Topic 3.1: Genes Flashcards
Gene
A heritable factor that consists of a sequence of DNA and influences a specific trait
Locus
The position of a gene on a particular chromosome
Alleles
Alternative forms of a gene that code for the different variations of a specific trait
How do alleles of the same gene differ from each other?
By one or a few bases
How may new alleles be formed?
As a result of gene mutations
Gene mutation
A change in the nucleotide sequence of a section of DNA coding for a specific trait
Types of consequences of a gene mutation
a) Beneficial (Missense)
b) Detrimental (Nonsense)
c) Neutral (Silent)
Beneficial mutations
Create new variations of a trait
Detrimental mutations
Truncate the gene sequence to abrogate the normal function of a trait
Neutral mutations
Have no effect on the functioning of the specific feature
Cause of Sickle Cell Anemia
a) Base substitution: GAG → GUG (6th codon: hemoglobin beta)
b) Amino acid change: Glutamic acid → Valine (Glu → Val)
Consequences of Sickle Cell Anemia
a) Alters hemoglobin structure (forms insoluble strands)
b) Cannot transport oxygen effectively (causing fatigue)
c) Red blood cells adopt a sickle shape (may form clots)
d) Sickle cells are destroyed at a higher rate (causes anemia)
Heterozygous Advantage of Sickle Cell Anemia
Sickle cell anemia is a codominant trait and heterozygous individuals demonstrate an increased resistance to malaria
Genome
The totality of the genetic information in an organism (Genes / Non-coding sequences)
Human Genome
46 chromosomes
~3 billion base pairs
~21,000 genes
