Insights into the ecology and evolutionary history of the bacterial genus Psychrobacter

The genus Psychrobacter presents an unusually broad range of isolation sources, ranging from the bodies of mammals to extremely cold and saline permafrost soils. In this thesis, I present my investigation of the diversity of Psychrobacter with the goal of identifying differences within the genus whi...

Full description

Bibliographic Details
Main Author: Welter, Daphne Kuha
Format: Article in Journal/Newspaper
Language:English
Published: Universität Tübingen 2021
Subjects:
Genomik , Mikrobiologie , Evolution , Ökologie , Phylogenetik
500
ecology
evolution
bacterial comparative genomics
host-microbe interactions
phylogenetics
pan-genome analysis
permafrost
Online Access:https://dx.doi.org/10.15496/publikation-56954
https://publikationen.uni-tuebingen.de/xmlui/handle/10900/115579
Description
Summary:The genus Psychrobacter presents an unusually broad range of isolation sources, ranging from the bodies of mammals to extremely cold and saline permafrost soils. In this thesis, I present my investigation of the diversity of Psychrobacter with the goal of identifying differences within the genus which may contribute to its surprising ecological distribution. I collected 85 Psychrobacter strains from diverse locations and isolation sources, and approached this problem using genomics, including phylogenomics and pan-genome analysis, as well as ancestral character estimation and analysis of protein coding sequences. I also performed extensive phenotyping, collecting growth curves in 24 different conditions in a gradient of temperature, salt, and nutritional complexity, as well as information on strain bile resistance, oxygen utilization, and for a subset of strains, ability to colonize germ-free mice. I show that Psychrobacter most likely evolved from a Moraxella-like ancestor, that is, a mesophilic pathobiont of mammals, and subsequently diverged into strains that maintain the ability to grow at high temperatures (ie 37 oC) versus those that only grow at cooler temperatures (25 oC or lower). There are some genomic and phenotypic differences amongst Psychrobacter strains based on source of isolation, but ultimately, dividing the genus by their behavior may be more useful. Overall, Psychrobacter promises to be an interesting model group for disentangling niche diversification among close relatives.

Similar Items