Protein polymorphism in man

Biochemical and genetic properties of oligomeric structures: a general approach

The oligomers constituted by association of different subunits can exist under multiple forms. In the case of the genetically variable proteins, such a multiplicity leads to numerous questions (i) on the enumerations: what is the number of active forms when a given subunit can make the oligomer inactive, or when the subunits are encoded by s alleles; (ii) on the subunit effects on biochemical properties: how to estimate these effects, are they equal, are there interactions between subunits, etc. Theoretical methods for the study of such oligomeric structures are developed, which mainly rely on linear model techniques. Peculiar properties examined are Vmax and Km, but also the quantities of the various oligomers, which depend on their association law. This approach is extended to the oligomers composed of different sets of subunits, as are for example some enzymes. These aspects are discussed from numerous bibliographic examples, with special reference to molecular interactions (protein complementation or molecular heterosis). Otherwise the genetic application of this theoretical approach is presented: it is possible to consider a genotype as an oligomer of alleles, and thus to study their effects and their interactions, in the one-locus case as well as in the several-loci case. The relevance of this generalization is discussed in connection with two other concepts, the "sequence space" used in molecular evolution and the regression of the genotypic values on the number of alleles used in quantitative genetics.

Alcohol dehydrogenase polymorphism in the seaweed fly, Coelopa frigida

Seaweed flies (Coelopa frigida) inhabit piles of decaying seaweed on the seashore. All populations so far studied have been found to be polymorphic at the alcohol dehydrogenase locus (Adh). This article reports an attempt to identify some of the forces of natural selection that may be maintaining this polymorphism First, the genetic determination of the rather complex isozyme system is described. Several inbred lines homozygous at the Adh locus were derived and the biochemical properties of their allozymes compared. Significant differences in both specific activities and thermal stabilities were found between ADH allozymes. A simple experiment is reported in which individuals with different Adh genotypes were cultured in competition with each other in the presence of elevated levels of ethanol. Although the presence of ethanol resulted in greater mortality, there is no evidence that it was selective with respect to the Adh genotypes. The possible relevance of these results to the maintenance of the Adh polymorphism is discussed.

Investigations on inheritance of quantitative characters in animals by gene markers II. Expected effects

Monogenic characters mark chromosome sections and therefore allow estimation of the substitution effects of genes located in them for a quantitative character. From assumptions for higher organisms, the expected effects of a quantitative trait are deduced. The derivations aim to produce comparison values for subsequent empirical investigations in domestic mammals.

Comparative studies on the human glutamate-pyruvate transaminase phenotypes--GPT 1, GPT 2-1, GPT 2

The quantitative differences between the activity of the 3 common phenotypes of human red cell GPT has been confirmed. In addition, the activity of red cell GPT 1 was found to be greater in young children than in adults. No such difference was found for the GPT 2 phenotype. The activity of the red cell GPT 1 was found to decrease with age, reaching the adult level at the age of 10 to 12 years. Red cell GPT of all the 3 common phenotypes in both adults and children was found to show a similar response to the addition of excess pyridoxal phosphate. A method has been devised for the partial purification of human GPT (cytoplasmic) from liver. GPT 1 and GPT 2 have been purified, and very few significant differences were found amongst the physical and kinetic parameters tested.

Advances in medical genetics

Although advances in medical genetics are designed ultimately to help human beings receive better health care, they pose many problems for society. Some of these concerns are real, but others result from misunderstanding and/or misrepresentation of the true implication of certain developments in genetics. It is obvious that the geneticist must play a dual role in society as scientist and as advocate. Although such a duality or role is not easy, it is not impossible. However, it does mean that the training of the medical geneticist must include more than exposure to the scientific approach.

Evidence for the neutral hypothesis of protein polymorphism

Data for some 400 polymorphic proteins were examined with special reference to molecular evolution, by using a statistic that depends on neither mutation rate, population structure, nor other ecological factors. The result indicates that most of these polymorphisms are maintained in a population by mutation and random genetic drift.