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<tr><th>SNP ID</th><th>Chromosome</td><td>Genomic Position</th><th>Genotype</th></th>
<tr><th>SNP ID</th><th>Chromosome</th><th>Genomic Position</th><th>Genotype</th></th></tr>
<tr><td>rs4771054</td><td>13</td><td>27562342</td><td>CC</td></tr>
<tr><td>rs4771054</td><td>13</td><td>27562342</td><td>CC</td></tr>
<tr><td>rs17626553</td><td>13</td><td>28968770</td><td>CT</td></tr>
<tr><td>rs17626553</td><td>13</td><td>28968770</td><td>CT</td></tr>

Revision as of 16:51, 22 March 2014
Author PageAuthor::William J Gibson
Exam Type ExamType::USMLE Step 1
Main Category MainCategory::Genetics
Sub Category SubCategory::General Principles
Prompt [[Prompt::A 4 year old boy in Brazil has immigrated to the United States with his family. His mother reports that the boy has begun bumping into furniture very often, and has concerns that his vision may be compromised. She shows you an image in which the pupil of his left eye has a bright reflection due to the camera flash. Upon further questioning, it is revealed that the boy’s father underwent surgery at a young age, leaving him blind in both eyes. The offending lesion is surgically removed and the tissue analyzed for molecular genetic features. Chromosome 13 displays a normal karyotype. A set of common single nucleotide polymorphisms on chromosome 13q is profiled and the resulting SNP identities are displayed below. Which of the following molecular events most likely occurred in the boy’s somatic tissues to cause his condition?

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SNP IDChromosomeGenomic PositionGenotype
rs47710541327562342CC
rs176265531328968770CT
rs27769611330101280GT
rs1444300401331085367CC
rs49417311333568060GG
rs95285331334588335CT
rs95486441339720610AA
rs93158031341623184GT
rs96347671342270305CT
rs20447321342833400AG
rs175360021343035209TT
rs116195281344826355TT
rs128664731346037501CC
rs14130771347875303AA
rs73298651349154165AA
rs8959671349347566GG
rs21912261350940143AA
rs49430031352090383GG
rs4761361353413498GG
rs105075811354154463GG
rs95916321355611511CC
rs48859621356863954AA
rs25928661358226942GG
rs14116451359052343CC
rs65620101359711493TT

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]]
Answer A AnswerA::Mutation
Answer A Explanation [[AnswerAExp::Incorrect - While a de novo mutation causing a “second hit” to the retinoblastoma gene is possible, there is no evidence that this has occured. The SNPs above clearly show recombination on chromosome 13, making loss of heterozygosity most likely.]]
Answer B AnswerB::Gene Deletion
Answer B Explanation AnswerBExp::Incorrect - While a deletion of the wild type allele of the Rb gene could cause the “second hit” to the Rb gene, the normal karyotype of chromosome 13 makes this possibility less likely.
Answer C AnswerC::Mitotic recombination
Answer C Explanation AnswerCExp::Correct - See explanation
Answer D AnswerD::Gene duplication
Answer D Explanation AnswerDExp::Incorrect - There is no evidence for duplication of the RB gene, and such a duplication would not be expected to cause a retinoblastoma tumor.
Answer E AnswerE::Methylation
Answer E Explanation [[AnswerEExp::Incorrect - While methylation is responsible for silencing genes, methylation is most associated with Prader-Willi syndrome and Angelman syndrome. There is no evidence for gene methylation in this question, but there is clear evidence of mitotic recombination leading to loss of heterozygosity.]]
Right Answer RightAnswer::C
Explanation [[Explanation::The patient in this vignette has familial retinoblastoma, a rapidly developing cancer that develops from the immature cells of a retina, caused by defects in the Retinoblastoma gene on chromosome 13. Children often have germline mutations in the retinoblastoma protein which can be passed down to descendents. The retinoblastoma protein functions as a tumor suppressor, and therefore the sole germline mutation acts as a recessive trait at the cellular level. A “second hit” which alters the remaining wildtype allele in somatic tissues is required for the initiation of tumorigenesis. In this case, we have clear evidence of mitotic recombination in which the maternal chromosome 13 has been replaced by the paternal alleles after rs111033222. Thus, the cell which inherits both paternal alleles has no wildtype retinoblastoma protein and will go on to form a tumor. Familial retinoblastoma functions as an autosomal dominant trait, as the probability of a second hit in somatic tissues is certain due to the number of cells in the developing retina. Patients with familial retinoblastoma have an increased risk of other tumors such as osteosarcomas.

References: First Aid page 87, 253.
Educational Objective:
References: ]]

Approved Approved::Yes
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