Presence and partial characterisation of a major proteolytic enzyme in the larval gut of Callosobruchus maculatus

Protease activity in the gut of larvae of the bruchid beetle, Callosobruchus maculatus (a storage pest of cowpea seeds), has been investigated to help clarify nutritional mechanisms in view of reports that these insects carry out little or no proteolysis (Applebaum, 1964). Larval gut homogenates showed protease activity against a variety of different protein substrates, but did not hydrolyse a synthetic trypsin substrate. The proteolytic activity had a pH optimum of 5.4. It was not inhibited by serine protease inhibitors, but was inhibited by reagents reactive against-SH groups. Protein trypsin inhibitors from legume seeds which are not hosts to C. maculatus (soybean, limabean) were not effective inhibitors of the larval proteolytic activity but a cowpea protease inhibitor preparation and aprotinin partially inhibited proteolysis. The latter two inhibitors also inhibited the plant thiol protease papain. It is suggested that C. maculatus has replaced the normal insect proteases with an enzyme similar to plant proteases to evade the antimetabolic effects of trypsin/chymotrypsin inhibitors in seeds. Besides trypsin/chymotrypsin inhibitors, cowpea seeds also contain proteins which inhibit papain; these inhibitors were purified and were shown to be effective inhibitors of C. maculatus larval protease.

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Mise en évidence et caractérisation partielle d'une enzyme protéolytique importante du tube digestif des larves de Callosobruchus maculatus

Résumé Callosobruchus maculatus attaque les graines stockées particulièrement de Vigna unguiculata. L'activité protéolytique du tube digestif des larves a été examinée. Aucune hydrolyse n'a été observée contre la N-benzoyl arginine p-nitroanilide (substrat de la trypsine synthétique), mais la protéolyse a été mise en évidence en utilisant la viciline de V. unguiculata comme substrat naturel ou la myoglobine comme substrat artificiel, le p.H optimum est de 5,4. Les inhibiteurs chimiques des protéases de la sérine n'ont pas altéré l'activité enzymatique, mais les réactifs du groupe SH l'ont inhibée. Nous suggérons que cette protéase est une thiol protéase, c'est à dire avec un groupe actif semblable à celui de la papaïne, protéase végétale. En accord avec cette hypothèse, les inhibiteurs de protéine efficaces seulement contre la trypsine, c'est à dire les inhibiteurs de la trypsine de Glycine max et de la trypsine de Phaseolus lunatus n'affectent pas cette protéase larvaire, tandis que les protéines avec une faible action inhibitrice contre la papaïne (préparation inhibitrice de la protéase de V. unguiculata, aprotinine) inhibent partiellement la protéolyse par des extraits de tube digestif larvaire.Des inhibiteurs protéiques de papaïne extraits de graines de V. unguiculata sont des inhibiteurs très efficaces de la protéase larvaire. On peut penser que C. maculatus contient une protéase semblable aux protéases végétales, plutôt qu'aux protéases classiques, d'insectes, ce qui permet d'éviter les effets antimétaboliques directs des inhibiteurs de protéase (inhibiteurs de trypsine et de chymotrypsine) trouvés en quantité relativement importantes dans les graines de légumineuses.

     

Impact of oilseed rape expressing the insecticidal serine protease inhibitor, mustard trypsin inhibitor-2 on the beneficial predator Pterostichus madidus

Abstract Insect-resistant transgenic plants have been suggested to have deleterious effects on beneficial predators feeding on crop pests, through transmission of the transgene product by the pest to the predator. To test this hypothesis, effects of oilseed rape expressing the serine protease inhibitor, mustard trypsin inhibitor -2 (MTI-2), on the predatory ground beetle Pterostichus madidus were investigated, using diamondback moth, Plutella xylostella as the intermediary pest species. As expected, oilseed rape expressing MTI-2 had a deleterious effect on the development and survival of the pest. However, incomplete pest mortality resulted in survivors being available to predators at the next trophic level, and inhibition studies confirmed the presence of biologically active transgene product in pest larvae. Characterization of proteolytic digestive enzymes of P. madidus demonstrated that adults utilize serine proteases with trypsin-like and chymotrypsin-like specificities; the former activity was completely inhibited by MTI-2 in vitro. When P. madidus consumed prey reared on MTI-2 expressing plants over the reproductive period in their life cycle, no significant effects upon survival were observed as a result of exposure to the inhibitor. However, there was a short-term significant inhibition of weight gain in female beetles fed unlimited prey containing MTI-2, with a concomitant reduction of prey consumption. Biochemical analyses showed that the inhibitory effects of MTI-2 delivered via prey on gut proteolysis in the carabid decreased with time of exposure, possibly resulting from up-regulation of inhibitor-insensitive proteases. Of ecological significance, consumption of MTI-2 dosed prey had no detrimental effects on reproductive fitness of adult P. madidus.     

Wheat containing snowdrop lectin (GNA) does not affect infection of the cereal aphid <Emphasis Type="Italic">Metopolophium</Emphasis><Emphasis Type="Italic">dirhodum</Emphasis> by the fungal natural enemy<Emphasis Type="Italic">Pandora neoaphidis</Emphasis>

Studies were carried out to determine if susceptibility of the cereal aphid Metopolophium dirhodum to the fungus Pandora neoaphidis was affected by wheat expressing snowdrop lectin (GNA). Aphid infection did not differ significantly between the transgenic GNA and non-transformed lines (91 and 82%, respectively). Fecundity also did not differ between aphids on the two lines, and was ca. 18 nymphs adult⁻¹. Time to infection was ca. 5 days for M. dirhodum on both lines in two of three assays. Our results indicate that wheat expressing GNA would not compromise the efficacy of P. neoaphidis as a biocontrol agent.     

Effects of the plant alkaloid castanospermine as an antimetabolite of storage pests

The secondary plant compound castanospermine is toxic to the larvae of the bruchid beetle Callosobruchus maculatus F. and the flour beetle Tribolium confusum J. & V. when incorporated into the diet. The larval alimentary tract -D-glucosidase and -D-glucosidase activities of C. maculatus were strongly inhibited by castanospermine in a non-competitive and competitive manner respectively. The larval alimentary tract -D-glucosidase activity of T. confusum was strongly inhibited in a competitive manner, but the -D-glucosidase activity was not markedly inhibited; however, the -D-galactosidase activity exhibited strong uncompetitive inhibition.

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Résumé La castanospermine, substance secondaire végétale, incorporée à l'aliment est toxique pour les larves de Callosobruchus maculatus F. et de Tribolium confusum J. & V. Les activités -D-glucosidase et -D-glucosidase du tube digestif de C. maculatus ont été fortement inhibées par la castanospermine respectivement de façon non-compétitive et compétitive. L'activité -D-glucosidase du tube digestif de T. confusum était, fortement inhibée d'une façon compétitive, mais l'activité -D-glucosidase n'était pas nettement inhibée; cependant, l'activité -D-galactodase ne présentait pas une forte inhibition compétitive.

     

A cDNA encoding an S-locus specific glycoprotein from Brassica oleracea plants containing the S5 self-incompatibility allele

Summary A cDNA sequence homologous to the Brassica self-incompatibility locus specific glycoprotein (SLSG) sequence was isolated from stigmas of B. oleracea plants homozygous for the S₅ allele. The nucleotide sequence of this cDNA was obtained and compared with the S₆ allelic form of the SLSG. Evidence is presented which indicates that this sequence does not specify the self-incompatibility response of pollen.Abbreviations SDS sodium dodecyl sulphate - PVP polyvinylpyrrolidone - BSA bovine serum albumin - SLSG self-incompatibility locus specific glycoprotein     

Micronucleus induction by azobenzene and 1,2-dibromo-3-chloropropane in the rat: evaluation of a triple-dose protocol

A triple-dose protocol was evaluated in the rat bone-marrow micronucleus test using azobenzene and 1,2-dibromo-3-chloropropane (DBCP) as test compounds. Dosing with 250 mg/kg azobenzene over 3 consecutive days led to an accumulation of micronucleated polychromatic erythrocytes. The magnitude of the effect was the same as that obtained after a single dose of 750 mg/kg in a previous study. In the single-dose study the effect was only detected at the 48 h sampling time. With the triple-dose protocol the effect was apparent 24 h after the last dose--thus eliminating the need for more than one sampling time. In the case of DBCP, the positive effect observed after a single dose diminished with increasing number of doses for the low dose but plateaued for the high dose, accompanied by a marked cytotoxic effect. It is therefore concluded, that for one of the compounds, azobenzene, the triple-dose protocol provided an advantage whereas for the other, DBCP, it failed to do so and led to results which are rather difficult to interpret. Furthermore, the number of animals necessary to select an appropriate dose level appears to be higher than in the single-dose protocol.     

Use of cowpea trypsin inhibitor (CpTI) to protect plants against insect predation

Transgenic tobacco plants expressing a cowpea trypsin inhibitor gene have enhanced levels of insect resistance to a variety of insect pests. Furthermore, insect bioassay has shown the cowpea trypsin inhibitor to have anti-metabolic activity to insect pests of the orders Lepidoptera, Coleoptera and Orthoptera. The advantages and disadvantages of this approach to developing insect resistant crops is discussed in relationship to other methods, including conventional plant breeding and chemical control. Eventually it is hoped that African farmers will benefit from this industrially sponsored research.