Escherichia coli expression and characterization of α-amylase from Geobacillus thermodenitrificans DSM-465 / Expressão e caracterização de Escherichia coli de alfa-amilase de Geobacillus thermodenitrificans DSM-465

Alpha amylase, catalyzing the hydrolysis of starch is a ubiquitous enzyme with tremendous industrial applications. A 1698 bp gene coding for 565 amino acid amylase was PCR amplified from Geobacillus thermodenitrificans DSM465, cloned in pET21a (+) plasmid, expressed in BL21 (DE3) strain of E. coli and characterized. The recombinant enzyme exhibited molecular weight of 63 kDa, optimum pH 8, optimum temperature 70°C, and KM value of 157.7µM. On pilot scale, the purified enzyme efficiently removed up to 95% starch from the cotton fabric indicating its desizing ability at high temperature. 3D model of enzyme built by Raptor-X and validated by Ramachandran plot appeared as a monomer having 31% α-helices, 15% ß-sheets, and 52% loops. Docking studies have shown the best binding affinity of enzyme with amylopectin (∆G -10.59). According to our results, Asp 232, Glu274, Arg448, Glu385, Asp34, Asn276, and Arg175 constitute the potential active site of enzyme.

A alfa-amilase, que catalisa a hidrólise do amido, é uma enzima ubíqua com imensas aplicações industriais. Um gene de 1698 pb que codifica a amilase de 565 aminoácidos foi amplificado por PCR, a partir de Geobacillus thermodenitrificans DSM-465, clonado no plasmídeo pET21a (+), expresso na cepa BL21 (DE3) de E. coli e caracterizado. A enzima recombinante exibiu peso molecular de 63 kDa, pH ótimo igual a 8, temperatura ótima de 70° C e valor KM de 157,7 µM. Em escala piloto, a enzima purificada removeu com eficiência até 95% de amido do tecido de algodão, indicando sua capacidade de desengomagem em alta temperatura. O modelo 3D da enzima construída por Raptor-X e validada por Ramachandran plot apareceu como um monômero com 31% de hélices alfa, 15% de folhas beta e 52% de loops. Os estudos de docking mostraram melhor afinidade de ligação da enzima com amilopectina (∆G: - 10,59). De acordo com nossos resultados, Asp 232, Glu274, Arg448, Glu385, Asp34, Asn276 e Arg175 constituem o sítio ativo potencial da enzima.

Development of a species-specific PCR assay for authentication of Agkistrodon acutus based on mitochondrial cytochrome b gene

BACKGROUND: Agkistrodon acutus, a traditional Chinese medicine, clinically used in the treatment of rheumatism, tumor, and cardiovascular and cerebrovascular diseases. Due to the unique medicinal value and the difficulty of artificial breeding of Agkistrodon acutus, the supply of Agkistrodon acutus on the market exceeds the demand, and a large number of its adulterants are found on the market. In this study, the cytb gene sequences of Agkistrodon acutus and 9 snakes were compared and analyzed, specific primers were designed, and specific PCR methods were established to detect Agkistrodon acutus medicinal samples on the market. RESULTS: This method was successfully applied to distinguish the snake from other adulterated species, and tested 18 Agkistrodon acutus samples randomly purchased from six cities. Twelve samples were counterfeit and six were genuine. The standard reference material of Agkistrodon acutus was cloned by molecular cloning and sequencing, and the gene sequence difference with other species was significant. It shows that the region could be used as the fingerprint region of the target species. CONCLUSIONS: The proposed method can be used as a species-specific marker and can be highly distinguished from other adulterated snake species, which is helpful to effectively avoid the problem of false sale of Agkistrodon acutus.

Identification and Characterization of the ATG8, a Marker of Eimeria tenella Autophagy / Identificação e Caracterização do ATG8, um marcador de autofagia em Eimeria tenella

Abstract Autophagy plays an important role in maintaining cell homeostasis through degradation of denatured proteins and other biological macromolecules. In recent years, many researchers focus on mechanism of autophagy in apicomplexan parasites, but little was known about this process in avian coccidia. In our present study. The cloning, sequencing and characterization of autophagy-related gene (Etatg8) were investigated by quantitative real-time PCR (RT-qPCR), western blotting (WB), indirect immunofluorescence assays (IFAs) and transmission electron microscopy (TEM), respectively. The results have shown 375-bp ORF of Etatg8, encoding a protein of 124 amino acids in E. tenella, the protein structure and properties are similar to other apicomplexan parasites. RT-qPCR revealed Etatg8 gene expression during four developmental stages in E. tenella, but their transcriptional levels were significantly higher at the unsporulated oocysts stage. WB and IFA showed that EtATG8 was lipidated to bind the autophagosome membrane under starvation or rapamycin conditions, and aggregated in the cytoplasm of sporozoites and merozoites, however, the process of autophagosome membrane production can be inhibited by 3-methyladenine. In conclusion, we found that E. tenella has a conserved autophagy mechanism like other apicomplexan parasites, and EtATG8 can be used as a marker for future research on autophagy targeting avian coccidia.

Resumo A autofagia desempenha um papel importante na manutenção da homeostase celular através da degradação de proteínas desnaturadas e outras macromoléculas biológicas. Nos últimos anos, muitos pesquisadores se concentraram no mecanismo da autofagia em parasitas apicomplexos, mas pouco se sabe sobre esse processo na coccidia aviária. No presente estudo, a clonagem, sequenciamento e caracterização de gene relacionado à autofagia Etatg8 foram investigados pela PCR quantitativa em tempo real (RT-qPCR), mancha ocidental (WB), ensaios indiretos de imunofluorescência (IFAs) e microscopia eletrônica de transmissão (TEM), respectivamente. Os resultados mostraram que o gene Etatg8 de E. tenella possui uma ORF de 375 bp, codificando uma proteína de 124 aminoácidos com estrutura e propriedades semelhantes à de outros apicomplexos. RT-qPCR revelou que Etatg8 é expresso durante os quatro estágios de desenvolvimento de E. tenella. Entretanto, seus níveis transcricionais foram significativamente mais elevados na fase de oocisto não esporulados. Os ensaios de manchas ocidental (WB) e de imunofluorescência (IFA) mostraram que a proteína EtATG8 foi lipidada para ligar-se à membrana do autofagossomo sob condições de deficiência nutritiva (em presença de rapamicina) e se agregar no citoplasma de esporozoítas e merozoítas. No entanto, o processo de produção de membrana do autofagossomo pode ser inibido por um inibidor de autofagia (3-meetiladeninatiladenina, 3-MA). Em conclusão, foi demonstrado que E. tenella tem um mecanismo de autofagia conservado, semelhante ao de outros parasitas apicomplexos, e que EtATG8 pode ser usado como um marcador para futuras pesquisas sobre autofagia direcionada à coccidiose aviária.

Obtención de hidrolizados proteicos de leguminosas usando una proteasa recombinante de Pseudomonas aeruginosa M211 / Obtaining protein hydrolysates from leguminous using a recombinant protease from Pseudomonas aeruginosa M211

El género Pseudomonas es una fuente importante de proteasas; sin embargo, su uso está restringido en la industria alimentaria. El clonaje permite aprovechar la capacidad catalítica de estas enzimas mediante su producción en microorganismos inocuos. Por otro lado, las leguminosas son fuentes ricas en proteínas, a partir de las cuales se pueden obtener compuestos con valor agregado mediante procesos de hidrólisis enzimática. En este estudio, se produjo y caracterizó una proteasa recombinante (PT4) alcalina y termoestable de Pseudomonas aeruginosa M211, para la obtención de hidrolizados proteicos de leguminosas. Para ello, el gen de la proteasa se clonó en el vector pJET1.2/blunt utilizando E. coli DHalfa como hospedero. El análisis de la secuencia nucleotídica parcial de la proteasa indicó un 99 % de similitud con Peptidasas de la Familia M4 de Pseudomonas aeruginosa. La enzima recombinante presentó un peso molecular de 80 kDa, demostró ser activa y estable en condiciones alcalinas y termófilas con un pH y temperatura óptimos de 8 y 60 °C, respectivamente, y fue inhibida por EDTA. Además, hidrolizó proteínas de semillas de Glycine max, Phaseolus lunatus, Lupinus mutabilis y Erythrina edulis, obteniéndose fracciones peptídicas menores a 40 kDa. Esta proteasa recombinante se podría utilizar en la elaboración de hidrolizados proteicos funcionales a partir proteínas de distintas fuentes y residuos agroalimentarios.

The genus Pseudomonas is an important source of proteases; however, in the food industry the use of this bacterium is restricted. Cloning allows for the use of the proteolytic activity of Pseudomonas proteases through their production in innocuous microorganisms. Leguminous are protein-rich sources from which value-added compounds can be obtained through enzymatic hydrolysis. In this study, an alkaline and thermostable recombinant protease (PT4) from Pseudomonas aeruginosa M211 was cloned and characterized in order to obtain protein hydrolysates from leguminous. Therefore, protease gene was cloned into the pJET1.2 / blunt vector using E. coli DHalpha as a host. Analysis of protease partial nucleotide sequence showed 99% homology with Peptidases M4 Family from Pseudomonas aeruginosa. The molecular weight of the recombinant enzyme was 80 kDa, it was active and stable under alkaline and thermophilic conditions, presented an optimum pH and temperature of 8 and 60 °C, respectively, and was inhibited by EDTA. In addition, it hydrolysed Glycine max, Phaseolus lunatus, Lupinus mutabilis y Erythrina edulis proteins, obtaining peptide fractions less than 40 kDa. This recombinant protease could be used in the elaboration of functional hydrolysates using protein from different sources and agricultural waste.

cDNA Cloning of a Bovine Insulin-like growth factor-1 from Egyptian Buffalos and Expression of its Recombinant Protein in Escherichia coli / Clonagem de cDNA de um fator-1 de crescimento semelhante à insulina bovina de búfalos egípcios e expressão de sua proteína recombinante em Escherichia coli

Insulin-like growth factor-1 (IGF-1) is regarded as a crucial clinically significant therapeutic agent against several pathological conditions. Recently, recombinant DNA (rDNA) technology has enabled the production of many drugs of rDNA-origin including IGF-1. Securing a readily available supply of IGF-1 is invaluable to clinical research and biotechnological domains. In this work, the cloning of a full-length bovine IGF-1 cDNA and the successful expression of its cognate recombinant IGF-1 protein is reported. Single-strand cDNA was prepared from liver tissues, through the specific reverse transcription (RT) of IGF-1 mRNA. Subsequently, a PCR amplicon of ~543bp was successfully amplified. Recombinant pTARGET™ vector harboring IGF-1 insert was successfully cloned into competent E. coli JM109 cells. SDS-PAGE analysis revealed that the recombinant IGF-1 has been expressed at the expected size of 7.6kDa. The outcome provides a robust basis for transecting the recombinant pTARGETTM vector, harboring the IGF-1 cDNA insert, into mammalian cells. Optimal initial glucose concentration was found to be 10g/l with corresponding protein concentration of 6.2g/l. The proliferative biological activity crude recombinant IGF-1 protein was verified on HeLa cell lines. This is envisaged to facilitate large-scale production of recombinant IGF-1 protein, thereby enabling thorough investigation of its clinical and pharmaceutical effects.(AU)

O fator de crescimento semelhante à insulina-1 (IGF-1) é considerado um agente terapêutico clinicamente significativo contra várias condições patológicas. Recentemente, a tecnologia de DNA recombinante (rDNA) permitiu a produção de muitos medicamentos de origem rDNA, incluindo o IGF-1. Garantir um suprimento prontamente disponível de IGF-1 é inestimável para pesquisas clínicas e domínios biotecnológicos. Neste trabalho, relata-se a clonagem de um cDNA de IGF-1 bovino de comprimento total e a expressão bem-sucedida de sua proteína IGF-1 recombinante cognata. O cDNA de cadeia simples foi preparado a partir de tecidos do fígado, por meio da transcrição reversa específica (RT) do mRNA de IGF-1. Posteriormente, um amplificador de PCR de ~ 543pb foi amplificado com sucesso. O vetor pTARGET™ recombinante contendo a inserção de IGF-1 foi clonado com sucesso em células competentes E. coli JM109. A análise por SDS-PAGE revelou que o IGF-1 recombinante foi expresso no tamanho esperado de 7,6kDa. O resultado fornece uma base robusta para a transferência do vetor pTARGETTMTM recombinante, abrigando a inserção de cDNA de IGF-1 em células de mamíferos. Verificou-se que a concentração inicial ideal de glicose é 10g/L, com a concentração de proteína correspondente de 6,2g/L. A proteína IGF-1 recombinante bruta de atividade biológica proliferativa foi verificada nas linhas celulares HeLa. É previsto que isso facilite a produção da proteína IGF-1 recombinante em larga escala, permitindo, assim, uma investigação completa dos seus efeitos clínicos e farmacêuticos.(AU)

In-Situ Gel-Free Plasmid Reassembling for Rapid Gene Subcloning and Truncation

Abstract Gene subcloning, a process in which the nucleotide sequence of interest is excised from on plasmid and inserted into another, seems to be an easy task to done. However, not all subcloning attempts are successful, even when the insert sequence and the double digested target plasmid are successfully purified form agarose gel and thought to be ready for subsequent ligation. In the current study we introduce a reliable, easy, and time consuming method for gene subcloning and also truncation. The stages are all carried out in a single microtube without any running on a gel, making it possible to accomplish a successful gene subcloning or truncation even with low concentrations of DNA molecules. Summarily, subcloning is achieved by mixing the plasmids of interest in a microtube and subjecting to restriction enzymes whose restriction sites flank the segment that is going to be subcloned. Digestion mixture is precipitated in the same microtube using isopropanol and the resultant DNA molecules are allowed to take part in a ligation reaction. The recombinant plasmids of interest are screened by colony PCR. Truncation is achieved by double- digestion of the plasmid of interest using a restriction enzyme whose restriction site flanks the segment that is going to be cut out.

Cloning and molecular characterization of a putative habanero pepper SERK1 cDNA expressed during somatic and zygotic embryogenesis

Background: Plant gene homologs that control cell differentiation can be used as biotechnological tools to study the in vitro cell proliferation competence of tissue culture-recalcitrant species such as peppers. It has been demonstrated that SERK1 homologs enhance embryogenic competence when overexpressed in transformed tissues; therefore, cloning of a pepper SERK1 homolog was performed to further evaluate its biotechnological potential. Results: A Capsicum chinense SERK full-length cDNA (CchSERK1) was cloned and characterized at the molecular level. Its deduced amino acid sequence exhibits high identity with sequences annotated as SERK1 and predicted-SERK2 homologs in the genomes of the Capsicum annuum CM-334 and Zunla-1 varieties, respectively, and with SERK1 homologs from members of the Solanaceae family. Transcription of CchSERK1 in plant tissues, measured by quantitative RT-PCR, was higher in stems, flowers, and roots but lower in leaves and floral primordia. During seed development, CchSERK1 was transcribed in all zygotic stages, with higher expression at 14 days post anthesis. During somatic embryogenesis, CchSERK1 was transcribed at all differentiation stages, with a high increment in the heart stage and lower levels at the torpedo/cotyledonal stages. Conclusion: DNA sequence alignments and gene expression patterns suggest that CchSERK1 is the C. chinense SERK1 homolog. Significant levels of CchSERK1 transcripts were found in tissues with cell differentiation activities such as vascular axes and during the development of zygotic and somatic embryos. These results suggest that CchSERK1 might have regulatory functions in cell differentiation and could be used as a biotechnological tool to study the recalcitrance of peppers to proliferate in vitro.

Clonación y expresión en Escherichia coli de un gen L1 completo del virus del papiloma humano 18 aislado de una paciente cubana y variantes delecionadas / Cloning and expression in Escherichia coli of the full-length and deletion variants of a human papillomavirus 18 L1 gene isolated from a Cuban patients

Introduction: Human papillomavirus (HPV) vaccines are based on the L1 major capsid protein. Objectives: To clone the HPV-18 L1 gene from a Cuban female HPV-18-infected patient and to express the full-length and deletion variants of the cloned HPV-18 L1 gene in Escherichia coli. Methods: The full-length HPV-18 L1 gene was PCR-amplified from total DNA isolated from a Cuban patient, cloned and finally subcloned into the E. coli expression vector pET26b. Three deletion mutants were constructed, which encode truncated proteins lacking 30 amino acids at the C-terminus in combination with 5, 6 or none deleted residue at the N-terminus. Production of L1 proteins in E. coli BL21(DE3) and E. coli SHuffle T7 was assessed by SDS-PAGE and Western blotting. Results: The cloned HPV-18 L1 gene was 99.9 por ciento similar to the African variant EF202152 and probably shares a common origin with the B lineage of genotype 18. The three truncated variants of HPV-18 L1 were produced at higher levels than the full-length HPV-18 L1 protein, attaining higher levels in E. coli BL21(DE3) and higher solubility in E. coli SHuffle. The C-terminus-only truncated variant, L1∆C30, was produced at similar levels to the HPV-18 L1s truncated at both termini. E. coli SHuffle produced about three times more amounts of L1∆C30 when grown under autoinduction conditions with respect to conventional induction and thus, amounts were comparable to those obtained in E. coli BL21(DE3) under conventional induction. Conclusions: Truncation of thirty amino acid residues at the carboxy-terminus of the HPV-18 L1 made a major contribution to the production and solubility of this wild-type protein in E. coli. This is the first report about soluble production of HPV-18 L1 protein in an E. coli SHuffle strain. However, higher amounts of L1 are needed to scale-up its production for developing an HPV vaccine candidate(AU)

Introducción: Las vacunas contra el virus del papiloma humano (VPH) se fundamentan en la proteína principal de la cápsida L1. Objetivo: Clonar el gen L1 del VPH-18 a partir de una paciente cubana infectada con VPH-18 y expresar las variantes de longitud completa y delecionadas del gen L1 del VPH-18 en Escherichia coli. Métodos: El gen L1 del VPH-18 de longitud completa se amplificó por PCR a partir de ADN total aislado de un paciente cubana, se clonó y finalmente se subclonó en el vector de expresión de E. coli pET26b. Se construyeron tres mutantes de deleción, que codifican para proteínas truncadas que carecen de 30 aminoácidos por el extremo carboxilo, en combinación con 5, 6 o ningún residuo delecionado por el extremo amino. La producción de las proteínas L1 en E. coli BL21(DE3) y E. coli SHuffle T7 se evaluó mediante SDS-PAGE y Western blot. Resultados: El gen L1 del VPH-18 clonado fue 99.9 percent similar a la variante africana EF202152 y probablemente comparte un origen común con el linaje B del genotipo 18. Las tres variantes truncadas de la proteína L1 del VPH-18 se produjeron a mayores niveles que la proteína L1 del VPH-18 de longitud completa, alcanzando mayores niveles en E. coli BL21(DE3) y mayor solubilidad en E. coli SHuffle. La variante truncada solo por el extremo carboxilo, L1(C30, se produjo a niveles similares a las proteínas L1 del VPH-18 truncadas por ambos extremos. E. coli SHuffle produjo aproximadamente tres veces más cantidades de L1(C30 cuando creció en condiciones de autoinducción, con respecto a la inducción convencional y, por ende, las cantidades fueron comparables a las obtenidas por E. coli BL21(DE3) bajo inducción convencional. Conclusiones: La truncación de treinta residuos de aminoácidos por el extremo carboxilo de la proteína L1 del VPH-18 tuvo una importante contribución a la producción y solubilidad de la proteína L1 nativa en E. coli. Este es el primer informe sobre la producción soluble de la proteína L1 del VPH-18 en una cepa de E. coli SHuffle. Sin embargo, se necesitan mayores cantidades de la proteína L1 para escalar su producción para desarrollar un candidato vacunal contra el VPH(AU)

Expression and purification of the transcription factor StMsn2 from Setosphaeria turcica in Escherichia coli

Background: In Saccharomyces cerevisiae, Msn2, which acts as a key transcription factor downstream the MAPKHOG cascade pathway, also regulates the expression of genes related to stress responses. However, little is known about the regulation mechanisms of the transcription factor in Setosphaeria turcica. Results: In this study, a zinc finger DNA-binding protein, designated as StMSN2, was cloned from S. turcica. Sequencing results showed that StMSN2 had a 1752 bp open reading frame (ORF), which was interrupted by an intron (135 bp) and encoded a putative 538-amino acid protein. Phylogenetic analysis further revealed that StMsn2 was more closely related to Msn2 of Aspergillus parasiticus. StMSN2 was cloned into the pET-28a vector with His (Histidine) tags and induced with 1 mM IPTG (isopropyl-ß-D-thiogalactoside) at 37°C. The recombinant His-tagged StMsn2 was purified, and a band of size approximately 58.8 kDa was obtained. The high specificity of the polyclonal antibody Msn2-2 was detected with the StMsn2 protein from S. turcica and prokaryotic expression system, respectively. Conclusions: A new gene, named StMSN2, with 1617 bp ORF was cloned from S. turcica and characterized using bioinformatics methods. StMsn2 was expressed and purified in a prokaryotic system. A polyclonal antibody, named Msn2-2, against StMsn2 with high specificity was identified.

Molecular cloning and subcellular localization of six HDACs and their roles in response to salt and drought stress in kenaf (Hibiscus cannabinus L)

BACKGROUND: Histone acetylation is an important epigenetic modification that regulates gene activity in response to stress. Histone acetylation levels are reversibly regulated by histone acetyltransferases (HATs) and histone deacetylases (HDACs). The imperative roles of HDACs in gene transcription, transcriptional regulation, growth and responses to stressful environment have been widely investigated in Arabidopsis. However, data regarding HDACs in kenaf crop has not been disclosed yet. RESULTS: In this study, six HDACs genes (HcHDA2, HcHDA6, HcHDA8, HcHDA9, HcHDA19, and HcSRT2) were isolated and characterized. Phylogenetic tree revealed that these HcHDACs shared high degree of sequence homology with those of Gossypium arboreum. Subcellular localization analysis showed that GFP-tagged HcHDA2 and HcHDA8 were predominantly localized in the nucleus, HcHDA6 and HcHDA19 in nucleus and cytosol. The HcHDA9 was found in both nucleus and plasma membranes. Real-time quantitative PCR showed that the six HcHDACs genes were expressed with distinct expression patterns across plant tissues. Furthermore, we determined differential accumulation of HcHDACs transcripts under salt and drought treatments, indicating that these enzymes may participate in the biological process under stress in kenaf. Finally, we showed that the levels of histone H3 and H4 acetylation were modulated by salt and drought stress in kenaf. CONCLUSIONS: We have isolated and characterized six HDACs genes from kenaf. These data showed that HDACs are imperative players for growth and development as well abiotic stress responses in kenaf.

Cloning and high-level expression of Thermus thermophilus RecA in E. coli: purification and novel use in HBV diagnostics

ABSTRACT We studied the role of Thermus thermophilus Recombinase A (RecA) in enhancing the PCR signals of DNA viruses such as Hepatitis B virus (HBV). The RecA gene of a thermophilic eubacterial strain, T. thermophilus, was cloned and hyperexpressed in Escherichia coli. The recombinant RecA protein was purified using a single heat treatment step without the use of any chromatography steps, and the purified protein (>95%) was found to be active. The purified RecA could enhance the polymerase chain reaction (PCR) signals of HBV and improve the detection limit of the HBV diagnosis by real time PCR. The yield of recombinant RecA was ∼35 mg/L, the highest yield reported for a recombinant RecA to date. RecA can be successfully employed to enhance detection sensitivity for the diagnosis of DNA viruses such as HBV, and this methodology could be particularly useful for clinical samples with HBV viral loads of less than 10 IU/mL, which is interesting and novel.

Cloning and expression analysis of three critical triterpenoid pathway genes in Osmanthus fragrans

Background: Osmanthus fragrans is an important ornamental tree and has been widely planted in China because of its pleasant aroma, which is mainly due to terpenes. The monoterpenoid and sesquiterpenoid metabolic pathways of sweet osmanthus have been well studied. However, these studies were mainly focused on volatile small molecule compounds. The molecular regulation mechanism of synthesis of large molecule compounds (triterpenoids) remains unclear. Squalene synthase (SQS), squalene epoxidase (SQE), and beta-amyrin synthase (BETA-AS) are three critical enzymes of the triterpenoid biosynthesis pathway. Results: In this study, the full-length cDNA and gDNA sequences of OfSQS, OfSQE, and OfBETA-AS were isolated from sweet osmanthus. Phylogenetic analysis suggested that OfSQS and OfSQE had the closest relationship with Sesamum indicum, and OfBETA-AS sequence shared the highest similarity of 99% with that of Olea europaea. The qRT-PCR analysis revealed that the three genes were highly expressed in flowers, especially OfSQE and OfBETA-AS, which were predominantly expressed in the flowers of both "Boye" and "Rixiang" cultivars, suggesting that they might play important roles in the accumulation of triterpenoids in flowers of O. fragrans. Furthermore, the expression of OfBETA-AS in the two cultivars was significantly different during all the five flowering stages; this suggested that OfBETA-AS may be the critical gene for the differences in the accumulation of triterpenoids. Conclusion: The evidence indicates that OfBETA-AS could be the key gene in the triterpenoid synthesis pathway, and it could also be used as a critical gene resource in the synthesis of essential oils by using bioengineered bacteria.

Cloning of the Coffea canephora SERK1 promoter and its molecular analysis during the cell-to-embryo transition

Background: Somatic embryogenesis receptor-like kinase 1 (SERK1) is a cell membrane receptor active in different plant tissues and involved in cell differentiation activities including somatic embryogenesis. The identification of promoter elements responsible for SERK1 expression during the onset of somatic embryogenesis can be useful to understand the molecular regulation of the cell-to embryo transition, and these promoter elements represent biotechnological tools in plant organ tissue culture. Results: A −1,620 bp DNA sequence located upstream of the Coffea canephora SERK1 gene homologue (CcSERK1) was isolated, and then, different segments containing key response elements (REs) for somatic embryogenesis onset and development were fused to the uidA (encoding a ß-glucuronidase, GUS) reporter gene to evaluate its expression in transgenic leaf explants. DNA segments of −1,620 and −1048 bp in length directed uidA expression with patterns in leaf explants similar to those occurring during somatic embryogenesis. When a −792-bp fragment was used, uidA expression disappeared only in leaf explants and pro-embryogenic mass but persisted in developing embryos. No uidA expression was detected in any embryogenic stage when a −618-bp fragment was used. Conclusion: DNA deletions showed that a −1048-bp sequence located upstream of the CcSERK1 gene is sufficient to direct gene expression during the onset and the development of C. canephora somatic embryogenesis. The DNA segment located between −1048 and −792 bp (containing BBM and WUS REs) is needed for gene expression before embryogenesis onset but not during embryo development. The promoter segment between −792 and −618 bp (including GATA, ARR1AT, and ANT REs) regulates gene expression in developing embryos.

Recombinant production and biochemical and in silico characterization of lactate dehydrogenase from Geobacillus thermodenitrificans DSM-465

Background: Lactate dehydrogenase (LDH) is an enzyme of glycolytic pathway, ubiquitously found in living organisms. Increased glycolysis and LDH activity are associated with many pathologic conditions including inflammation and cancer, thereby making the enzyme a suitable drug target. Studies on conserved structural and functional domains of LDH from various species reveal novel inhibitory molecules. Our study describes Escherichia coli production and characterization of a moderately thermostable LDH (LDH-GT) from Geobacillus thermodenitrificans DSM-465. An in silico 3D model of recombinant enzyme and molecular docking with a set of potential inhibitors are also described. Results: The recombinant enzyme was overexpressed in E. coli and purified to electrophoretic homogeneity. The molecular weight of the enzyme determined by MALDI-TOF was 34,798.96 Da. It exhibited maximum activity at 65°C and pH 7.5 with a KM value for pyruvate as 45 µM. LDH-GT and human LDH-A have only 35.6% identity in the amino acid sequence. On the contrary, comparison by in silico structural alignment reveals that LDH-GT monomer has approximately 80% identity to that of truncated LDH-A. The amino acids "GEHGD" as well as His179 and His193 in the active site are conserved. Docking studies have shown the binding free energy changes of potential inhibitors with LDH-A and LDH-GT ranging from −407.11 to −127.31 kJ mol−1 . Conclusions: By highlighting the conserved structural and functional domains of LDH from two entirely different species, this study has graded potential inhibitory molecules on the basis of their binding affinities so that they can be applied for in vivo anticancer studies

Cloning and expression of an endoglucanase gene from the thermotolerant fungus Aspergillus fumigatus DBiNU-1 in Kluyveromyces lactis

Abstract An intronless endoglucanase from thermotolerant Aspergillus fumigatus DBINU-1 was cloned, characterized and expressed in the yeast Kluyveromyces lactis. The full-length open reading frame of the endoglucanase gene from A. fumigatus DBiNU-1, designated Cel7, was 1383 nucleotides in length and encoded a protein of 460 amino acid residues. The predicted molecular weight and the isoelectric point of the A. fumigatus Cel7 gene product were 48.19 kDa and 5.03, respectively. A catalytic domain in the N-terminal region and a fungal type cellulose-binding domain/module in the C-terminal region were detected in the predicted polypeptide sequences. Furthermore, a signal peptide with 20 amino acid residues at the N-terminus was also detected in the deduced amino acid sequences of the endoglucanase from A. fumigatus DBiNU-1. The endoglucanase from A. fumigatus DBiNU-1 was successfully expressed in K. lactis, and the purified recombinant enzyme exhibited its maximum activity at pH 5.0 and 60 °C. The enzyme was very stable in a pH range from 4.0 to 8.0 and a temperature range from 30 to 60 °C. These features make it suitable for application in the paper, biofuel, and other chemical production industries that use cellulosic materials.

Molecular cloning of troponin i from the two-spotted cricket, Gryllus bimaculatus, and its expression pattern during starvation / Clonagem molecular da Troponina I do grilo africano, Gryllus bimaculatus, e seu padrão de expressão durante a inanição

There is few information about troponin gene expression by starvation in insect skeletal muscle and digestive tracts. The objective of this study was to perform molecular cloning of troponin I from the two-spotted cricket, Gryllus bimaculatus (GrybiTnI) and determine its expression patterns in three different skeletal muscles and digestive tracts during starvation. GrybiTnI was translated into a protein encoding 198 amino acids with a theoretical isoelectric point of 9.78 and a molecular weight of 23671.46 Da. The GrybiTnI has both the TnC-binding site and actin/TnC-binding site shown in the typical TnI amino acid sequences. Homology analysis revealed that GrybiTnI exhibited high similarity at the amino acid level to those of other insects already reported; 89~77% identity with those of other insects. Expression of GrybiTnI by starvation did not change in dorsal wing flight muscle and dorsal ventral flight muscle, but showed up-expression in dorsal longitudinal flight muscle. In the digestive tracts, the up-expression of GrybiTnI by starvation was observed only in the hindgut but not in the rest parts including Malpighian tubules. Re-feeding following starvation restored those expressions about the level before starvation in the dorsal longitudinal flight muscle and hindgut. In conclusion, troponin modulates gene expression not only to muscle elements but also to physiological changes such as strains.

Existe pouca informação sobre a expressão gênica da troponina por inanição no músculo esquelético de insetos e no trato digestório. O objetivo deste estudo foi realizar clonagem molecular da troponina I do grilo africano, Gryllus bimaculatus (GrybiTnI) e determinar seus padrões de expressão em três diferentes músculos esqueléticos e tratos digestivos durante a inanição. GrybiTnI foi traduzido em uma proteína codificando 198 aminoácidos com um ponto isoelétrico teórico de 9,78 e um peso molecular de 23671,46 Da. O GrybiTnI tem o local de ligação a TnC e o local de ligação a actina/TnC mostrado nas sequências de aminoácidos TnI típicas. A análise de homologia revelou que GrybiTnI exibiu alta similaridade no nível de aminoácidos em relação àqueles de outros insetos já relatados; 89~77% de identidade com os de outros insetos. A expressão de GrybiTnI pela inanição não se alterou no músculo de vôo da asa dorsal e no músculo de vôo ventral dorsal, mas mostrou expressão positiva no músculo de vôo longitudinal dorsal. Nos tratos digestivos, a expressão positiva de GrybiTnI por inanição foi observada apenas no intestino grosso, mas não nas partes de repouso, incluindo os túbulos de Malpighi. A realimentação após a inanição restaurou as expressões aproximadamente ao nível antes da inanição no músculo de vôo longitudinal dorsal e no intestino grosso. Em conclusão, a troponina modula a expressão gênica não apenas em elementos musculares, mas também em alterações fisiológicas, como as cepas.

Cloning and characterisation of four catA genes located on the chromosome and large plasmid of Pseudomonas putida ND6

Background: Although the functional redundancy of catechol 1,2-dioxygenase (C12O) genes has been reported in several microorganisms, limited enzymes were characterised, let alone the advantage of the coexistence of the multiple copies of C12O genes. Results: In this study, four novel C12O genes, designated catA, catAI, catAII and catAIII, in the naphthalene-degrading strain Pseudomonas putida ND6, were cloned and characterised. Phylogenetic analysis of their deduced amino acid sequences revealed that the four C12O isozymes each formed independent subtrees, together with homologues from other organisms. All four enzymes exhibited maximum activity at pH 7.4 and higher activity in alkaline than in acidic conditions. Furthermore, CatA, CatAI and CatAIII were maximally active at a temperature of 45°C, whereas a higher optimum temperature was observed for CatAII at a temperature of 50°C. CatAI exhibited superior temperature stability compared with the other three C12O isozymes, and kinetic analysis indicated similar enzyme activities for CatA, CatAI and CatAII, whereas that of CatAIII was lower. Significantly, among metal ions tested, only Cu2+ substantially inhibited the activity of these C12O isozymes, thus indicating that they have potential to facilitate bioremediation in environments polluted with aromatics in the presence of metals. Moreover, gene expression analysis at the mRNA level and determination of enzyme activity clearly indicated that the redundancy of the catA genes has increased the levels of C12O. Conclusion: The results clearly imply that the redundancy of catA genes increases the available amount of C12O in P. putida ND6, which would be beneficial for survival in challenging environments.

JcZFP8, a C2H2 zinc finger protein gene from Jatropha curcas, influences plant development in transgenic tobacco

Background: Jatropha curcas L., as an important strategic biofuel resource with considerable economic potential, has attracted worldwide attention. However, J. curcas has yet to be domesticated. Plant height, an important agronomic trait of J. curcas, has not been sufficiently improved, and the genetic regulation of this trait in J. curcas is not fully understood. Zinc finger proteins (ZFPs), a class of transcription factors, have previously been shown to play critical roles in regulating multiple aspects of plant growth and development and may accordingly be implicated in the genetic regulation of plant height in J. curcas. Results: In this study, we cloned JcZFP8, a C2H2 ZFP gene in J. curcas. We found that the JcZFP8 protein was localized in the nucleus and contained a conserved QALGGH motif in its C2H2 structure. Furthermore, ectopic expression of JcZFP8 under the control of the 35S promoter in transgenic tobacco resulted in dwarf plants with malformed leaves. However, when JcZFP8 was knocked out, the transgenic tobacco did not show the dwarf phenotype. After treatment with the gibberellic acid (GA) biosynthesis inhibitor paclobutrazol (PAC), the dwarf phenotype was more severe than plants that did not receive the PAC treatment, whereas application of exogenous gibberellin3 (GA3) reduced the dwarf phenotype in transgenic plants. Conclusions: The results of this study indicate that JcZFP8 may play a role in J. curcas plant phenotype through GA-related pathways. Our findings may help us to understand the genetic regulation of plant development in J. curcas and to accelerate breeding progress through engineering of the GA metabolic pathway in this plant. How to cite: Shi X,Wu Y, Dai T, et al. JcZFP8, a C2H2 zinc-finger protein gene from Jatropha curcas, influences plant development in transgenic tobacco.

Heterologous expression and enhanced production of ß-1, 4-glucanase of Bacillus halodurans C-125 in Escherichia coli

Background: Recombinant DNA technology enables us to produce proteins with desired properties and insubstantial amount for industrial applications. Endo-1, 4-ß-glucanases (Egl) is one of the major enzyme involved in degradation of cellulose, an important component of plant cell wall. The present study was aimed at enhancing the production of endo-1, 4-ß-glucanases (Egl) of Bacillus halodurans in Escherichia coli. Results: A putative Egl gene of Bacillus Halodurans was expressed in E. coli by cloning in pET 22b (+). On induction with isopropyl-b-D-1-thiogalactopyranoside, the enzyme expression reached upto ~20% of the cell protein producing 29.2 mg/liter culture. An increase in cell density to 12 in auto-inducing LB medium (absorbance at 600 nm) enhanced ß-glucanase production up to 5.4 fold. The molecular mass of the enzyme was determined to be 39 KDa, which is nearly the same as the calculated value. Protein sequence was analyzed by CDD, Pfam, I TASSER, COACH, PROCHECK Servers and putative amino acids involved in the formation of catalytic, substrate and metal binding domains were identified. Phylogenetic analysis of the ß-glucanases of B. halodurans was performed and position of Egl among other members of the genus Bacillus producing endo-glucanases was determined. Temperature and pH optima of the enzyme were found to be 60°C and 8.0, respectively, under the assay conditions. Conclusion: Production of endo-1, 4 ß-glucanase enzymes from B. halodurans increased several folds when cloned in pET vector and expressed in E. coli. To our knowledge, this is the first report of high-level expression and characterization of an endo-1, 4 ß-glucanases from B. halodurans.