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Laura
F. Landweber | How do cells and nature "compute"? They read and
"rewrite" DNA all the time, by processes that modify sequence
at the DNA or RNA level. My laboratory combines three approaches—comparative
sequence analysis, functional in vitro selection experiments, and computational
biology—to study early molecular evolution and the origin of biological
information processing. DNA sequence analysis provides us with insight into the mechanisms of selection and evolution at the level of the gene. The discovery of catalytic RNA, furthermore, has led to advances in the study of the origin of life, and suggests that there are other "molecular fossils," or primitive biological mechanisms, still present in modern species. Protozoa, in particular, have surprised molecular biologists with a bewildering diversity of gene organization, from "scrambled genes" in ciliates to bizarre forms of RNA processing, including splicing and editing. Therefore, they seem to be the natural place to look for primitive or aberrant systems. For additional information on my research please visit following site http://www.princeton.edu/~lfl/research.htm |
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| Tel 609.258.1947 Fax 609.258.7892 Email: lfl 'at' princeton [dot] edu |
Curriculum
Vitae (pdf) | Teaching | Publications | Research Summary (pdf) | Activities: Landweber Lab | Molecular Biology | |
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© 2007 The Trustees of Princeton University Web page feedback: amyb 'at' Princeton [dot] edu | Last update: October 30, 2007 |
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