Biochemical Aspects of a Serine Protease from Caesalpinia echinata Lam. (Brazilwood) Seeds: A Potential Tool to Access the Mobilization of Seed Storage Proteins

Several proteins have been isolated from seeds of leguminous, but this is the first report that a protease was obtained from seeds of Caesalpinia echinata Lam., a tree belonging to the Fabaceae family. This enzyme was purified to homogeneity by hydrophobic interaction and anion exchange chromatographies and gel filtration. This 61-kDa serine protease (CeSP) hydrolyses H-D-prolyl-L-phenylalanyl-L-arginine-p-nitroanilide (K-m 55.7 mu M) in an optimum pH of 7.1, and this activity is effectively retained until 50 degrees C. CeSP remained stable in the presence of kosmotropic anions (PO43-, SO42-, and CH3COO-) or chaotropic cations (K+ and Na+). It is strongly inhibited by TLCK, a serine protease inhibitor, but not by E-64, EDTA or pepstatin A. The characteristics of the purified enzyme allowed us to classify it as a serine protease. The role of CeSP in the seeds cannot be assigned yet but is possible to infer that it is involved in the mobilization of seed storage proteins.

Untersuchungen über Wechselwirkungen zwischen Proteinen der Leber und dem großen Hüllprotein des Hepatitis-B-Virus

Zusammenfassung:Im Infektionszyklus des Hepatitis-B-Virus spielt das große L-Hüllprotein mit seiner einzigartigen PräS1-Domäne eine zentrale Rolle. Es vermittelt die Bindung und Aufnahme in die Leberzelle, die Verpackung der Nukleokapside in die Virushülle, die Regulation der cccDNA-Amplifikation und eine transkriptionelle Aktivierung in der Wirtszelle. Zur Erfüllung seiner vielfältigen Aufgaben benötigt das L-Protein Unterstützung durch Wirtzellfaktoren, von denen einige im Rahmen dieser Untersuchung durch Verwendung von PräS1-Konstrukten als Fängerproteine im Hefe-Zwei-Hybrid-System identifiziert wurden. Mehrere Klone, die im Hefe-Zwei-Hybrid-Test mit dem C-terminalen PräS1-Fängerprotein (Aminosäure 44-108) isoliert worden waren, enthielten Teile der cDNA von gamma2-Adaptin, einem mutmaßlichen Mitglied der Clathrin-Adaptor-Proteine. Diese sind für intrazelluläre Membrantransportprozesse mittels clathrinumhüllter Vesikel verantwortlich. Unter den interagierenden Klonen, die mit dem N-terminalen Konstrukt des L-Proteins (Aminosäure 1-70) isoliert worden waren, befand sich überproportional häufig eine cDNA, die der schweren Kette H4 der Inter-Alpha-Trypsin-Inhibitor-Familie homolog war. H4 besitzt vermutlich bei der 'Akute-Phase-Reaktion', die Entzündungen folgt, und bei der Stabilisierung der extrazellulären Matrix physiologische Bedeutung. Weitere Klone kodierten für die Serinprotease C1r. Diese ist Bestandteil des C1-Komplex, der ersten Komponente des klassischen Komplementsystems. Die Spezifität der Bindung zwischen den positiven Klonen und der PräS1-Domäne wurde in weiteren biochemischen Interaktionstests bestätigt, sodaß H4, C1r und gamma2-Adaptin als Wirtszellfaktoren in der Physiologie des Hepatitis-B-Virus wahrscheinlich eine Rolle spielen.Abstract:Little is known about host cell factors necessary for hepatitis B virus assembly and infectivity. Central to virogenesis is the large L envelope protein that mediates hepatocyte receptor binding, envelopment of viral capsids, regulation of supercoiled DNA amplification and transcriptional transactivation. To assess its multiple functions and host-protein assistance involved, we here initiated a yeast two-hybrid screen using the L-specific preS1 domain as bait to screen a human liver cDNA library for L-interacting proteins. One of the most prominent cDNAs interacting with aminoacid sequence 44-108 of L-protein encodes for gamma2-adaptin, a novel clathrin adaptor-related protein responsible for protein sorting and trafficking. Among the clones interacting with the N-terminal construct of L-protein (aminoacid sequence 1-70), a frequently isolated cDNA corresponds to the gene for inter-alpha-trypsin family heavy chain H4, likely to be involved in acute inflammatory phase response and stabilization of extracellular matrices. Some other interacting clones were found to carry the cDNA for the serine protease C1r, a subunit of the C1 complex which initiates the classical complement cascade. The specificity of the interaction between the positive clones and the preS1 domain was further confirmed in independent biochemical experiments. Taken together, the results suggest a role for H4, C1r and gamma2-adaptin as host-cell factors in L-mediated process of viral biogenesis and/or pathogenesis.

Entwicklung eines immunologischen Testsystems zur Detektion des marinen Biotoxins Domoinsäure

Domoinsäure ist ein von mehreren Arten mariner Kieselalgen der Gattung Pseudonitzschia produziertes Toxin, welches während einer Algenblüte in Molluscen wie z.B. der Miesmuschel Mytilus sp. akkumuliert werden kann. Beim Verzehr solch kontaminierter Muscheln können sowohl beim Menschen als auch bei Tieren erhebliche Vergiftungserscheinungen auftreten, die von Übelkeit, Kopfschmerzen und Orientierungsstörungen bis hin zum Verlust des Kurzzeitgedächtnisses (daher auch als amnesic shellfish poisoning bekannt) reichen und in einigen Fällen tödlich enden. rnDie heute gängigen Methoden zur Detektion von Domoinsäure in Muschelgewebe wie Flüssigkeitschromatographie und Maus-Bioassay sind zeit- und kostenintensiv bzw. in Anbetracht einer Verbesserung des Tierschutzes aus ethischer Sicht nicht zu vertreten. Immunologische Testsysteme stellen eine erstrebenswerte Alternative dar, da sie sich durch eine vergleichsweise einfache Handhabung, hohe Selektivität und Reproduzierbarkeit auszeichnen.rnDas Ziel der vorliegenden Arbeit war es, ein solches immunologisches Testsystem zur Detektion von Domoinsäure zu entwickeln. Hierfür wurden zunächst Antikörper gegen Domoinsäure gewonnen, wofür das Toxin wiederum als erstes über die Carbodiimid-Methode an das Trägerprotein keyhole limpet hemocyanin (KLH) gekoppelt wurde, um eine Immunantwort auslösen zu können. Kaninchen und Mäuse wurden mit KLH-DO-Konjugaten nach vorgegebenen Immunisierungsschemata immunisiert. Nach vier Blutabnahmen zeigte das polyklonale Kaninchenantiserum eine ausreichend hohe Sensitivität zum Antigen; das nachfolgende Detektionssystem wurde mit Hilfe dieses polyklonalen Antikörpers aufgebaut. Zwar ist es gegen Ende der Arbeit auch gelungen, einen spezifischen monoklonalen Antikörper aus der Maus zu gewinnen, jedoch konnte dieser aus zeitlichen Gründen nicht mehr im Detektionssystem etabliert werden, was durchaus wünschenswert gewesen wäre. rnWeiterhin wurde Domoinsäure im Zuge der Entwicklung eines neuartigen Testsystems an die Trägerproteine Ovalbumin, Trypsininhibitor und Casein sowie an Biotin konjugiert. Die Kopplungserfolge wurden im ELISA, Western Blot bzw. Dot Blot nachgewiesen. Die Ovalbumin-gekoppelte sowie die biotinylierte Domoinsäure dienten im Folgenden als die zu messenden Größen in den Detektionsassays- die in einer zu untersuchenden Probe vorhandende, kompetitierende Domoinsäure wurde somit indirekt nachgewiesen. rnDer zulässige Höchstwert für Domoinsäure liegt bei 20 µg/g Muschelgewebe. Sowohl mit Biotin-DO als auch mit OVA-DO als den zu messenden Größen waren Domoinsäurekonzentrationen unterhalb dieses Grenzwertes nachweisbar; allerdings erwies sich der Aufbau mit Biotin-DO um das ca. 20-fache empfindlicher als jener mit OVA-DO. rnDie in dieser Arbeit präsentierten Ergebnisse könnten als Grundlage zur Etablierung eines kommerzialisierbaren immunologischen Testsystems zur Detektion von Domoinsäure und anderen Biotoxinen dienen. Nach erfolgreicher Validierung wäre ein solches Testsystem in seiner Handhabung einfacher als die gängige Flüssigkeitschromatographie und besser reproduzierbar als der Maus-Bioassay.rn

Proteomics-driven approach for the detection of breast cancer biomarkers

Breast cancer (BC) is the most often diagnosed cancer entity of women worldwide. No molecular biomarkers are usable in the clinical routine for the early detection of BC. Proteomics is one of the dynamic tools for the successful examination of changes on the protein level. In this thesis different proteomics-based investigations were performed for the detection of protein and autoantibody biomarkers in serum samples of BC and healthy (CTRL) subjects. First, protein levels of candidates from previous profiling studies were investigated via antibody-microarray platform. Three proteins were found in distinct levels in both groups: secretoglobin family 1D member 1, alpha-2 macroglobulin and inter-alpha-trypsin inhibitor heavy chain family member 4. The second part was dedicated to the de novo exploration of potentially immunogenic tumor antigens (TA’s) with immunoprecipitation and Western immunoblotting followed by identification over mass spectrometry. Autoantibody levels were verified in individual serum profiling via the protein microarray platform. Two autoantibody’ cohorts (anti-Histone 2B and anti-Recoverin) were found in different levels in both groups. The findings of this PhD thesis underline deregulated serum protein and autoantibody levels in the presence of BC. Further investigations are needed to confirm the results in an independent study population.

A degradation-sensitive anionic trypsinogen (PRSS2) variant protects against chronic pancreatitis

Chronic pancreatitis is a common inflammatory disease of the pancreas. Mutations in the genes encoding cationic trypsinogen (PRSS1) and the pancreatic secretory trypsin inhibitor (SPINK1) are associated with chronic pancreatitis. Because increased proteolytic activity owing to mutated PRSS1 enhances the risk for chronic pancreatitis, mutations in the gene encoding anionic trypsinogen (PRSS2) may also predispose to disease. Here we analyzed PRSS2 in individuals with chronic pancreatitis and controls and found, to our surprise, that a variant of codon 191 (G191R) is overrepresented in control subjects: G191R was present in 220/6,459 (3.4%) controls but in only 32/2,466 (1.3%) affected individuals (odds ratio 0.37; P = 1.1 x 10(-8)). Upon activation by enterokinase or trypsin, purified recombinant G191R protein showed a complete loss of trypsin activity owing to the introduction of a new tryptic cleavage site that renders the enzyme hypersensitive to autocatalytic proteolysis. In conclusion, the G191R variant of PRSS2 mitigates intrapancreatic trypsin activity and thereby protects against chronic pancreatitis.

Differential in vitro and in vivo effect of barley cysteine and serine protease inhibitors on phytopathogenic microorganisms

Protease inhibitors from plants have been involved in defence mechanisms against pests and pathogens. Phytocystatins and trypsin/α-amylase inhibitors are two of the best characterized protease inhibitor families in plants. In barley, thirteen cystatins (HvCPI-1 to 13) and the BTI-CMe trypsin inhibitor have been previously studied. Their capacity to inhibit pest digestive proteases, and the negative in vivo effect caused by plants expressing these inhibitors on pests support the defence function of these proteins. Barley cystatins are also able to inhibit in vitro fungal growth. However, the antifungal effect of these inhibitors in vivo had not been previously tested. Moreover, their in vitro and in vivo effect on plant pathogenous bacteria is still unknown. In order to obtain new insights on this feature, in vitro assays were made against different bacterial and fungal pathogens of plants using the trypsin inhibitor BTI-CMe and the thirteen barley cystatins. Most barley cystatins and the BTI-CMe inhibitor were able to inhibit mycelial growth but no bacterial growth. Transgenic Arabidopsis plants independently expressing the BTI-CMe inhibitor and the cystatin HvCPI-6 were tested against the same bacterial and fungal pathogens. Neither the HvCPI-6 expressing transgenic plants nor the BTI-CMe ones were more resistant to plant pathogen fungi and bacteria than control Arabidopsis plants. The differences observed between the in vitro and in planta assays against phytopathogenic fungi are discussed

Caracterización molecular del mutante riso 1508 de cebada : modificaciones transcripcionales y posttranscripcionales en el desarrollo de la semilla

La semilla es el principal órgano reproductivo de las plantas espermatofitas, permitiendo la dispersión de las poblaciones y asegurando su supervivencia gracias a su tolerancia a la desecación y a su capacidad para germinar bajo condiciones ambientales óptimas. El rendimiento y valor económico de los cereales, que constituyen la primera cosecha mundial, depende, en buena medida, de la eficacia con que se acumulan en la semilla sustancias de reserva: proteínas, carbohidratos y lípidos. El principal carbohidrato acumulado en la semilla de cebada es el almidón y la fracción mayoritaria de proteínas es la de las prolaminas (solubles en etanol al 70%); estas proteínas tienen muy bajo contenido en lisina, un aminoácido esencial en la dieta de animales monogástricos. Con el fin de mejorar el valor nutricional de la semilla de cebada, se han obtenido diferentes mutantes con un mayor contenido en este aminoácido. Riso 1508 es un mutante de cebada rico en lisina cuya mutación lys3a, de efectos pleiotrópicos, segrega como un único gen mendeliano. Entre otros, presenta una reducción drástica de la expresión de algunos genes que codifican proteínas de reserva de tipo prolamina, en concreto, presenta reducida la expresión de los genes que codifican B-, C- y ϒ-Hordeínas y del inhibidor de tripsina CMe, pero no tiene alterada la expresión del gen que codifica las D-Hordeínas. Este último gen carece en su promotor del motivo GLM (5’‐(G/A)TGA(G/C)TCA(T/C)‐3’), que es reconocido por factores transcripcionales bZIP. En este trabajo, el mutante de cebada Riso 1508 se ha utilizado como herramienta para profundizar en el conocimiento de la regulación génica en semillas durante las fases de la maduración y la germinación. Para ello, en una primera aproximación, se llevó a cabo un análisis transcriptómico comparando el genotipo mutante con el silvestre durante la maduración de la semilla. Además de confirmar variaciones en los genes que codifican proteínas de reserva, este análisis indicó que también estaban afectados los genes relacionados con metabolismo de carbohidratos. Por ello se decidió caracterizar la familia multigénica de sacarosas sintasa (SUSy) en cebada. Se anotaron dos nuevos genes, HvSs3 y HvSs4, cuya expresión se comparó con la de los genes HvSs1 y HvSs2, previamente descritos en el laboratorio. La expresión de los cuatro genes en tejidos diferentes y su respuesta a estreses abióticos se analizó mediante RT-qPCR. HvSs1 y HvSs2 se expresaron preferencialmente durante el desarrollo del endospermo, y HvSs1 también fue un tránscrito abundante durante la germinación. HvSs1 se indujo en hojas en condiciones de anoxia y HvSs3 por estrés hídrico, y ambos genes se indujeron por tratamientos de frío. La localización subcelular de las cuatro isoformas no fue sólo citoplásmica, sino que también se localizaron en zonas próximas a retículo endoplásmico y en la cara interna de la membrana plasmática; además, se observó una co-localización de HvSS1 con el marcador de mitocondrias. Estos datos sugieren un papel distinto aunque parcialmente solapante de las cuatro Sacarosa Sintasas de cebada, descritas hasta la fecha. Las cinéticas de expresión de los genes que codifican los TFs más importantes implicados en la regulación génica durante el desarrollo del endospermo de cebada, se analizaron por RT-qPCR en ambos genotipos, demostrando que los TFs de la clase DOF aparecieron desregulados durante todo el proceso en Riso 1508 comparado con el cv. Bomi, aunque también se observaron diferencias significativas en algunos de los que codifican bZIPs. Estudios previos indicaban que el ortólogo de BLZ2 en maíz, O2, se regula post-traduccionalmente mediante un mecanismo de fosforilación/defosforilación reversible, y que la forma defosforilada es la fisiológicamente activa. En este trabajo se demostró que BLZ2 está sujeto a este tipo de regulación y que la proteín-fosfatasa HvPP2C2 está implicada en el proceso. La interacción de HvPP2C2 y BLZ2 tiene lugar en el núcleo celular únicamente en presencia de 100 μM ABA. En el mutante Riso 1508, BLZ2 se encuentra en un estado hiperfosforilado tanto durante la maduración como durante la germinación de la semilla, lo que dificultaría la unión de BLZ2 a las secuencias GLM en los promotores de los genes que codifican B-, C-,y ϒ- Hordeínas y CMe. Summary The seed is the main reproductive organ of spermatophyte plants allowing the spread of populations and ensuring their survival through its desiccation tolerance and because of their ability to germinate under optimum environmental conditions. Yield and economic value of cereal crops, that constitute the first world crop, depend largely on the efficiency with which they accumulate in the seed reserve substances: proteins, carbohydrates and lipids. The main carbohydrate accumulated in the barley seed is starch and the major protein fraction is that of prolamins (soluble in 70% ethanol); these proteins have a very low lysine content, an essential amino-acid for the diet of monogastric animals. In order to improve the nutritional value of the barley seed, different mutants have been obtained with a higher content of this amino-acid. Riso 1508 is one lysine-rich mutant whose mutation (lys3a) segregates as a single Mendelian gene with pleiotropic effects, such as a drastic reduction of genes encoding the trypsin inhibitor CMe and the B-, C-and ϒ-hordeins, but has not altered the expression of the gene encoding the D-hordeins. This latter gene lacks in its promotor the GLM motif (5’‐(G/A)TGA(G/C)TCA(T/C)‐3’), that is recognised by bZIP transcription factors In this work we have used the barley mutant Riso 1508 as a tool for better understanding gene regulation in seeds during the maturation and germination phases. To this aim, a transcriptomic analysis was performed comparing wild and mutant genotypes during seed maturation. Besides confirming variations in the expression of genes encoding reserve proteins, this analysis indicated that some genes related with carbohydrate metabolism were also affected. It was therefore decided to characterize the multigene family of sucrose synthases (SUSy) in barley. Two new genes were annotated, HvSs3 and HvSs4, and its expression was compared with that of genes HvSs1 and HvSs2, previously described in our laboratory. The expression of the four genes in different tissues and in response to abiotic stresses was analyzed by RTqPCR. HvSs1 and HvSs2 were preferentially expressed during the development of the endosperm, and the HvSs1 transcript was also abundant upon germination. HvSs1 was induced in leaves by anoxic conditions, HvSs3 by water stress, and both genes were induced by cold treatments. The subcellular localization of all four isoforms was not only cytoplasmic, but they could be found along the endoplasmic reticulum and at the inner side of the cell membrane; HvSS1, was also associated with the mitochondrial marker. These data suggest a distinct but partially overlapping roles for the barley sucrose synthases, described so far. The expression kinetics of the genes encoding the most important TFs involved in gene regulation during barley endosperm development was analyzed by RT-qPCR in both genotypes. These data show that the genes encoding DOF TFs were mis-regulated throughout the process in Riso 1508, although significant differences were also found among some of those encoding bZIPs. Previous studies indicated that the BLZ2 orthologue in maize, O2, was post-translationally regulated by reversible phosphorylation/dephosphorylation and that the dephosphorylated protein is the physiologically active form. In this work we demostrate that BLZ2 is under a similar regulation and that the proteinphosphatase HvPP2C2 is implicated in the process. The interaction between HvPP2C2 and BLZ2 takes place in the cell nucleus only in the presence of 100 μM ABA. In the Riso 1508 mutant, BLZ2 is found in a hyperphosphorylated state in the maturation phase and upon seed germination; because of this, the BLZ2 binding to the GLM promoter sequences of genes encoding B-, C- y ϒ- Hordeins and CMe would be decreased in the mutant.

Correlation between ileal digestibility of amino acids and chemical composition of soybean meals in broilers at 21 days of age

The correlations between chemical composition and coefficient of standardized ileal digestibility (CSID) of crude protein (CP) and amino acids (AA) were determined in 22 soybean meal (SBM) samples originated from USA (n = 8), Brazil (BRA; n = 7) and Argentina (ARG; n = 7) in 21-day old broilers. Birds were fed a commercial maize-SBM diet from 1 to 17 days of age followed by the experimental diets in which the SBM tested was the only source of protein (205 g CP/kg) for three days. Also, in vitro nitrogen (N) digestion study was conducted with these samples using the two-step enzymatic method. The coefficient of apparent ileal digestibility (CAID) of the SBM, independent of the origin, varied from 0.820 to 0.880 for CP, 0.850 to 0.905 for lysine (Lys), 0.859 to 0.907 for methionine (Met) and 0.664 to 0.750 for cysteine (Cys). The corresponding CSID values varied from 0.850 to 0.966 for CP, 0.891 to 0.940 for Lys, 0.931 to 0.970 for Met and 0.786 to 0.855 for Cys. The CSID of CP and Lys of the SBM were positively correlated with CP (r = 0.514; P menor que 0.05 and r = 0.370; P = 0.09, respectively), KOH solubility (KOH sol.) (r = 0.696; P menor que 0.001 and r = 0.619; P menor que 0.01, respectively), trypsin inhibitor activity (TIA) (r = 0.541; P menor que 0.01 and r = 0.416; P = 0.05, respectively) and reactive Lys (r = 0.563; P menor que 0.01 and r = 0.486; P menor que 0.05) values, but no relation was observed with neutral detergent fiber and oligosaccharide content. No relation between the CSID of CP determined in vivo and N digestibility determined in vitro was found. The CSID of most key AA were higher for the USA and the BRA meals than for the ARG meals. For Lys, the CSID was 0.921, 0.919 and 0.908 (P menor que 0.05) and for Cys 0.828, 0.833 and 0.800 (P menor que 0.01) for USA, BRA and ARG meals, respectively. It is concluded that under the conditions of this experiment, the CSID of CP and Lys increased with CP content, KOH sol., TIA and reactive Lys values of the SBM. The CSID of most limiting AA, including Lys and Cys, were higher for USA and BRA meals than for ARG meals.

Diagnosis and Management of Grain-Induced Asthma

Grain-induced asthma is a frequent occupational allergic disease mainly caused by inhalation of cereal flour or powder. The main professions affected are bakers, confectioners, pastry factory workers, millers, farmers, and cereal handlers. This disorder is usually due to an IgE-mediated allergic response to inhalation of cereal flour proteins. The major causative allergens of grain-related asthma are proteins derived from wheat, rye and barley flour, although baking additives, such as fungal α-amylase are also important. This review deals with the current diagnosis and treatment of grain-induced asthma, emphasizing the role of cereal allergens as molecular tools to enhance diagnosis and management of this disorder. Asthma-like symptoms caused by endotoxin exposure among grain workers are beyond the scope of this review. Progress is being made in the characterization of grain and bakery allergens, particularly cereal-derived allergens, as well as in the standardization of allergy tests. Salt-soluble proteins (albumins plus globulins), particularly members of the α-amylase/trypsin inhibitor family, thioredoxins, peroxidase, lipid transfer protein and other soluble enzymes show the strongest IgE reactivities in wheat flour. In addition, prolamins (not extractable by salt solutions) have also been claimed as potential allergens. However, the large variability of IgE-binding patterns of cereal proteins among patients with grain-induced asthma, together with the great differences in the concentrations of potential allergens observed in commercial cereal extracts used for diagnosis, highlight the necessity to standardize and improve the diagnostic tools. Removal from exposure to the offending agents is the cornerstone of the management of grain-induced asthma. The availability of purified allergens should be very helpful for a more refined diagnosis, and new immunomodulatory treatments, including allergen immunotherapy and biological drugs, should aid in the management of patients with this disorder.

Influence of origin of the beans on protein quality and nutritive value of commercial soybean meals.

Chemical composition and correlations between chemical analyses and protein quality of 454 batches of SBM of 3 different origins (USA, n=168; Brazil (BRA), n=139, and Argentine (ARG), n=147) were studied. Samples were collected during a 6-yr period. SBM from USA had more CP, sucrose and stachyose and less NDF (P<0.001) than SBM from ARG and BRA. CP content was negatively related (P<0.001) with sucrose for USA meals and with NDF for ARG and BRA meals. Also, P content was positively related (P<0.01) with CP content of the meals. PDI and KOH solubility were higher (P<0.001) for USA than for ARG or BRA SBM, values that were positively related (P<0.001) with trypsin inhibitor activity of the meals. In addition, USA meals had more lys, met+cys, thr, and trp than BRA and ARG meals (P < 0.001). Per unit of CP, lys content was negatively related (P<0.001) with CP content for USA, positively for BRA, and no relations was found for ARG meals. It is concluded that nutritive values and protein quality of the meals varied widely among soybean origins. Consequently, the origin of the beans should be considered in the evaluation of the nutritive value of commercial SBM for non-ruminant animals.

Influence of duration of storage on protein quality traits of soybean meals

Two experiments were conducted to determine the influence of duration of storage of soybean meal (SBM) on variables that define the quality of the protein fraction. Urease activity, protein dispersibility index (PDI), KOH protein solubility (KOHsol), and trypsin inhibitor activity were determined. In experiment 1, 8 samples of SBM, ranging in CP content from 55.4 to 56.5% DM, were collected from a US crushing plant at weekly intervals and analyzed at arrival to the laboratory and after 30, 60, 90, and 120 d of storage. In experiment 2, 7 samples of SBM, ranging in CP content from 49.0 to 55.0% DM, were collected from different Argentinean crushers and analyzed at arrival and after 24, 48, 80, and 136 wk of storage. In both experiments, samples were stored in hermetic glass containers in a laboratory room at 12 ± 2°C and a relative humidity of 70 ± 3%. Duration of storage did not affect urease activity or trypsin inhibitor activity values in either of the 2 experiments. However, PDI values decreased linearly with time of storage in both experiments (P menor que 0.001). Also, KOHsol decreased linearly (P menor que 0.05) with duration of storage in experiment 2 (long-term storage) but not in experiment 1(shorter term storage). Therefore, PDI values might not be adequate to compare protein quality of commercial SBM samples that have been stored for different periods of time. The KOHsol values are less affected by length of storage of the meals under current commercial practices.

Characterization of LeMir, a Root-Knot Nematode-Induced Gene in Tomato with an Encoded Product Secreted from the Root1

A tomato gene that is induced early after infection of tomato (Lycopersicon esculentum Mill.) with root-knot nematodes (Meloidogyne javanica) encodes a protein with 54% amino acid identity to miraculin, a flavorless protein that causes sour substances to be perceived as sweet. This gene was therefore named LeMir (L. esculentum miraculin). Sequence similarity places the encoded protein in the soybean trypsin-inhibitor family (Kunitz). LeMir mRNA is found in root, hypocotyl, and flower tissues, with the highest expression in the root. Rapid induction of expression upon nematode infection is localized to root tips. In situ hybridization shows that LeMir is expressed constitutively in the root-cap and root-tip epidermis. The LeMir protein product (LeMir) was produced in the yeast Pichia pastoris for generation of antibodies. Western-blot analysis showed that LeMir expression is up-regulated by nematode infection and by wounding. LeMir is also expressed in tomato callus tissue. Immunoprint analysis revealed that LeMir is expressed throughout the seedling root, but that levels are highest at the root/shoot junction. Analysis of seedling root exudates revealed that LeMir is secreted from the root into the surrounding environment, suggesting that it may interact with soil-borne microorganisms.

Chickpea Defensive Proteinase Inhibitors Can Be Inactivated by Podborer Gut Proteinases1

Developing chickpea (Cicer arietinum L.) seeds 12 to 60 d after flowering (DAF) were analyzed for proteinase inhibitor (Pi) activity. In addition, the electrophoretic profiles of trypsin inhibitor (Ti) accumulation were determined using a gel-radiographic film-contact print method. There was a progressive increase in Pi activity throughout seed development, whereas the synthesis of other proteins was low from 12 to 36 DAF and increased from 36 to 60 DAF. Seven different Ti bands were present in seeds at 36 DAF, the time of maximum podborer (Helicoverpa armigera) attack. Chickpea Pis showed differential inhibitory activity against trypsin, chymotrypsin, H. armigera gut proteinases, and bacterial proteinase(s). In vitro proteolysis of chickpea Ti-1 with various proteinases generated Ti-5 as the major fragment, whereas Ti-6 and -7 were not produced. The amount of Pi activity increased severalfold when seeds were injured by H. armigera feeding. In vitro and in vivo proteolysis of the early- and late-stage-specific Tis indicated that the chickpea Pis were prone to proteolytic digestion by H. armigera gut proteinases. These data suggest that survival of H. armigera on chickpea may result from the production of inhibitor-insensitive proteinases and by secretion of proteinases that digest chickpea Pis.

Efeito do inibidor de proteinase de origem vegetal EcTI, sobre a inflamação pulmonar alérgica crônica em camundongos Balb/c

INTRODUÇÃO: A prevalência de asma tem crescido e a maioria dos pacientes com asma grave não obtém o controle total dos sintomas com as terapias disponíveis, fazendo-se necessária a busca por novas alternativas terapêuticas. Inibidores de proteinases têm sido estudados como tratamento de processos inflamatórios, dentre eles o Enterolobium contortisiliquum Tripsin Inhibitor (EcTI) OBJETIVO: Avaliar se o inibidor de proteinase EcTI modula a hiperresponsividade brônquica à metacolina, inflamação, remodelamento e estresse oxidativo nas vias aéreas e septos alveolares em um modelo experimental de inflamação pulmonar alérgica crônica. MÉTODOS: Vinte e quatro camundongos Balb/c machos, entre seis e sete semanas de vida, pesando em media 25 g foram divididos em quatro grupos: C (controle), OVA (sensibilizados com ovalbumina, 50 ug intraperironeal (i.p) nos dias 0 e 14 e desafiados nos dias 22, 24, 26, 28); C+EC (controle tratados com EcTI (2 mg/kg/i.p) nos dias 22 a 28); OVA+EC (sensibilizados e desafiados com ovalbumina e também tratados com EcTI (2 mg/kg -i.p) nos dias 22 a 28). No dia 29, foram realizadas realizadas: (i) hiperresponsividade à metacolina e obtidas as respostas máximas de resistência e elastância do sistema respiratório; (ii) análise histopatológica do pulmão para quantificação de eosinófilos, fibras colágenas e elásticas nas vias aéreas (VA) e nos septos alveolares (SA); e (iii) imunohistoquímica para quantificação de células positivas para IFN-y, IL-4, IL-5, IL-13, MMP-9, TIMP-1, TGF-beta, iNOS, NF-kB e fração de volume de isoprostano nas VA e nos SA. Uma semana após o dia 29 foi realizada a técnica de anafilaxia cutanea passiva(PCA) para quantificar IgE e IgG1. A significância foi considerada quando p < 0,05. RESULTADOS: Houve aumento de todos os parâmetros avaliados no grupo OVA em relação ao grupo controle (p < 0,05). Houve atenuação da resposta máxima de Rrs e Ers no grupo OVA+EC comparado as grupo OVA (p < 0,05). O tratamento com EcTI nos animais sensibilizados atenuou o número de eosinófilos, células positivas para IL-4, IL-5, IL-13,IFN-y, iNOS, MMP-9, TIMP-1, NF-kB e TGF-beta e fração de volume de isoprostano, fibras colágenas e elásticas nas vias aéreas e nos séptos alveolares quando comparado ao grupo OVA (p < 0,05).Houve reaçao de PCA nos animais sensibilizados com ovalbumina. CONCLUSÃO: EcTI atenuou a hiperresponsividade brônquica, a inflamação, o remodelamento e o estresse oxidativo nesse modelo experimental de inflamação pulmonar alérgica crônica. Embora sejam necessários mais estudos, esse inibidor pode ser considerado uma futura ferramenta farmacológica para o tratamento de asma

Disulfide folding pathways of cystine knot proteins: Tying the knot within the circular backbone of the cyclotides

The plant cyclotides are a fascinating family of circular proteins that contain a cyclic cystine knot motif. The knotted topology and cyclic nature of the cyclotides pose interesting questions about folding mechanisms and how the knotted arrangement of disulfide bonds is formed. In the current study we have examined the oxidative refolding and reductive unfolding of the prototypic cyclotide, kalata B1. A stable two-disulfide intermediate accumulated during oxidative refolding but not in reductive unfolding. Mass spectrometry and NMR spectroscopy were used to show that the intermediate contained a native-like structure with two native disulfide bonds topologically similar to the intermediate isolated for the related cystine knot protein EETI-II (LeNguyen, D., Heitz, A., Chiche, L., El Hajji, M., and Castro B. (1993) Protein Sci. 2, 165-174). However, the folding intermediate observed for kalata B1 is not the immediate precursor of the three-disulfide native peptide and does not accumulate in the reductive unfolding process, in contrast to the intermediate observed for EETI-II. These alternative pathways of linear and cyclic cystine knot proteins appear to be related to the constraints imposed by the cyclic backbone of kalata B1 and the different ring size of the cystine knot. The three-dimensional structure of a synthetic version of the two-disulfide intermediate of kalata B1 in which Ala residues replace the reduced Cys residues provides a structural insight into why the two-disulfide intermediate is a kinetic trap on the folding pathway.