Abstract
Galls are defined as modifications of the normal developmental design of plants, produced by a specific reaction to the presence and activity of a foreign organism. Although different organisms have the ability to induce galls in plants, insect-induced galls are the most elaborate and diverse. Some hypotheses have been proposed to explain the induction mechanism of plant galls by insects. The most general hypothesis suggests that gall formation is triggered by the action of chemical substances secreted by the gall inducer, including plant growth regulators such as auxins, cytokinins, indole-3-acetic acid (IAA), and other types of compounds. However, the mode of action of these chemical substances and the general mechanism by which the insect could control and manipulate plant development and physiology is still not known. Moreover, resulting from the complexity of the induction process and development of insect galls, the chemical hypothesis is very unlikely a complete explanation of the mechanism of induction and morphogenesis of these structures. Previous and new highlights of insect gall systems with emphasis on the induction process were analyzed on the basis of the author’s integrated point of view to propose a different perspective of gall induction, which is provided in this article. Due to the extraordinary diversity of shapes, colors, and complex structures present in insect galls, they are useful models for studying how form and structure are determined at the molecular level in plant systems. Furthermore, plant galls constitute an important source of material for the study and exploration of new chemical substances of interest to humans, due to their physiological and adaptive characteristics. Considering the finely tuned control of morphogenesis, structural complexity, and biochemical regulation of plant galls induced by insects, it is proposed that an induction mechanism mediated by the insertion of exogenous genetic elements into the genome of plant gall cells could be involved in the formation of this kind of structure through an endosymbiotic bacterium.
Highlights
The aim of this paper is to provide an updated general description of plant galls induced by insects, focused on the induction process as well as how, according to an integrated interpretation by the author, the associated characteristics of these structures and the biological processes they regulate could be the basis for an alternative induction hypothesis mediated by the insertion of exogenous genetic elements into the plant gall cells through some endosymbiotic bacteria originating from the insect
The chemical induction hypothesis has been accepted with some discretion and questioning as the general mechanism of plant gall induction, there are, so far, no related studies on a putative induction mechanism involving exogenous genetic elements in the process of insect gall formation
A possibility exists that the control of induction and morphogenesis of insect galls could be under strict genetic control, possibly mediated by the insertion of mobile genetic elements into the genome of plant gall cells
Summary
A general scheme for the structural complexity of plant galls and the taxonomic groups of their inducers is proposed by the author from the reviewed literature (Fig. 1) (Rohfritsch & Shorthouse, 1982; Mani, 1992; Davey, Curtis, Gartland, & Power, 1994; Gómez & Kisimova-Horovitz, 1997; Williams, 1994; Valentine, 2003; Sá et al, 2009; Raman 2011; Álvarez, Molist, González-Sierra, Martínez, & Nieto-Nafría, 2014; Formiga, Silveira, Fernandes, & Isaias, 2015; Muñoz-Viveros et al, 2014; Guimarães, Neufeld, Santiago-Fernandes, & Viera, 2015; Hernández-Soto et al, 2015; Suzuki, Moriguchi, & Yamamoto, 2015; Mellah, Enhassaïni, & Álvarez, 2016; Oliveira et al, 2016; Richardson, Body, Warmund, Schultz, & Appel, 2016; Ferreira, Álvarez, Avritzer, & Isaias, 2017; Palomares-Rius, Escobar, Cabrera, Vovlas, & Castillo, 2017; Cotrim Costa, Gonçalves da Silva Carneiro, Santos Silva, & Isaias, 2018; Nogueira, Costa, Silva, & Isaias, 2018); a consensus on this approach does not exist, and substantial variation can be observed within each group
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