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Interaction Studies of Secreted Aspartic Proteases (Saps) from <i>Candida albicans</i> : Application for Drug DiscoveryBackman, Dan January 2005 (has links)
<p>This thesis is focused on enzymatic studies of the secreted aspartic proteases (Saps) from <i>Candida albicans</i> as a tool for discovery of anti-<i>candida</i> drugs. <i>C. albicans</i> causes infections in a number of different locations, which differ widely in the protein substrates available and pH. Since <i>C. albicans</i> needs Saps during virulent growth, these enzymes are good targets for drug development.</p><p>In order to investigate the catalytic characteristics of Saps and their inhibitor affinities, substrate-based kinetic assays were developed. Due to the low sensitivity of these assays, especially at the sub-optimal pH required to mimic the different locations of infections, these assays were not satisfactory. Therefore, a biosensor assay was developed whereby, it was possible to study interaction between Saps and inhibitors without the need to optimise catalytic efficacy. Furthermore, the biosensor assay allowed determination of affinity, as well as the individual association and dissociation rates for inhibitor interactions.</p><p>Knowledge about substrate specificity, Sap subsite adaptivity, and the pH dependencies of catalytic efficacy has been accumulated. Also, screening of transition-state analogue inhibitors designed for HIV-1 protease has revealed inhibitors with affinity for Saps. Furthermore, the kinetics and pH dependencies of their interaction with Saps have been investigated. One of these inhibitors, BEA-440, displayed a complex interaction with Saps, indicating a conformational change upon binding and a very slow dissociation rate. A time dependent interaction was further supported by inhibition measurements. The structural information obtained affords possibilities for design of new more potent inhibitors that might ultimately become drugs against candidiasis. The strategy to combine substrate specificity studies with inhibitor screening has led to complementary results that generate a framework for further development of potent inhibitors.</p>
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Cyclic Sulfamide HIV-1 Protease Inhibitors : Design, Synthesis and ModellingAx, Anna January 2005 (has links)
Ten years ago, the first protease inhibitor targeting the human immunodeficiency virus (HIV) was approved for clinical use. Highly active antiretroviral therapy (HAART), which combined protease and reverse transcriptase inhibitors, quickly became the standard therapy for treating patients infected with HIV and Acquired Immune Deficiency Syndrome (AIDS). Nevertheless, last year the AIDS pandemic reached its highest level ever. Many infected patients, mainly in the developing countries, are still without treatment. Among those patients who receive treatment, an increase in drug resistance and new-infection with drug-resistant strains are seen. To come to terms with these problems, new drugs that are efficient against resistant strains and can be produced at low cost are needed. In this study, we have focused our research efforts on cyclic sulfamides active as HIV-1 protease inhibitors. Distinctive to this compound class, as compared to the inhibitors so far approved for clinical use, was the incorporation of a water mimic that displaces the structural water (W301) observed in the X-ray crystal co-complexes. The first part of the study was aimed at understanding the rationale behind the nonsymmetric binding mode that the inhibitor adopted when bound to the enzyme. Symmetric and nonsymmetric inhibitors were synthesized and the structure-activity relationships and preferable binding modes were rationalized with the help of Comparative Molecular Field Analysis (CoMFA). In the second part of the study, an attempt was made to reduce the size of these inhibitors. As a result, the traditional P1/P1' substituents were removed, while the P2/P2' substituents were elongated in an attempt to reach between the binding sites. The design hypothesis was shown to be successful and inhibitors possessing nanomolar activity were identified.
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Characterisation of proteases involved in proteolytic degradation of haemoglobin in the human hookworm Necator americanusRanjit, Najju January 2008 (has links)
With over a billion people infected world wide, hookworms are considered as important human pathogens, particularly in developing countries which have the highest rates of infections. Hookworms reside in the gastrointestinal tract of the host where they continuously feed on blood, leading to conditions such as chronic irondeficiency anaemia. The majority of blood-feeding parasites rely on proteins found in blood to provide many of their nutritional requirements for growth, reproduction and survival. Of the numerous proteins found in blood, haemoglobin (Hb) is one of the most abundant. In order to acquire amino acids for protein synthesis, it is thought that haematophagous parasites degrade Hb using various classes of endo- and exoproteases, in a manner similar to that which occurs in catabolism of proteins in mammalian cellular lysosomes. This study identified and characterised proteases involved in the Hb degradation process in the human hookworm, Necator americanus, in order to identify potential candidate antigens for a vaccine that interrupts blood-feeding. Red blood cells ingested by hookworms are lysed to release Hb, which is cleaved by various proteases into dipeptides or free amino acids and these are taken up through the gut membrane by amino acid transporters. Proteases expressed in the intestinal tract of hookworms are thought to play a major role in this process and would therefore make good targets for vaccine candidates aimed at interrupting blood-feeding. To identify these proteases, adult hookworms (both N. americanus and Ancylostoma caninum) were sectioned and intestinal tissue was dissected via laser microdissection microscopy. RNA extracted from the dissected tissue was used to generate gut-specific cDNA, which then was used to create plasmid libraries. Each library was subjected to shotgun sequencing, and of the 480 expressed sequence tags (ESTs) sequenced from each species, 268 and 276 contigs were assembled from the N. americanus and A. caninum libraries, respectively. Nine percent of N. americanus and 6.5% of A. caninum contigs were considered novel as no homologues were identified in any published/accessible database. The gene ontology (GO) classification system was used to categorise the contigs to predicted biological functions. Only 17% and 38% of N. americanus and A. caninum contigs, respectively, were assigned GO categories, while the rest were classified as being of unknown function. The most highly represented GO categories were molecular functions such as protein binding and catalytic activity. The most abundant transcripts encoded fatty acid binding proteins, C-type lectins and activation associated secreted proteins, indicative of the diversity of functions that occur in this complex organ. Of particular interest to this study were the contigs that encoded for cysteine and metalloproteases, expanding the list of potential N. americanus haemoglobinases. In the N. americanus cDNA library, four contigs encoding for cathepsin B cysteine proteases were identified. Three contigs from the A. caninum and one contig from the N. americanus cDNA libraries encoded for metalloproteases, including astacin-like and O-sialoglycoprotein endopeptidases, neither of which had previously been reported from adult hookworms. Apart from haemoglobinases, other mRNAs encoding potential vaccine candidate molecules were identified, including anti-clotting factors, defensins and membrane proteins. This study confirmed that the gut of hookworms encodes a diverse range of proteases, some of which are likely to be involved in Hb digestion and have the potential to be hidden (cryptic) vaccine antigens. Four cysteine proteases (Na-CP-2, -3, -4 and -5) were identified from the gut cDNA library of N. americanus. All four proteases belong to the clan CA, family C1, share homology with human cathepsin B and possess a modified occluding loop. Real-time PCR indicated that all transcripts were up-regulated in the adult stage of the hookworm parasite with high levels of mRNA expression detected in gut cDNA. All four proteases were expressed in recombinant form, but only Na-CP-3 was successfully expressed in soluble form in the yeast Pichia pastoris. Proteolytic activity for Na-CP-3 was detected on a gelatin zymogen gel, however no catalytic activity was detected against the class-specific fluorogenic peptides Z-Phe-Arg-AMC and Z-Arg-Arg-AMC. Mass spectrometry analysis of the purified protein suggested that the pro-region had not been processed in trans when the protein was secreted by yeast. Incubation of Na-CP-3 in salt buffers containing dextran sulfate resulted in autoprocessing of the pro-region as detected by Western blot and catalytic activity was detected against Z-Phe-Arg-AMC. Activated Na-CP-3 did not digest intact tetrameric human Hb. The other three cysteine proteases (Na-CP-2, -4, and -5) were expressed in insoluble form in Escherichia coli. Antibodies to all four proteins (Na- CP-2 to 5) immunolocalised to the gut region of the adult worm, supporting mRNA amplification results and strongly indicated that they might play a role in nutrient acquisition. Hb digestion in blood feeding parasites such as schistosomes and Plasmodium spp. occurs via a semi-ordered cascade of proteolysis involving numerous enzymes. In Plasmodium falciparum, at least three distinct mechanistic classes of endopeptidases have been implicated in this process, and at least two classes have been implicated in schistosomes. A similar process is thought to occur in hookworms. An aspartic protease, Na-APR-1, was expressed in P. pastoris and purified protein was shown to cleave the class-specific fluorogenic peptide 7- Methoxycoumarin-4-Acetyl-GKPILFFRLK(DNP)-D-Arg-Amide. Recombinant Na- APR-1 was able to cleave intact human Hb and completely degrade the 16 kDa monomer and 32 kDa dimer within one hour. Recombinant Na-CP-3 was not able to cleave intact Hb, but was able to further digest globin fragments that had previously been digested with Na-APR-1. A clan MA metalloprotease, Na-MEP-1, was identified in gut tissue of N. americanus and was expressed in recombinant form in Hi5 insect cells using the baculovirus expression system. Recombinant Na-MEP-1 displayed proteolytic activity when assessed by gelatin zymography, but was incapable of cleaving intact Hb. However, Na-MEP-1 did cleave globin fragments which had previously been incubated with Na-APR-1 and Na-CP-3. Hb digested with all three proteases was subjected to reverse phase HPLC and peptides were analysed using Liquid Chromatography-Mass Spectrometry (LC-MS). A total of 74 cleavage sites were identified within Hb ƒ¿ and ƒÀ chains. Na-APR-1 was responsible for cleavage of Hb at the hinge region, probably unravelling the molecule so that Na- CP-3 and Na-MEP-1 could gain access to globin peptides. All three proteases were promiscuous in their subsite specificities, but the most common P1-P1Œ residues were hydrophobic and/or bulky in nature, such as Phe, Leu and Ala. Antibodies to all three proteins (Na-APR-1, -CP-3, -MEP-1) immunolocalised to the gut region of the worm, further supporting their roles in Hb degradation. These results suggest that Hb degradation in N. americanus follows a similar pattern to that which has been described in Plasomdium falciparum. Studies conducted in this project have identified a number of potential haemoglobinases and have demonstrated that the gut region of the hookworm contains a multitude of proteases which could be targeted for production of new chemotherapies or as vaccine candidates. Results presented here also suggest that the Hb degradation process occurs in an ordered cascade, similar to those which have been reported in other haematophagous parasites. More importantly, it has been confirmed that Na-APR-1 plays a crucial role in the initiation of the Hb degradation process and therefore targeting this molecule as a vaccine candidate could provide high levels of protection against hookworm infection.
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Hyposialylation regulates [alpha]4[beta]1 integrin binding to VCAM-1Woodard-Grice, Alencia V. January 2008 (has links) (PDF)
Thesis (Ph.D.)--University of Alabama at Birmingham, 2008. / Title from first page of PDF file (viewed on June 29, 2009). Includes bibliographical references.
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Caracterização de proteinases envolvidas na geração de peptídeos antimicrobianos no intestino de Rhipicephalus (Boophilus) microplus. / CE. Characterization of proteinases involved in the generation of antimicrobial peptides in the gut of Rhipicephalus (Boophilus) microplus.Carlos Eduardo Silva da Cruz 04 February 2010 (has links)
Sabe-se que a hemoglobina é uma rica fonte de peptídeos antimicrobianos (hemocidinas). A primeira hemocidina derivada da hemoglobina bovina caracterizada em carrapatos foi o peptídeo Hb33-61, que é ativo contra bactérias gram-positivas e fungos. Acredita-se que tais hemocidinas sejam geradas proteoliticamente no intestino do carrapato. Neste trabalho nós caracterizamos bioquimicamente uma catepsina D, designada BmAP. A análise da expressão gênica por qPCR mostrou que ela é expressa predominantemente no intestino. Através de LC-MS/MS, determinamos a especificidade de clivagem da BmAP utilizando Hb bovina, e verificamos que resíduos hidrofóbicos foram preferencialmente clivados nos subsítios P1 e P1. Também investigamos a especificidade de clivagem da catepsina L intestinal BmCL1, utilizando uma biblioteca combinatória de tetrapeptídeos e através de hemoglobinólise in vitro. A BmCL1 preferiu resíduos alifáticos no P2 e polares no P1 e P1. Além disso, hidrolisou a cadeia da Hb bovina entre A63/A64, gerando peptídeos com estrutura primária similar ao Hb 33-61. A hemoglobinólise com a BmAP e/ou BmCL1 resultou na formação de algumas hemocidinas, corroborando a hipótese do seu envolvimento na geração endógena de peptídeos antimicrobianos. / It is known that hemoglobin is a rich source of antimicrobial peptides (hemocidins). The first hemoglobin-derived hemocidin characterized in ticks was the peptide Hb33-61, which is active against Gram-positive bacteria and fungi. It is believed that hemocidins are endogenously generated in the tick gut. In this work we biochemically characterized a cathepsin D, designated BmAP. Expression analysis by qRT-PCR showed that it is expressed predominantly in the gut. Through LC-MS/MS, we determined the cleavage specificity of BmAP using bovine hemoglobin, and we verified that hydrophobic residues were preferentially cleaved at the subsites P1 and P1. We also investigated the cleavage specificity of the intestinal cathepsin L BmCL1, using a positional scanning synthetic combinatorial library and through in vitro hemoglobinolysis. BmCL1 preferred aliphatic residues at P2 and polar residues at P1 and P1. Also, it hydrolysed the subunit of bovine hemoglobin at A63/A64, generating peptides with a primary structure similar to Hb 33-61. Hemoglobinolysis with BmAP and/or BmCL1 resulted in the formation of some hemocidins, corroborating the hypothesis that these proteinases are involved in the endogenous generation of antimicrobial peptides
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Adsorção de aminoácidos em hidróxidos duplos lamelares: efeito da temperatura, pH e força iônica do meio / Adsorption of amino acids in layered double hydroxides: temperature, pH and ionic strength effectsFabiano Silvério 28 January 2005 (has links)
Hidróxidos Duplos Lamelares (HDLs), são materiais lamelares constituídos de camadas positivamente carregadas de um hidróxido misto de dois metais (um di e um trivalente), com ânions hidratados no domínio interlamelar. Apesar de serem potenciais adsorventes, o estudo da adsorção de aminoácidos sobre estes sólidos ainda não foi realizado. Este é importante, pois abre caminho para a aplicação de HDLs na remoção e recuperação de aminoácidos de soluções aquosas, provenientes de processos industriais. Este trabalho teve por objetivo estudar a adsorção e a sorção dos aminoácidos: Ácido Aspártico (Asp), Ácido Glutâmico (Glu) e Fenilalanina (Phe), a partir de soluções aquosas, em HDLs do sistema [Mg-Al-CO3], verificando o efeito de variáveis como temperatura, pH e força iônica (FI) do meio. O adsorvente foi preparado pelo método de coprecipitação a pH variável e caracterizado quanto à composição, organização estrutural, textura e morfologia. A adsorção de Asp, Glu e Phe no HDL não calcinado indicaram que não ocorre a substituição do ânion interlamelar (CO32-), mas sim a adsorção por interação do aminoácido com as cargas residuais na superfície do HDL. O processo mostrou uma grande dependência das variáveis estudadas. A adsorção de Asp e Glu tem comportamento semelhante, embora o aumento da força iônica, seja mais pronunciado em pH 7 para o Asp, e em pH 10 para o Glu. Sem aumento da força iônica, as isotermas atingem ou se aproximam do patamar de adsorção destes aminoácidos, e o aumento na temperatura diminui a quantidade máxima adsorvida. A adsorção de Phe apresentou comportamento similar aos anteriores, exceto pelo fato do aumento da força iônica causar uma diminuição na adsorção. Os resultados obtidos para a sorção no HDL calcinado mostraram que inicialmente o HDL é reconstituído contendo ânions OH- intercalados que são deslocados pelo aminoácido conforme a concentração deste aumenta. Neste caso, Asp e Glu também apresentaram comportamentos semelhantes: as isotermas atingem um patamar onde a sorção torna-se constante e o aumento da temperatura diminui a quantidade sorvida. Para a Phe, a quantidade sorvida é muito maior que para os demais e não se observa o patamar de sorção constante. A temperatura não causa alteração significativa na quantidade sorvida. Os resultados de remoção dos aminoácidos, obtidos para o HDL calcinado se mostraram mais eficientes do que àqueles observados no HDL não calcinado. / Layered Double Hydroxides (LDHs), are lamellar materials constituted of positively charged layers of two cations mixed hydroxide (a bi and a trivalent one), with hydrated anions in the interlayer domain. In spite of they being potential adsorbents, the study of the adsorption of amino acids on these solids has not been done yet. This is important, because it opens the perspective for the application of LDHs to remove and to recover amino acids from aqueous solutions, resultant from industrial processes. The aim of this work was to study the adsorption and the sorption of the amino acids: Aspartic Acid (Asp), Glutamic Acid (Glu) and Phenylalanine (Phe), from aqueous solutions, in [Mg-Al-CO3] LDHs, verifying the effect of the variables: temperature, pH and ionic strength of the medium. The adsorbent was prepared by the coprecipitation method and characterized with respect to their composition, structural organization, texture and morphology. The adsorption of Asp, Glu and Phe in LDH indicated that the substitution of the interlayer anion (CO32-) doesn\'t occur, but the adsorption process occurs by the interaction of the amino acid with the residual charges on the LDH surface. The process showed a dependence on the parameters studied. The adsorption of Asp and Glu presented similar behavior, although the ionic strength effect is more pronounced in pH 7 for Asp, and in pH 10 for Glu. Without the increase in ionic strength, the isotherms reach or approach a plateau, and the increasing in the temperature reduces the maximum amount adsorbed. The adsorption of Phe has similar behavior to the previous ones, except at higher ionic strength, in which a decrease in the adsorption was observed. The results for the sorption in calcined LDH showed that the LDH are reconstituted with the OH- anions intercalated at low amino acid concentrations. The intercalation of amino acid becomes important as their concentration increase. In this case, Asp and Glu also presented similar behaviors: the isotherms reach a plateau where the sorption becomes constant and the increase of the temperature reduces the amount of sorbed amino acid. For Phe, the amount sorbed is higher than those for the others amino acids and the plateau of constant sorption was not observed. The temperature doesn\'t cause any significant alteration in the sorbed amount. The results of removing the amino acids on calcined LDH showed to be more efficient than those observed for the adsorption in LDH.
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Design and Synthesis of Serine and Aspartic Protease InhibitorsWångsell, Fredrik January 2006 (has links)
This thesis describes the design and synthesis of compounds that are intended to inhibit serine and aspartic proteases. The first part of the text deals with preparation of inhibitors of the hepatitis C virus (HCV) NS3 serine protease. Hepatitis C is predominantly a chronic disease that afflicts about 170 million people worldwide. The NS3 protease, encoded by HCV, is essential for replication of the virus and has become one of the main targets when developing drugs to fight HCV. The inhibitors discussed here constitute surrogates for the widely used N-acyl-hydroxyproline isostere designated 4-hydroxy-cyclopentene. The stereochemistry of the 4-hydroxy-cyclopentene scaffold was determined by nuclear overhauser effect spectroscopy (NOESY) and the regiochemistry by heteronuclear multiple bond correlation (HMBC). The scaffold was decorated with different substituents to obtain both linear and macrocyclic HCV NS3 protease inhibitors that display low nanomolar activity. The second part of the thesis describes the design and synthesis of potential aspartic protease inhibitors. The hydroxyethylene motif was used as a noncleavable transition state isostere. The synthetic route yielded a pivotal intermediate with excellent stereochemical control, which was corroborated by NOESY experiments. This intermediate can be diversified with different substituents to furnish novel aspartic protease inhibitors. / <p>Report code: LIU-TEK-LIC-2006:45</p>
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Arg-Gly-Asp (RGD) conjugated aliphatic acids as micellar drug carrier for targeted drug deliveryShen, Steve I. 01 January 2004 (has links) (PDF)
Targeted drug delivery is desired in cancer therapy since most of the side effects common to chemotherapy are related to the toxicity of the drug. Integrin over-expression has been shown in various cancer cells and can be exploited for targeted drug delivery. The goal of this study is to design amphiphilic conjugates with targeting motifs as a targeted drug delivery carrier. Toward this effort, novel amphiphilic conjugates of the Arg-Gly-Asp (RGD) peptide or GRGDS was linked to aliphatic acids of varying chain length. The hypothesis is that these novel amphiphilic conjugates, at concentrations above the critical micelle concentration (CMC), can form micelles in aqueous environment, encapsulate poorly-water soluble drugs, and target the α v β 3 integrin. The amphiphilic conjugate is also hypothesized to serve as targeting moiety in mixed micelle drug delivery system using Pluronic block copolymer. Synthesis of RGD amphiphilic conjugates was achieved by converting carboxylic acids into more reactive N-hydroxysuccinimidyl derivative and converting the carboxylic functional group of peptide into methyl ester. Then the activated NHS aliphatic ester was conjugated with methyl-protected peptide in the presence of organic base and methyl ester was removed in NaOH and subsequently neutralized. Intermediates and final products were characterized by MS, FTIR, and NMR. Micelle formation occurred in concentration of 0.015 to 0.12 mM for C 14 -RGD, C 16 -RGD, C 18 -RGD, and C 18 -GRGDS. Amphiphilic conjugate mixed with Pluronic L121 and Pluronic P104 (5% C 18 -RGD/L121 and 10% C 18 -GRGDS/P104) formed micelles at lower CMC of 0.0006 and 0.01 mM, respectively. Solubility of Taxol in water was improved by 87% when encapsulated in C 18 -RGD micelle above CMC. The solubility was increased 7 fold and 18 fold in mixed micelles of 5% C 18 -RGD/P104 and 5% C 18 -RGD/L121 above CMC. Three different drugs (DOX, Taxol, and etoposide) were used to evaluate the efficacy of the targeting C 18 -GRGDS micelle carrier alone or C 18 -RGD mixed with Pluronic block copolymers micelle. All 3 drugs significantly enhanced cytotoxicity toward cancer cells when loaded in micelle carrier above CMC. With same DOX concentration, C 18 -GRGDS micelle carrier significantly decreased percent of viable cells (12.9 ± 1.2%) above CMC when compared to concentrations below CMC (24.1 ± 1.0%). Mixed micelle of targeting amphiphile and Pluronic loaded with Taxol above CMC significantly decreased the percent of viable cells (38.3 ± 7.9%) when compared to non-targeting Pluronic block copolymer micelle (56.0 ± 2.8%). (Abstract shortened by UMI.)
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Sekretované aspartátové proteázy kvasinky Candida parapsilosis. / The secreted aspartic proteases of Candida parapsilosis.Marečková, Lucie January 2012 (has links)
Candida parapsilosis is an opportunistic fungal pathogen of humans causing a variety of infections. Immunocompromised individuals represent the most threatened group of patients. The increasing frequency of infections and occurrence of drug resistant strains are the main reasons for research focused on novel antimycotic compounds. Inhibition of secreted aspartic proteases (Sap) of pathogenic Candida spp. appears to be a potential target of therapeutic intervention. The genome of C. parapsilosis contains at least three genes coding for secreted aspartic proteases, denominated SAPP1-3. Protease Sapp1p has been well biochemically and structurally characterized, whereas Sapp2p and Sapp3p have been given less attention. The first part of the thesis is focused on structural analysis of Sapp1p complexes with selected peptidomimetic inhibitors binding to the active site of the enzyme. In addition, complex of the isoenzyme Sapp2p with the well-known secreted aspartate inhibitor Pepstatin A has been analyzed. The second part is related to the fact that C. parapsilosis belongs to the Candida spp. with the unique ability to translate standard leucine CUG codon mostly as serine. Even though it is a non-conservative substitution of hydrophobic amino acids for a hydrophilic one, this unique ability is maintained for more...
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Estudo da via do ácido aspártico descrevendo uma variedade de técnicas de engenharia genética e bioquímicas / The study of aspartate metabolic pathway: a description of various biochemical and genetic engineering techniquesNazareno, Amerivan Cirqueira 18 June 2013 (has links)
Esta pesquisa bibliográfica teve o propósito de elucidar a via do acido aspártico, apontando como fonte deste estudo os cereais. O objetivo principal desta pesquisa consistiu em estudar a via do acido aspártico, visando descrever uma variedade de técnicas de engenharia genética e bioquímicas que podem ser empregadas para aumentar a qualidade nutricional de cereais, podendo, assim, compreender o que acarreta o aumento do acumulo de lisina, metionina e treonina nos grãos para suprir essa necessidade na formação de uma proteína balanceada nutricionalmente. Foi realizada uma busca exaustiva em bases de dados Google Scholar, Portal Capes, ISI web of Science, no período de publicação de 1970 a 2012. Foram adotados textos de referencia internacional e nacional. Esta pesquisa foi dividida em três etapas: via do acido aspártico e seus aminoácidos derivados em plantas superiores de 1970 a 1997, via metabólica do acido aspártico no período de 1997 a 2006 e estratégias interessantes para aumentar o nível dos aminoácidos essenciais da via do acido aspártico em plantas no período de 2006 ate o momento. A primeira etapa foi desenvolvida relatando o acido aspártico como precursor dos aminoácidos essenciais: metionina, lisina, treonina e isoleucina. Entre os essenciais, a lisina e um dos mais estudados devido a escassez em muitos cereais, o que contribuiu para o estudo extensivo da via do acido aspártico, revelando, assim, a importância da aspartato quinase (AK), homoserina desidrogenase (HSDH) e dihidrodipicolinato sintase (DHDPS) como enzimas chaves para a regulação da síntese de lisina. A aspartato quinase (AK) exerce um controle sobre via do acido aspártico. A enzima dihidrodipicolinato sintase (DHDPS) regula a síntese de lisina. Na segunda etapa foi apresentada a importância dos aminoácidos sintetizados nas plantas através de complexas vias metabólicas que são controladas por enzimas, intermediários, substratos e aminoácidos. Este estudo também relata os aspectos importantes para uma melhor compreensão da síntese e o acumulo de aminoácidos solúveis e incorporados em proteínas. A terceira etapa foi apresentar estratégias interessantes para utilização em estudos, visando aumentar o nível de aminoácidos essenciais através da manipulação de genes já existentes, como também a introdução de genes estranhos nas plantas. Devido a importância nutricional, essa via tem sido extensivamente estudada, utilizando técnicas de engenharia genética e bioquímica. Pesquisadores tem apresentado esforços considerados no estudo desta via a fim de contribuir para futuras manipulações genéticas, cujo objetivo e produzir plantas com alto conteúdo de lisina, metionina e treonina. / The aim of this research was to elucidate the aspartate metabolic pathway using grains of cereal as a source of study. Therefore, it was necessary to understand the aspartate metabolic pathway in order to depict various biochemical and genetic techniques which can be used to enhance the nutritional value in cereals. After studying theses issues, it was possible to understand the results of having cereals with a high lysine, methionine, and threonine content, so that grains can have balanced protein content. For that reason, an exhaustive research was done by using international and national scientific data published in 1970 to 2012. These data were found in Google Scholar, Portal Capes, and ISI Web of Science. This research was divided in three parts: studies of aspartate metabolic pathway and their essential amino acids derived from plants published in 1970 to 1997, studies of aspartate metabolic pathway published in the period of 1997 to 2006, and interesting strategies to enhance the level of essential amino acids of the aspartate metabolic pathway in plants from 2006 to this moment. Firstly, this investigation reported about the aspartic acid as a precursor of essential amino acids such as methionine, lysine, threonine, and isoleucyne. Among the essential amino acids, lysine has been the most researched due to its lack in many kinds of grains. Needless to say, it has contributed to the intensive study showing the relevancy of aspartate kinase (AK), homoserine dehydrogenase (HSDH), dihydrodipicolinate synthase (DHDPS), as key enzymes for lysine regulation. The aspartate kinase (AK) has an important role on the aspartate metabolic pathway, meanwhile the dihydrodipicolinate synthase (DHDPS) is intrinsically involved on lysine synthesis regulation. Secondly, this investigation presented the importance of the amino acids which are synthesized by plants through metabolic pathways that are controlled by enzymes, intermediates, substrates, and amino acids. In addition, this research reported relevant aspects whereby scientists can improve their understanding about the synthesis and accumulation of soluble amino acids which are incorporated in proteins. Finally, the third part showed interesting strategies which can be used in future researches in order to increase not only the level of essential amino acids by manipulating genes, but also the introduction of odd genes in plants. Given the nutritional relevancy, this pathway has been extensively investigated by using techniques used by biochemical and genetic engineering. Hence, researchers have demonstrated a considerable effort on this matter contributing for future genetic manipulations, so that plants with high lysine, methionine, and threonine content can be produced.
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