Transcript Slide 1

c-kit and the D816V Mutation
The nucleus of the human cell contains 46 strings of DNA, called
CHROMOSOMES, arranged in 23 pairs.
Each chromosome actually consists of a number of smaller portions,
rather like a string of beads. Each of these small units is called a
GENE. There may be many thousands of GENES on each
chromosome.
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The DNA of the gene consists of a sequence of chemicals or nucleotides
comprising either:
Adenine (A)
Cytosine (C)
Guanine (G)
or Thymine (T)
Adenine on one of the helix
backbones of the DNA bonds or
sticks to Thymine on the other,
and Guanine bonds to Cytosine.
These are called ‘base pairs’.
Each gene is composed of
between about 1000 and
1,000,000 base pairs.
The genetic code as discovered by Watson and Crick in the 1950’s
showed that a sequence of three nucleotides codes one amino acid.
Thus, GAC codes the amino acid Aspartic acid (given code letter D), and
GTC codes the amino acid Valine (given code letter V) .
When the gene is activated the DNA sequence is translated via
messenger RNA into a string of amino acids. Proteins like the Tyrosine
Kinase enzymes are made of these amino acid strings.
The c-kit gene is located on the long arm of Chromosome 4 – called the
q arm.
This shows the normal c-kit DNA sequence for chromosome 4 at about
the 816th. nucleotide from the beginning.
Normal
In this diagram the T (Thymine) at position 816 has been swapped for
an A (Adenine) i.e. a mutation has taken place.
This means that the triplet now reads GTC rather than GAC.
GAC codes for Aspartic acid (D) and GTC codes for Valine (V)
position 816
Normal
Mutated
Hence the correct notation for his mutation is D816V, showing that a
point mutation at 816 resulted in a change of Amino acid from D to V.
A different Amino acid is now present in the mutated enzyme – with dire
consequences.
Normal
Mutated
Val