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2. Sickle cell trait - Wikipedia

   en.wikipedia.org/wiki/Sickle_cell_trait

   Hematology. Sickle cell trait describes a condition in which a person has one abnormal allele of the hemoglobin beta gene (is heterozygous ), but does not display the severe symptoms of sickle cell disease that occur in a person who has two copies of that allele (is homozygous ). Those who are heterozygous for the sickle cell allele produce ...

3. Sickle cell disease - Wikipedia

   en.wikipedia.org/wiki/Sickle_cell_disease

   The types of haemoglobin a person makes in the red blood cells depend on what haemoglobin genes are inherited from her or his parents. If one parent has sickle cell anaemia and the other has sickle cell trait, then any given child has a 50% chance of having sickle cell disease and a 50% chance of having sickle cell trait.

4. Sickle Cell Anemia, a Molecular Disease - Wikipedia

   en.wikipedia.org/wiki/Sickle_Cell_Anemia,_a...

   The molecular disease concept put forward in the 1949 paper also became the basis for Linus Pauling's view of evolution. In the 1960s, by which time it had been shown that sickle cell trait confers resistance to malaria and so the gene had both positive and negative effects and demonstrated heterozygote advantage, Pauling suggested that ...

5. Heterozygote advantage - Wikipedia

   en.wikipedia.org/wiki/Heterozygote_advantage

   Sickle-cell anemia. Sickle-cell anemia (SCA) is a genetic disorder caused by the presence of two incompletely recessive alleles. When a sufferer's red blood cells are exposed to low-oxygen conditions, the cells lose their healthy round shape and become sickle-shaped. This deformation of the cells can cause them to become lodged in capillaries ...

6. Mendelian traits in humans - Wikipedia

   en.wikipedia.org/wiki/Mendelian_traits_in_humans

   Mendelian traits in humans. A 50/50 chance of inheritance. Sickle-cell disease is inherited in the autosomal recessive pattern. When both parents have sickle-cell trait (carrier), a child has a 25% chance of sickle-cell disease (red icon), 25% do not carry any sickle-cell alleles (blue icon), and 50% have the heterozygous (carrier) condition. [1]

7. Pleiotropy - Wikipedia

   en.wikipedia.org/wiki/Pleiotropy

   Sickle cell anemia is a classic example of the mixed benefit given by the staying power of pleiotropic genes, as the mutation to Hb-S provides the fitness benefit of malaria resistance to heterozygotes as sickle cell trait, while homozygotes have significantly lowered life expectancy—what is known as "heterozygote advantage". Since both of ...