1 The population genetics of the haemoglobinopathies*

https://doi.org/10.1016/S0950-3536(98)80069-3Get rights and content

The haemoglobinopathies are the commonest single-gene disorders known, almost certainly because of the protection they provide against malaria, as attested by a number of observations. The geographical distributions of malaria and haemoglobinopathies largely overlap, and microepidemiological surveys confirm the close relationship between them. For two of the commonest disorders, haemoglobin S and α+-thalassaemia, there is also good clinical evidence for protection against malaria morbidity. However, not all the evidence appears to support this view. In some parts of the world malaria and haemoglobinopathies are not, and never have been, coexistent. It is also difficult to explain why the majority of haemoglobinopathies appear to be recent mutations and are regionally specific. Here we argue that these apparent inconsistencies in the malaria hypothesis are the result of processes such as genetic drift and migration and of demographic changes that have occurred during the past 10 000 years. When these factors are taken into account, selection by malaria remains the force responsible for the prevalence of the haemoglobinopathies.

References (196)

  • AllisonAC

    Polymorphism and natural selection in human populations

  • AluochJR et al.

    Sicke cell anaemia among Eti Turks: haematological, clinical and genetic observations

    British Journal of Haematology

    (1986)
  • AmselemS et al.

    Determination of the spectrum of β thalassemia genes in Spain by dot-blot analysis of amplified β globin DNA

    American Journal of Human Genetics

    (1988)
  • AntonarakisSE et al.

    Non-random association of polymorphic restriction sites in the β globin gene cluster

  • AntonarakisSE et al.

    Evidence for multiple origins of the βE globin gene in Southeast Asia

  • AntonarakisSE et al.

    Origin of the βS globin gene in Blacks: the contribution of recurrent mutation or gene conversion or both

  • Atalay et al.

    Regional distributions of β-thalassemia mutations in Turkey

    International Journal of Hematology

    (1993)
  • Aulehla-ScholzC et al.

    Molecular basis of β thalassaemia in Turkey: detection of rare mutations by direct sequencing

    Human Genetics

    (1990)
  • BasakAN et al.

    The molecular basis of β-thalassemia in Turkey

    Human Genetics

    (1992)
  • BaysalE et al.

    The β-thalassaemia mutations in the population of Cyprus

    British Journal of Haematology

    (1992)
  • BellwoodPS

    The colonization of the Pacific: some current hypotheses

  • BeneschRE et al.

    Solubilization of hemoglobin S by other hemoglobins

  • BennaniC et al.

    Anthropological approach to the heterogeneity of β-thalassemia mutations in Northern Africa

    Human Biology

    (1994)
  • BevilaquaLRM et al.

    Beta-globin gene cluster haplotype distribution in five Brazilian Indian tribes

    American Journal of Physical Anthropology

    (1995)
  • BlackRH

    Some aspects of malaria in the New Hebrides

    South Pacific Commission Technical Paper

    (1954)
  • BoehmCD et al.

    Evidence supporting a single origin of the βC globin gene in Blacks

    American Journal of Human Genetics

    (1985)
  • BortsRH et al.

    Meiotic recombination in yeast: alteration by multiple heterozygosities

    Science

    (1987)
  • BortsRH et al.

    Length and distribution of meiotic gene conversion tracts and crossovers in Saccharomyces cerevisiae

    Genetics

    (1990)
  • BowdenDK et al.

    Different hematologic phenotypes are associated with leftward (−α4.2) and rightward (−α3.7) α thalassaemia deletions

    Journal of Clinical Investigation

    (1987)
  • BoyceAJ et al.

    Population genetics of the α-globin complex in Oceania

  • BrownJM et al.

    The spectrum of β thalassaemia in Burma

    Progress in Clinical Biological Research

    (1989)
  • BrownPJ

    New considerations on the distribution of malaria, thalassaemia and glucose-6-phosphate dehydrogenase deficiency in Sardinia

    Human Biology

    (1981)
  • Bruce-ChwattLJ

    Paleogenesis and paleo-epidemiology of primate malaria

    Bulletin of the World Health Organization

    (1965)
  • Cavalli-SforzaLL et al.

    The Genetics of Human Populations

  • ChakravartiA et al.

    Nonuniform recombination within the human β globin gene cluster

    American Journal of Human Genetics

    (1986)
  • ChanV et al.

    Distribution of β thalassemia mutations in South China and their association with haplotypes

    American Journal of Human Genetics

    (1987)
  • ChanV et al.

    Characteristics and distribution of β thalassaemia haplotypes in South China

    Human Genetics

    (1986)
  • ChangJ-G et al.

    Molecular basis of β-thalassemia minor in Taiwan

    International Journal of Hematology

    (1994)
  • CheblouneY et al.

    Structural analysis of the 5′ flanking region of the β globin gene in African sickle cell anaemia patients: further evidence for three origins of the sickle mutation in Africa

  • ChibaniJ et al.

    The peculiar spectrum of β thalassaemia genes in Tunisia

    Human Genetics

    (1988)
  • Coutinho GomesMP et al.

    β-Thalassaemia mutations in the Portuguese population

    Human Genetics

    (1988)
  • ÇürükMA et al.

    Molecular characterization of β-thalassemia in Azerbaijan

    Human Genetics

    (1992)
  • DodeC et al.

    Analysis of crossover type in α−3.7 haplotype among sickle cell anaemia patients from various parts of Africa

    Human Genetics

    (1988)
  • EfremovGD

    Hemoglobinopathies in Yugoslavia: an update

    Hemoglobin

    (1992)
  • EmburySH et al.

    Concurrent sickle cell anemia and α thalassaemia: effect on severity of anemia

    New England Journal of Medicine

    (1982)
  • FairbanksVF et al.

    Homozygous hemoglobin E mimics β thalassaemia minor without anemia or hemolysis: hematologic, functional and biosynthetic studies of first North American cases

    American Journal of Hematology

    (1980)
  • FattoumS et al.

    β-Thalassemia, Hb S-β-thalassemia and sickle cell anemia among Tunisians

    Hemoglobin

    (1991)
  • FaustinoP et al.

    Novel promoter and splice junction defects add to the genetic, clinical or geographic heterogeneity of β-thalassaemia in the Portuguese population

    Human Genetics

    (1992)
  • FeiYJ et al.

    A search for anomalies in the ζ, α, β, and γ globin gene arrangements in normal Black, Italian, Turkish and Spanish newborns

    Hemoglobin

    (1989)
  • FicheraM et al.

    Molecular basis of α-thalassemia in Sicily

    Human Genetics

    (1997)

    • Cited by (0)

    *

    This is an updated version of the article first published in Baillière's Clinical Haematology, vol. 6, no. 1, 1993.

    View full text
    Copyright © 1998 Published by Elsevier Ltd.