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In search of a cancer gene

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1 In search of a cancer gene

2 In search of a cancer gene
You will search for a gene by Pedigree Analysis Gel electrophoresis Sequencing Data Pedigree of “Valerie’s” family (3-130) Label Photo with typed figure legend and data interpretation ID “children” that carry mutation from DNA sequences

3 Hereditary versus Somatic Mutations
Germline Somatic

4 Some well known germline mutations that result in cancer are:
Li-Fraumeni Syndrome

5 What does the pedigree of a Li-Fraumeni patient look like?
A sarcoma patient is included At least two immediate relative with other cancers before the age 45 As well as multiple cancers in other family members Your lab manual provides a typical LF pedigree

6 Which gene is involved in the Li-Fraumeni syndrome?
The p53 gene F.P. Li, J.F. Freemeni, Jr.: Soft-tissue sarcomas, breast cancer and other neoplasm's: A familial syndrome? Annals of Internal Medicine, Philadelphia, October 1969, 71 (4):

7 What are some characteristics of p53?
“p” arm of chromosome 17 nuclear phosphoprotein transcription factor tumor suppressor gene “hot spots” Exons 5-8 are hot spots

8 P53 Mutations Point Mutations Mutation alters digest pattern

9 Identifying Li-Fraumeni in three ways:
Family History: leads to a pedigree Germline mutations: restriction digests, followed by gel electrophoresis Hot Spots: sequencing

10 Let’s look at these steps individually…

11 The first step will be assign a pedigree to family containing patient “Valerie”
Use the appropriate pedigree symbols as Outlined on For example: Female free of cancer Male free of cancer

12 The second step is to identify patterns of the restriction digest for patient Valerie.

13 Step 2: Restriction Digest Analysis of Patient: “Valerie”
Ladder Wild Type DNA (gold standard) Patient Peripheral Blood WBC DNA Patient Tumor DNA Patient Non-Tumor Breast Tissue

14 Step 3: Identify the “hot spot” in Valerie’s children.
Was this mutation inherited by her children? Read the sequences of the 5 films Film 1 Justin age 16 Film 2 Sheila age 14 Film 3 Robert age 10 Film 4 Angela age 8 Film 5 Anthony age 6

15 Summary: Today you will…
perform gel electrophoresis Read sequencing films Practice a pedigree for Valerie’s family

16 Points on Gel Electrophoresis
4-5 groups Each group should pick up 5 samples labeled A, B, C, D and E Load 20 ul A: Ladder B: wild type DNA “gold standard” (non-patient DNA) C: Patient Peripheral Blood DNA D Patient Tumor DNA E Patient Non-tumor Breast Tissue

17 Gel Electrophoresis Heat samples 2 min. at 65 C in water bath in floating racks Add 20 ul per well Run for volts, minutes Photograph results

18 What you hand in: Photograph with a legend and very brief explanation of the result Family pedigree Sequence of children and identify: Who has a mutation Where the mutation is (simply highlight with marker)

19

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