Standout Papers

Preservation of Duplicate Genes by Complementary, Degenerative Mutations 1994 2026 2004 2015 2.8k
  1. Preservation of Duplicate Genes by Complementary, Degenerative Mutations (1999)
    Allan Force, Michael Lynch et al. Genetics
  2. Analysis of population genetic structure with RAPD markers (1994)
    Michael Lynch, Brook G. Milligan Molecular Ecology
  3. The Probability of Duplicate Gene Preservation by Subfunctionalization (2000)
    Michael Lynch, Allan Force Genetics
  4. The Origins of Genome Complexity (2003)
    Michael Lynch, John S. Conery Science
  5. Estimation of Pairwise Relatedness With Molecular Markers (1999)
    Michael Lynch, Kermit Ritland Genetics
  6. The Rate and Molecular Spectrum of Spontaneous Mutations in Arabidopsis thaliana (2009)
    Stephan Ossowski, Korbinian Schneeberger et al. Science
  7. Mutation Accumulation and the Extinction of Small Populations (1995)
    Michael Lynch, John S. Conery et al. The American Naturalist
  8. Mapping of DNA Instability at the Fragile X to a Trinucleotide Repeat Sequence P(CCG) n (1991)
    Eric J. Kremer, Melanie Pritchard et al. Science
  9. Evolution of the mutation rate (2010)
    Michael Lynch Trends in Genetics
  10. Fragile X Genotype Characterized by an Unstable Region of DNA (1991)
    Shuancang Yu, Melanie Pritchard et al. Science
  11. The growing burden of foodborne outbreaks due to contaminated fresh produce: risks and opportunities (2009)
    Michael Lynch, Robert V. Tauxe et al. Epidemiology and Infection
  12. THE GENETIC INTERPRETATION OF INBREEDING DEPRESSION AND OUTBREEDING DEPRESSION (1991)
    Michael Lynch Evolution
  13. Destabilizing Hybridization, General-Purpose Genotypes and Geographic Parthenogenesis (1984)
    Michael Lynch The Quarterly Review of Biology
  14. The similarity index and DNA fingerprinting. (1990)
    Michael Lynch Molecular Biology and Evolution
  15. A genome-wide view of the spectrum of spontaneous mutations in yeast (2008)
    Michael Lynch, Way Sung et al. Proceedings of the National Academy of Sciences
  16. Genetic drift, selection and the evolution of the mutation rate (2016)
    Michael Lynch, Matthew S. Ackerman et al. Nature Reviews Genetics

Immediate Impact

7 by Nobel laureates 48 from Science/Nature 80 standout
Sub-graph 1 of 18

Citing Papers

Establishing a synthetic orthogonal replication system enables accelerated evolution in E. coli
2024 StandoutScience
Evolution of the germline mutation rate across vertebrates
2023 StandoutNature
22 intermediate papers

Works of Michael Lynch being referenced

Genetic drift, selection and the evolution of the mutation rate
2016 Standout
Evolution of the mutation rate
2010 Standout
and 31 more

Author Peers

Author Last Decade Papers Cites
Michael Lynch 21745 18208 7302 8489 417 41.4k
Makoto Kimura 27330 27009 12260 10962 345 62.6k
Montgomery Slatkin 24164 8548 9320 5673 226 38.2k
Marc A. Suchard 16556 18333 12246 10589 292 62.7k
Peter Donnelly 34463 17192 7985 10976 202 59.7k
Keith A. Crandall 20391 16493 18691 8717 352 55.1k
Jonathan K. Pritchard 46668 24339 11335 15362 179 75.6k
Brian Charlesworth 27177 13719 5193 12490 409 42.7k
Masatoshi Nei 41412 25126 14800 20991 194 79.6k
David Posada 18070 18451 14939 12106 157 55.0k
Rasmus Nielsen 23251 17551 6839 6662 283 42.5k

All Works

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2026