Resurrecting ancestral structural dynamics of an antiviral immune receptor: adaptive binding pocket reorganization repeatedly shifts RNA preference

Pugh, Charles; Kolaczkowski, Oralia; Manny, Austin R.; Korithoski, Bryan; Kolaczkowski, Bryan

doi:10.1186/s12862-016-0818-6

Cited by 7 publications

(5 citation statements)

References 150 publications

(159 reference statements)

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“…Characterizing how protein function evolves over long timespans can inform our understanding of the structural basis for functional differentiation and impact the development of evolutionary theory ( Lunzer et al 2005 ; Dean and Thornton 2007 ; Bridgham et al 2008 ; Hobbs et al 2012 ). Mechanistic studies of functional evolution have demonstrated how historical changes in protein sequence can alter molecular structure, resulting in qualitative and quantitative shifts in ligand preference ( Bridgham et al 2009 , 2014 ; Kratzer et al 2014 ; Pugh et al 2016 ). However, deriving generalizable information about the evolution of sequence-structure-function requires characterizing a large number of diverse protein families interacting with a variety of ligands.…”

Section: Introductionmentioning

confidence: 99%

Increased Affinity for RNA Targets Evolved Early in Animal and Plant Dicer Lineages through Different Structural Mechanisms

Jia

Kolaczkowski

Rolland

et al. 2017

Molecular Biology and Evolution

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Understanding the structural basis for evolutionary changes in protein function is central to molecular evolutionary biology and can help determine the extent to which functional convergence occurs through similar or different structural mechanisms. Here, we combine ancestral sequence reconstruction with functional characterization and structural modeling to directly examine the evolution of sequence-structure-function across the early differentiation of animal and plant Dicer/DCL proteins, which perform the first molecular step in RNA interference by identifying target RNAs and processing them into short interfering products. We found that ancestral Dicer/DCL proteins evolved similar increases in RNA target affinities as they diverged independently in animal and plant lineages. In both cases, increases in RNA target affinities were associated with sequence changes that anchored the RNA’s 5′phosphate, but the structural bases for 5′phosphate recognition were different in animal versus plant lineages. These results highlight how molecular-functional evolutionary convergence can derive from the evolution of unique protein structures implementing similar biochemical mechanisms.

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Section: Introductionmentioning

confidence: 99%

Increased Affinity for RNA Targets Evolved Early in Animal and Plant Dicer Lineages through Different Structural Mechanisms

Jia

Kolaczkowski

Rolland

et al. 2017

Molecular Biology and Evolution

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“…In addition, IFIH1/DDX58 is the primary cytoplasmic sensor for the intracellular detection of viral pathogen-associated molecular patterns of viral RNA ( 29 ). It is an important component in the formation of cytoplasmic RNA-binding protein complement, which contributes to innate antiviral immunity ( 30 ). IFIH1/DDX58 expression in epithelia of the upper airway is higher in children than in adults, resulting in stronger early innate antiviral immunity to severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) infection in children ( 31 ).…”

Section: Discussionmentioning

confidence: 99%

Identification of common genes of rhinovirus single/double‑stranded RNA‑induced asthma deterioration by bioinformatics analysis

An,

Cao,

Guo

et al. 2024

Exp Ther Med

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Rhinovirus (RV) is the most common respiratory virus affecting humans. The majority of asthma deteriorations are triggered by RV infections. However, whether the effects of RV single- and double-stranded RNA on asthma deterioration have common target genes needs to be further studied. In the present study, two datasets (GSE51392 and GSE30326) were used to screen for common differentially expressed genes (cDEGs). The molecular function, signaling pathways, interaction networks, hub genes, key modules and regulatory molecules of cDEGs were systematically analyzed using online tools such as Gene Ontology, Kyoto Encyclopedia of Genes and Genomes, STRING and NetworkAnalyst. Finally, the hub genes STAT1 and IFIH1 were verified in clinical samples using reverse transcription-quantitative PCR (RT-qPCR). A total of 85 cDEGs were identified. Function analysis revealed that cDEGs served an important role in the innate immune response to viruses and its regulation. Signal transducer and activator of transcription 1 (STAT1), interferon induced with helicase C domain 1 (IFIH1), interferon regulatory factor 7 (IRF7), DExD/H box helicase 58 (DDX58) and interferon-stimulating gene 15 (ISG15) were detected to be hub genes based on the protein-protein interactions and six topological algorithms. A key module involved in influenza A, the Toll-like receptor signaling pathway, was identified using Cytoscape software. The hub genes were regulated by GATA-binding factor 2 and microRNA-146a-5p. In addition, RT-qPCR indicated that the expression levels of the hub genes STAT1 and IFIH1 were low during asthma deterioration compared with post-treatment recovery samples. The present study enhanced the understanding of the mechanism of RV-induced asthma deterioration.

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“…2017 ), RIG-like receptor ( Mukherjee et al. 2014 ; Pugh et al. 2016 ), and CARD ( Korithoski et al.…”

Section: Methodsmentioning

confidence: 99%

Alignment-Integrated Reconstruction of Ancestral Sequences Improves Accuracy

Aadland

Kolaczkowski

2020

Genome Biology and Evolution

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Ancestral sequence reconstruction (ASR) uses an alignment of extant protein sequences, a phylogeny describing the history of the protein family and a model of the molecular-evolutionary process to infer the sequences of ancient proteins, allowing researchers to directly investigate the impact of sequence evolution on protein structure and function. Like all statistical inferences, ASR can be sensitive to violations of its underlying assumptions. Previous studies have shown that, whereas phylogenetic uncertainty has only a very weak impact on ASR accuracy, uncertainty in the protein sequence alignment can more strongly affect inferred ancestral sequences. Here, we show that errors in sequence alignment can produce errors in ASR across a range of realistic and simplified evolutionary scenarios. Importantly, sequence reconstruction errors can lead to errors in estimates of structural and functional properties of ancestral proteins, potentially undermining the reliability of analyses relying on ASR. We introduce an alignment-integrated ASR approach that combines information from many different sequence alignments. We show that integrating alignment uncertainty improves ASR accuracy and the accuracy of downstream structural and functional inferences, often performing as well as highly accurate structure-guided alignment. Given the growing evidence that sequence alignment errors can impact the reliability of ASR studies, we recommend that future studies incorporate approaches to mitigate the impact of alignment uncertainty. Probabilistic modeling of insertion and deletion events has the potential to radically improve ASR accuracy when the model reflects the true underlying evolutionary history, but further studies are required to thoroughly evaluate the reliability of these approaches under realistic conditions.

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Resurrecting ancestral structural dynamics of an antiviral immune receptor: adaptive binding pocket reorganization repeatedly shifts RNA preference

Cited by 7 publications

References 150 publications

Increased Affinity for RNA Targets Evolved Early in Animal and Plant Dicer Lineages through Different Structural Mechanisms

Increased Affinity for RNA Targets Evolved Early in Animal and Plant Dicer Lineages through Different Structural Mechanisms

Identification of common genes of rhinovirus single/double‑stranded RNA‑induced asthma deterioration by bioinformatics analysis

Alignment-Integrated Reconstruction of Ancestral Sequences Improves Accuracy

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