The table in this problem summarizes some of the data that have been collected on BRCA1 mutations in families with a high incidence of both early-onset breast cancer and ovarian cancer.
Predisposing Mutations in BRCA1
Kindred | Codon | Nucleotide Change | Coding Effect | Frequency in Control Chromosomes |
1901 | 24 | – 11 bp | Frameshift or splice | 0/180 |
2082 | 1313 | C → T | Gln → Stop | 0/170 |
1910 | 1756 | Extra C | Frameshift | 0/162 |
2099 | 1775 | T → G | Met → Arg | 0/120 |
2035 | NA* | ? | Loss of transcript | NA* |
Source: 1994. Science 266: 66-71. © AAAS.
*NA indicates not applicable, as the regulatory mutation is inferred, and the position has not been identified.
(a) Note the coding effect of the mutation found in kindred group 2082. This results from a single base-pair substitution. Draw the normal double-stranded DNA sequence for this codon (with the 5ʹ and 3ʹ ends labeled), and show the sequence of events that generated this mutation, assuming that it resulted from an uncorrected mismatch event during DNA replication.
(b) Examine the types of mutations that are listed in the table and determine if the BRCA1 gene is likely to be a tumor-suppressor gene or an oncogene.
(c) Although the mutations listed in the table are clearly deleterious and cause breast cancer in women at very young ages, each of the kindred groups had at least one woman who carried the mutation but lived until age 80 without developing cancer. Name at least two different mechanisms (or variables) that could underlie variation in the expression of a mutant phenotype and propose an explanation for the incomplete penetrance of this mutation. How do these mechanisms or variables relate to this explanation?
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