Fitness Landscape of the Fission Yeast Genome

Overview

Journal Mol Biol Evol

Publisher Oxford University Press

Specialty Biology

Date 2019 May 12

PMID 31077324

Citations 9

Authors

Leanne Grech

Daniel C Jeffares

Christoph Y Sadee

Maria Rodriguez-Lopez

Danny A Bitton

Mimoza Hoti

Carolina Biagosch

Dimitra Aravani

Maarten Speekenbrink

Christopher J R Illingworth

Philipp H Schiffer

Alison L Pidoux

Pin Tong

Victor A Tallada

Robin Allshire

Henry L Levin

Jurg Bahler

Affiliations

Soon will be listed here.

Abstract

The relationship between DNA sequence, biochemical function, and molecular evolution is relatively well-described for protein-coding regions of genomes, but far less clear in noncoding regions, particularly, in eukaryote genomes. In part, this is because we lack a complete description of the essential noncoding elements in a eukaryote genome. To contribute to this challenge, we used saturating transposon mutagenesis to interrogate the Schizosaccharomyces pombe genome. We generated 31 million transposon insertions, a theoretical coverage of 2.4 insertions per genomic site. We applied a five-state hidden Markov model (HMM) to distinguish insertion-depleted regions from insertion biases. Both raw insertion-density and HMM-defined fitness estimates showed significant quantitative relationships to gene knockout fitness, genetic diversity, divergence, and expected functional regions based on transcription and gene annotations. Through several analyses, we conclude that transposon insertions produced fitness effects in 66-90% of the genome, including substantial portions of the noncoding regions. Based on the HMM, we estimate that 10% of the insertion depleted sites in the genome showed no signal of conservation between species and were weakly transcribed, demonstrating limitations of comparative genomics and transcriptomics to detect functional units. In this species, 3'- and 5'-untranslated regions were the most prominent insertion-depleted regions that were not represented in measures of constraint from comparative genomics. We conclude that the combination of transposon mutagenesis, evolutionary, and biochemical data can provide new insights into the relationship between genome function and molecular evolution.

Citing Articles

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