Ethylene-regulated floral volatile synthesis in petunia corollas

In many flowering plants, such as petunia (Petunia x hybrida), ethylene produced in floral organs after pollination elicits a series of physiological and biochemical events, ultimately leading to senescence of petals and successful fertilization. Here, we demonstrate, using transgenic ethylene insensitive (44568) and Mitchell Diploid petunias, that multiple components of emission of volatile organic compounds (VOCs) are regulated by ethylene. Expression of benzoic acid/salicylic acid carboxyl methyltransferase (PhBSMT1 and 2) mRNA is temporally and spatially down-regulated in floral organs in a manner consistent with current models for post-pollination ethylene synthesis in petunia corollas. Emission of methylbenzoate and other VOCs after pollination and exogenous ethylene treatment parallels a reduction in PhBSMT1 and 2 mRNA levels. Under cyclic light conditions (day/night), PhBSMT mRNA levels are rhythmic and precede emission of methylbenzoate by approximately 6 h. When shifted into constant dark or light conditions, PhBSMT mRNA levels and subsequent methylbenzoate emission correspondingly decrease or increase to minimum or maximum levels observed during normal conditions, thus suggesting that light may be a more critical influence on cyclic emission of methylbenzoate than a circadian clock. Transgenic PhBSMT RNAi flowers with reduced PhBSMT mRNA levels show a 75% to 99% decrease in methylbenzoate emission, with minimal changes in other petunia VOCs. These results implicate PhBSMT1 and 2 as genes responsible for synthesis of methylbenzoate in petunia.     

Cysteine protease gene expression and proteolytic activity during senescence of Alstroemeria petals.

The functional life of the flower is terminated by senescence and/or abscission. Multiple processes contribute to produce the visible signs of petal wilting and inrolling that typify senescence, but one of the most important is that of protein degradation and remobilization. This is mediated in many species through protein ubiquitination and the action of specific protease enzymes. This paper reports the changes in protein and protease activity during development and senescence of Alstroemeria flowers, a Liliaceous species that shows very little sensitivity to ethylene during senescence and which shows perianth abscission 8-10 d after flower opening. Partial cDNAs of ubiquitin (ALSUQ1) and a putative cysteine protease (ALSCYP1) were cloned from Alstroemeria using degenerate PCR primers and the expression pattern of these genes was determined semi-quantitatively by RT-PCR. While the levels of ALSUQ1 only fluctuated slightly during floral development and senescence, there was a dramatic increase in the expression of ALSCYP1 indicating that this gene may encode an important enzyme for the proteolytic process in this species. Three papain class cysteine protease enzymes showing different patterns of activity during flower development were identified on zymograms, one of which showed a similar expression pattern to the cysteine protease cDNA.     

家蝇半胱氨酸蛋白酶抑制剂基因MdCPI的克隆、表达及活性检测

半胱氨酸蛋白酶抑制剂是具有抑制半胱氨酸蛋白酶活性的一类蛋白超家族。本研究根据EST序列信息,通过RACE技术克隆得到1条家蝇Musca domestica半胱氨酸蛋白酶抑制剂基因MdCPI,该基因含有1个357 bp开放阅读框,编码118个氨基酸残基,推导的多肽N端17个氨基酸残基为信号肽序列。同源分析表明,MdCPI 氨基酸序列与红尾肉蝇Sarcophaga crassipalpis的CPI相似性最高（identity=51%）。以邻接法（NJ）构建的系统树表明,家蝇与其他双翅目昆虫CPI起源于共同的祖先,属于I25A型蛋白家族。为了解家蝇CPI对半胱氨酸蛋白酶的抑制活性,构建pET-17b-MdCPI表达载体,并转入大肠杆菌Escherichia coli BL21（DE3）进行重组表达。研究发现1 μg重组家蝇CPI能够抑制约14 μg木瓜蛋白酶的水解活性。结果表明MdCPI确属CPI家族,可能同其他家族成员具有相似的功能,参与免疫及生理调控。这些结果为研究MdCPI在家蝇体内作用机制奠定了基础。     

Calcium-dependent proteolytic activity of a cysteine protease caldonopain is detected during Leishmania infection

A calcium-activated protease caldonopain in the cytosolic fraction of Leishmania donovani has been found to digest different endogenous proteins when subjected to SDS-PAGE. Gelatin-embedded gel electrophoresis confirms presence of calcium-dependent protease activity. Ca²⁺ affects proteolytic activity after 10 h. When host–parasite interaction was conducted in vitro, caldonopain was found to be active after 10 h of incubation with calcium. A 67-kDa protein is specifically digested during this time and two new proteins of 45 and 36 kDa appeared in SDS-PAGE electrophoregram. This belated action of calcium towards protease activity may be pre-requisite to facilitate invasion of host tissues and thereby mediate protein metabolism during survival of this pathogen both independently and intracellularly. It is likely that calcium metabolism in promastigotes and amastigotes does not propagate in the same manner. Involvement of calcium to initiate caldonopain activity may be critically associated with signal transduction pathways which may be responsible for the pathobiological action of this parasite. We propose that caldonopain could be a potential target to develop new chemotherapeutic approach against leishmaniasis.     

Circadian and senescence-enhanced expression of a tobacco cysteine protease gene

A cDNA clone encoding a cysteine protease was isolated from a tobacco cDNA library, utilizing as a probe a PCR fragment obtained from degenerated primers based on the conserved sequences of plant cysteine protease genes. A putative protein encoded by the clone NTCP-23 had an amino acid sequence with significant similarities to those of plant senescence-associated cysteine proteases and mammalian cathepsin H. Northern blot analysis showed that NTCP-23 mRNA is expressed in all organs and the mRNA and protein expression is enhanced during natural senescence. We propose that NTCP-23 is responsible for amino acid remobilization especially in senescencing leaves. Furthermore, it was found that the mRNA expression follows a circadian rhythm and is reduced by continuous darkness, wounding and hypersensitive reaction (HR). NTCP-23 is the first cysteine protease whose mRNA expression has been shown to be temporarily reduced by wounding.     

Nitrogen metabolism and flower symmetry of petunia corollas treated with glyphosate

A change of flower shape was observed in petunia corollas treated with 0.5 mM glyphosate. Glyphosate changed the flower symmetry from the actinomorphic type to the zygomorphic type. Corollas treated with glyphosate showed an increased free amino acid content. Free amino acid profiles in petunia corollas revealed that glyphosate had no significant effect on aromatic amino acid levels but increased the level of proline. Soluble protein content in glyphosate-treated corollas did not cause any significant changes. The contents of soluble phenolics, lignin, and IAA in the corollas were not significantly affected by the glyphosate treatment. In contrast, glyphosate reduced the nitrate content and the RNA content of petunia corollas by 45% and 63% of the control, respectively. However, the DNA content in glyphosate-treated corollas was similar to that of the control. Low concentrations of glyphosate did not show any phytotoxic effects on the whole plants and any remarkable changes on aromatic amino acid metabolism and protein synthesis. However, glyphosate reduced the RNA content of petunia corollas and changed the flower symmetry from the actinomorphic type to the zygomorphic type. The results of nonprotein nitrogen metabolism in glyphosate-treated petunia corollas suggested that glyphosate application at low concentration may influence the regulation of flower symmetry through the change of RNA biosynthesis.     

C-Terminal extension of a plant cysteine protease modulates proteolytic activity through a partial inhibitory mechanism

The amino acid sequence of ervatamin-C, a thermostable cysteine protease from a tropical plant, revealed an additional 24-amino-acid extension at its C-terminus (CT). The role of this extension peptide in zymogen activation, catalytic activity, folding and stability of the protease is reported. For this study, we expressed two recombinant forms of the protease in Escherichia coli, one retaining the CT-extension and the other with it truncated. The enzyme with the extension shows autocatalytic zymogen activation at a higher pH of 8.0, whereas deletion of the extension results in a more active form of the enzyme. This CT-extension was not found to be cleaved during autocatalysis or by limited proteolysis by different external proteases. Molecular modeling and simulation studies revealed that the CT-extension blocks some of the substrate-binding unprimed subsites including the specificity-determining subsite (S2) of the enzyme and thereby partially occludes accessibility of the substrates to the active site, which also corroborates the experimental observations. The CT-extension in the model structure shows tight packing with the catalytic domain of the enzyme, mediated by strong hydrophobic and H-bond interactions, thus restricting accessibility of its cleavage sites to the protease itself or to the external proteases. Kinetic stability analyses (T(50) and t(1/2) ) and refolding experiments show similar thermal stability and refolding efficiency for both forms. These data suggest that the CT-extension has an inhibitory role in the proteolytic activity of ervatamin-C but does not have a major role either in stabilizing the enzyme or in its folding mechanism.     

Stage-specific antimalarial activity of cysteine protease inhibitors

Cysteine proteases of the malaria parasite Plasmodium falciparum, known as falcipains, are promising targets for antimalarial chemotherapy. We evaluated cultured parasites for the stage-specific expression of cysteine proteases and sensitivity to cysteine protease inhibitors. Protease activity and inhibitor sensitivity varied markedly over time. Cysteine protease activity was greatest in early trophozoites, while sensitivity to cysteine protease inhibitors was greatest in mature trophozoites. Our results indicate the importance of considering the stage-specific effects of antimalarials and are consistent with the conclusion that the principal antimalarial activity of cysteine protease inhibitors is due to a block in hemoglobin hydrolysis.     

Cathepsin B-like cysteine proteases confer intestinal cysteine protease activity in Haemonchus contortus

Cathepsin B-like cysteine protease genes (cbls) constitute large multigene families in parasitic and nonparasitic nematodes. Although expressed in the intestine of some nematodes, the biological and biochemical functions of the CBL proteins remain unresolved. Di- and tetra-oligopeptides were used as fluorogenic substrates and irreversible/competitive inhibitors to establish CBL functions in the intestine of the parasitic nematode Haemonchus contortus. Cysteine protease activity was detected against diverse substrates including the cathepsin B/L substrate FR, the caspase 1 substrate YVAD, the cathepsin B substrate RR, but not the CED-3 (caspase 3) substrate DEVD. The pH at which maximum activity was detected varied according to substrate and ranged from pH 5.0 to 7.0. Individual CBLs were affinity isolated using FA and YVAD substrates. pH influenced CBL affinity isolation in a substrate-specific manner that paralleled pH effects on individual substrates. N-terminal sequencing identified two isolated CBLs as H. contortus GCP-7 (33 kDa) and AC-4 (37 kDa). N termini of each began at a position consistent with proregion cleavage and protease activation. Isolation of the GCP-7 band by each peptide was preferentially inhibited when competed with a diazomethane-conjugated inhibitor, Z-FA-CHN(2), demonstrating one functional difference among CBLs and among inhibitors. Substrate-based histological analysis placed CBLs on the intestinal microvilli. Data indicate that CBLs are responsible for cysteine protease activity described from H. contortus intestine. Results also support a role of CBLs in nutrient digestion.     

NFkappaB negatively regulates interferon-induced gene expression and anti-influenza activity

Interferons (IFNs) are antiviral cytokines that selectively regulate gene expression through several signaling pathways including nuclear factor kappaB(NFkappaB). To investigate the specific role of NFkappaB in IFN signaling, we performed gene expression profiling after IFN treatment of embryonic fibroblasts derived from normal mice or mice with targeted deletion of NFkappaB p50 and p65 genes. Interestingly, several antiviral and immunomodulatory genes were induced higher by IFN in NFkappaB knock-out cells. Chromatin immunoprecipitation experiments demonstrated that NFkappaB was basally bound to the promoters of these genes, while IFN treatment resulted in the recruitment of STAT1 and STAT2 to these promoters. However, in NFkappaB knock-out cells IFN induced STAT binding as well as the binding of the IFN regulatory factor-1 (IRF1) to the IFN-stimulated gene (ISG) promoters. IRF1 binding closely correlated with enhanced gene induction. Moreover, NFkappaB suppressed both antiviral and immunomodulatory actions of IFN against influenza virus. Our results identify a novel negative regulatory role of NFkappaB in IFN-induced gene expression and biological activities and suggest that modulating NFkappaB activity may provide a new avenue for enhancing the therapeutic effectiveness of IFN.     

Protoplast isolation and transient gene expression in different petunia cultivars

Protoplasma - The protocol optimized for Petunia hybrida cv. Mirage Rose produced high protoplast yields in 3 out of other 11 cultivars (Damask White, Dreams White, and Opera Supreme White)....     

Heterogeneity in the cysteine protease inhibitor clitocypin gene family

Clitocypin from the basidiomycete Clitocybe nebularis is the first fungal protein cysteine protease inhibitor to be characterised in detail, yet no information on its molecular genetics is available. Owing to its unique characteristics, it was assigned as the only member of a new family of cysteine protease inhibitors in the MEROPS inhibitor classification. Here we describe the full-length sequence of the clitocypin gene. A BLAST search confirmed its lack of significant sequence similarity to any other gene. The gene is composed of four exons and three short introns and belongs to a small family of closely related genes with more than 90% identity. Sequence variability is evenly distributed in introns and exons and deduced amino acid substitutions are distributed throughout the protein sequence. Basidiocarps collected at two distant locations were examined and the level of heterogeneity found in one basidiocarp is similar to that between the two. Sequencing of the ribosomal DNA spacers from the two basidiocarps confirmed that the heterogeneity observed in the clitocypin gene is not due to evolutionary divergence of the two specimens caused by geographic separation. Clitocypin is expressed in different parts of the basidiocarp and in cultured mycelia in a manner suggesting regulation by developmental and/or environmental factors.     

Osteoprotegerin differentially regulates protease expression in osteoclast cultures

Cysteine proteases and matrix metalloproteinases (MMPs) are important factors in the degradation of organic matrix components of bone. Osteoprotegerin (OPG) is an osteoblast-secreted decoy receptor that inhibits osteoclast differentiation and activation. This study investigated the direct effects of human OPG on cathepsin K, MMP-9, MMP-2, and tissue inhibitors of metalloproteinases (TIMP1 and TIMP2) expressed by purified rabbit osteoclasts. The expression of two osteoclast markers, namely tartrate-resistant acid phosphatase (TRAP) and cathepsin K, was inhibited by 100 ng/mL hOPG, whereas MMP-9 expression was enhanced. Gelatinase activities were measured using a zymographic assay, and hOPG was shown to enhance both pro-MMP-9 and MMP-2 activities. Concomitantly, TIMP1 expression was greatly stimulated by hOPG, whereas TIMP2 mRNA levels were not modulated. Overall, these results show that hOPG regulates the proteases produced by purified osteoclasts differentially, producing a marked inhibitory effect on the expression of cathepsin K, the main enzyme involved in bone resorption.     

Gibberellin regulates post-microsporogenesis processes in petunia anthers

Previous studies have suggested that gibberellins (GAs) are produced in petunia anthers and transported to the corolla to induce growth and pigmentation. In this work, we studied the role of GA in the regulation of anther development. When petunia plants were treated with the GA-biosynthesis inhibitor paclobutrazol, anther development was arrested. Microscopic analysis of these anthers revealed that paclobutrazol inhibits post-meiotic developmental processes. The treated anthers contained pollen grains but the connective tissue and tapetum cells were degenerated. A similar phenotype was obtained when the Arabidopsis GA-signal repressor, SPY, was over-expressed in transgenic petunia plants, i.e. anther development was arrested following microsporogenesis. The expression of the GA-induced gene, GIP , can be used in petunia as a molecular marker to study GA responses. GA₃ treatment of young anthers promoted, and paclobutrazol inhibited, GIP expression, suggesting that the hormone controls the natural activation of the gene in the anthers. Analyses of GIP expression during anther development revealed that the gene is induced only after microsporogenesis. This observation further suggests a role for GA in the regulation of post-meiotic processes during petunia anther development.