sg:pub.10.1007/s00122-018-3239-7 - Springer Nature SciGraph

Article Info

DATE

2018-11-23

AUTHORS

Ben Vosman, Atiyeh Kashaninia, Wendy van’t Westende, Fien Meijer-Dekens, Henriëtte van Eekelen, Richard G. F. Visser, Ric C. H. de Vos, Roeland E. Voorrips

ABSTRACT

Key messageQTLs for insect resistance parameters, trichome type IV development, and more than 200 non-volatile metabolites, including 76 acyl sugars, all co-locate at the end of Chromosome 2 of Solanum galapagense.AbstractHost plant resistance is gaining importance as more and more insecticides are being banned due to environmental concerns. In tomato, resistance towards insects is found in wild relatives and has been attributed to the presence of glandular trichomes and their specific phytochemical composition. In this paper, we describe the results from a large-scale QTL mapping of data from whitefly resistance tests, trichome phenotyping and a comprehensive metabolomics analysis in a recombinant inbred line population derived from a cross between the cultivated Solanum lycopersicum and the wild relative S. galapagense, which is resistant to a range of pest insects. One major QTL (Wf-1) was found to govern the resistance against two different whitefly species. This QTL co-localizes with QTLs for the presence of trichomes type IV and V, as well as all 76 acyl sugars detected and about 150 other non-volatile phytochemicals, including methyl esters of the flavonols myricetin and quercetin. Based on these results, we hypothesize that Wf-1 is regulating the formation of glandular trichome type IV on the leaf epidermis, enabling the production and accumulation of bioactive metabolites in this type of trichomes. More... »

PAGES

531-541

References to SciGraph publications

2017-12-07. Combination of Acylglucose QTL reveals additive and epistatic genetic interactions and impacts insect oviposition and virus infection in MOLECULAR BREEDING

2009-01-25. System-wide molecular evidence for phenotypic buffering in Arabidopsis in NATURE GENETICS

2012-05-18. Resistance to Bemisia tabaci in tomato wild relatives in EUPHYTICA

2016-06-29. Evaluation of wild tomato accessions (Solanum spp.) for resistance to two-spotted spider mite (Tetranychus urticae Koch) based on trichome type and acylsugar content in GENETIC RESOURCES AND CROP EVOLUTION

2006-06-04. The genetics of plant metabolism in NATURE GENETICS

2013-10-23. Genetic mapping of semi-polar metabolites in pepper fruits (Capsicum sp.): towards unravelling the molecular regulation of flavonoid quantitative trait loci in MOLECULAR BREEDING

1997-08. Marker-assisted transfer of acylsugar-mediated pest resistance from the wild tomato, Lycopersicon pennellii, to the cultivated tomato, Lycopersicon esculentum in MOLECULAR BREEDING

2013-08-24. Differences in insect resistance between tomato species endemic to the Galapagos Islands in BMC ECOLOGY AND EVOLUTION

2018-07-25. Genetic variation in phytochemicals in leaves of pepper (Capsicum) in relation to thrips resistance in ARTHROPOD-PLANT INTERACTIONS

2015-05-23. Managing the Colorado potato beetle; the need for resistance breeding in EUPHYTICA

2013-02-26. Identification and QTL mapping of whitefly resistance components in Solanum galapagense in THEORETICAL AND APPLIED GENETICS

2015-12-07. Identification of resistance to Bemisia tabaci Genn. in closely related wild relatives of cultivated tomato based on trichome type analysis and choice and no-choice assays in GENETIC RESOURCES AND CROP EVOLUTION

2003-02. Greenhouse and field screening of wildLycopersicon germplasm for resistance to the whiteflyBemisia argentifolii in PHYTOPARASITICA

2018-02-06. Broad spectrum insect resistance and metabolites in close relatives of the cultivated tomato in EUPHYTICA

2012-05-29. Quantitative trait loci increasing acylsugars in tomato breeding lines and their impacts on silverleaf whiteflies in MOLECULAR BREEDING

2005-08. Trichome characteristics of F1Lycopersicon esculentum × L. cheesmanii f. minor and L. esculentum × L. pennellii hybrids and effects on Myzus persicae in EUPHYTICA

Journal

TITLE

Theoretical and Applied Genetics

ISSUE

VOLUME

132

Subjects

FOR: Biological Sciences

FOR: Genetics

MESH: Animals

MESH: Chromosome Mapping

MESH: Hemiptera

MESH: Herbivory

MESH: Plant Leaves

MESH: Quantitative Trait Loci

MESH: Solanum

MESH: Trichomes

Author Affiliations

Plant Breeding, Wageningen University and Research, PO Box 386, 6700 AJ, Wageningen, The Netherlands

Graduate School Experimental Plant Sciences, Droevendaalsesteeg 1, 6708 PB, Wageningen, The Netherlands

Bioscience, Wageningen University and Research, PO Box 16, 6700AA, Wageningen, The Netherlands

Identifiers

URI

http://scigraph.springernature.com/pub.10.1007/s00122-018-3239-7

DOI

http://dx.doi.org/10.1007/s00122-018-3239-7

DIMENSIONS

https://app.dimensions.ai/details/publication/pub.1110152605

PUBMED

https://www.ncbi.nlm.nih.gov/pubmed/30470858

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30	″	schema:description	Key messageQTLs for insect resistance parameters, trichome type IV development, and more than 200 non-volatile metabolites, including 76 acyl sugars, all co-locate at the end of Chromosome 2 of Solanum galapagense.AbstractHost plant resistance is gaining importance as more and more insecticides are being banned due to environmental concerns. In tomato, resistance towards insects is found in wild relatives and has been attributed to the presence of glandular trichomes and their specific phytochemical composition. In this paper, we describe the results from a large-scale QTL mapping of data from whitefly resistance tests, trichome phenotyping and a comprehensive metabolomics analysis in a recombinant inbred line population derived from a cross between the cultivated Solanum lycopersicum and the wild relative S. galapagense, which is resistant to a range of pest insects. One major QTL (Wf-1) was found to govern the resistance against two different whitefly species. This QTL co-localizes with QTLs for the presence of trichomes type IV and V, as well as all 76 acyl sugars detected and about 150 other non-volatile phytochemicals, including methyl esters of the flavonols myricetin and quercetin. Based on these results, we hypothesize that Wf-1 is regulating the formation of glandular trichome type IV on the leaf epidermis, enabling the production and accumulation of bioactive metabolites in this type of trichomes.
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37	″	schema:keywords	Key messageQTL
38	″	″	QTL
39	″	″	QTL mapping
40	″	″	S. galapagense
41	″	″	Solanum galapagense
42	″	″	Solanum lycopersicum
43	″	″	WF-1
44	″	″	accumulation
45	″	″	acyl sugars
46	″	″	analysis
47	″	″	bioactive metabolites
48	″	″	chromosome 2
49	″	″	components
50	″	″	composition
51	″	″	comprehensive metabolomic analysis
52	″	″	concern
53	″	″	cross
54	″	″	data
55	″	″	development
56	″	″	different whitefly species
57	″	″	end
58	″	″	environmental concerns
59	″	″	epidermis
60	″	″	esters
61	″	″	flavonol myricetin
62	″	″	formation
63	″	″	glandular trichomes
64	″	″	importance
65	″	″	insecticides
66	″	″	insects
67	″	″	leaf epidermis
68	″	″	line population
69	″	″	lycopersicum
70	″	″	major QTL
71	″	″	mapping
72	″	″	metabolites
73	″	″	metabolomic analysis
74	″	″	methyl ester
75	″	″	more insecticides
76	″	″	myricetin
77	″	″	non-volatile metabolites
78	″	″	non-volatile phytochemicals
79	″	″	paper
80	″	″	parameters
81	″	″	pest insects
82	″	″	phenotyping
83	″	″	phytochemical composition
84	″	″	phytochemicals
85	″	″	plant resistance
86	″	″	population
87	″	″	presence
88	″	″	production
89	″	″	quercetin
90	″	″	range
91	″	″	recombinants
92	″	″	relatives
93	″	″	resistance
94	″	″	resistance components
95	″	″	resistance parameters
96	″	″	resistance test
97	″	″	results
98	″	″	species
99	″	″	sugars
100	″	″	test
101	″	″	tomato
102	″	″	trichomes
103	″	″	type IV
104	″	″	types
105	″	″	types of trichomes
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