Isolation and characterization of a galactorhamnan polysaccharide from the seed coat of Canavalia ensiformis that is toxic to the cowpea weevil (Callosobruchus maculatus)

We have isolated a water-soluble polysaccharide from the Jack bean [Canavalia ensiformis (L) DC] seed coat that was shown to be highly detrimental to larval development of the cowpea weevil (Callosobruchus maculatus) (Coleoptera: Bruchidae). Determination of the composition and structure of this polysaccharide showed that it is a galactorhamnan with an M_w of 883.0, containing 92% rhamnose and 8% galactose. The polymer is formed by a main chain of rhamnose (1to2) substituted at O-4 by galactose nonreducing end-units. Immunolocalisation by light and electron microscopy showed that this polysaccharide is localised in the innermost cell layer of the seed coat and also in cotyledon tissues in the cytoplasm space. The presence of this toxic polysaccharide in the testa of a non-host seed may have been important for the evolutionary discrimination of legume seeds by bruchids.     

Purification and Characterization of a Basic Amino Acid-Specific Peptidase from Seeds of Jack Bean (Canavalia ensiformis)

A peptidase was purified from seeds of Canavalia ensiformis by extraction with water, ammonium sulfate precipitation, and successive chromatographies on DEAE-Toyopearl 650M, butyl-Toyopearl 650M, and G-3000 SW columns. The enzyme has an apparent molecular weight of 41,000. Activity is maximal at pH 9 and 60°C. The enzyme hydrolyzed synthetic substrates at Arg-X and Lys-X bonds more rapidly than bovine trypsin did, and did not cleave protein or ester substrates. The enzyme was inhibited by alkylamines and several serine protease inhibitors such as diisopropylfluorophosphate, chymostatin, leupeptin, and benzamidine. Cysteine protease-, metalloprotease-, and proteinous trypsin inhibitors were ineffective. Inhibition by alkylamines was dependent on length of the alkyl chains. From the substrate specificity and susceptibility to chemicals, the enzyme is a unique peptidase with trypsin-like specificity.     

Insecticidal activity of Poppy (Papaver somniferum L.) seed oil against cowpea weevil (Callosobruchus maculatus F.) in stored cowpea

In this study, the insecticidal effect of Poppy (Papaver somniferum) seed oil was investigated against Callosobruchus maculatus (Bruchidae) in cowpea, at different concentrations and exposure time. The Poppy seed oil at 2, 4, 6, 8 and 10?ml/kg was tested against adults of C. maculatus, and the mortality was counted after 24, 48 and 72?h of exposure. All tests were conducted at 27–30?°C and 65?±?5% r.h. The experiments were carried out based on the factorial experiment by randomized complete design with four replications. Twenty-five insects with 0–24?h old were used for each replication. The effect of Poppy seed oil on the reduction of emergence of insects in next generation (F₁) was also assayed. The results of experiments indicate the significant differences between concentrations and exposure time (p?<?0.0001), and the increase of concentrations and exposure time increased mortality. The amount of mortality at high concentrations was remarkable, and highest mortality rate (96.91%) was recorded at 10?ml/kg, after 72?h of exposure. The application of oil significantly reduced F₁ progeny production and even at lowest concentration (2?ml/kg), the amount of F₁ production was reduced more than 70%, compared with control treatment. Complete (100%) reduction in progeny production was recorded at the rates of 8 and 10?ml/kg. The results of seed germination assay showed no significant differences between control and treated seed, and no harmful effect was observed on the seed germination. These results proved that Poppy seed oil can be used as a controlling agent of storage pests, especially C. maculatus, although more detailed studies are necessary.     

Comparative seed resistance in eighty cowpea accessions to the seed bruchid,Callosobruchus maculatus (Fabricius) (Coleoptera: Bruchidae)

Eighty cowpea accessions comprising both improved and local were assessed for their resistance to Callosobruchus maculatus (F.) attack under laboratory conditions (29 ± 3?°C and 65 ± 5% R.H.). Sixty-nine accessions were derived from the International Institute for Tropical Agriculture breeding programmes, four were local cultivars, while seven were improved cultivars from national research institutes. Results showed that there were significant differences among the accessions in terms of number of initial bruchid eggs laid on them, adult emergence, number of seeds damaged and bruchid-induced seed weight loss at three months after artificial infestation with C. maculatus. On IT04K-334-2, IT04K-343-1, IT06K-141, IT99K-216-48-1, IT99K-494-6 and IT99K-529-2, fewer initial eggs were laid and no adult emergence, seed damage or weight loss and were considered highly resistant to C. maculatus. On the other hand, IT03K-337, IT04K-217-51, IT04K-332-1, IT04K-339-1, IT06K-188-49, IT81D-1137, IT845-2231-15, IT93K-452-1, IT04K-154-1, IT96K-610, IT97K-1069-6, IT97K-390-2, Ife Bpc, IT99K-573-2-1, Ife Modupe, IT845-2246, Drum, Ife Brown and Oloyin were the most susceptible with the highest damage indices values (p?<?0.05). The range of each of the resistance indices measured in the susceptible varieties was: number of initial eggs laid (61–100), adult emergence (40.0–62.10%), number of seeds damaged (53.0–85.5) and seed weight loss (58.0–66.25%).     

Expression and properties of arginyl-tRNA synthetase from jack bean (Canavalia ensiformis)

The coding region for arginyl-tRNA synthetase from jack bean (Canavalia ensiformis) has been sequenced and cloned into the bacterial expression vector pET32a. Transformation of BL21 cells and induction with IPTG results in the high level expression of the protein fused N-terminally with thioredoxin and bearing a His-tag. A substantial proportion of the enzyme is recovered in the soluble fraction of the cell lysate (10 mg per litre cell culture) and can be isolated with metal-affinity technology. The thioredoxin component and the His-tag portion of the fused protein could be removed with thrombin, resulting in a homogeneous product retaining an N-terminal extension of 3.2 kDa compared to the native arginyl-tRNA synthetase. Both full-length fusion and thrombin-treated products proved to be active in aminoacylation, with similar kinetic parameters.     

Resistance to the cowpea weevil (Callosobruchus maculatus) larva in pods of cowpea (Vigna unguiculata)

Thirty cowpea, Vigna unguiculata (L.) Walpers, cultivars were evaluated as intact pods to determine if any possessed resistance to the cowpea weevil, Callosobruchus maculatus (Fabr.). Pod resistance was measured as pre-establishment larval mortality (PreM); those larvae dying after egg hatch but before penetrating into the seeds, and as post-establishment within-seed mortality (PostM); those larvae dying after penetrating into the seeds. Among the 30 varieties examined, PreM ranged from 57.9% to 99.4% and PostM ranged from 6.7% to 82.6%. Ten varieties exhibited total intact pod mortality (mortality from egg hatch to adult emergence from the seed) greater than 95%.Physical measurements were made of several pod and seed characteristics to ascertain whether the observed pod resistance was due to seed factors, pod-wall factors, or to interactions between the pod and seeds. Although resistance to breakage (from handling plus pod dehiscence) is a necessary characteristic for overall pod protection against C. maculatus; other factors are also important. Among the other pod and seed characteristics measured to identify major resistance factors, seed coat thickness was the one most highly correlated with pod resistance. Our results suggest that interactions between pod-wall and seed coat characteristics play a large role in pod resistance of cowpeas to C. maculatus.     

四纹豆象不同地理种群的遗传分化

【目的】通过对四纹豆象Callosobruchus maculatus Fabricius不同地理种群mtDNA-Cytb和COⅠ基因部分序列进行比较, 分析其不同地理种群间的遗传分化情况, 为揭示其与生物入侵的关系及入侵过程中种群系统发育地理格局与演变机制提供依据。【方法】用PCR产物直接测序法对分别来自中国海南、喀麦隆、韩国和泰国的四纹豆象4个地理种群的mtDNA-Cytb和COⅠ序列进行测序, 运用软件MEGA3.1对四纹豆象不同地理种群mtDNA-Cytb和COⅠ序列进行序列分析, 以绿豆象C. chinensis为外群构建了不同单倍型的分子系统树。【结果】34条420 bp Cytb序列中共检测到14个多态位点和5种单倍型, 33条822 bp COⅠ序列中检测到28个多态位点和9种单倍型, 其中4种单倍型为独享单倍型, 其余为全部或部分种群的共享单倍型。AMOVA分析结果显示, 四纹豆象4个地理种群间的遗传结构差异并不明显, 遗传差异主要发生在地理种群内。对4个地理种群进行了Fst值和基因流动统计, 结果表明4个地理种群间既存在着一定数量的基因交流, 也存在一定程度的遗传分化。【结论】根据单倍型分布格局初步推测, 中国不可能是四纹豆象的原产地, 而喀麦隆有可能是原产地之一, 并且喀麦隆种群与泰国种群之间的基因交流比较充分, 而中国种群与其他种群之间的遗传分化相对较大。     

Consequences of inbreeding for the cowpea seed beetle, Callosobruchus maculatus (F.)(Coleoptera: Bruchidae)

Inbreeding is said to reduce vigour and fitness. It may also determine how a population responds to selection. Local populations of Callosobruchus maculatus , the cowpea seed beetle, are established annually from small numbers of founders and the species has been distributed to many parts of the world where isolated populations may have been founded by very small numbers of individuals. After more than 20 generations of inbreeding, inbred lines have been shown to diverge from a common ancestral stock in similar directions with respect of some variables such as developmental speed, but haphazardly in respect of other parameters such as male weight. The respective roles of drift and of selection as effective evolutionary forces in inbred lines are discussed in the light of these results. It is argued that some intraspecific differences in C. maculatus may be explained as a product of periodic inbreeding, but that the process does not impair the ability to adapt to local conditions so contributing to the status of the species as a pest of international importance.     

Effects of Phaseolus vulgaris (Fabaceae) seed coat on the embryonic and larval development of the cowpea weevil Callosobruchus maculatus (Coleoptera: Bruchidae)

Bruchid beetles infest various seeds. The seed coat is the first protective barrier against bruchid infestation. Although non-host seed coats often impair the oviposition, eclosion and survival of the bruchid Callosobruchus maculatus larvae, morphological and biochemical aspects of this phenomenon remain unclear. Here we show that Phaseolus vulgaris (non-host) seed coat reduced C. maculatus female oviposition about 48%, increased 83% the seed penetration time, reduced larval mass and survival about 62 % and 40 % respectively. Interestingly, we found no visible effect on the major events of insect embryogenesis, namely the formation of the cellular blastoderm, germ band extension/retraction, embryo segmentation, appendage formation and dorsal closure. Larvae fed on P. vulgaris seed coat have greater FITC fluorescence signal in the midgut than in the feces, as opposed to what is observed in control larvae fed on Vigna unguiculata. Cysteine protease, α-amylase and α-glucosidase activities were reduced in larvae fed on P. vulgaris natural seed coat. Taken together, our results suggest that although P. vulgaris seed coat does not interfere with C. maculatus embryonic development, food digestion was clearly compromised, impacting larval fitness (e.g. body mass and survivability).     

A defective seed coat pattern (Net) is correlated with the post-transcriptional abundance of soluble proline-rich cell wall proteins

The pigmented seed coats of several soybean (Glycine max (L.) Merr.) plant introductions and isolines have unusual defects that result in cracking of the mature seed coat exposing the endosperm and cotyledons. It has previously been shown that the T (tawny) locus that controls the color of trichomes on stems and leaves also has an effect on both the structure and pigmentation of the seed coat. Distribution of pigmentation on the seed coat is controlled by alleles of the I (inhibitor) locus. It was also found that total seed coat proteins were difficult to extract from pigmented seed coats with i T genotypes because they have procyanidins that exhibit tannin properties. We report that the inclusion of poly-L-proline in the extraction buffer out-competes proteins for binding to procyanidins. Once this problem was solved, we examined expression of the proline-rich cell wall proteins PRP1 and PRP2 in pigmented genotypes with the dominant T allele. We found that both homozygous i T and i t genotypes have reduced soluble PRP1 levels. The epistatic interaction of the double recessive genotype at both loci is necessary to produce the pigmented, defective seed coat phenotype characteristic of seed coats with the double recessive i and t alleles. This implies a novel effect of an enzyme in the flavonoid pathway on seed coat structure in addition to its effect on flavonoids, anthocyanidins, and proanthocyanidins. No soluble PRP1 polypeptides were detectable in pigmented seed coats (i T genotypes) of isolines that also display a net-like pattern of seed coat cracking, known as the Net defect. PRP2 was also absent in one of the these lines. However, both PRP1 and PRP2 cytoplasmic mRNAs were found in the Net-defective seed coats. Together with in vitro translation studies, these results suggest that the absence of soluble PRP polypeptides in the defective Net lines is post-translational and could be due to a more rapid or premature insolubilization of PRP polypeptides within the cell wall matrix.     

Farm-scale trials to compare the entomopathogenic fungus Beauveria bassiana with pirimiphos methyl + deltamethrin and essential oil of lemon grass for protection of stored cowpea against Callosobruchus maculatus (Coleoptera: Bruchidae)

In trials conducted in Benin, conidia of Beauveria bassiana were evaluated as a control method against the cowpea weevil, Callosobruchus maculatus , in stored cowpea. In the first trial using a high artificial infestation of C.   maculatus in 8-kg batches of cowpea in jerry cans under typical conditions, concentrations of 1 × 10⁹ and 1 × 10¹¹ conidia kg⁻¹ were compared with lemon grass oil at 2 mL kg⁻¹ and the synthetic pesticide mixture of 1.5% pirimiphos methyl + 0.05% deltamethrin at 0.5 g kg⁻¹. After 2 months of storage, seed losses (SD) were 20.63 (5.3)% in the untreated control, 8.04 (3.2)% in the low-dose B.   bassiana group, 3.12 (1.3)% in the high-dose B.   bassiana group, 2.52 (0.4)% in the lemon grass oil group and 0% in the pirimiphos methyl + deltamethrin group. In a second trial with natural infestations in 50-kg batches of cowpea in 200-L drums, treatment with B.   bassiana 1 × 10¹¹ conidia kg⁻¹ was compared with pirimiphos methyl + deltamethrin at 0.5 g kg⁻¹. After 6 months of storage on six farms, losses reached 30.76 (1.5)% in the control, 1.28 (0.2)% in the pirimiphos methyl + deltamethrin group and 3.69 (0.6)% in the B.   bassiana group.     

S100 proteins in mouse and man: from evolution to function and pathology (including an update of the nomenclature)

The S100 protein family is the largest subgroup within the superfamily of proteins carrying the Ca2+-binding EF-hand motif. Despite their small molecular size and their conserved functional domain of two distinct EF-hands, S100 proteins developed a plethora of tissue-specific intra- and extracellular functions. Accordingly, various diseases such as cardiomyopathies, neurodegenerative and inflammatory disorders, and cancer are associated with altered S100 protein levels. Here, we review the different S100 protein functions and related diseases from an evolutionary point of view. We analyzed the structural variations, which are the basis of functional diversification, as well as the genomic organization of the S100 family in human and compared it with the S100 repertoires in mouse and rat. S100 genes and proteins are highly conserved between the different mammalian species. Moreover, we identified evolutionary related subgroups of S100 proteins within the three species, which share functional similarity and form subclusters on the genomic level. The available S100-specific mouse models are summarized and the consequences of our results are discussed with regard to the use of genetically engineered mice as human disease models. An update of the S100 nomenclature is included, because some of the recently identified S100 genes and pseudogenes had to be renamed.