GroEL-GroES solubilizes abundantly expressed xylulokinase in Escherichia coli

AIMS: The aims of the present work were to solubilize the abundantly expressed recombinant xylulokinase in Escherichia coli and to develop a reliable xylulokinase assay. METHODS AND RESULTS: Three mutants of xylulokinase of Bacillus megaterium that were expressed at high level but formed insoluble protein in E. coli BL21(DE3)pLysS were selected for solubility study. The solubility of xylulokinase increased eight to 77-fold after introduction of molecular chaperones GroEL-GroES into the host. CONCLUSION: This investigation reports that GroEL-GroES minimizes the formation of insoluble protein in three highly expressed recombinant xylulokinases and an improved xylulokinase assay. SIGNIFICANCE AND IMPACT OF THE STUDY: Commercial production of bioethanol is critically dependent on the development of an efficient and low-cost process of enzymatic conversion of xylan, a major component in lignocellulose biomass, to xylulose-5-phosphate, which can then be channelled into pentose phosphate pathway and metabolized to ethanol. The improved intracellular xylulokinase activity is expected to facilitate the xylose degradation.     

Function of four tryptophan residues on Cel7A catalytic efficiency: Insight into cellulase screening strategy based on natural cellulose or cellulose analogs

There is a high level of conservation of tryptophans within the active site architecture of the cellulase family, whereas the function of the four tryptophans in the catalytic domain of Cel7A is unclear. By mutating four tryptophan residues in the catalytic domain of Cel7A from Penicillium piceum (PpCel7A), the binding affinity between PpCel7A and p-nitrophenol-d -cellobioside (pNPC) was reduced as determined by Michaelis–Menten constants, molecular dynamics simulations, and fluorescence spectroscopy. Furthermore, PpCel7A variants showed a reduced level of cellobiohydrolase (CBH) activity against cellulose analogs or natural cellulose. Therefore, it could be concluded four tryptophan residues in Cel7A played a critical role in substrate binding. Mutagenesis results indicated that the W390 stacking interactions at the −2 site played an essential role in facilitating substrate distortion to the −1 site. As soon as the function was altered, the mutation would inevitably affect the catalytic activity against the natural substrate. Interestingly, no clear relationship was found between the CBH activity of PpCel7A variants against pNPC and Avicel. p-Nitrophenol contains many electrophilic groups that may result in overestimation of the binding constant between tryptophan residues and pNPC in comparison with the natural substrate. Consequently, screening improved cellulase using cellulose analogs would divert attention from the target direction for lignocellulose biorefinery. Clarifying mechanism of catalytic diversity on the natural cellulose or cellulose analogs may give better insight into cellulase screening and selecting strategy.     

Green synthesis approach: extraction of chitosan from fungus mycelia

Chitosan, copolymer of glucosamine and N-acetyl glucosamine is mainly derived from chitin, which is present in cell walls of crustaceans and some other microorganisms, such as fungi. Chitosan is emerging as an important biopolymer having a broad range of applications in different fields. On a commercial scale, chitosan is mainly obtained from crustacean shells rather than from the fungal sources. The methods used for extraction of chitosan are laden with many disadvantages. Alternative options of producing chitosan from fungal biomass exist, in fact with superior physico-chemical properties. Researchers around the globe are attempting to commercialize chitosan production and extraction from fungal sources. Chitosan extracted from fungal sources has the potential to completely replace crustacean-derived chitosan. In this context, the present review discusses the potential of fungal biomass resulting from various biotechnological industries or grown on negative/low cost agricultural and industrial wastes and their by-products as an inexpensive source of chitosan. Biologically derived fungal chitosan offers promising advantages over the chitosan obtained from crustacean shells with respect to different physico-chemical attributes. The different aspects of fungal chitosan extraction methods and various parameters having an effect on the yield of chitosan are discussed in detail. This review also deals with essential attributes of chitosan for high value-added applications in different fields.     

Determination of proteolytic activity with magnetic dye-stained gelatine

A procedure for the determination of proteolytic activity with dyed magnetic gelatine as an insoluble chromolytic substrate is described. The magnetic nature of the substrate enables magnetic separation of unhydrolysed substrate from the hydrolysed dyed peptide fragments. Such type of substrates could enable the development of new automated protease assays based on the principle of Flow Injection Analysis (FIA).     

Types of fiber and gut microbiota composition and diversity among arab females

ObjectivesDietary fiber is recognized as an important nutrient for gut health. However, research on the relations of different types of fibers (soluble and insoluble) to the human microbiota health is limited. This study aimed to identify whether higher habitual intake of soluble and/or insoluble fiber have a different influence on the composition, diversity, and abundance of microbiota.MethodsWe examined the fecal microbial composition of 92 healthy females aged 18 and above using the novel shotgun metagenomics sequencing technique. The habitual fiber intake was determined using the Saudi food frequency questionnaire. Pearson’s correlation was used for the correlations between total, soluble, and insoluble fiber and gut microbiota. α- and β-diversities were applied to acquire the distinctions in the relative abundances of bacterial taxa.ResultsOur findings show that higher dietary fiber, particularly insoluble fiber, was significantly correlated with the abundances of Bacteroides_u_s, Bacteroides uniformis, and Lactobacillus acidophilus (r = 0.26, 0.29, 0.26, p-value < 0.05, respectively). Non-significant difference was noted in the microbial α-diversity and β-diversity in low and high soluble/insoluble dietary fiber.ConclusionsCurrent findings suggest that insoluble dietary-fiber intake is favorably correlated with the health of the human gut microbiota. However, further investigations are necessary to identify the effect of types of fiber on the specific species identified in this study.     

Effect of nickel(II) on DNA-protein binding,thymidine incorporation,and sedimentation pattern of chromatin fractions from intact mammalian cells

Nuclear uptake and chromatin binding of nickel(II) was investigated in Chinese hamster ovary (CHO) cells. The cytoplasmic:nuclear ratio of nickel immediately following treatment was 5:1, but by 24 and 48 hours this ratio decreased to 4:l and 2:1, respectively, indicating that nickel is retained longer in the nucleus than cytoplasmic nickel. Chromatin was fractionated by sonication and centrifugation into fast-sedimenting, magnesium-insoluble, or magnesiumsoluble components. The magnesium-insoluble portion bound more nickel ions and retained the metal longer than either the magnesium-soluble or the fastsedimenting fractions. Treatment of cells with nickel chloride (NiCl₂) decreased the amount of DNA in the magnesium-insoluble fraction but increased the amount of DNA in the fast- sedimenting chromatin fraction. The magnesium-insoluble fraction isolated from nickel-treated cells contained approximately ten times more [35-S]-methionine–labeled protein per milligram DNA compared with untreated cells. The magnesium-soluble and the fast-sedimenting fractions isolated from the nickel-treated cells did not exhibit a similar increase in [35-S]-methionine–labeled protein per milligram of DNA. Nickel treatment suppressed [14-C]-thymidine incorporation into total DNA by 30% compared with untreated cells. However, the magnesium-insoluble chromatin fraction from nickel-treated cells had a tenfold to 20-fold increase in thymidine incorporation, while the other chromatin fractions did not exhibit an increase in thymidine incorporation. These findings indicate that nickel induced widespread alterations in chromatin conformation and preferentially interacted with an Mg-insoluble component of chromatin.     

The proteome of Mycoplasma pneumoniae, a supposedly "simple" cell

This review covers progress in proteome research on Mycoplasma pneumoniae made over the last 5 years. This bacterium is one of the smallest known self-replicating bacteria. With fewer than 700 proposed proteins, it is well suited to a comprehensive proteome analysis. While all of the proposed genes are transcribed, thus far 620 proteins, about 90% of the predicted proteome, have been identified experimentally. To study the proteome organization of M. pneumoniae, 178 soluble protein complexes were isolated under non-denaturing conditions by tandem affinity chromatography and their composition determined by SDS-PAGE and mass spectrometry. The 62 homomultimeric and 116 heteromultimeric protein complexes could be classified according to 12 different COG functional categories. The complexes interacted with each other to some extent, forming larger assemblies. Protein complexes that were large enough and had specific structures (e.g. ribosomes or DNA-dependent RNA polymerase) were visible and countable in their natural environment by cryo-electron tomography. In addition to characterization of the soluble complexes, the analysis of the Triton X-100 insoluble fraction has a major role in the elucidation of the cytoskeleton-like structure, because by analogy with eukaryotic cells, almost all of the structural proteins involved in its formation, and enriched sub-cellular structures, can be found in this fraction.     

高剪切乳化技术辅助提取荷叶水不溶性膳食纤维工艺优化及其物性分析

为扩大荷叶在食品加工中的开发应用性,研究采用高剪切乳化技术辅助提取荷叶水不溶性膳食纤维(insoh-ble dietary fiber,IDF),优化提取工艺;测定其基本物性,并与常规粉碎、球磨式粉碎处理进行对比.结果 表明,在剪切转速8 000 rpm剪切时间4min,酸液浓度0.25 mol/L,酸解温度45℃条件...     

2D-PAGE of ovarian cancer: analysis of soluble and insoluble fractions using medium-range immobilized pH gradients

Ovarian cancer remains a leading cause of cancer death. A comparative proteomic study was performed on normal ovarian tissue (n = 5) and grade 3 ovarian tumours (n = 5) to search for differentially expressed proteins. In contrast to other studies, here we extracted proteins in soluble and insoluble protein fractions using commercial kits and also utilised three medium-range IPG strips that encompassed the broad pH range of 3–10 (pH 3–6, 5–8 and 7–10). Protein fractions were compared by 2D-PAGE and MALDI-TOF/TOF-MS. Nineteen differentially expressed proteins were identified: HSP60, Grp78, CK19, EF-Tu, MRLC2, prohibitin, Stress-70 protein, TPI and tubulin α6 were up-regulated in grade 3 tumours whereas annexin A2 and A5, antithrombin-III precursor, CBR1, GSTM2, GSTM3, RALDH1, serum albumin precursor, transthyretin precursor and vimentin were found to be down-regulated in grade 3 ovarian tumours. These proteins are associated with cytoskeleton rearrangement, cell metabolism, tumour suppression function, apoptosis and induction of host response.     

Quantification and characterization of insoluble chitinous materials in viscous chitosan solutions

Insoluble chitinous materials in highly viscous chitosan solutions can be quantified using the viscosity-lowering action of transglucosidase (EC 2.4.1.24). In chitosan, commonly produced by high temperature deacetylation (90 °C), between 70–90% of insoluble chitinous materials were recovered by this enzymatic method whereas only 25% recovery was obtained by the nitrous acid method. The insoluble material recovered after enzyme treatment had a higher degree of deacetylation and a lower degree of crystallization than that after nitrous acid treatment. The results are explained by difference in penetration by enzyme and nitrous acid into the insoluble particle.