The Genetic Complexity of Type-IV Trichome Development Reveals the Steps towards an Insect-Resistant Tomato

The leaves of the wild tomato Solanum galapagense harbor type-IV glandular trichomes (GT) that produce high levels of acylsugars (AS), conferring insect resistance. Conversely, domesticated tomatoes (S. lycopersicum) lack type-IV trichomes on the leaves of mature plants, preventing high AS productio...

Descripción completa

Detalles Bibliográficos
Autores principales: Vendemiatti, Eloisa, Therezan, Rodrigo, Vicente, Mateus H., Pinto, Maísa de Siqueira, Bergau, Nick, Yang, Lina, Bernardi, Walter Fernando, de Alencar, Severino M., Zsögön, Agustin, Tissier, Alain, Benedito, Vagner A., Peres, Lázaro E. P.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2022
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9148003/
https://www.ncbi.nlm.nih.gov/pubmed/35631734
http://dx.doi.org/10.3390/plants11101309
_version_ 1784716945936875520
author Vendemiatti, Eloisa
Therezan, Rodrigo
Vicente, Mateus H.
Pinto, Maísa de Siqueira
Bergau, Nick
Yang, Lina
Bernardi, Walter Fernando
de Alencar, Severino M.
Zsögön, Agustin
Tissier, Alain
Benedito, Vagner A.
Peres, Lázaro E. P.
author_facet Vendemiatti, Eloisa
Therezan, Rodrigo
Vicente, Mateus H.
Pinto, Maísa de Siqueira
Bergau, Nick
Yang, Lina
Bernardi, Walter Fernando
de Alencar, Severino M.
Zsögön, Agustin
Tissier, Alain
Benedito, Vagner A.
Peres, Lázaro E. P.
author_sort Vendemiatti, Eloisa
collection PubMed
description The leaves of the wild tomato Solanum galapagense harbor type-IV glandular trichomes (GT) that produce high levels of acylsugars (AS), conferring insect resistance. Conversely, domesticated tomatoes (S. lycopersicum) lack type-IV trichomes on the leaves of mature plants, preventing high AS production, thus rendering the plants more vulnerable to insect predation. We hypothesized that cultivated tomatoes engineered to harbor type-IV trichomes on the leaves of adult plants could be insect-resistant. We introgressed the genetic determinants controlling type-IV trichome development from S. galapagense into cv. Micro-Tom (MT) and created a line named “Galapagos-enhanced trichomes” (MT-Get). Mapping-by-sequencing revealed that five chromosomal regions of S. galapagense were present in MT-Get. Further genetic mapping showed that S. galapagense alleles in chromosomes 1, 2, and 3 were sufficient for the presence of type-IV trichomes on adult organs but at lower densities. Metabolic and gene expression analyses demonstrated that type-IV trichome density was not accompanied by the AS production and exudation in MT-Get. Although the plants produce a significant amount of acylsugars, those are still not enough to make them resistant to whiteflies. We demonstrate that type-IV glandular trichome development is insufficient for high AS accumulation. The results from our study provided additional insights into the steps necessary for breeding an insect-resistant tomato.
format Online
Article
Text
id pubmed-9148003
institution National Center for Biotechnology Information
language English
publishDate 2022
publisher MDPI
record_format MEDLINE/PubMed
spelling pubmed-91480032022-05-29 The Genetic Complexity of Type-IV Trichome Development Reveals the Steps towards an Insect-Resistant Tomato Vendemiatti, Eloisa Therezan, Rodrigo Vicente, Mateus H. Pinto, Maísa de Siqueira Bergau, Nick Yang, Lina Bernardi, Walter Fernando de Alencar, Severino M. Zsögön, Agustin Tissier, Alain Benedito, Vagner A. Peres, Lázaro E. P. Plants (Basel) Article The leaves of the wild tomato Solanum galapagense harbor type-IV glandular trichomes (GT) that produce high levels of acylsugars (AS), conferring insect resistance. Conversely, domesticated tomatoes (S. lycopersicum) lack type-IV trichomes on the leaves of mature plants, preventing high AS production, thus rendering the plants more vulnerable to insect predation. We hypothesized that cultivated tomatoes engineered to harbor type-IV trichomes on the leaves of adult plants could be insect-resistant. We introgressed the genetic determinants controlling type-IV trichome development from S. galapagense into cv. Micro-Tom (MT) and created a line named “Galapagos-enhanced trichomes” (MT-Get). Mapping-by-sequencing revealed that five chromosomal regions of S. galapagense were present in MT-Get. Further genetic mapping showed that S. galapagense alleles in chromosomes 1, 2, and 3 were sufficient for the presence of type-IV trichomes on adult organs but at lower densities. Metabolic and gene expression analyses demonstrated that type-IV trichome density was not accompanied by the AS production and exudation in MT-Get. Although the plants produce a significant amount of acylsugars, those are still not enough to make them resistant to whiteflies. We demonstrate that type-IV glandular trichome development is insufficient for high AS accumulation. The results from our study provided additional insights into the steps necessary for breeding an insect-resistant tomato. MDPI 2022-05-14 /pmc/articles/PMC9148003/ /pubmed/35631734 http://dx.doi.org/10.3390/plants11101309 Text en © 2022 by the authors. https://creativecommons.org/licenses/by/4.0/Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Vendemiatti, Eloisa
Therezan, Rodrigo
Vicente, Mateus H.
Pinto, Maísa de Siqueira
Bergau, Nick
Yang, Lina
Bernardi, Walter Fernando
de Alencar, Severino M.
Zsögön, Agustin
Tissier, Alain
Benedito, Vagner A.
Peres, Lázaro E. P.
The Genetic Complexity of Type-IV Trichome Development Reveals the Steps towards an Insect-Resistant Tomato
title The Genetic Complexity of Type-IV Trichome Development Reveals the Steps towards an Insect-Resistant Tomato
title_full The Genetic Complexity of Type-IV Trichome Development Reveals the Steps towards an Insect-Resistant Tomato
title_fullStr The Genetic Complexity of Type-IV Trichome Development Reveals the Steps towards an Insect-Resistant Tomato
title_full_unstemmed The Genetic Complexity of Type-IV Trichome Development Reveals the Steps towards an Insect-Resistant Tomato
title_short The Genetic Complexity of Type-IV Trichome Development Reveals the Steps towards an Insect-Resistant Tomato
title_sort genetic complexity of type-iv trichome development reveals the steps towards an insect-resistant tomato
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9148003/
https://www.ncbi.nlm.nih.gov/pubmed/35631734
http://dx.doi.org/10.3390/plants11101309
work_keys_str_mv AT vendemiattieloisa thegeneticcomplexityoftypeivtrichomedevelopmentrevealsthestepstowardsaninsectresistanttomato
AT therezanrodrigo thegeneticcomplexityoftypeivtrichomedevelopmentrevealsthestepstowardsaninsectresistanttomato
AT vicentemateush thegeneticcomplexityoftypeivtrichomedevelopmentrevealsthestepstowardsaninsectresistanttomato
AT pintomaisadesiqueira thegeneticcomplexityoftypeivtrichomedevelopmentrevealsthestepstowardsaninsectresistanttomato
AT bergaunick thegeneticcomplexityoftypeivtrichomedevelopmentrevealsthestepstowardsaninsectresistanttomato
AT yanglina thegeneticcomplexityoftypeivtrichomedevelopmentrevealsthestepstowardsaninsectresistanttomato
AT bernardiwalterfernando thegeneticcomplexityoftypeivtrichomedevelopmentrevealsthestepstowardsaninsectresistanttomato
AT dealencarseverinom thegeneticcomplexityoftypeivtrichomedevelopmentrevealsthestepstowardsaninsectresistanttomato
AT zsogonagustin thegeneticcomplexityoftypeivtrichomedevelopmentrevealsthestepstowardsaninsectresistanttomato
AT tissieralain thegeneticcomplexityoftypeivtrichomedevelopmentrevealsthestepstowardsaninsectresistanttomato
AT beneditovagnera thegeneticcomplexityoftypeivtrichomedevelopmentrevealsthestepstowardsaninsectresistanttomato
AT pereslazaroep thegeneticcomplexityoftypeivtrichomedevelopmentrevealsthestepstowardsaninsectresistanttomato
AT vendemiattieloisa geneticcomplexityoftypeivtrichomedevelopmentrevealsthestepstowardsaninsectresistanttomato
AT therezanrodrigo geneticcomplexityoftypeivtrichomedevelopmentrevealsthestepstowardsaninsectresistanttomato
AT vicentemateush geneticcomplexityoftypeivtrichomedevelopmentrevealsthestepstowardsaninsectresistanttomato
AT pintomaisadesiqueira geneticcomplexityoftypeivtrichomedevelopmentrevealsthestepstowardsaninsectresistanttomato
AT bergaunick geneticcomplexityoftypeivtrichomedevelopmentrevealsthestepstowardsaninsectresistanttomato
AT yanglina geneticcomplexityoftypeivtrichomedevelopmentrevealsthestepstowardsaninsectresistanttomato
AT bernardiwalterfernando geneticcomplexityoftypeivtrichomedevelopmentrevealsthestepstowardsaninsectresistanttomato
AT dealencarseverinom geneticcomplexityoftypeivtrichomedevelopmentrevealsthestepstowardsaninsectresistanttomato
AT zsogonagustin geneticcomplexityoftypeivtrichomedevelopmentrevealsthestepstowardsaninsectresistanttomato
AT tissieralain geneticcomplexityoftypeivtrichomedevelopmentrevealsthestepstowardsaninsectresistanttomato
AT beneditovagnera geneticcomplexityoftypeivtrichomedevelopmentrevealsthestepstowardsaninsectresistanttomato
AT pereslazaroep geneticcomplexityoftypeivtrichomedevelopmentrevealsthestepstowardsaninsectresistanttomato

Ejemplares similares