Extended Data for Dolan, et al. "Principles of Dengue virus evolvability derived from
 genotype-fitness maps in human and mosquito cells"

Dolan, Patrick; Frydman, Judith; Andino, Raul; Taguwa, Shuhei; Aguilar Rangel, Mauricio

Extended Data for Dolan, et al. "Principles of Dengue virus evolvability derived from genotype-fitness maps in human and mosquito cells"

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Abstract/Contents

Abstract: Dengue virus (DENV), an arbovirus infecting over 100 million annually, cycles between human and mosquito hosts. Examining how DENV adapts to such different host environments could uncover principles of arbovirus transmission and emergence. Here we combine sequential passaging and ultra-deep sequencing to examine the sequence dynamics and fitness changes of DENV populations adapting to human and mosquito cells, identifying the contributions of beneficial and deleterious mutations in shaping the fitness landscape driving host-specific paths of viral adaptation. We find DENV phenotypic adaptation is best described by the collective fitness contributions of all the alleles present in the population. Accordingly, while increased fitness during adaptation to each host is driven by host-specific beneficial mutations, it is reduced by the consistently replenished genetic load of deleterious mutations. Of note, host-specific beneficial mutations are in discrete regions across the genome, revealing molecular mechanisms of adaptation. Some of these clusters comprise phenotypically redundant mutations that may provide evolutionary robustness to transmission bottlenecks. Our results also suggest DENV adaptation is facilitated through variation in intrinsically disordered protein regions while variation in transmembrane and structured domains evolve under stronger biophysical constraints. Importantly, the adaptation strategies uncovered in our simple system mirror macro-evolutionary changes observed across DENV serotypes and Zika virus and may suggest general principles of evolvability in arbovirus evolution.

Description

Type of resource	software, multimedia
Date created	2020

Creators/Contributors

Author	Dolan, Patrick
Author	Frydman, Judith
Author	Andino, Raul
Author	Taguwa, Shuhei
Author	Aguilar Rangel, Mauricio

Subjects

Subject	Virus
Subject	Dengue
Subject	Evolution
Subject	Disease
Subject	Sequencing
Genre	Dataset

Bibliographic information

Related Publication	Dolan, PT and Taguwa, S and Aguilar Rangel, M and Acevedo, A and Hagai, T and Andino, R and Frydman, J. (2020). Principles of dengue virus evolvability derived from genotype-fitness maps in human and mosquito cells. https://doi.org/10.1101/2020.02.05.936195
Location	https://purl.stanford.edu/gv159td5450

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License: This work is licensed under a Creative Commons Attribution 3.0 Unported license (CC BY).

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Contact: jfrydman@stanford.edu

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