Wei-Chin Ho — Researcher Profile

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Kurumsal Başvuru Sign in Get started

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Kurumsal Başvuru

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The last 5 uploaded publications

Consideration of a Liquid Mutation-Accumulation Experiment to Measure Mutation Rates by Successive Serial Dilution
Stephan Baehr, Wei-Chin Ho, Sam Perez, Alyssa Cenzano, Katelyn P. Hancock, Lea Patrick, Adalyn Brown, Sam Miller, Michael E Lynch (2025). Consideration of a Liquid Mutation-Accumulation Experiment to Measure Mutation Rates by Successive Serial Dilution. , 17(4), DOI: https://doi.org/10.1093/gbe/evaf049.
Article
44 days ago
Trade-offs, trade-ups, and high mutational parallelism underlie microbial adaptation during extreme cycles of feast and famine
Megan G. Behringer, Wei-Chin Ho, Samuel F. Miller, Sarah B. Worthan, Zeer Cen, Ryan Stikeleather, Michael E Lynch (2024). Trade-offs, trade-ups, and high mutational parallelism underlie microbial adaptation during extreme cycles of feast and famine. , 34(7), DOI: https://doi.org/10.1016/j.cub.2024.02.040.
Article
44 days ago
Trade-offs, trade-ups, and high mutational parallelism underlie microbial adaptation to extreme feast/famine
Megan G. Behringer, Wei-Chin Ho, Samuel F. Miller, Sarah B. Worthan, Zeer Cen, Ryan Stikeleather, Michael E Lynch (2023). Trade-offs, trade-ups, and high mutational parallelism underlie microbial adaptation to extreme feast/famine. , DOI: https://doi.org/10.1101/2023.10.04.560893.
Preprint
44 days ago
Evolutionary Response to Resource Deprivation: Parallelism and Nonmonotonicity
Megan G. Behringer, Wei-Chin Ho, Samuel F. Miller, John C. Meraz, Gwyneth F. Boyer, Michael E Lynch (2019). Evolutionary Response to Resource Deprivation: Parallelism and Nonmonotonicity. , DOI: https://doi.org/10.1101/865584.
Preprint
44 days ago
Trade-Offs, Trade-Ups, and High Mutational Parallelism Underlie Microbial Adaptation to Extreme Feast/Famine
Megan G. Behringer, Wei-Chin Ho, Samuel F. Miller, Sarah B. Worthan, Zeer Cen, Ryan Stikeleather, Michael E Lynch (2023). Trade-Offs, Trade-Ups, and High Mutational Parallelism Underlie Microbial Adaptation to Extreme Feast/Famine. , DOI: https://doi.org/10.2139/ssrn.4597262.
Preprint
44 days ago