The yeast mating-type switching endonuclease HO is a domesticated member of an unorthodox homing genetic element family

The mating-type switching endonuclease HO plays a central role in the natural life cycle of Saccharomyces cerevisiae, but its evolutionary origin is unknown. HO is a recent addition to yeast genomes, present in only a few genera close to Saccharomyces. Here we show that HO is structurally and phylog...

Descripción completa

Detalles Bibliográficos
Autores principales: Coughlan, Aisling Y, Lombardi, Lisa, Braun-Galleani, Stephanie, Martos, Alexandre AR, Galeote, Virginie, Bigey, Frédéric, Dequin, Sylvie, Byrne, Kevin P, Wolfe, Kenneth H
Formato: Online Artículo Texto
Lenguaje:English
Publicado: eLife Sciences Publications, Ltd 2020
Materias:
Evolutionary Biology
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7282813/
https://www.ncbi.nlm.nih.gov/pubmed/32338594
http://dx.doi.org/10.7554/eLife.55336
_version_ 1783544194515599360
author Coughlan, Aisling Y
Lombardi, Lisa
Braun-Galleani, Stephanie
Martos, Alexandre AR
Galeote, Virginie
Bigey, Frédéric
Dequin, Sylvie
Byrne, Kevin P
Wolfe, Kenneth H
author_facet Coughlan, Aisling Y
Lombardi, Lisa
Braun-Galleani, Stephanie
Martos, Alexandre AR
Galeote, Virginie
Bigey, Frédéric
Dequin, Sylvie
Byrne, Kevin P
Wolfe, Kenneth H
author_sort Coughlan, Aisling Y
collection PubMed
description The mating-type switching endonuclease HO plays a central role in the natural life cycle of Saccharomyces cerevisiae, but its evolutionary origin is unknown. HO is a recent addition to yeast genomes, present in only a few genera close to Saccharomyces. Here we show that HO is structurally and phylogenetically related to a family of unorthodox homing genetic elements found in Torulaspora and Lachancea yeasts. These WHO elements home into the aldolase gene FBA1, replacing its 3' end each time they integrate. They resemble inteins but they operate by a different mechanism that does not require protein splicing. We show that a WHO protein cleaves Torulaspora delbrueckii FBA1 efficiently and in an allele-specific manner, leading to DNA repair by gene conversion or NHEJ. The DNA rearrangement steps during WHO element homing are very similar to those during mating-type switching, and indicate that HO is a domesticated WHO-like element.
format Online
Article
Text
id pubmed-7282813
institution National Center for Biotechnology Information
language English
publishDate 2020
publisher eLife Sciences Publications, Ltd
record_format MEDLINE/PubMed
spelling pubmed-72828132020-06-10 The yeast mating-type switching endonuclease HO is a domesticated member of an unorthodox homing genetic element family Coughlan, Aisling Y Lombardi, Lisa Braun-Galleani, Stephanie Martos, Alexandre AR Galeote, Virginie Bigey, Frédéric Dequin, Sylvie Byrne, Kevin P Wolfe, Kenneth H eLife Evolutionary Biology The mating-type switching endonuclease HO plays a central role in the natural life cycle of Saccharomyces cerevisiae, but its evolutionary origin is unknown. HO is a recent addition to yeast genomes, present in only a few genera close to Saccharomyces. Here we show that HO is structurally and phylogenetically related to a family of unorthodox homing genetic elements found in Torulaspora and Lachancea yeasts. These WHO elements home into the aldolase gene FBA1, replacing its 3' end each time they integrate. They resemble inteins but they operate by a different mechanism that does not require protein splicing. We show that a WHO protein cleaves Torulaspora delbrueckii FBA1 efficiently and in an allele-specific manner, leading to DNA repair by gene conversion or NHEJ. The DNA rearrangement steps during WHO element homing are very similar to those during mating-type switching, and indicate that HO is a domesticated WHO-like element. eLife Sciences Publications, Ltd 2020-04-27 /pmc/articles/PMC7282813/ /pubmed/32338594 http://dx.doi.org/10.7554/eLife.55336 Text en © 2020, Coughlan et al http://creativecommons.org/licenses/by/4.0/ http://creativecommons.org/licenses/by/4.0/This article is distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0/) , which permits unrestricted use and redistribution provided that the original author and source are credited.
spellingShingle Evolutionary Biology
Coughlan, Aisling Y
Lombardi, Lisa
Braun-Galleani, Stephanie
Martos, Alexandre AR
Galeote, Virginie
Bigey, Frédéric
Dequin, Sylvie
Byrne, Kevin P
Wolfe, Kenneth H
The yeast mating-type switching endonuclease HO is a domesticated member of an unorthodox homing genetic element family
title The yeast mating-type switching endonuclease HO is a domesticated member of an unorthodox homing genetic element family
title_full The yeast mating-type switching endonuclease HO is a domesticated member of an unorthodox homing genetic element family
title_fullStr The yeast mating-type switching endonuclease HO is a domesticated member of an unorthodox homing genetic element family
title_full_unstemmed The yeast mating-type switching endonuclease HO is a domesticated member of an unorthodox homing genetic element family
title_short The yeast mating-type switching endonuclease HO is a domesticated member of an unorthodox homing genetic element family
title_sort yeast mating-type switching endonuclease ho is a domesticated member of an unorthodox homing genetic element family
topic Evolutionary Biology
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7282813/
https://www.ncbi.nlm.nih.gov/pubmed/32338594
http://dx.doi.org/10.7554/eLife.55336
work_keys_str_mv AT coughlanaislingy theyeastmatingtypeswitchingendonucleasehoisadomesticatedmemberofanunorthodoxhominggeneticelementfamily
AT lombardilisa theyeastmatingtypeswitchingendonucleasehoisadomesticatedmemberofanunorthodoxhominggeneticelementfamily
AT braungalleanistephanie theyeastmatingtypeswitchingendonucleasehoisadomesticatedmemberofanunorthodoxhominggeneticelementfamily
AT martosalexandrear theyeastmatingtypeswitchingendonucleasehoisadomesticatedmemberofanunorthodoxhominggeneticelementfamily
AT galeotevirginie theyeastmatingtypeswitchingendonucleasehoisadomesticatedmemberofanunorthodoxhominggeneticelementfamily
AT bigeyfrederic theyeastmatingtypeswitchingendonucleasehoisadomesticatedmemberofanunorthodoxhominggeneticelementfamily
AT dequinsylvie theyeastmatingtypeswitchingendonucleasehoisadomesticatedmemberofanunorthodoxhominggeneticelementfamily
AT byrnekevinp theyeastmatingtypeswitchingendonucleasehoisadomesticatedmemberofanunorthodoxhominggeneticelementfamily
AT wolfekennethh theyeastmatingtypeswitchingendonucleasehoisadomesticatedmemberofanunorthodoxhominggeneticelementfamily
AT coughlanaislingy yeastmatingtypeswitchingendonucleasehoisadomesticatedmemberofanunorthodoxhominggeneticelementfamily
AT lombardilisa yeastmatingtypeswitchingendonucleasehoisadomesticatedmemberofanunorthodoxhominggeneticelementfamily
AT braungalleanistephanie yeastmatingtypeswitchingendonucleasehoisadomesticatedmemberofanunorthodoxhominggeneticelementfamily
AT martosalexandrear yeastmatingtypeswitchingendonucleasehoisadomesticatedmemberofanunorthodoxhominggeneticelementfamily
AT galeotevirginie yeastmatingtypeswitchingendonucleasehoisadomesticatedmemberofanunorthodoxhominggeneticelementfamily
AT bigeyfrederic yeastmatingtypeswitchingendonucleasehoisadomesticatedmemberofanunorthodoxhominggeneticelementfamily
AT dequinsylvie yeastmatingtypeswitchingendonucleasehoisadomesticatedmemberofanunorthodoxhominggeneticelementfamily
AT byrnekevinp yeastmatingtypeswitchingendonucleasehoisadomesticatedmemberofanunorthodoxhominggeneticelementfamily
AT wolfekennethh yeastmatingtypeswitchingendonucleasehoisadomesticatedmemberofanunorthodoxhominggeneticelementfamily

Ejemplares similares