A functional enrichment test for molecular convergent evolution finds a clear protein-coding signal in echolocating bats and whales

Marcovitz, Amir; Turakhia, Yatish; Chen, Heidi I.; Gloudemans, Michael J.; Braun, Benjamin; Wang, Haoqing; Bejerano, Gill

doi:10.1073/pnas.1818532116

Cited by 41 publications

(32 citation statements)

References 72 publications

(61 reference statements)

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“…Cetaceans have many unique biological characteristics, including echolocation, deep diving, and large variation in body size. The molecular basis of echolocation has been well studied previously ( 32 – 34 ). However, based on more comprehensive data, we systematically reanalyzed the 504 hearing-related gene sequences in 40 species, including two groups of echolocating bats (group M: big brown bat, Natal long-fingered bat, Brandt’s bat, and little brown bat and group G: greater horseshoe bat) and 16 toothed whales (group T) ( SI Appendix , Fig.…”

Section: Resultsmentioning

confidence: 99%

Comparative genomics provides insights into the aquatic adaptations of mammals

Yuan

Zhang

et al. 2021

Proc. Natl. Acad. Sci. U.S.A.

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The ancestors of marine mammals once roamed the land and independently committed to an aquatic lifestyle. These macroevolutionary transitions have intrigued scientists for centuries. Here, we generated high-quality genome assemblies of 17 marine mammals (11 cetaceans and six pinnipeds), including eight assemblies at the chromosome level. Incorporating previously published data, we reconstructed the marine mammal phylogeny and population histories and identified numerous idiosyncratic and convergent genomic variations that possibly contributed to the transition from land to water in marine mammal lineages. Genes associated with the formation of blubber (NFIA), vascular development (SEMA3E), and heat production by brown adipose tissue (UCP1) had unique changes that may contribute to marine mammal thermoregulation. We also observed many lineage-specific changes in the marine mammals, including genes associated with deep diving and navigation. Our study advances understanding of the timing, pattern, and molecular changes associated with the evolution of mammalian lineages adapting to aquatic life.

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Section: Resultsmentioning

confidence: 99%

Comparative genomics provides insights into the aquatic adaptations of mammals

Yuan

Zhang

et al. 2021

Proc. Natl. Acad. Sci. U.S.A.

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“…In each species, for every gene to which an orthologous chain was assigned, we used the alignments derived from the chain to determine the orthologous amino acid sequence for every transcript of that gene. Because exon boundaries sometimes shift for evolutionary or alignment reasons, we excluded the first and last two amino acid positions in each exon for all downstream analyses ( 23 ). Gaps in chain alignments found in regions containing an assembly gap in the query species were masked out to avoid confusing them with true deletions in the query genome.…”

Section: Methodsmentioning

confidence: 99%

A fully-automated method discovers loss of mouse-lethal and human-monogenic disease genes in 58 mammals

Turakhia

Chen

Marcovitz

et al. 2020

Nucleic Acids Research

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Abstract Gene losses provide an insightful route for studying the morphological and physiological adaptations of species, but their discovery is challenging. Existing genome annotation tools focus on annotating intact genes and do not attempt to distinguish nonfunctional genes from genes missing annotation due to sequencing and assembly artifacts. Previous attempts to annotate gene losses have required significant manual curation, which hampers their scalability for the ever-increasing deluge of newly sequenced genomes. Using extreme sequence erosion (amino acid deletions and substitutions) and sister species support as an unambiguous signature of loss, we developed an automated approach for detecting high-confidence gene loss events across a species tree. Our approach relies solely on gene annotation in a single reference genome, raw assemblies for the remaining species to analyze, and the associated phylogenetic tree for all organisms involved. Using human as reference, we discovered over 400 unique human ortholog erosion events across 58 mammals. This includes dozens of clade-specific losses of genes that result in early mouse lethality or are associated with severe human congenital diseases. Our discoveries yield intriguing potential for translational medical genetics and evolutionary biology, and our approach is readily applicable to large-scale genome sequencing efforts across the tree of life.

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“…This low probability makes parallel genetic changes strong candidates for association with specific phenotypes when they occur in lineages with independently-derived character changes [44]. Importantly, while the number of convergent substitutions across species with convergently evolved traits is frequently similar to control comparisons lacking known trait convergence [45,46], a recent analysis of multiple instances of molecular convergences in mammals indicates that convergent amino acid substitutions are not randomly distributed in the genome and are likely associated with genes related to key phenotypic traits [47]. Regardless of frequency, parallel amino acid changes are thus compelling candidates for functional association with convergent evolutionary traits.…”

Section: Convergence Developmental Constraint and Evolution Of A Flymentioning

confidence: 99%

Novel regulators of growth identified in the evolution of fin proportion in flying fish

Blum

Lanni

et al. 2021

Preprint

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Identifying the genetic foundations of trait variation and evolution is challenging as it is often difficult to parse meaningful signals from confounding signatures such as drift and epistasis. However, identification of the genetic loci underlying morphological and physiological traits can be honed through the use of comparative and complementary genetic approaches, whereby shared sets of genes that are repeatedly implicated across large evolutionary time periods as under selection can illuminate important pathways and epistatic relationships that function as novel regulators of trait development. Here we intersect comparative genomic analyses with unbiased mutagenesis screens in distantly related species to define the control of proportional growth, as changes in the size and relative proportions of tissues underlie a large degree of the variant forms seen in nature. Through a phylogenomic analysis of genome-wide variation in 35 species of flying fishes and relatives, we identify genetic signatures in both coding and regulatory regions underlying the convergent evolution of increased paired fin size and aerial gliding behaviors, key innovations for flying fishes and flying halfbeaks. To refine our analysis, we intersected convergent phylogenomic signatures with mutants identified in distantly related zebrafish with altered fin size. Through these paired approaches, we identify a surprising role for an L-type amino acid transporter, lat4a, and the potassium channel, kcnh2a, in the regulation of fin proportion. We show that specific epistatic interaction between these genetic loci in zebrafish closely phenocopies the observed fin proportions of flying fishes. The congruence of experimental and phylogenomic findings point to a conserved, non-canonical signaling interaction that integrates bioelectric cues and amino acid transport in the establishment of relative size in development and evolution.

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A functional enrichment test for molecular convergent evolution finds a clear protein-coding signal in echolocating bats and whales

Cited by 41 publications

References 72 publications

Comparative genomics provides insights into the aquatic adaptations of mammals

Comparative genomics provides insights into the aquatic adaptations of mammals

A fully-automated method discovers loss of mouse-lethal and human-monogenic disease genes in 58 mammals

Novel regulators of growth identified in the evolution of fin proportion in flying fish

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