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Humanization of yeast genes with multiple human orthologs reveals functional divergence between paralogs.

Author(s): Laurent JM, Garge RK, Teufel AI, Wilke CO, Kachroo AH, Marcotte EM

PLoS Biol. 2020 May 18;18(5):e3000627 Authors: Laurent JM, Garge RK, Teufel AI, Wilke CO, Kachroo AH, Marcotte EM

Article GUID: 32421706

Single-step Precision Genome Editing in Yeast Using CRISPR-Cas9.

Author(s): Akhmetov A, Laurent JM, Gollihar J, Gardner EC, Garge RK, Ellington AD, Kachroo AH, Marcotte EM

Bio Protoc. 2018 Mar 20;8(6): Authors: Akhmetov A, Laurent JM, Gollihar J, Gardner EC, Garge RK, Ellington AD, Kachroo AH, Marcotte EM

Article GUID: 29770349


Title:Humanization of yeast genes with multiple human orthologs reveals functional divergence between paralogs.
Authors:Laurent JMGarge RKTeufel AIWilke COKachroo AHMarcotte EM
Link:https://www.ncbi.nlm.nih.gov/pubmed/32421706?dopt=Abstract
DOI:10.1371/journal.pbio.3000627
Category:PLoS Biol
PMID:32421706
Dept Affiliation: BIOLOGY
1 Center for Systems and Synthetic Biology, Institute for Cellular and Molecular Biology, The University of Texas at Austin, Austin, Texas, United States of America.
2 Institute for Systems Genetics, NYU Langone Health, New York, New York, United States of America.
3 Department of Molecular Biosciences, The University of Texas at Austin, Austin, Texas, United States of America.
4 Department of Integrative Biology, The University of Texas at Austin, Austin, Texas, United States of America.
5 Santa Fe Institute, Santa Fe, New Mexico, United States of America.
6 The Department of Biology, Centre for Applied Synthetic Biology, Concordia University, Montreal, Quebec, Canada.

Description:

Humanization of yeast genes with multiple human orthologs reveals functional divergence between paralogs.

PLoS Biol. 2020 May 18;18(5):e3000627

Authors: Laurent JM, Garge RK, Teufel AI, Wilke CO, Kachroo AH, Marcotte EM

Abstract

Despite over a billion years of evolutionary divergence, several thousand human genes possess clearly identifiable orthologs in yeast, and many have undergone lineage-specific duplications in one or both lineages. These duplicated genes may have been free to diverge in function since their expansion, and it is unclear how or at what rate ancestral functions are retained or partitioned among co-orthologs between species and within gene families. Thus, in order to investigate how ancestral functions are retained or lost post-duplication, we systematically replaced hundreds of essential yeast genes with their human orthologs from gene families that have undergone lineage-specific duplications, including those with single duplications (1 yeast gene to 2 human genes, 1:2) or higher-order expansions (1:>2) in the human lineage. We observe a variable pattern of replaceability across different ortholog classes, with an obvious trend toward differential replaceability inside gene families, and rarely observe replaceability by all members of a family. We quantify the ability of various properties of the orthologs to predict replaceability, showing that in the case of 1:2 orthologs, replaceability is predicted largely by the divergence and tissue-specific expression of the human co-orthologs, i.e., the human proteins that are less diverged from their yeast counterpart and more ubiquitously expressed across human tissues more often replace their single yeast ortholog. These trends were consistent with in silico simulations demonstrating that when only one ortholog can replace its corresponding yeast equivalent, it tends to be the least diverged of the pair. Replaceability of yeast genes having more than 2 human co-orthologs was marked by retention of orthologous interactions in functional or protein networks as well as by more ancestral subcellular localization. Overall, we performed >400 human gene replaceability assays, revealing 50 new human-yeast complementation pairs, thus opening up avenues to further functionally characterize these human genes in a simplified organismal context.

PMID: 32421706 [PubMed - as supplied by publisher]