Chymotrypsin and Trypsin Inhibitory Activity of Some Medicinal Plants Collected from Rize (Türkiye).

In this research, the evaluation of in vitro chymotrypsin and trypsin inhibitory activities of ten plant species collected from Rize were aimed, and fractions that showed strong activity were analyzed through HPLC. Daphne pontica L. and Mentha longifolia (L.) L. were found to have the highest chymotrypsin inhibitory activities (87.75 and 84.24 % inhibition). Similarly, the highest trypsin inhibitory activity was observed in D. pontica (%99.93 inhibition), followed by Sambucus ebulus L. flowers (87.47 % inhibition). Extracts showing strong enzyme inhibition were fractioned and subjected to activity tests. The highest chymotrypsin inhibitory activity was observed in the n-hexane fraction of D. pontica (%80.70 inhibition), while the highest trypsin inhibitory activity was found in the n-butanol fraction of S. ebulus (%86.81 inhibition). HPLC studies determined that the 80 % ethanol extract of D. pontica and its dichloromethane and ethyl acetate fractions contained umbelliferone. It was found that chlorogenic acid was present in the 80 % ethanol extracts of S. ebulus flowers. M. longifolia was found to contain chlorogenic acid, caffeic acid, luteolin-7-glucoside, and rosmarinic acid. M. longifolia has been identified as the plant exhibiting the highest antioxidant activity in ABTS and CUPRAC tests, consistent with its high phenolic and flavonoid content.

Multifunctional bioactive properties of hydrolysates from colocynth (Citrullus colocynthis) seeds derived proteins: Characterization and biological properties.

Citrullus colocynthis (Colocynth) has gained a great deal of interest in their applications as indigenous nutraceutical and as a functional food ingredient. The intact colocynth seed protein was enzymatically hydrolyzed using proteolytic enzymes (alcalase, bromelain, and chymotrypsin) at different time intervals of 3, 6, and 9 h. The highest degree of hydrolysis (87.82%) was observed in chymotrypsin derived colocynth seed protein hydrolysates (CSPH) for 9 h. The CSPHs was further investigated through in-vitro assay to explore its potential biological activity such as antioxidant, inhibition of enzymatic marker related to diabetes (DPP-IV, α-glucosidase and α-amylase) and hyperlipidaemia (cholesteryl esterase and pancreatic lipase). Chymotrypsin hydrolysate showed the strongest DPPH (65.7 mM TEAC) and ABTS (525.2 mM TEAC) radical scavenging activity after 6 h of hydrolysis. Moreover, chymotrypsin-treated CSPH for 6 h inhibited cholesteryl esterase (IC50 = 13.68 µg/mL) and pancreatic lipase (IC50 = 14.12 µg/mL) significantly when compared to native protein. Whereas, bromelain and alcalase treated hydrolysate for 6 h effectively inhibited α-glucosidase and α-amylase at an inhibitory concentration of IC50 = 13.27 µg/mL and of IC50 = 17 µg/mL. Overall, the findings indicated that protein hydrolysates exhibited superior biological activity than intact colocynth seed proteins isolate (CSPI) and could be a sustainable source of bioactive peptides.

Phytochemical, enzymatic and biological studies of root extracts of Farsetia hamiltonii Royle.

Farsetia hamiltonii Royle is a medicinal plant of Cholistan desert, Pakistan, traditionally used for treating diabetes, oxidative stress, arthritis, fever, gastrointestinal and respiratory diseases. This study represents unprecedented phytochemical, enzymatic and biological properties of F. hamiltonii root extracts to prove floric uses. Evaluation of Phytochemical constituents was done by screening, total flavonoid, phenolic contents and gas chromatography-mass spectrometry. The phytochemical screening revealed the presence of glycosides, bounded anthraquinones, flavonoids, saponins, steroids, coumarins and diterpenes in root extracts. Eight compounds were identified in dichloromethane extract, whereas one compound was identified in methanol extract of root part of F. hamiltonii. The dichloromethane extract possesses significant lipoxygenase, chymotripsin and cholinesterase enzyme inhibition activities, whereas methanol extract possess lipoxygenase, alpha glucosidase, chymotrypsin and acetylcholinesterase enzyme inhibition activities. The antibacterial activity of methanol extract was significant against selected five microbial strains. Nine compounds were reported in root part of F. hamiltonii first time. The enzyme inhibition assays on anti-cholinesterase, anti-alpha glucosidase, antilipoxygenase, antichymotripsin and antibacterial activities were found significant for the extracts of root parts of F. hamiltonii. Therefore, results of this study justify folkloric therapeutic potential of F. hamiltonii root in treating diabetes, inflammations and infectious diseases.

Methionine played a positive role in improving the intestinal digestion capacity, anti-inflammatory reaction and oxidation resistance of grass carp, Ctenopharyngodon idella, fry.

A study was carried out to appraisal the function of methionine on intestinal digestion and the health of grass carp (Ctenopharyngodon idella) fry (initial weight 0.36 ± 0.01 g). The fry were fed graded dietary methionine levels (0.33%-1.20% dry matter) in 18 recirculatory tanks (180 L). After an 8-week breeding experiment, the results revealed that 0.71%-1.20% dietary methionine levels markedly upregulated the mRNA levels of intestinal digestion including trypsin, amylase, chymotrypsin and AKP, and 0.71%-0.87% dietary methionine level significantly increased intestinal trypsin activities compared with the 0.33% dietary methionine level. For inflammation, 0.71%-1.20% dietary methionine levels downregulated the mRNA levels of NF-κBp65, IL-1ß, IL-6, IL-8, IL-15 and IL-17D, whereas upregulated the mRNA levels of anti-inflammatory cytokines, including IL-4/13B, IL-10 and IL-11. In terms of antioxidants, although dietary methionine levels had no significant effect on the expression of most core genes of the Nrf2/ARE signaling pathway, such as Nrf2, Keap 1, GPx4, CAT, Cu/Zn-SOD. Furthermore, dietary methionine levels had no significant effect on the expression of p38MAPK, IL-12p35, TGF-ß2 and IL-4/13A. 0.71%-1.20% dietary methionine levels still increased the mRNA levels of GPx1α, GSTR and GSTP1. Furthermore, higher intestinal catalase activity and glutathione contents were also observed in fry fed 0.71%-1.20% diets. In summary, 0.71%-1.20% dietary methionine levels played a positive role in improving the intestinal digestion capacity of digestion, anti-inflammatory reaction and oxidation resistance of grass carp fry. This study provided a theoretical basis for improving the survival rate and growth of grass carp fry.

Antitumor Effect of Inula viscosa Extracts on DMBA-Induced Skin Carcinoma Are Mediated by Proteasome Inhibition.

The aim of this work is to evaluate the antitumor effect mediated by the proteasome inhibitors of Inula viscosa extracts on skin carcinogenesis. Female Swiss albino mice were divided into five groups depending on the combination of skin cancer-inducing 7,12-dimethylbenz(a)anthracene (DMBA) and extract of Inula viscosa treatments. Histology of the affected skin and measurement of proteasome activity were performed to demonstrate the effect of Inula viscosa on mice. The identification of the molecules responsible for this inhibitory activity was carried out through the docking studies. The results showed that Inula viscosa extracts inhibit the development of papilloma in mice. Therefore, the best chemopreventive action of Inula viscosa was observed on mice in which extract treatment was performed before and after the induction of skin carcinogenesis. It was revealed that the ingestion of extracts Inula viscosa delays the formation of skin papillomas in animals and simultaneously decreases the size and number of papillomas, which is also reflected on the skin histology of the mice treated. Structure-activity relationship information obtained from component of Inula viscosa particularly tomentosin, inuviscolide, and isocosticacid demonstrated that distinct bonding modes in ß 1, ß 2, and ß 5 subunits determine its selectivity and potent inhibition for ß 5 subunit.

Characterization of a Bowman-Birk type trypsin inhibitor purified from seeds of Solanum surattense.

A Bowman-Birk type trypsin inhibitor protein (SSTI) from seeds of the medicinal plant Solanum surattense was isolated, purified and characterized. SSTI showed a single band on SDS-PAGE corresponding to 11.4 kDa molecular weight. It is a glycoprotein (2.8% glycosylation) that differentially interacted with trypsin and chymotrypsin in a concentration-dependent manner. Its peptide sequence is similar to other Bowman-Birk type protease inhibitors found in Glycine max and Phaseolus acutifolius. The inhibitory activity was stable over a wide range of pH (1-10) and temperatures (10-100° C). Far-UV Circular Dichroism (CD) studies showed that SSTI contains ß sheets (~ 23%) and α helix (~ 6%) and demonstrated structural stability at wide pH and high temperature. The kinetic analysis revealed a noncompetitive (mixed) type nature of SSTI and low inhibitor constant (Ki) values (16.6 × 10-8 M) suggested strong inhibitory activity. Isothermal titration calorimetric analysis revealed its high affinity towards trypsin with dissociation constant (Kd) 2.28 µM.

[Lucifensin, Chymotrypsin Proteins and Molecular Characterization of Lucilia sericata]. / Lucilia sericata'nin Lusifensin, Kimotripsin Proteinleri ve Moleküler Karakterizasyonlari.

Lucilia sericata, one of the most common species of the Calliphoridae family, is found in large numbers around droppings, garbage and carcasses. This fly species is important in medicine, forensics and veterinary medicine. The larvae of the parasite are important both in veterinary medicine and in combating of the animal diseases, as they cause significant losses in animal production. Since they are one of the first fly colonies to settle on corpses, they can also be used in determining the time of death in the field of forensic medicine. L.sericata larvae used in Maggot debridement treatment (MDT) which is a treatment method with fly larvae, help wound healing by destroying necrotic tissues and infectious agents in wounds. While the larvae protect themselves from polymicrobial flora with the proteins they secrete; at the same time, they make an interesting contribution to wound healing with these molecules secreted. One of the most important molecules discovered in recent years is lucimycin which has an antifungal effect. In addition, lucifensin and chymotrypsin secretions have gained importance in recent years due to their antibacterial effects and especially their effects on resistant gram-negative and positive bacteria. There is a need for the discovery of the molecules that can be alternative in the treatment of non-healing wounds or that can be applied together with existing antibiotics. It is necessary to investigate the antimicrobial characterization of the compounds involved in maggot therapy and their mechanisms. The aim of this study was to clone, molecular characterization and analysis of the antigenic structures of lucifensin and chymotrypsin genes, which are important defensin molecules secreted by L.sericata larvae used in MDT. Primarily, the cultivation of L.sericata colonies to be used in molecular studies were performed. Later, RNA isolation and cDNA synthesis from larvae were carried out. Lucifensin and chymotrypsin genes were individually inserted into the pJet1.2 plasmid by cloning reactions. The presence of the recombinant plasmid was confirmed by PCR screening and DNA sequence analysis methods in all steps. Nucleotide and amino acid based molecular characterizations of these two genes, which are important larval components in wound treatment, have been made. Antigenic regions and three-dimensional structures of the proteins were obtained. The isolate numbered MT495795 of the L.sericata lucifensin gene and the isolate numbered MT495794 of the chymotrypsin gene were registered to GenBank. This data reported for the first time in the Republic of Turkey will contribute to the literature. From the beginning of the 20th century until the discovery of the antibiotics, MDT was applied especially on soldiers but did not find much application area after the discovery of the antibiotics. Drug resistance, which is the most important problem encountered in the treatment of the wounds today, has led to the recall of MDT and its mechanism of action. In this study the data, obtained will constitute a source for the multidisciplinary studies of the scientists from different fields on the discovery and applicability of the important moleculesin the treatment of the wounds.

Effect of 2-hydroxy-4-(methylthio) butanoic acid and acidifier on the performance, chyme pH, and microbiota of broilers.

This study was aimed to explore the comparative acidifying properties of 2-hydroxy-4-(methylthio) butanoic acid (HMTBA) and a combination of DL-methionine (DLM) and acidifier in male broiler production. A total of 480 1-day-old broiler chicks were randomly divided into four treatments: A (low HMTBA, 0.057% HMTBA); B (low acidifier, 0.05% DLM + 0.057% acidifier); C (high HMTBA, 0.284% HMTBA); and D (high acidifier, 0.25% DLM + 0.284% acidifier). At 21 d, growth performance, chyme pH, digestive enzyme activities, and intestinal microflora were measured. The pH of crop, gizzard, and ileum contents was higher in the HMTBA treatment group than in DLM + acidifier treatment group. Furthermore, acidifier supplementation promoted growth of butyrate-producing bacteria such as Faecalibacterium, whereas high HMTBA (0.284%) inhibited the proliferation of acid-producing bacteria including Roseburia and Collinsella. The chymotrypsin activity was lower in the HMTBA group than in the DLM + acidifier group. In contrast, high-level HMTBA group showed higher average daily gain and average daily feed intake than the DLM + acidifier group. These results suggested that HMTBA work through different pathways with DLM plus acidifier.

TLC-Bioautography as a fast and cheap screening method for the detection of α-chymotrypsin inhibitors in crude plant extracts.

TLC-Bioautography is a fast and effective method for assessing the inhibitory effect of compounds present in plant extracts against microbial species. However, this method has a hidden, currently underutilized potential for evaluating the presence of inhibitory compounds against selected enzymes. The aim of this work was to design a functional TLC-Bioautography method for the evaluation of protease inhibitors present in plant extracts. The method is based on the hydrolysis of Nα-benzoyl-DL-arginine-p-nitroanilide hydrochloride (BApNA) by α-chymotrypsin as a representative serine protease to produce coloured para-nitroaniline (pNA). Derivatization of pNA with both sodium nitrite and N-(1-naphthyl) ethylenediamine (NPED) leads to the formation of a pink azo dye. This step improves the resolution of active compounds on the chromatogram, which appear as light spots on a pink background. The developed method was tested for the analysis of protease inhibitors in different plant materials such as grape pomace from Vitis vinifera, Picea abies bark, Hippophae rhamnoides berries, Hordeum sativum bran, Triticum aestivum bran and Avena sativa bran. Plant extracts, which could not be analysed by a commonly used spectrophotometric method due to interference, were assessed by this method.

Coffee extracts effectively inhibit the formation of α-chymotrypsin amyloid-like fibrils in aqueous ethanol in vitro.

In this study, an in vitro α-chymotrypsin aggregation model was used to demonstrate that certain extracts of commercial coffees effectively inhibit protein aggregation in 55% ethanol at pH 7.0. To detect the anti-amyloidogenic effect of the various coffee extracts, turbidity measurements and Congo red binding assays were performed as well as the determination of the total polyphenol content of the extracts. The greatest fibril formation inhibitory effect was exerted by the Eduscho coffee extract, which contained also the most of the phenolic compounds. The Eduscho coffee extract inhibited the fibrillation of the α-chymotrypsin dose dependently. Coffee extracts are effective anti-aggregation agents, and their beneficial effects strongly correlate with the total phenolic content.

Colorado potato beetle chymotrypsin genes are differentially regulated in larval midgut in response to the plant defense inducer hexanoic acid or the Bacillus thuringiensis Cry3Aa toxin.

When Colorado potato beetle larvae ingested potato plants treated with the plant defense inducer compound hexanoic acid, midgut chymotrypsin enzyme activity increased, and the corresponding chymotrypsin genes were differentially expressed, evidence of the larval digestive proteolytic system's plasticity. We previously reported increased susceptibility to Cry3Aa toxin in larvae fed hexanoic acid treated plants. Here we show that the most expressed chymotrypsin gene in larvae fed hexanoic acid treated plants, CTR6, was dramatically downregulated in Cry3Aa intoxicated larvae. lde-miR-965-5p and lde-miR-9a-5p microRNAs, predicted to target CTR6, might be involved in regulating the response to hexanoic acid but not to Cry3Aa toxin.

Light scattering determination of the stoichiometry for protease-potato serine protease inhibitor complexes.

The interaction between pancreatic proteases and a serine protease inhibitor purified from potato tubers was investigated by chromatography-coupled light scattering measurements. The molar mass distribution in the chromatogram was compared to theoretical values calculated for the different possible combinations of complexes and free components by three different approaches, namely section analyses of the chromatograms, full mass average determination and mass distribution analysis. This revealed that the inhibitor was able to bind trypsin in a 2:1 complex, whereas the data for chymotrypsin clearly showed a limitation to 1:1 complex regardless of the molar ratio in the injected samples. The same experiment carried out with elastase and the potato inhibitor gave only weak indications of complex formation under the conditions used.

Bacteriocin production by Lactobacillus plantarum ST16Pa in supplemented whey powder formulations.

Whey, the main by-product of the dairy industry, is frequently disposed of in the environment without any treatment due to the high cost of this process. Alternatively, whey can be used as a medium to culture lactic acid bacteria and produce value-added products such as bacteriocins. In this work, we attempted to improve bacteriocin production by Lactobacillus plantarum ST16Pa in a whey powder formulation supplemented with additional sources of carbon, nitrogen, and vitamin B12 at different levels and varying the agitation intensity according to a Plackett-Burman experimental design. Only the addition of tryptone positively influenced the production of this bacteriocin. The results allowed us to identify a supplemented whey formulation, comprising 150 g/L of whey total solids plus 10 g/L of tryptone and soybean extract, whose fermentation by Lb. plantarum ST16Pa in shake flasks under agitation at 150 rpm led to a cell-free supernatant with an antimicrobial activity against Listeria innocua 6a CLIST 2865 (inhibition zone of 13.23 mm) close to that previously obtained in de Man, Rogosa and Sharpe medium by other authors. These results are significant considering that the same strain cultured in cheese whey did not previously display any antimicrobial activity.

Inhibition of the formation of amyloid-like fibrils with spices, especially cloves.

During the study of inhibition of amyloid fibril formation, α-chymotrypsin protein was developed in 55% ethanol at pH 7.0. We investigated the inhibitory effect of different spices on amyloid fibril formation using turbidity measurements and Congo red binding assays. We found that all spices except the black pepper and caraway seed prevented fibril formation. The highest inhibition was measured with the clove, which reduced the amount of aggregates by 90%. We studied the inhibitory effect of the cloves at different concentrations on aggregation, it was found that the inhibitory activity of clove is dependent on concentration. We have measured the total phenolic content of the spice extracts too. Based on all these findings we have come to the following conclusion: Our results indicate that spices can contain other compounds too - not only phenolic compounds - which influence the formation of amyloid fibrils, and the effectiveness of various phenolic compounds are different.

A Bowman-Birk Inhibitor from the Seeds of Luetzelburgia auriculata Inhibits Staphylococcus aureus Growth by Promoting Severe Cell Membrane Damage.

Staphylococcus aureus is a multidrug-resistant bacterium responsible for several cases of hospital-acquired infections, which constitute a global public health problem. The introduction of new healthcare strategies and/or the discovery of molecules capable of inhibiting the growth or killing S. aureus would have a huge impact on the treatment of S. aureus-mediated diseases. Herein, a Bowman-Birk protease inhibitor ( LzaBBI), with strong in vitro antibacterial activity against S. aureus, was purified to homogeneity from Luetzelburgia auriculata seeds. LzaBBI in its native form is a 14.3 kDa protein and has a pI of 4.54, and its NH2-terminal sequence has high identity with other Bowman-Birk inhibitors. LzaBBI showed a mixed-type inhibitory activity against both trypsin and chymotrypsin, respectively, and it remained stable after both boiling at 98 °C for 120 min and incubation at various pHs. Scanning electron microscopy revealed that LzaBBI disrupted the S. aureus membrane integrity, leading to bacterial death. This study suggests that LzaBBI is a powerful candidate for developing a new antimicrobial to overcome drug resistance toward reducing hospital-acquired infections caused by S. aureus.

Inhibition of the formation of amyloid-like fibrils using herbal extracts.

We tested the amyloid fibril formation inhibitory effect of seven teas diluted in 55% ethanol at pH 7.0 at a protein concentration of 0.15 mg/ml α-chymotrypsin. In the experiments we investigated the formation and inhibition of amyloid fibrils by turbidity measurements, aggregation kinetics experiments and Congo red binding assay. The results suggest that the different teas effectively inhibit the formation of amyloidlike fibrils. The two most potent inhibitors were peppermint and melilot, extracts which almost completely inhibited the formation of aggregates in 5-fold dilution. The inhibitory effect on the aggregation formation of melilot and peppermint extracts was concentration dependant. The extent of inhibition was found to be proportional with the total concentration of phenolic compounds.

Separation and identification of bioactive peptides from stem of Tinospora cordifolia (Willd.) Miers.

Enzyme hydrolysates (trypsin, papain, pepsin, α-chymotrypsin, and pepsin-pancreatin) of Tinospora cordifolia stem proteins were analyzed for antioxidant efficacy by measuring (1) 1,1-diphenyl-2-picrylhydrazyl (DPPH•) radical scavenging activity, (2) 2,20-azinobis(3-ethylbenzothiazoline-6-sulfonic acid) (ABTS+) radical scavenging capacity, and (3) Fe2+ chelation. Trypsin hydrolysate showed the strongest DPPH• scavenging, while α-chymotrypsin hydrolysate exhibited the highest ABTS+ scavenging and Fe2+ chelation. Undigested protein strongly inhibited the gastrointestinal enzymes, trypsin (50% inhibition at enzyme/substrate ratio = 1:6.9) and α-chymotrypsin (50% inhibition at enzyme/substrate ratio = 1:1.82), indicating the prolonged antioxidant effect after ingestion. Furthermore, gel filtration purified peptide fractions of papain hydrolysates exhibited a significantly higher ABTS+ and superoxide radical scavenging as compared to non-purified digests. Active fraction 9 showing the highest radical scavenging ability was further purified and confirmed by MALDI-TOF MS followed by MS/MS with probable dominant peptide sequences identified are VLYSTPVKMWEPGR, VITVVATAGSETMR, and HIGININSR. The obtained results revealed that free radical scavenging capacity of papain hydrolysates might be related to its consistently low molecular weight hydrophobic peptides.

Inhibitory site of α-hairpinin peptide from tartary buckwheat has no effect on its antimicrobial activities.

Antimicrobial peptides (AMPs) are known to play important roles in the innate host defense mechanisms of most living organisms. Protease inhibitors from plants potently inhibit the growth of a variety of pathogenic bacteria and fungi. Therefore, there are excellent candidates for the development of novel antimicrobial agents. In this study, an antimicrobial peptide derived from tartary buckwheat seeds (FtAMP) was obtained by gene cloning, expression and purification, which exhibited inhibitory activity toward trypsin. Furthermore, the relationship between the antimicrobial and inhibitory activities of FtAMP was investigated. Two mutants (FtAMP-R21A and FtAMP-R21F) were generated through site-directed mutagenesis. Inhibitory activity analysis showed that both FtAMP-R21A and FtAMP-R21F lost trypsin-inhibitory activity. However, FtAMP-R21A and FtAMP-R21F showed novel inhibitory activities against elastase and α-chymotrypsin, respectively, suggesting that Arg-21 in the inhibitory site loop is specific for the inhibitory activity of FtAMP against trypsin. Antimicrobial assays showed that all three peptides exhibited strong antifungal activity against Trichoderma koningii, Rhizopus sp., and Fusarium oxysporum. These results showed that the changes in FtAMP inhibitory site have no effect on their antifungal properties.

Retrograded starch/pectin coated gellan gum-microparticles for oral administration of insulin: A technological platform for protection against enzymatic degradation and improvement of intestinal permeability.

Gellan gum microparticles coated with colon-specific films based on retrograded starch and pectin was developed for enhancing the oral release of insulin (INS). The system developed promoted an impressive protection of INS (80%) after 120 min of incubation with trypsin and alpha-chymotrypsin, while only 3% of free INS remained intact after the same time, possibility due to the calcium chelating activity of the polymers in inhibiting the proteolytic activity. In vitro INS release in media simulating the gastrointestinal portions revealed a pH-dependent behavior, as well as the significance of the coating in lowering the release rates in relation to their counterparts. The permeability of INS on Caco-2 cells monolayers and excised rat intestine were significantly improved, mainly due to the influence of the anionic polymers on tight junctions opening, along with the excellent mucoadhesive properties of the gellan gum. All these features together contributed greatly to the hypoglycemic effect observed after the oral administration of the INS-loaded MP in diabetic rats, with reduction of up to 51% of blood glucose levels. The important findings of this work should contribute to the advances about the search of alternatives for oral administration of INS.

Purification and properties of the chymotrypsin inhibitor from wild emmer wheat (Triticum dicoccoides) of Israel and its toxic effect on beet armyworm, Spodoptera exigua.

A novel chymotrypsin inhibitor, which detected in the seed of wild emmer wheat (Triticum dicoccoides), was purified by ion-exchange chromatography, affinity chromatography and Ultracentrifugation. On the basis of its specificity, this inhibitor was named WeCI (wild emmer chymotrypsin inhibitor). SDS-PAGE analysis displayed that the purified WeCI is a single chain polypeptide with a molecular weight of approximately 13kDa. The inhibition constants (Ki) for amylase and bovine pancreatic chymotrypsin were 1.12×10-9M and 2.41×10-9M, respectively. Automated sequencing and mass spectrometry analyses revealed that WeCI is a neutral monomeric protein consisting of 119 residues. In vitro, WeCI strongly suppressed bovine pancreatic chymotrypsin as well as chymotrypsin-like activities separated from the midgut of the beet armyworm Spodoptera exigua. No inhibitory activities were found against bovine pancreatic trypsin, bacterial subtilisin, or porcine pancreatic elastase. The primary structure of WeCI was markedly similar (46-95%) to those of several proteins belonging to the wheat crop chymotrypsin/α-amylase inhibitor superfamily and displayed the typical sequence motif of the α-amylase inhibitor-seed storage protein group. WeCI significantly inhibited the growth and development of Spodoptera exigua, dependent on inhibitor concentration. WeCI significantly increased the mortality rate of Spodoptera exigua and caused a significant decrease in its fertility.