --; The Appearance of Anti-Gm's in Early Extrauterine Life. Genetic Ig Factors and Tolerance --; Physiological and Pathophysiological Roles of Anti-Gamma-globulins --; VI Immunoglobulin Polymorphism as an Example of Molecular Differentiation in Macroorganisms. Mutual Allelic Exclusion --; Phylogeny of Immunoglobulin Polymorphism --; Variation in Ig Polymorphism with Ethnic Group --; Ontogeny of Immunoglobulin Polymorphism --; Ig Genetic Factors During Antigenic Stimulation --; Ig Genetic Factors in Various Body Compartments --; Relation of Ig Genetic Factors of Mother and Child at Birth --; Regional Differentiation within the Immunoglobulin-Producing Cell Population. Allelic Exclusion --; Application in Forensic Medicine --; VII Selection and Control of Immunoglobulin Structure --; Levels of Genetic Control of the Immune Response --; Regulation of Ig Structure. Levels of Control --; Models for Allelic Exclusion in Ig Production --; The Non-Random Character of Partner Chain Selection --; Clonal Regulation in the Macroorganism --; Ig Structure Related to Antibody Properties Other than Antigen-Binding. Evolutionary Aspects --; Appendix Compilation of Data Concerning Genetic Factors of Human Immunoglobulins --; Gm(l) --; Gm(2) --; Gm(3) --; Gm(4) --; Gm(5) --; Gm(6) --; Gm(7) --; Gm(8) --; Gm(9) --; Gm(10) --; Gm(ll) --; Gm(12) --; Gm(13) --; Gm(14) --; Gm(15) --; Gm(16) --; Gm(17) --; Gm(18) --; Gm(19) --; Gm(20) --; Gm(21) --; Gm(22) --; Gm(23) --; Gm(m) --; Inv(l) --; Inv(2) --; Inv(3) --; Isf(l) --; Am --; Miscellaneous Factors, Hitherto not Properly Defined, but Possibly Related to the Gm System --; References.
SUMMARY OR ABSTRACT
Text of Note
It has long been known that every individual has a large number of antibodies of different specificities. Antibodies are gammaglobulins, and protein structure in cells is genetically determined. The extreme multiplicity of structure of the combining sites of antibodies relative to the degree of multiplicity generated by ordinary genetic mechanisms is a fascinating problem of bio-medical importance. The functional heterogeneity of reactions mediated by immunoglobulins-is remarkable, ranging from protection against life-threatening toxins and microbes to the production of laryngeal edema leading to suffocation and death from anaphylaxis. An approach to the understanding of immunoglobulin polymorphism based upon "a knowledge of genetic markers of immunoglobulin structure is not biased by the question of whether or not this polymorphism is related to combining site diversity. Though several recent reviews of the multifacetted problems related to immuno globulins are available, it was decided to publish this survey in the belief that know ledge of the genetic markers of immunoglobulins prqvides such information about immunoglobulin differentiation and its control as cannot be obtained from other sources. Several of the human genetic im~unoglobulin markers are well understood at the molecular level. The Gm system may serv~ as a model for other immuno genetic systems. The published data on the human immunoglobulin factors are widely scattered in journals of different perspectives. There is a need for a systematic presentation of these data and for their critical evaluation.