Role of Proteases in Extra-Oral Digestion of a Predatory Bug,<i>Andrallus spinidens</i>

Zibaee, Arash; Hoda, Hassan; Fazeli‐Dinan, Mahmoud

doi:10.1673/031.012.5101

Cited by 28 publications

(16 citation statements)

References 35 publications

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“…Fourth and fifth instars are mostly solitary (Manley 1982). A. spinidens uses extraoral digestion and attacks by inserting stylets into the prey body (Cohen 1998;Zibaee et al 2012). This attack behavior is easy to observe, making the nymphs of A. spinidens well suited for tests on the individual effects of group predation.…”

Section: Introductionmentioning

confidence: 99%

Prey size affects the costs and benefits of group predation in nymphs of the predatory stink bug Andrallus spinidens (Heteroptera: Pentatomidae)

Hyodo

Himuro

Fujisaki³

2014

J Ethol

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Group predation promotes foraging efficiency because it increases the size of prey that can be killed and improves hunting success compared to solitary predation. However, group predation may increase competition among group members during feeding. Earlier studies have focused on the advantages of group predation, but little is known about the costs and benefits of group predation for individual members of the group. Here, we show that the costs and benefits of group predation for individuals of the predatory stink bug Andrallus spinidens vary with prey size in laboratory experiments. We found that when A. spinidens fed on small prey, group predation did not significantly increase foraging efficiency but did increase competition for food among group members. In contrast, when prey was large, group predation promoted foraging efficiency, and competition over food was not detected. Our results suggest that group predation by A. spinidens nymphs is advantageous for individual members because it enables each member to hunt larger prey that could not be hunted alone. However, when group size was large or prey size was small, group predation increased competition among group members.

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Section: Introductionmentioning

confidence: 99%

Prey size affects the costs and benefits of group predation in nymphs of the predatory stink bug Andrallus spinidens (Heteroptera: Pentatomidae)

Hyodo

Himuro

Fujisaki³

2014

J Ethol

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“…Due to the short period of contact of the saliva with the plant food outside the intestinal tract, little digestion occurs before ingestion and normally low levels of digestive enzymes (mainly carbohydrases, such as polygalacturonases and amylases) are found in the saliva compared to the midgut (Agusti and Cohen, ; Walker and Allen, ; Mehrabadi et al., ). This situation is in contrast to what is observed in predaceous bugs, where pre‐oral digestion is normal and high concentrations of digestive enzymes (specially peptidases) can be found in the saliva (Zeng and Cohen, ; Zibaee et al., ).…”

Section: Introductionmentioning

confidence: 61%

DIGESTION IN ADULT FEMALES OF THE LEAF‐FOOTED BUG Leptoglossus zonatus (HEMIPTERA: COREIDAE) WITH EMPHASIS ON THE GLYCOSIDE HYDROLASES α‐AMYLASE, α‐GALACTOSIDASE, AND α‐GLUCOSIDASE

Rocha

Pinto

Samuels

et al. 2014

Arch Insect Biochem Physiol

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The leaffooted bug, Leptoglossus zonatus (Hemiptera: Coreidae) is an emerging pest of several crops around the World and up to now very little is known of its digestive system. In this article, glycoside hydrolase (carbohydrase) activities in the adult midgut cells and in the luminal contents of L. zonatus adult females were studied. The results showed the distribution of digestive carbohydrases in adults of this heteropteran species in the different intestinal compartments. Determination of the spatial distribution of α-glucosidase activity in L. zonatus midgut showed only one major molecular form, which was not equally distributed between soluble and membrane-bound isoforms, being more abundant as a membrane-bound enzyme. The majority of digestive carbohydrases were found in the soluble fractions. Activities against starch, maltose and the synthetic substrate NPαGlu were found to show the highest levels of activity, followed by enzymes active against galactosyl oligosaccharides. Based on ion-exchange chromatography elution profiles and banding patterns in mildly denaturing electrophoresis, both midgut α-amylases and α-galactosidases showed at least two isoforms. The data suggested that the majority of carbohydrases involved in initial digestion were present in the midgut lumen, whereas final digestion of starch and of galactosyl oligosaccharides takes place partially within the lumen and partially at the cell surface. The complex of carbohydrases here described was qualitatively appropriate for the digestion of free oligosaccharides and oligomaltodextrins released by α-amylases acting on maize seed starch granules.

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“…These biochemical characteristics can sometimes be related to the environmental conditions under which the insect species evolved. For example, the salivary gland proteinases involved in extraoral digestion in Heteroptera exhibit a low temperature optimum (Oliveira et al., ; Zibaee et al., ). Similarly, among‐ and within‐species differences in the efficiency of substrate cleavage and sensitivity to TLCK (Novillo et al., ; Lam et al., ; Oliveira et al., ; Zibaee et al., ) might reflect adaptation to a specific food.…”

Section: Structural Diversity Of Insect Digestive Trypsinsmentioning

confidence: 99%

“…Experiments with omnivores (García et al., ) as well as comparisons between phylogenetically close species with phytozoophagous and zoophytophagous feeding habits reflect the inverse ratio of proteinases and amylase on plant‐ and animal‐based diets. Investigations on representatives of Heteroptera belonging to the same families (Cohen, ; Cohen & Wheeler, ; Agusti & Cohen, ; Zeng & Cohen, ; Zhu et al., ; Swart et al., ; Wright et al., ; Azevedo et al., ; Guedes et al., ; Bigham & Hosseininaveh, ; Zibaee et al., ) have shown that incorporation of animals into a diet led to evolution of the following physiological adaptations: (1) higher protease activity in salivary glands than gut, (2) a decreased amylase‐to‐trypsin ratio, and (3) an increased proportion of trypsin in total protease activity. Strictly phytophagous Miridae lack salivary gland proteinases (Cohen & Wheeler, ), whereas the presence of trypsin and the lack of chymotrypsin, elastase, and amylase are characteristics of a strictly zoophagous feeding habit (Cohen, ).…”

Section: Structural Diversity Of Insect Digestive Trypsinsmentioning

confidence: 99%

Dietary and phylogenetic correlates of digestive trypsin activity in insect pests

Lazarević

Janković-Tomanić

2015

Entomologia Exp Applicata

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Because food proteins are crucial for insect survival, growth, and fecundity, enzymes involved in their digestion have attracted the attention of fundamental entomologists studying the mechanisms and patterns of dietary specialization, and applied entomologists searching for more efficient modes of pest control. Most insects digest proteins using trypsin, an endopeptidase that cleaves polypeptide chains on the carboxyl side of arginine and lysine, two basic amino acids. As the most ancestral proteinase, trypsin is wide-spread in the digestive tract of insects from various orders and with various feeding habits. The present review focuses on biochemical and molecular characteristics, mechanisms of regulation, and adaptive/non-adaptive changes of trypsin activity in response to heterogeneous food environments in a phylogenetic context. Within-and among-species variations in trypsin structure and regulation that contribute to better matching with specific food types are emphasized. We also discuss the relevance of these data for choosing an appropriate strategy for control of insect pests. Pest control strategies to reduce trypsin activity by interfering with substrate binding or trypsin synthesis and secretion have been suggested. Successful application of these procedures requires a multidisciplinary approach and knowledge about digestive physiology of the pest, as well as the structural characteristics of trypsins that determine their interaction with proteinaceous inhibitors and other food compounds, about patterns of developmental changes in trypsin gene expression, adaptive responses of insects to food composition, and various environmental effects on trypsin activity.

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Role of Proteases in Extra-Oral Digestion of a Predatory Bug,Andrallus spinidens

Cited by 28 publications

References 35 publications

Prey size affects the costs and benefits of group predation in nymphs of the predatory stink bug Andrallus spinidens (Heteroptera: Pentatomidae)

Prey size affects the costs and benefits of group predation in nymphs of the predatory stink bug Andrallus spinidens (Heteroptera: Pentatomidae)

DIGESTION IN ADULT FEMALES OF THE LEAF‐FOOTED BUG Leptoglossus zonatus (HEMIPTERA: COREIDAE) WITH EMPHASIS ON THE GLYCOSIDE HYDROLASES α‐AMYLASE, α‐GALACTOSIDASE, AND α‐GLUCOSIDASE

Dietary and phylogenetic correlates of digestive trypsin activity in insect pests

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