Sequence Divergence and Functional Specializations of the Ancient Spliceosomal SF3b: Implications in Flexibility and Adaptations of the Multi-Protein Complex

Multi-protein assemblies are complex molecular systems that perform highly sophisticated biochemical functions in an orchestrated manner. They are subject to changes that are governed by the evolution of individual components. We performed a comparative analysis of the ancient and functionally conse...

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Bibliographic Details
Published in:Frontiers in genetics Vol. 12; p. 747344
Main Authors: Yazhini, Arangasamy, Srinivasan, Narayanaswamy, Sandhya, Sankaran
Format: Journal Article
Language:English
Published: Switzerland Frontiers Media S.A 10-01-2022
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Summary:Multi-protein assemblies are complex molecular systems that perform highly sophisticated biochemical functions in an orchestrated manner. They are subject to changes that are governed by the evolution of individual components. We performed a comparative analysis of the ancient and functionally conserved spliceosomal SF3b complex, to recognize molecular signatures that contribute to sequence divergence and functional specializations. For this, we recognized homologous sequences of individual SF3b proteins distributed across 10 supergroups of eukaryotes and identified all seven protein components of the complex in 578 eukaryotic species. Using sequence and structural analysis, we establish that proteins occurring on the surface of the SF3b complex harbor more sequence variation than the proteins that lie in the core. Further, we show through protein interface conservation patterns that the extent of conservation varies considerably between interacting partners. When we analyze phylogenetic distributions of individual components of the complex, we find that protein partners that are known to form independent subcomplexes are observed to share similar profiles, reaffirming the link between differential conservation of interface regions and their inter-dependence. When we extend our analysis to individual protein components of the complex, we find taxa-specific variability in molecular signatures of the proteins. These trends are discussed in the context of proline-rich motifs of SF3b4, functional and drug binding sites of SF3b1. Further, we report key protein-protein interactions between SF3b1 and SF3b6 whose presence is observed to be lineage-specific across eukaryotes. Together, our studies show the association of protein location within the complex and subcomplex formation patterns with the sequence conservation of SF3b proteins. In addition, our study underscores evolutionarily flexible elements that appear to confer adaptive features in individual components of the multi-protein SF3b complexes and may contribute to its functional adaptability.
Bibliography:Srikrishna Subramanian, Institute of Microbial Technology (CSIR), India
This article is dedicated to one of the authors, Prof. Narayanaswamy Srinivasan who passed away on September 3rd, 2021
This article was submitted to Evolutionary and Population Genetics, a section of the journal Frontiers in Genetics
Edited by: Gaurav Sharma, Institute of Bioinformatics and Applied Biotechnology, India
Reviewed by: Ding He, University of Copenhagen, Denmark
ISSN:1664-8021
1664-8021
DOI:10.3389/fgene.2021.747344