RESTAMP – Rate estimates by sequence-tag analysis of microbial populations
Permanent link
https://hdl.handle.net/10037/23846Date
2021-01-19Type
Journal articleTidsskriftartikkel
Peer reviewed
Author
Mahmutovic, Anel; Gillman, Aaron Nicholas; Lauksund, Silje; Robson Moe, Natasha-Anne; Manzi, Aimé; Storflor, Merete; Abel-Zur Wiesch Genannt Hülsho, Pia Karoline; Abel, SörenAbstract
In this work, we introduce RESTAMP (Rate Estimates by Sequence Tag Analysis of Microbial Populations) as a method for determining bacterial division and death rates. This method uses hundreds of fitness neutral sequence barcodes to measure the rates and account for experimental bottlenecks at the same time. We experimentally validate RESTAMP and compare it to established plasmid loss methods.
We find that RESTAMP has a number of advantages over plasmid loss or previous marker based techniques. (i) It enables to correct the distortion of rate estimates by technical bottlenecks. (ii) Rate estimates are independent of the sequence tag distribution in the starting culture allowing the use of an arbitrary number of tags. (iii) It introduces a bottleneck sensitivity measure that can be used to maximize the accuracy of the experiment.
RESTAMP allows studying microbial population dynamics with great resolution over a wide dynamic range and can thus advance our understanding of host-pathogen interactions or the mechanisms of antibiotic action.