Our Faculty

Seppe Kuehn, PhD

Genomic structure predicts metabolite dynamics in microbial communities.
Gowda K, Ping D, Mani M, Kuehn S. Genomic structure predicts metabolite dynamics in microbial communities. Cell. 2022 02 03; 185(3):530-546.e25.
PMID: 35085485

An ensemble approach to the structure-function problem in microbial communities.
Gopalakrishnappa C, Gowda K, Prabhakara KH, Kuehn S. An ensemble approach to the structure-function problem in microbial communities. iScience. 2022 Feb 18; 25(2):103761.
PMID: 35141504

Evolution of Generalists by Phenotypic Plasticity.
Fraebel DT, Gowda K, Mani M, Kuehn S. Evolution of Generalists by Phenotypic Plasticity. iScience. 2020 Nov 20; 23(11):101678.
PMID: 33163936

Hitchhiking, collapse, and contingency in phage infections of migrating bacterial populations.
Ping D, Wang T, Fraebel DT, Maslov S, Sneppen K, Kuehn S. Hitchhiking, collapse, and contingency in phage infections of migrating bacterial populations. ISME J. 2020 08; 14(8):2007-2018.
PMID: 32358533

Higher-Order Interaction between Species Inhibits Bacterial Invasion of a Phototroph-Predator Microbial Community.
Mickalide H, Kuehn S. Higher-Order Interaction between Species Inhibits Bacterial Invasion of a Phototroph-Predator Microbial Community. Cell Syst. 2019 12 18; 9(6):521-533.e10.
PMID: 31838145

Biophysical constraints determine the selection of phenotypic fluctuations during directed evolution.
Shih HY, Mickalide H, Fraebel DT, Goldenfeld N, Kuehn S. Biophysical constraints determine the selection of phenotypic fluctuations during directed evolution. Phys Biol. 2018 07 27; 15(6):065003.
PMID: 29762139

Quantitative high-throughput population dynamics in continuous-culture by automated microscopy.
Merritt J, Kuehn S. Quantitative high-throughput population dynamics in continuous-culture by automated microscopy. Sci Rep. 2016 09 12; 6:33173.
PMID: 27616752