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Low-cost camera-based estrous tracking enables transgenesis inPeromyscus leucopus, the primary reservoir for Lyme disease

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Buchthal, J; Chory, E; Hill, Z; Dennison, C; Tu, B; Wierenga, R; Çevrim, Ç; Golas, S; Telford, S; McKinley, K; Jaenisch, R; Markoulaki, S; Esvelt, K
2023

Duke Scholars

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2023
 

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Buchthal, J., Chory, E., Hill, Z., Dennison, C., Tu, B., Wierenga, R., … Esvelt, K. (2023). Low-cost camera-based estrous tracking enables transgenesis inPeromyscus leucopus, the primary reservoir for Lyme disease. bioRxiv. https://doi.org/10.1101/2023.10.20.563285
Buchthal, Joanna, Emma Chory, Zachary Hill, Christy Dennison, Boqiang Tu, Rick Wierenga, Çağrı Çevrim, et al. “Low-cost camera-based estrous tracking enables transgenesis inPeromyscus leucopus, the primary reservoir for Lyme disease.” BioRxiv, 2023. https://doi.org/10.1101/2023.10.20.563285.
Buchthal J, Chory E, Hill Z, Dennison C, Tu B, Wierenga R, et al. Low-cost camera-based estrous tracking enables transgenesis inPeromyscus leucopus, the primary reservoir for Lyme disease. bioRxiv. 2023.
Buchthal, Joanna, et al. “Low-cost camera-based estrous tracking enables transgenesis inPeromyscus leucopus, the primary reservoir for Lyme disease.” BioRxiv, 2023. Epmc, doi:10.1101/2023.10.20.563285.
Buchthal J, Chory E, Hill Z, Dennison C, Tu B, Wierenga R, Çevrim Ç, Golas S, Telford S, McKinley K, Jaenisch R, Markoulaki S, Esvelt K. Low-cost camera-based estrous tracking enables transgenesis inPeromyscus leucopus, the primary reservoir for Lyme disease. bioRxiv. 2023.

DOI

Publication Date

2023