Some Statistical and Dynamical Models for the Analysis of Mcrobial Ecosystems and their Genomic Data

Autor: Muthiah, Senthilkumar
Jazyk: angličtina
Rok vydání: 2019
Předmět:
DOI: 10.13016/wfwl-uajj
Popis: Embedded within their genetic makeup and ecology, microbes harbor unparalleled stories on natural selection, evolution and biomedicine. In modern biology, such stories are elucidated through rigorous interrogation of microbial ecosystems with a variety of theoretic and experimental techniques. These range from abstract, isolated mathematical models to high-resolution sequencing technologies that probe every single nucleotide of a cell's DNA. It is clear that inferences thus obtained are markedly sensitive to the unforeseen technical variability introduced during an experiment, and are limited by the tractability and robustness of the models in generating sound hypotheses. We have developed statistical and computational tools to advance statistical inference for microbial genomics by overcoming a subset of technical biases, and have explored certain interesting cases of microbial interactions and their evolution by developing tractable mathematical models. Compositional bias induced by the sequencing machine. A DNA sequencing machine produces only percentage measurements (fraction molecules of a given type) of the DNA molecules in its input. When contrasting measurements from different inputs, one therefore obtains confounded inferences on absolute concentrations (molecules per unit volume). We theoretically analyze this compositional bias problem with significant generality, and exploit it to develop an empirical Bayes approach to solve it under certain assumptions with particular emphasis on microbial sequencing technologies. Suicidal attributes of prokaryotic adaptive immunity. The recently discovered CRISPR systems provide the first examples of bacterial and archaeal adaptive immune systems operating against invading viruses over ecological time scales. Equally surprising as their adaptive nature, is their ability to induce high rates of host autoimmunity. We theoretically analyze the ecological and evolutionary dynamics of such a costly defense mechanism in simplified models of prokaryote-phage coevolution. We show that by allowing for regulated post-infection activation, CRISPRs can function by exploiting a dual defense strategy of abortive infection and anti-viral resistance. Additional statistical and analytic extensions for some related questions on clustering and multi-resolution analysis also appear.
Databáze: OpenAIRE