Digestive proteases during development of larvae of red palm weevil, Rhynchophorus ferrugineus (Olivier, 1790) (Coleoptera: Curculionidae).

The evolution of digestive proteases during larval development of Rhynchophorus ferrugineus (Olivier, 1790) has been studied. A progressive increase of protease activity has been found. The optimum pH for proteolytic activity against azocasein was determined. Caseinograms revealed an active complex of alkaline proteases from the early stages of the development. From the apparent molecular masses, three groups of proteases have been found - high molecular-mass proteases, medium molecular-mass proteases, and low molecular-mass proteases. Studies using specific protease inhibitors showed the major presence of serine proteases in gut extracts. The results obtained from larvae reared on different substrates have made possible a comparative assessment of the influence of diet on the development of the digestive enzymatic system. Larvae fed on an artificial diet showed a complete pattern of digestive proteases. Data suggest that this diet seems to be suitable for future research with this insect pest.     

Characterization and partial purification of the digestive proteases of the black field cricket,Teleogryllus commodus (Walker): Elastase is a major component

The major proteases of the black field cricket, Telleogryllus commodus, digestive system have been identified, partially purified and characterized. Classification of proteases into different classes of endo- and exopeptidases was made on the ability to hydrolyse specific synthetic substrates, pH optima and their interaction with a range of specific chemical and proteinaceous inhibitors. The major activities detected were trypsin, elastase, an uncharacterized proteinase (proteinase Tc), leucine aminopeptidase and carboxypeptidases A and B. Chymotrypsin activity was very low and neither cysteine endopeptidase nor metalloendopepitidase activities were found. Elastase is a newly discovered protease activity for insects.Trypsin, elastase and proteinase Tc have molecular weights of 24,300, 19,500 and 23,600, respectively; show alkaline pH optima and chemical inhibition indicative of serine endopeptidases; and interact most strongly with their characteristic class of proteinaceous inhibitors. Elastase and proteinase Tc are inhibited by a very similar spectrum of specific inhibitors, but the latter lacks activity against all specific synthetic substrates tested. Leucine aminopeptidase and carboxypeptidase A have molecular weights of 94,000 and 39,700, respectively, and show optimum activity at pH 8 and pH 9, respectively.The equilibrium dissociation constants for trypsin, elastase and proteinase Tc with 25 serine proteinase inhibitors were measured. Values spanning a 1000-fold range were obtained in each case.     

Proteolytic activity and protease classes in the zooplankton species Calanus finmarchicus

The temperature optimum for the general proteolytic activity in the crude extract of Calanus finmarchicus was 50 degrees C and the pH optimum was found to be 7. The use of specific protease inhibitors resulted in the identification of at least three protease classes in the crude extract of C. finmarchicus. Those classes were serine, metallo and aspartic proteases. The serine and metallo proteases were found to be dominant under neutral to alkaline conditions and the aspartic proteases were dominant under acidic conditions. The cysteine proteases, if at all present, did not seem to be active or present in any substantial amount. The data presented points towards controlling and preserving the protein content in fresh C. finmarchicus.     

Identification and characterisation of the excreted/secreted serine proteases of larvae of the old world screwworm fly, Chrysomya bezziana

Serine proteases are the major proteolytic activity excreted or secreted from Chrysomya bezziana larvae as demonstrated by gelatin gel analyses and the use of specific substrates, benzoyl-Arg-p-nitroanilide and succinyl-Ala-Ala-Pro-Phe-p-nitroanilide. Serine proteases were identified through their inhibition by 4-(2-aminoethyl)-benzene sulphonyl fluoride and classified as trypsin- and chymotrypsin-like on the basis of inhibition by tosyl-L-lysine chloromethyl ketone and tosyl-L-phenylalanine chloromethyl ketone, respectively. Like most insect serine proteases, the C. bezziana enzymes were active over broad pH range from mildly acidic to alkaline. The excreted or secreted serine proteases were purified by affinity chromatography using soybean trypsin inhibitor. A different subset of the serine proteases was isolated by salt elution from washed larval peritrophic matrices. Amino-terminal sequencing identified both trypsin and chymotrypsin-like sequences in the excreted or secreted pool with the latter being the dominant protease, whereas trypsin was the dominant species in the peritrophic matrix eluant. These results suggest that trypsin was possibly preferably adsorbed by the peritrophic matrix and may act as a final proteolytic processing stage as partially digested and ingested polypeptides pass through the peritrophic matrix. Immunoblot analysis on dissected gut tissues indicated that the anterior and posterior midguts were the main source of the serine proteases, although a novel species of 32 kDa was predominantly associated with the peritrophic matrix. Proteases are a target for a partially protective immune response and understanding the complexity of the secreted and digestive proteases is a necessary part of understanding the mechanism of the host's immunological defence against the parasite.     

Midgut proteases from Mamestra configurata (Lepidoptera: Noctuidae) larvae: characterization,cDNA cloning,and expressed sequence tag analysis

The activities of digestive protease within the midgut of Mamestra configurata (bertha armyworm) larvae were examined using specific substrates and protease inhibitors. The bulk of the activity was associated with serine proteases comprising trypsin-, chymotrypsin-, and elastase-like enzymes. At least 10-15 serine protease isozymes were detected using one-dimension gelatin gel electrophoresis. Cysteine or aspartic protease activities were not present; however, amino- and carboxypeptidase activities were associated with the midgut extract. Midgut proteases were active in the pH range of 5.0-12.0 with peaks at pH 7.5 and 11.0. In general, the middle region of the midgut exhibited a higher pH (approximately 8.0) than either the posterior or anterior regions (approximately 7.3-7.7). Moulting larvae possessed a neutral gut pH that was 0.5-1.5 units below that of feeding larvae. Degenerate PCR and expressed sequence tag (EST)-based approaches were used to isolate 30 distinct serine protease encoding cDNAs from a midgut-specific cDNA library including 8 putative trypsins, 9 chymotrypsins, 1 elastase, and 12 whose potential activities could not be determined. cDNAs encoding three amino- and two carboxypeptidases were also identified. Larvae feeding upon artificial diet containing 0.2% soybean trypsin inhibitor experienced a significant delay in development.     

Cloning and characterization of chymotrypsin- and trypsin-like cDNAs from the gut of the Hessian fly [Mayetiola destructor (Say)

Fifteen unique cDNA clones encoding trypsin- or chymotrypsin-like proteins were cloned and characterized from a gut cDNA library derived from Hessian fly [Mayetiola destructor (Say)] larvae. Based on sequence similarities, the cDNAs were sorted into five gene groups, which were named MDP1 to MDP5. Two of the gene groups, MDP1 and MDP2, encoded chymotrypsin-like proteins; the other three encoded putative trypsins. All deduced proteins have conserved His(87), Asp(136), and Ser(241) residues for the catalytic triad and three pairs of cysteine residues for disulfide bridge configurations. The substrate specificity determination residue at position 235 was also conserved in the putative trypsins and chymotrypsins. In addition, all the deduced protein precursors had a typical secretion signal peptide and activation peptide. Northern blot analysis revealed that all these gene groups were exclusively expressed in the larval stage. The expression profiles for each gene group differed significantly in different ages of the larva, as well as in different tissues. Protease activity analysis of gut extract, using specific inhibitors, demonstrated that serine proteases were the major digestive enzymes in the gut of M. destructor larvae. Serine protease inhibitors inhibited as much as 90% proteolytic activities of gut extract, whereas inhibitors specific to other proteases, including cysteine proteases, aspartic proteases, and metallo-proteases, inhibited only 10-24% of gut protease activity.     

Characterisation of digestive protease in the rose sawfly,Arge rosae Linnaeus (Hymenoptera: Argidae)

Insect midgut proteases are excellent targets for insecticidal agents such as protease inhibitors. These inhibitors are used for producing transgenic plants, resistant to pests. For achieving this goal, it is necessary to find the nature of specific proteases and their properties for adopting possible pest management procedure. Therefore, characterisation of the enzymes in the gut of the rose sawfly, Arge rosae (Hymenoptera: Argidae), responsible for proteolysis, was performed using a range of synthetic substrates and specific inhibitors. The optimum conditions for general proteases and trypsin were achieved at pH 10. The highest activity for general proteases was obtained at a temperature of 45°C. The use of specific inhibitors and SDS-PAGE (sodium dodecyl sulfate polyacrylamide gel electrophoresis) provided evidence to suggest that most of the proteases belonged to the serine group because of high inhibitory effect of phenyl methane sulfonyl fluoride on total proteolytic activity. Also, inhibition assays and zymogram analysis showed that metalloproteases are present in A. rosae digestive system. These results indicated that A. rosae larvae mainly used serine proteases for protein digestion, with chymotrypsin as the dominant form. The kinetic parameters of trypsin-like proteases using N-benzoyl-dl-arg-p-nitroanilide as substrate indicated that the K _m and V _max values of trypsin in the gut of the fifth instar larvae were 730 ± 17.3 μM and 456 ± 13.85 nmol min^?1 mg^?1 protein, respectively.     

Identification and primary characterization of specific proteases in the digestive juice of Archachatina ventricosa

The profile of sedimentation on a 4-20% (w/v) linear sucrose gradient of the digestive juice of the mollusk Archachatina ventricosa revealed the presence of at least four specific proteases. A first peak, corresponding to a sedimentation coefficient of 3.9 S, contained two endoproteases that could be assayed, one with Leu-pNA and the other with Met-pNA. Their activity was maximal at pH 8.0 and increased in the presence of Ca(2+) ions. Both enzymes were inhibited by the chelating agent 1,10-phenanthroline but their thermal inactivation kinetics were different. A second protease peak was observed at 6.8 S and corresponded to a metallo-endoprotease that hydrolyzed with a maximal activity at pH 8.0 only the amide bonds of peptide substrates having a threonine residue at the P1' position. A last protease peak identified at 9.0 S contained a protease that preferentially acted on tripeptides, such as Val-Pro-Leu (diprotin B) and Thr-Val-Leu, releasing the C-terminal residue. Unlike the proteases identified in the two other peaks, its activity was maximal at acid pH (5.0) and was inhibited by the serine protease inhibitors. Together these results show the potential of A. ventricosa as a source of specific proteases.     

Characterization of digestive proteolytic activity in Lygus hesperus Knight (Hemiptera: Miridae)

The tarnished plant bug, Lygus hesperus Knight, is a pest that causes considerable economic losses to vegetables, cotton, canola, and alfalfa. Detailed knowledge of its digestive physiology will provide new opportunities for a sustainable pest management approach to control this insect. Little is known about the different protease class contributions to the overall digestion of a specific protein. To this end, the proteolytic activities in female adult L. hesperus salivary gland and midgut homogenates were quantified over a range of pH's and time points, and the contribution of different classes of proteases to the degradation of FITC-casein was determined. In the salivary gland, serine proteases were the predominant class responsible for caseinolytic activity, with the rate of activity increasing with increasing pH. In contrast, both aspartic and serine proteases contributed to caseinolytic activity in the midgut. Aspartic protease activity predominated at pH 5.0 and occurred immediately after incubation, whereas serine protease activity predominated at pH 7.5 after a 9h delay and was resistant to aprotinin. The salivary serine proteases were distinctly different from midgut serine proteases, based on the tissue-specific differential susceptibility to aprotinin and differing pH optima. Collectively, the caseinolytic activities complement one another, expanding the location and pH range over which digestion can occur.     

12a-羟基鱼藤酮对斜纹夜蛾生殖力的影响及其作用机理

为探讨12a-羟基鱼藤酮对斜纹夜蛾Prodenia litura (Fabricius)生殖力的影响及其作用机理, 本文测定了该虫取食12a-羟基鱼藤酮后的产卵量。在用高效液相色谱仪确定其卵巢组织中存在12a-羟基鱼藤酮后, 通过MTT法测定该化合物对斜纹夜蛾卵巢细胞（PL细胞）的细胞毒性,并利用流式细胞仪检测该化合物对PL细胞细胞周期、膜电位、胞内钙离子浓度、线粒体膜电位的影响。结果表明:斜纹夜蛾幼虫取食12a-羟基鱼藤酮后产卵量下降80％以上, 并从卵巢组织中检测出该化合物。12a-羟基鱼藤酮对PL细胞增殖具有抑制活性, 其IC₅₀为6.6 mg/L。该化合物将PL细胞周期阻滞于S期, 导致PL细胞膜电位、线粒体膜电位和细胞内游离钙离子浓度均显著升高。该化合物导致斜纹夜蛾繁殖力降低。12a-羟基鱼藤酮将PL细胞增殖阻滞于细胞周期的S期。同时, 该化合物对卵巢细胞具有较弱的毒杀活性, 导致一些卵巢细胞死亡。由于上述原因, 卵巢细胞数量逐渐减少而导致卵巢管萎缩。卵巢管的萎缩使卵巢管内的卵母细胞不能发育成卵细胞, 故其生殖力下降。     

Purification of a 6.5 kDa protease inhibitor from Amazon Inga umbratica seeds effective against serine proteases of the boll weevil Anthonomus grandis

A 6.5 kDa serine protease inhibitor was purified by anion-exchange chromatography from the crude extract of the Inga umbratica seeds, containing inhibitor isoforms ranging from 6.3 to 6.7 kDa and protease inhibitors of approximately 19 kDa. The purified protein was characterized as a potent inhibitor against trypsin and chymotrypsin and it was named I. umbratica trypsin and chymotrypsin inhibitor (IUTCI). MALDI-TOF spectra of the IUTCI, in the presence of DTT, showed six disulfide bonds content, suggesting that this inhibitor belongs to Bowman-Birk family. The circular dichroism spectroscopy indicates that IUTCI is predominantly formed by unordered and beta-sheet secondary structure. It was also characterized, by fluorescence spectroscopy, as a stable protein at range of pH from 5.0 to 7.0. Moreover, this inhibitor at concentration of 75 microM presented a remarkable inhibitory activity (60%) against digestive serine proteases from boll weevil Anthonomus grandis, an important economical cotton pest.     

Proteolytic activities in body and faecal extracts of the storage mite, Acarus farris

Trypsin, chymotrypsin, cathepsins B and D, aminopeptidase and carboxypeptidases A and B were detected in body extracts of the storage mite Acarus farris (Oudemans) (Astigmata: Acaridae). Faeces-enriched medium exhibited higher (10-50-fold) specific protease activity rates than those measured with mite body extracts for trypsin, chymotrypsin and carboxypeptidases A and B, suggesting that they are involved in mite digestion. However, the activity of cathepsin B was only three-fold higher in faecal than in body extracts, indicating that its presence in the lumen of the digestive tract is low compared to that of serine proteases. The activity of aminopeptidases was higher in mite bodies, indicating that they might be membrane bound. Cathepsin D activity was only detected in body extracts, indicating that this enzyme is not a digestive protease in this species. Zymograms resolved three major bands of gelatinolytic activity, but at least one protease form was only present in body extracts. Protease inhibitors of different specificity were tested in vivo to establish their potential as control agents. The development of A. farris was significantly retarded when the immature stages were fed on artificial diet containing inhibitors of serine and cysteine proteases and aminopeptidases, whereas no such effect was found with inhibitors of aspartyl proteases and carboxypeptidases. Interestingly, the most significant effects on A. farris occurred when a combination of inhibitors targeting different enzyme classes was supplied mixed in the diet, suggesting a synergistic toxicity. Several plant lectins were also tested, but only wheat germ agglutinin and concanavalin-A affected development.     

Characterization of proteases from a stored product mite, Tyrophagus putrescentiae

Extracts of Tyrophagus putrescentiae feces exhibited higher (>50-fold) specific protease activity rates than those measured using mite body extracts for the substrates azocasein, BApNa, SA(2)PPpNa, HA, and HPA. This suggests that trypsin, chymotrypsin, and carboxypeptidases A and B are involved in mite digestion. Hydrolysis of the substrates ZAA(2)MNA and LpNa was only 3 times higher in fecal extracts, suggesting that levels of cathepsin B and aminopeptidases in the lumen of the digestive tract are low compared to the other enzymes. The hydrolysis of hemoglobin was only detected in body extracts indicating that cathepsin D is not a digestive protease in this species. Protease inhibitors of different specificity were tested invivo to establish their potential as control agents. We found that development from larvae to adult was significantly retarded in larvae fed on brewers' yeast containing inhibitors of serine proteases, whereas no such effect was found with inhibitors of cysteine and aspartyl proteases. Interestingly, when dietary mixtures of serine protease, aminopeptidase and carboxypeptidase inhibitors were fed to T.putrescentiae, a synergistic effect was observed that retarded development. Several plant lectins were also tested, but none affected development.     

Isolation and characterization of Perkinsus marinus proteases using bacitracin–sepharose affinity chromatography

Extracellular proteases were isolated from the cell-free culture supernatant of the oyster-pathogenic protozoan, Perkinsus marinus, by bacitracin–sepharose affinity chromatography. The purified protease fractions contained >75% of the protease activity initially loaded onto the column with very high specific activity that corresponded to 8–11-fold level of protease enrichment. The isolated proteases hydrolysed a variety of protein substrates including oyster plasma. All of the isolated P. marinus proteases belonged to the serine class of proteases. Inhibitor studies involving spectrophotometric assay and gelatin gel electrophoresis showed high levels of inhibition in the presence of the serine protease inhibitors PMSF, benzamidine and chymostatin, whereas inhibitors of cysteine, aspartic, and metalloproteases showed little or no inhibition. Spectrophotometric assays involving serine-specific peptide substrates further revealed that the isolated proteases belong to the class of chymotrypsin-like serine proteases. A 41.7 kDa monomeric, N-glycosylated, serine protease (designated Perkinsin) has been identified as the major P. marinus extracellular protease.     

Detection and partial characterization of the chromatin-associated proteases of yeast Saccharomyces cerevisiae

The chromatin fraction was prepared from yeast Saccharomyces cerevisiae free from cytoplasmic contamination except for a trace of mitochondria. When the yeast chromatin was incubated with histones as a substrate it showed three peaks of proteolytic activity as approximately pH 4, pH 7 and pH 11. These activities were separated from each other by differential extractions from chromatin and successive gel filtration through Sephadex G-100. Proteases were partially characterized by affinity labeling with [3H]diisopropylfluorophosphate (iPr2P-F) and by various protease inhibitors. The neutral and the alkaline proteases were serine proteases with a molecular mass of 35 kDa and 25 kDa respectively. The acidic protease showed a molecular size larger than 100 kDa on the gel filtration, and was probably an aspartyl protease because it was most strongly inhibited by pepstatin. A iPr2P-F-binding protein with a molecular mass of 66 kDa, found in chromatin, was likely to be converted to the alkaline protease of 25 kDa when chromatin was incubated at pH 10 or in 6 M urea/0.1 M phosphoric acid at the extraction. The distribution of proteolytic activities and iPr2P-F-binding proteins were compared among chromatins from different strains and from cells in different growth phases and it was found that these three proteases were present in all of them but with different proportions. Considering that rat liver chromatin contains equivalents to these proteases [Tsurugi, K. and Ogata, K. (1982) J. Biochem. (Tokyo) 92, 1369-1381], the results suggested that they play some important roles in the function of eukaryotic chromatin.     

Characterization of extracellular alkaline proteases and collagenase induction in Vibrio alginolyticus

The number and approximate molecular weights of extracellular alkaline proteases produced by Vibrio alginolyticus were determined by gelatin-PAGE. Three major bands of protease activity with apparent molecular weights of approximately 28 000, 22 500 and 19 500 (proteases 1, 2 and 3, respectively) and two minor bands of protease activity with apparent molecular weights of approximately 15 500 and 14 500 (proteases 4 and 5, respectively) were obtained after gelatin-PAGE. The activities of the five proteases were inhibited by serine protease inhibitors but their activities were not affected by inhibitors of trypsin-like enzymes. Histidine, which inhibited V. alginolyticus collagenase, did not inhibit the activities of the alkaline serine proteases. The production of protease 1, however, was enhanced by histidine. Protease 1 production was also affected by temperature and production was depressed at 37 degrees C. Gelatin-PAGE of a commercial V. alginolyticus collagenase preparation revealed four bands of activity which were identified as collagenases with apparent molecular weights of approximately 45 000, 38 500, 33 500 and 31 000. The collagenase preparation was contaminated with two serine proteases. The release of [3H]proline from collagen matrices produced by smooth muscle cells was shown to be a sensitive assay for bacterial collagenases and was used to show that V. alginolyticus produced a basal constitutive level of extracellular collagenase. The constitutive levels of collagenase were affected by aeration.     

Digestive proteolytic activity in larvae and adults of Bactrocera oleae Gmelin (Diptera: Tephritidae)

Digestive proteolytic activity in larvae and adults of Bactrocera oleae was studied using specific substrates and inhibitors. The optimal pH for general proteolytic activity was 4 and 10 for soluble and membrane-bound fractions of larvae, and 9 for the soluble fraction of adults. The highest activities of general proteases were revealed at temperatures of 25 °C and 45 °C for both the soluble and membrane-bound fractions of larvae as well as the soluble fraction of adults. Determination of the specific protease activities demonstrated the presence of serine and cysteine proteases in addition to two exopeptidases in the larvae and adults. However, trypsin-like protease, chymotrypsin-like protease, and two exopeptidases of larvae, and chymotrypsin-like protease as well as cathepsin L of adults had no activity in the soluble fraction. The presence of specific proteases was verified by using specific inhibitors such as PMSF, TLCK, TPCK, E-64, EDTA, phenanthroline, and DTT. Finally, feeding of B. oleae larvae on different olive varieties revealed the highest trypsin-like protease, chymotrypsin-like protease, elastase, cathepsin B, cathepsin L, and cathepsin D on Amigdalifolia, Coratina, Baladi, Mari, Conservalia, Baladi, and Arbequina, respectively. These results showed digestive proteolytic activities in B. oleae for the first time, and could be the basic knowledge required for finding a control procedure to decrease the damage of this destructive pest around the world.     

Partial characterization of trypsin-like protease and molecular cloning of a trypsin-like precursor cDNA in salivary glands of Lygus lineolaris

Based on substrate specificity, an alkaline pH optimum, sensitivity to selected proteinase inhibitors, and molecular analysis, we provide evidence for the presence of a trypsin-like serine proteinase in the salivary gland complex (SGC) of the tarnished plant bug, Lygus lineolaris (Palisot de Beauvois) (Heteroptera: Miridae). The predominant activity in extracts of the SGC against N(2)-benzoyl-L-arginine-p-nitroanilide (L-BApNA) was at pH 10, but a minor peak of activity also occurred at pH 5. The major BApNAase activity focused at 10.4 during preparative isoelectric focusing and was eluted with an apparent molecular weight of 23,000 from a calibrated gel filtration column. The BApNAase fraction gave a single major band when analyzed on a casein zymogram. The activity was completely suppressed by the serine protease inhibitors, phenylmethylsulfonyl fluoride (PMSF) and lima bean trypsin inhibitor. A cDNA coding for a trypsin-like protein in the salivary glands of L. lineolaris was cloned and sequenced. The 971bp cDNA contained an 873-nucleotide open reading frame encoding a 291-amino acid trypsin precursor. The encoded protein included amino acid sequence motifs that are conserved with four homologous serine proteases from other insects. Typical features of the putative trypsin-like protein from L. lineolaris included the serine protease active site (His(89), Asp(139), Ser(229)), conserved cysteine residues for disulfide bridges, the residues (Asp(223), Gly(252), Gly(262)) that determine trypsin specificity, and both zymogen signal and activation peptides. Cloning and sequencing of a trypsin-like precursor cDNA provided additional direct evidence for trypsin like enzymes in the salivary glands of L. lineolaris.     

Proteases and nucleases involved in the biphasic digestion process of the brown marmorated stink bug,Halyomorpha halys (Hemiptera: Pentatomidae)

Management of the brown marmorated stink bug, Halyomorpha halys (Hemiptera: Pentatomidae), an invasive, agricultural pest in the United States, has presented significant challenges. This polyphagous insect uses both extra‐oral and gut‐based digestion thwarting protein‐ or nucleotide‐based control strategies. The objective of this study was to biochemically characterize the digestive enzymes (proteases and nucleases) from the saliva, salivary gland and the gut of H. halys. Enzyme profiles for the two tissues and saliva radically differ: The pH optimum for proteases in the gut was six, with cysteine proteases predominant. In contrast, the alkaline pH optima for protease activity in the salivary gland (8–10) and saliva (7) reflected abundant serine protease and cathepsin activities. RNase enzymes were most abundant in saliva, while dsRNase and DNase activities were higher in the salivary gland and saliva compared to those in the gut. These very different enzyme profiles highlight the biphasic digestive system used by this invasive species for efficient processing of plant nutrients. Knowledge of H. halys digestive physiology will allow for counteractive measures targeting digestive enzymes or for appropriate protection of protein‐ or nucleotide‐based management options targeting this pest.     

Enhanced expression of serine proteases during floral senescence in Gladiolus

Programmed cell death during senescence in plants is associated with proteolysis that helps in remobilization of nitrogen to other growing tissues. In this paper, we provide one of the few reports for the expression of specific serine proteases during senescence associated proteolysis in Gladiolus grandiflorus flowers. Senescence in tepals, stamens and carpels results in an increase in total protease activity and a decrease in total protein content. Of the total protease activity, serine proteases account for about 67-70% while cysteine proteases account for only 23-25%. In-gel assays using gelatin as a substrate and specific protease inhibitors reveal the enhanced activity of two trypsin-type serine proteases of sizes 75 kDa and 125 kDa during the course of senescence. The activity of the 125 kDa protease increases not only during tepal senescence but also during stamen and carpel senescence indicating that it is responsive to general senescence signals.