398 resultados para lactose
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A method for determination of lactose in food samples by Osteryoung square wave voltammetry (OSWV) was developed. It was based on the nucleophilic addition reaction between lactose and aqua ammonia. The carbonyl group of lactose can be changed into imido group, and this increases the electrochemical activity in reduction and the sensitivity. The optimal condition for the nucleophilic addition reaction was investigated and it was found that in NH4Cl–NH3 buffer of pH 10.1, the linear range between the peak current and the concentration of lactose was 0.6–8.4 mg L−1, and the detection limits was 0.44 mg L−1. The proposed method was applied to the determination of lactose in food samples and satisfactory results were obtained.
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The objective was to understand the influence of the surface roughness of lactose carriers on the adhesion and dispersion of salmeterol xinafoate (SX) from interactive mixtures. The surface roughness of lactose carriers was determined by confocal microscopy. Particle images and adhesion forces between SX and lactose particles were determined by Atomic Force Microscopy. The dispersion of SX (2.5%) from interactive mixtures with lactose was determined using a twin-stage impinger (TSI) with a Rotahaler® at an airflow rate of 60L/min. SX was analysed using a validated HPLC assay. The RMS Rq of lactose carriers ranged from 0.93-2.84μm, the Fine Particle Fraction (FPF) of SX ranged between 4 and 24 percent and average adhesion force between a SX and lactose particles ranged between 49 and 134 nN. No direct correlation was observed between the RMS Rq of lactose carriers and either the FPF of SX for the interactive mixtures or the adhesion force of a SX on the lactose particles; however, the presence of fine lactose associated with the carrier surface increased the FPF of SX. Dispersion through direct SX detachment from the carrier surface was not consistent with the poor correlations described and was more likely to occur through complex particulate interactions involving fine lactose.
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In this paper we construct a mathematical model for the genetic regulatory network of the lactose operon. This mathematical model contains transcription and translation of the lactose permease (LacY) and a reporter gene GFP. The probability of transcription of LacY is determined by 14 binding states out of all 50 possible binding states of the lactose operon based on the quasi-steady-state assumption for the binding reactions, while we calculate the probability of transcription for the reporter gene GFP based on 5 binding states out of 19 possible binding states because the binding site O2 is missing for this reporter gene. We have tested different mechanisms for the transport of thio-methylgalactoside (TMG) and the effect of different Hill coefficients on the simulated LacY expression levels. Using this mathematical model we have realized one of the experimental results with different LacY concentrations, which are induced by different concentrations of TMG.
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Purpose The role of fine lactose in the dispersion of salmeterol xinafoate (SX) from lactose mixtures was studied by modifying the fine lactose concentration on the surface of the lactose carriers using wet decantation. Methods Fine lactose was removed from lactose carriers by wet decantation using ethanol saturated with lactose. Particle sizing was achieved by laser diffraction. Fine particle fractions (FPFs) were determined by Twin Stage Impinger using a 2.5% SX mixture, and SX was analyzed by a validated high-performance liquid chromatography method. Adhesion forces between probes of SX and silica and the lactose surfaces were determined by atomic force microscopy. Results FPFs of SX were related to fine lactose concentration in the mixture for inhalation grade lactose samples. Reductions in FPF (2-4-fold) of Aeroflo 95 and 65 were observed after removing fine lactose by wet decantation; FPFs reverted to original values after addition of micronized lactose to decanted mixtures. FPFs of SX of sieved and decanted fractions of Aeroflo carriers were significantly different (p < 0.001). The relationship between FPF and fine lactose concentration was linear. Decanted lactose demonstrated surface modification through increased SX-lactose adhesion forces; however, any surface modification other than removal of fine lactose only slightly influenced FPF. Conclusions Fine lactose played a key and dominating role in controlling FPF. SX to fine lactose ratios influenced dispersion of SX with maximum dispersion occurring as the ratio approached unity.
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Although the acetone-butanol-ethanol (ABE) fermentation of Clostridium acetobutylicum is currently uneconomic, the ability of the bacterium to metabolise a wide range of carbohydrates offers the potential for revival based on the use of cheap, low grade substrates. We have investigated the uptake and metabolism of lactose, the major sugar in industrial whey waste, by C. acetobutylicum ATCC 824. Lactose is taken up via a phosphoenolpyruvate (PEP)-dependent phosphotransferase system (PTS) comprising both soluble and membrane-associated components, and the resulting phosphorylated derivative is hydrolysed by a phospho--galactosidase. These activities are induced during growth on lactose, but are absent in glucose-grown cells. Analysis of the C. acetobutylicum genome sequence identified a gene system, lacRFEG, encoding a transcriptional regulator of the DeoR family, IIA and IICB components of a lactose PTS, and phospho--galactosidase. During growth in medium containing both glucose and lactose, C. acetobutylicum exhibited a classical diauxic growth, and the lac operon was not expressed until glucose was exhausted from the medium. The presence upstream of lacR of a potential catabolite responsive element (cre) encompassing the transcriptional start site is indicative of the mechanism of carbon catabolite repression characteristic of low-GC Gram-positive bacteria. A pathway for the uptake and metabolism of lactose by this industrially important organism is proposed.
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info:eu-repo/semantics/published
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A study of galacto-oligosaccharides (GOS) synthesis from lactose with beta-galactosidase from Kluyveromyces lactis (Maxilact(R) L2000) was carried out. The synthesis was performed using various initial lactose concentrations ranging from 220 to 400 mg/mL and enzyme concentrations ranging from 3 to 9 U/mL, and was investigated at 40degreesC and pH 7, in a stirred-tank reactor. In the experimental range examined, the results showed the amount of GOS formed depended on lactose concentration but not on enzyme concentration. Galactose was a competitive inhibitor, while glucose was a non-competitive inhibitor. In a further study, a laboratory-scale reactor system, fitted with a 10-kDa NMWCO composite regenerated cellulose membrane, was used in a continuous process. The reactor was operated in cross-flow mode. The effect of operating pressures on flux and productivity was investigated by applying different transmembrane pressures to the system. The continuous process showed better production performance compared to the batch synthesis with the same lactose and enzyme concentrations at 40degreesC, pH 7. Comparison of product structures from batch and continuous processes, analyzed by HPAEPAD and methylation analysis, showed similarities but differed from the structures found in a commercial GOS product (Vivinal(R)GOS). (C) 2004 Wiley Periodicals, Inc.
Classification of lactose and mandelic acid THz spectra using subspace and wavelet-packet algorithms
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This work compares classification results of lactose, mandelic acid and dl-mandelic acid, obtained on the basis of their respective THz transients. The performance of three different pre-processing algorithms applied to the time-domain signatures obtained using a THz-transient spectrometer are contrasted by evaluating the classifier performance. A range of amplitudes of zero-mean white Gaussian noise are used to artificially degrade the signal-to-noise ratio of the time-domain signatures to generate the data sets that are presented to the classifier for both learning and validation purposes. This gradual degradation of interferograms by increasing the noise level is equivalent to performing measurements assuming a reduced integration time. Three signal processing algorithms were adopted for the evaluation of the complex insertion loss function of the samples under study; a) standard evaluation by ratioing the sample with the background spectra, b) a subspace identification algorithm and c) a novel wavelet-packet identification procedure. Within class and between class dispersion metrics are adopted for the three data sets. A discrimination metric evaluates how well the three classes can be distinguished within the frequency range 0. 1 - 1.0 THz using the above algorithms.
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The bifidobacterial β-galactosidase BbgIV was immobilised on DEAE-Cellulose and Q-Sepharose via ionic binding and on amino-ethyl- and glyoxal-agarose via covalent attachment, and was then used to catalyse the synthesis of galactooligosaccharides (GOS). The immobilisation yield exceeded 90 % using ionic binding, while it was low using aminoethyl agarose (25 – 28 %) and very low using glyoxal agarose (< 3 %). This was due to the mild conditions and absence of chemical reagents in ionic binding, compared to covalent attachment. The maximum GOS yield obtained using DEAE-Cellulose and Q-Sepharose was similar to that obtained using free BbgIV (49 – 53 %), indicating the absence of diffusion limitation and mass transfer issues. For amino-ethyl agarose, however, the GOS yield obtained was lower (42 – 44 %) compared to that obtained using free BbgIV. All the supports tried significantly (P < 0.05) increased the BbgIV operational stability and the GOS synthesis productivity up to 55 °C. Besides, six successive GOS synthesis batches were performed using BbgIV immobilised on Q-Sepharose; all resulted in similar GOS yields, indicating the possibility of developing a robust synthesis process. Overall, the GOS synthesis operation performance using BbgIV was improved by immobilising the enzyme onto solid supports, in particular on Q-Sepharose
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Objetivo: Determinar a prevalência de má absorção de lactose e sua associação com a cor da pele e a idade em crianças e adolescentes de escolas públicas do município de Porto Alegre. Material e Métodos: Foi realizado um estudo transversal que incluiu 225 indivíduos de 8 a 18 anos, freqüentadores de escolas públicas do município de Porto Alegre. Os participantes foram classificados segundo a cor e a faixa etária. A má absorção de lactose foi diagnosticada através do teste do hidrogênio expirado após ingestão de 250 ml de leite. O teste teve duração de 3 horas e foi considerado como critério de positividade o aumento ≥ 20 partes por milhão na concentração de hidrogênio em relação ao nível basal. Resultados: Foram estudados 225 alunos, com uma média e desvio padrão de idade de 12,2 ± 2,0 anos. Cento e cinqüenta e quatro alunos eram de cor branca (68,4%) e os restantes, de cor não-branca (preta ou parda). A má absorção de lactose foi evidenciada em 19/225 casos (8,4%). Foram diagnosticados 8/154 casos (5,2%) nos alunos de cor branca e 11/71 casos (15,5%) nos alunos de cor não-branca (p = 0,02). Em relação à faixa etária, ocorreram 15/143 casos (10,5%) nos alunos entre 8 e 12 anos e 4/82 casos (4,9%) entre 13 e 18 anos (p = 0,227). Conclusões: A prevalência de má absorção de lactose encontrada em alunos de escolas pú-blicas de Porto Alegre é alta, especialmente se considerarmos que foram utilizadas doses fi-siológicas (250 ml de leite) para o diagnóstico. As taxas de má absorção foram maiores entre as crianças de cor não-branca em relação às crianças de cor branca, confirmando a influência racial na hipolactasia primária do tipo adulto.
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A seqüência de nucleotídeos codificante do peptídeo derivado da hidrólise da canatoxina (jaburetox-2Ec), foi clonada e expressa nos sistema pET101/E. coli BL 21. Neste trabalho, estudamos a estabilidade dos plasmídeos da série pET contendo a seqüência codificante do jaburetox-2Ec no sistema de expressão E. coli BL 21 (Mulinari, 2004), e as condições para aumentar produção do peptídeo recombinante, avaliando a velocidade de transferência de oxigênio, o controle do pH, e a utilização da lactose como indutor em substituição ao IPTG. O cultivo da bactéria recombinante em incubadora orbital contendo 10 g/l de lactose como indutor produziu 1,26 μg de jaburetox-2Ec/mg de proteína total após oito horas de cultivo. A estabilidade do plasmídeo e a expressão do peptídeo recombinante foram estudadas em biorreatores. A expressão do jaburetox-2Ec foi fortemente afetada pelo pH da cultura, com a diminuição de mais de 50 % da concentração desse peptídeo quando ocorre acidificação do meio de cultura. Da mesma forma, o aumento da aeração e agitação tem efeito negativo sobre a produção do peptídeo, diminuindo em sete vezes a produção do jaburetox-2Ec Apesar do aumento da biomassa devido ao cultivo da E. coli recombinante em meio mínimo, contendo como fonte de carbono a glicose, isto não representou aumento da concentração do peptídeo recombinante. Contudo, sob a melhor condição de cultivo em biorreator estudada (pH controlado e menor transferência de oxigênio), obteve-se uma produção de 7,14 μg de jaburetox-2Ec/mg de proteína total, representando em torno de 2 % da proteína total da célula. Em todas as bateladas, após atingir a máxima expressão do peptídeo, essa concentração diminui provavelmente devido à atividade das proteases da célula causando a degradação do peptídeo recombinante. A carga metabólica imposta à célula devido à expressão do jaburetox-2Ec, é uma das possíveis causas da instabilidade do plasmídeo observada em todas as bateladas.