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Head of the Class
May 15, 2013

USC valedictorian Katherine Fu and salutatorians Alexander Fullman and Julia Sabo Mangione — all in USC Dornsife — will…

The Fabulous Fulbrights
May 10, 2013

Congratulations to the ten USC Dornsife students who were awarded 2013 Fulbright Scholarships. The award will take them to…

Preventing Another Darfur
April 23, 2013

For the 13th consecutive year, professor Steven Lamy, vice dean for academic programs in USC Dornsife, led the Center for…

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Wall of Scholars
May 21, 2013

The names of top USC Dornsife students will adorn the wall of Leavey Library in an honor celebrating university-wide students…

Catholic Studies Institute Receives $1 Million
May 21, 2013

The gift creates the Steven and Kathryn Sample Endowment for Ecumenism to support research centered on the foundational…

Scientist and Filmmaker
May 17, 2013

Howard Wayne Harris proves his 9th grade teacher wrong. Earning his Ph.D. at the USC Dornsife hooding ceremony May 16, he was…

You Did It!
May 17, 2013

USC Dornsife issued more than 2,500 degrees during Commencement 2013: 1,959 bachelor’s, 326 master's, 81 graduate…

Amazing Adventures in Undergrad Research
May 15, 2013

USC Dornsife students win top prizes at the 15th Annual Undergraduate Symposium for Scholarly and Creative Work. In…

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Norman Arnheim

Distinguished Professor of Biological Sciences, Molecular Biology and Biochemistry, and Ester Dornsife Chair in Biological Sciences

Contact Information
E-mail: arnheim@usc.edu
Phone: (213) 740-7675
Office: RRI 319C

 

Education
Ph.D. Genetics, University of California, Berkeley, 1/1965
M.S. Biology, University of Rochester, 1/1962
B.A. Biology, University of Rochester, 1/1960
 

Description of Research

Summary Statement of Research Interests
A major interest of our lab is mutation in the human germline. We are using single molecule PCR analysis to study the patterns of mutational change that occur at human disease loci. Our studies on human mutation focus on loci that exhibit the paternal age effect. An example is the locus that codes for the FGFR3 protein. Mutations in this protein cause achondroplasia, the most common form of dwarfism. We are also studying Apert syndrome due to mutations in the FGFR2 gene. It has been known for a long time that older men are more likely to have children with these mutations. The basic premise of the paternal age effect is that as men age, they produce more sperm carrying a de novo mutation. Attempts to use sperm DNA to test this assumption were made for the first time only within the last few years. We are interested in two major features of the paternal age effect; 1) the reason for the fact that mutations that exhibit the paternal age effect occur only in males and 2) why the mutation frequency is 100-1000 times greater for these mutations than the average nucleotide site. We are focusing on the role that germline selection may play in increasing the frequency of these genetic conditions beyond the level of mutation events that give rise to a nucleotide substitution.
 

Research Specialties
Aging and Development Biology, Biochemistry, Molecular Biology
 

Affiliations with Research Centers, Labs, and Other Institutions
Department of Biological Sciences,http://www.usc.edu/dept/LAS/biosci/
 

Honors and Awards
American Association for the Advancement of Science Fellow, Fellow, 12/1/2012-  
USC Endowed Chair, Ester Dornsife Chair in Biological Sciences, 1998-5/15/2013  
USC Distinguished Professor, Distinguished Professor of Biological Sciences, Molecular Biology, and Biochemistry, 2001  
 
 
Faculty may update their profile by visiting https://mydornsife.usc.edu.