Your search keyword '"Arjen, Vandoorn"' showing total 7 results

1. Whiteflies glycosylate salicylic acid and secrete the conjugate via their honeydew

Author

Robert C. Schuurink, Michel de Vries, Merijn R. Kant, Arjen VanDoorn, Green Life Sciences, and Plant Physiology (SILS, FNWI)

Subjects

Honeydew, Glycosylation, Whitefly, Phloem, Marker gene, Biochemistry, Article, Hemiptera, chemistry.chemical_compound, Solanum lycopersicum, Gene Expression Regulation, Plant, Plant defense, Botany, Plant defense against herbivory, Animals, Herbivory, Jasmonate, Ecology, Evolution, Behavior and Systematics, biology, fungi, food and beverages, Salicylic acid, General Medicine, Elicitor, biology.organism_classification, Body Fluids, chemistry, Animal Nutritional Physiological Phenomena, Phloem feeder

Abstract

During insect feeding, a complex interaction takes place at the feeding site, with plants deciphering molecular information associated with the feeding herbivore, resulting in the upregulation of the appropriate defenses, and the herbivore avoiding or preventing these defenses from taking effect. Whiteflies can feed on plants without causing significant damage to mesophyll cells, making their detection extra challenging for the plant. However, whiteflies secrete honeydew that ends up on the plant surface at the feeding site and on distal plant parts below the feeding site. We reasoned that this honeydew, since it is largely of plant origin, may contain molecular information that alerts the plant, and we focused on the defense hormone salicylic acid (SA). First, we analyzed phloem sap from tomato plants, on which the whiteflies are feeding, and found that it contained salicylic acid (SA). Subsequently, we determined that in honeydew more than 80 % of SA was converted to its glycoside (SAG). When whiteflies were allowed to feed from an artificial diet spiked with labeled SA, labeled SAG also was produced. However, manually depositing honeydew on undamaged plants resulted still in a significant increase in endogenous free SA. Accordingly, transcript levels of PR1a, an SA marker gene, increased whereas those of PI-II, a jasmonate marker gene, decreased. Our results indicate that whiteflies manipulate the SA levels within their secretions, thus influencing the defense responses in those plant parts that come into contact with honeydew.

Published

2015

2. Improved herbivore resistance in cultivated tomato with the sesquiterpene biosynthetic pathway from a wild relative

Author

Alain Tissier, Merijn R. Kant, Martin De Vos, Robert C. Schuurink, Petra M. Bleeker, Arjen VanDoorn, Marcel Prins, Paul Johan Diergaarde, Michel A. Haring, Rossana Mirabella, Plant Physiology (SILS, FNWI), and Population Biology (IBED, FNWI)

Subjects

Breeding, Biology, Real-Time Polymerase Chain Reaction, Sesquiterpene, Gas Chromatography-Mass Spectrometry, Hemiptera, Metabolic engineering, chemistry.chemical_compound, Solanum lycopersicum, Polyisoprenyl Phosphates, Botany, Animals, Wild tomato, Herbivory, Cloning, Molecular, Plastid, Analysis of Variance, Herbivore, Alkyl and Aryl Transferases, Multidisciplinary, Resistance (ecology), fungi, food and beverages, Feeding Behavior, Biological Sciences, biology.organism_classification, Trichome, Biosynthetic Pathways, Monocyclic Sesquiterpenes, Horticulture, Metabolic Engineering, chemistry, Tetranychidae, Sesquiterpenes

Abstract

Tomato breeding has been tremendously efficient in increasing fruit quality and quantity but did not focus on improving herbivore resistance. The biosynthetic pathway for the production of 7-epizingiberene in a wild tomato was introduced into a cultivated greenhouse variety with the aim to obtain herbivore resistance. 7-Epizingiberene is a specific sesquiterpene with toxic and repellent properties that is produced and stored in glandular trichomes. We identified 7-epizingiberene synthase (ShZIS) that belongs to a new class of sesquiterpene synthases, exclusively using Z-Z- farnesyl-diphosphate (zFPP) in plastids, probably arisen through neo-functionalization of a common ancestor. Expression of the ShZIS and zFPP synthases in the glandular trichomes of cultivated tomato resulted in the production of 7-epizingiberene. These tomatoes gained resistance to several herbivores that are pests of tomato. Hence, introduction of this sesquiterpene biosynthetic pathway into cultivated tomatoes resulted in improved herbivore resistance.

Published

2012

3. JA-Ile signalling in Solanum nigrum is not required for defence responses in nature

Author

Gustavo Bonaventure, Asaph Aharoni, Ian T. Baldwin, Arjen VanDoorn, and Ilana Rogachev

Subjects

Herbivore, Physiology, fungi, food and beverages, Plant Science, Biology, Solanum nigrum, biology.organism_classification, Gene expression profiling, Metabolomics, Botany, Jasmonate, DNA microarray, Gene, Function (biology)

Abstract

Jasmonate signalling plays a central role in activating the plethora of responses that are elicited by herbivory. Solanum nigrum plants silenced in the expression of genes involved in jasmonic acid biosynthesis (irlox3),conjugation (irjar4) and perception (ircoi1) were used to study the function of these genes in the field and in the regulation of transcriptional and metabolic responses. In the field, damage from Noctuidea larvae was four- to fivefold higher on irlox3 and ircoi1 than on wild-type (WT) plants, whereas damage to irjar4 plants was similar to WT levels. Damage rates reflected plant survival rates; fewer irlox3 (78%) and ircoi1 (22%) plants survived compared with irjar4 and WT plants of which all plants survived. Gene expression profiling in leaves 3 h after simulated herbivory revealed differential regulation of ~700 genes in irlox3 and ircoi1 plants but of only six genes in irjar4 compared with WT plants. Surprisingly, transcriptional responses were not reflected in metabolomic responses; 48 h after simulated herbivory, irjar4 plants showed a 50% overlap in their metabolic profile with ircoi1 plants. Together, these results reveal that SnJAR4 does not play a direct role in herbivore defence, but suggests that SnJAR4 is involved in responses other than those to herbivory.

Published

2011

4. Herbivore-associated elicitors: FAC signaling and metabolism

Author

Gustavo Bonaventure, Ian T. Baldwin, and Arjen VanDoorn

Subjects

Linolenic Acids, Glutamine, media_common.quotation_subject, Cyclopentanes, Plant Science, Insect, Genes, Plant, Host-Parasite Interactions, Gene Expression Regulation, Plant, Manduca, Nicotiana attenuata, Tobacco, Botany, Animals, Oxylipins, media_common, Genetics, Herbivore, biology, Effector, fungi, alpha-Linolenic Acid, food and beverages, Feeding Behavior, Metabolism, biology.organism_classification, Elicitor, Plant Leaves, Manduca sexta, Signal transduction, Signal Transduction

Abstract

The recognition of insect and pathogen attack requires the plant's ability to perceive chemical cues generated by the attacker. In contrast to the recognition of microbe-associated molecular patterns and effectors, little is known about the molecular recognition of herbivore-associated elicitors (HAEs) and the signaling mechanisms operating in plants after their perception. HAE perception depends strongly on the natural history of both plants and insects and it is therefore expected that many of the responses induced by different HAEs are specific to the species involved in the interaction. The interaction between Nicotiana attenuata and the specialist lepidopteran Manduca sexta presents a relevant biological system to understand HAE perception and signal transduction systems in plants.

Published

2011

5. Regulation of jasmonate metabolism and activation of systemic signaling in Solanum nigrum : COI1 and JAR4 play overlapping yet distinct roles

Author

Dominik D. Schmidt, Ian T. Baldwin, Arjen VanDoorn, and Gustavo Bonaventure

Subjects

Physiology, Cyclopentanes, Plant Science, Solanum nigrum, Genes, Plant, Models, Biological, Aminopeptidase, Leucyl Aminopeptidase, chemistry.chemical_compound, Gene Expression Regulation, Plant, Manduca, Animals, Oxylipins, RNA, Messenger, Jasmonate, Gene, Plant Proteins, biology, Jasmonic acid, Metabolism, Plants, Genetically Modified, biology.organism_classification, Plant Leaves, Biochemistry, chemistry, Leucine, Function (biology), Signal Transduction

Abstract

Summary • Jasmonates are ubiquitous messengers in land plants essential for the activation of defense responses. However, their signaling properties, accumulation and metabolism vary substantially among species. Solanum nigrum is a wild Solanaceous species developed as a model to study defense responses. • Solanum nigrum plants transformed to silence the expression of key genes in jasmonate production (SnLOX3), conjugation (SnJAR4) and perception (SnCOI1) were generated to analyze the function of these genes in jasmonate accumulation and metabolism (studied by a combination of LC-MS ⁄ MS and 13 C-isotope labeling methods) and in signaling [studied by the systemic elicitation of leucine aminopeptidase (LAP) activity]. • In contrast with the early single jasmonic acid (JA) burst induced by wounding in wild-type (WT) plants, elicitation with insect oral secretions induced a later, second burst that was essential for the induction of systemic LAP activity, as demonstrated by ablation experiments. This induction was dependent on SnLOX3 and SnCOI1, but not on SnJAR4. In addition, the local accumulation of JA-glucose and JAisoleucine was dependent on SnCOI1, whereas the accumulation of hydroxylated jasmonates was dependent on both SnCOI1 and SnJAR4. • The results demonstrate that SnLOX3, SnCOI1 and SnJAR4 have overlapping yet distinct roles in jasmonate signaling, differentially controlling jasmonate metabolism and the production of a systemic signal.

Published

2011

6. JA-Ile signalling in Solanum nigrum is not required for defence responses in nature

Author

Arjen, Vandoorn, Gustavo, Bonaventure, Ilana, Rogachev, Asaph, Aharoni, and Ian T, Baldwin

Subjects

Gene Expression Profiling, Cyclopentanes, Plants, Genetically Modified, Plant Growth Regulators, Gene Expression Regulation, Plant, Larva, Manduca, Metabolome, Animals, Gene Silencing, Herbivory, Isoleucine, Transcriptome, Oligonucleotide Array Sequence Analysis, Signal Transduction, Solanum nigrum

Abstract

Jasmonate signalling plays a central role in activating the plethora of responses that are elicited by herbivory. Solanum nigrum plants silenced in the expression of genes involved in jasmonic acid biosynthesis (irlox3), conjugation (irjar4) and perception (ircoi1) were used to study the function of these genes in the field and in the regulation of transcriptional and metabolic responses. In the field, damage from Noctuidea larvae was four- to fivefold higher on irlox3 and ircoi1 than on wild-type (WT) plants, whereas damage to irjar4 plants was similar to WT levels. Damage rates reflected plant survival rates; fewer irlox3 (78%) and ircoi1 (22%) plants survived compared with irjar4 and WT plants of which all plants survived. Gene expression profiling in leaves 3 h after simulated herbivory revealed differential regulation of ∼700 genes in irlox3 and ircoi1 plants but of only six genes in irjar4 compared with WT plants. Surprisingly, transcriptional responses were not reflected in metabolomic responses; 48 h after simulated herbivory, irjar4 plants showed a 50% overlap in their metabolic profile with ircoi1 plants. Together, these results reveal that SnJAR4 does not play a direct role in herbivore defence, but suggests that SnJAR4 is involved in responses other than those to herbivory.

Published

2011

7. Lipoxygenase-mediated modification of insect elicitors: Generating chemical diversity on the leaf wound surface

Author

Arjen VanDoorn, Gustavo Bonaventure, and Ian T. Baldwin

Subjects

Types of tobacco, Insecta, biology, media_common.quotation_subject, fungi, food and beverages, Attenuata, Plant Science, Insect, Lipoxygenases, biology.organism_classification, Article Addendum, Elicitor, Plant Leaves, chemistry.chemical_compound, Lipoxygenase, Biosynthesis, chemistry, Manduca sexta, Nicotiana attenuata, Tobacco, Botany, biology.protein, Animals, media_common

Abstract

Plants can distinguish mechanical damage from larval folivory through the recognition of specific constituents of larval oral secretions (OS) which are deposited on the surface of leaf wounds during feeding. Fatty acid-amino acid conjugates (FACs) are major constituents of the OS of Lepidopteran larvae and they are strong elicitors of herbivore-induced defense responses in several plant species, including the wild tobacco Nicotiana attenuata. When OS from Manduca sexta larvae is deposited on N. attenuata wounded leaves, the major FAC N-linolenoyl-glutamic acid (18:3-Glu) is modified within seconds by a heat labile process. Some of the major modified forms are oxygenated products derived from 13-lipoxygenase activity and one of these derivatives, 13-oxo-13:2-Glu, is an active elicitor of enhanced JA biosynthesis and differential monoterpene emission in N. attenuata leaves.

Published

2010