Ethanol production from whey permeate by immobilized yeast cells

The ability of two yeast strains to utilize the lactose in whey permeate has been studied. Kluyveromyces marxianus NCYC 179 completely utilized the lactose (9.8%), whereas Saccharomyces cerevisiae NCYC 240 displayed an inability to metabolize whey lactose for ethanol production. Of the two gel matrices tested for immobilizing K. marxianus NCYC 179 cells, sodium alginate at 2% (w/v) concentration proved to be the optimum gel for entrapping the yeast cells effectively. The data on optimization of physiological conditions of fermentation (temperature, pH, ethanol concentration and substrate concentration) showed similar effects on immobilized and free cell suspensions of K. marxianus NCYC 179, in batch fermentation. A maximum yield of 42.6 g ethanol l^?1 (82% of theoretical) was obtained from 98 g lactose l^?1 when fermentation was carried at pH 5.5 and 30°C using 120 g dry weight l^?1 cell load of yeast cells. These results suggest that whey lactose can be metabolized effectively for ethanol production using immobilized K. marxianus NCYC 179 cells.     

Abscisic Acid and photosynthesis in isolated leaf mesophyll cell

Abscisic acid (AbA) treatments of concentrations of up to 135 micromolar did not inhibit photosynthesis in enzymatically isolated leaf mesophyll cells of Phaseolus vulgaris, Nicotiana tabacum, and Lycopersicum esculentum over periods of up to 5 hours. Thin slices of leaves preincubated in hypertonic solutions identical to those used to isolate cells were shown to synthesize AbA rapidly, although accumulation of AbA in the cells was low due to extensive release of the newly synthesized AbA into the medium. The levels of endogenously made AbA in leaf cells of Phaseolus vulgaris rose from a low of 0.27 micromolar to a high of 6.74 micromolar during 2 hours preincubation. Exogenously applied AbA can be taken up by the cells as was demonstrated using ¹⁴[C]AbA. Thus, AbA applied at concentrations 19 times higher than endogenous levels does not change the rate of photosynthesis.     

Improving the enantioselectivity of artificial transfer hydrogenases based on the biotin-streptavidin technology by combinations of point mutations

Artificial metalloenzymes based on the incorporation of biotinylated ruthenium piano-stool complexes within streptavidin can be readily optimized by chemical or genetic means. We performed genetic modifications of such artificial metalloenzymes for the transfer hydrogenation of aromatic ketones, by combining targeted point mutations of the host protein. Upon using the P64G-L124V double mutant of streptavidin in combination with the [η⁶-(p-cymene)Ru(Biot-p-L)Cl] complex, the enantioselectivity can be increased up to 98% ee (R) for the reduction of p-methylacetophenone, which is the highest selectivity obtained up to date with an artificial transfer hydrogenase.     

5-AMINOURACIL TREATMENT : A Method for Estimating G2

Treatment of Vicia faba lateral roots with a range of concentrations of 5-aminouracil (5-AU) indicate that cells are stopped at a particular point in interphase. The timing of the fall in mitotic index suggests that cells are held at the S - G₂ transition. When cells are held at this point, treatments with 5-AU can be used to estimate the duration of G₂ + mitosis/2 of proliferating cells. Treatment with 5-AU can also be used to demonstrate the presence of subpopulations of dividing cells that differ in their G₂ duration. Using this method, 5-AU-induced inhibition, we have confirmed that in V. faba lateral roots there are two populations of dividing cells: (a) a fast-dividing population, which makes up ~85% of the proliferating cell population and has a G₂ + mitosis/2 duration of 3.3 hr, and (b) a slow-dividing population, which makes up ~15% of dividing cells and has a G₂ duration in excess of 12 hr. These estimates are similar to those obtained from percentage labeled mitosis (PLM) curves after incorporation of thymidine-³H.     

Synthesis of erythrocyte-specific proteins in cultured friend leukemia cells

We have studied synthesis of specific proteins in two permanent ilness of Friend virus-induced erythroleukemia cells (Friend line 745 and Ostertag line FSD-1, both derived from DBA/2 mice). By 96 hr following treatment with 1–2% dimethyl sulfoxide (Me₂SO), up to 25% of the protein being synthesized by both these cultures is hemoglobin. At that time, hemoglobin constitutes up to 10% of the cellular soluble protein. Both lines synthesize heme and globin coordinately, and α and β globin chains in a nearly balanced 1:1 ratio. However, the ratio of β^Major:β^Minor chains synthesized by these induced Friend leukemia (FL) cells is approximately 9 in the FSD-1 line and 1.3 in the Friend Clone 745 line, whereas it is 4 in normal adult DBA/2 mouse erythrocytes. Evidence for the latter conclusion was obtained by electrophoresis of FL hemoglobins on cellulose acetate membranes, and also by chromatographic separation of α, β^Major, and β^Minor globins on carboxymethylcellulose in 8 M urea at 20°C. Carbonic anhydrase activity per mg protein is 3 times higher in induced than in control cultures. 2,3-diphosphoglyceric acid is not found in induced FL cells. Induced and control FL cells agglutinate strongly and equally with Phaseolus vulgaris phytohemagglutinin. The developmental process in these cultured leukemia cells appears to be an aberrant erythropolesis.     

Retention of fully differentiated electrophysiological properties of chick embryonic heart cells in culture.

Many cultured cells in spherical reaggregates (100–1000 μm diameter), prepared using cells isolated from embryonic chick ventricles (16 days in ovo), retain great sensitivity to tetrodotoxin (TTX; 0.1 μg/ml), rapidly rising action potentials (up to 200 V/sec), high resting potentials (up to ?90 mV), and they lack automaticity. The Na⁺ channels generating the action potential upstroke inactivate totally at about ?50 mV. The chronaxie (hence, excitability), the ratio of $\text{P}{}_{\mathrm{<mtext>Na</mtext>}}\text{P}{}_{\mathrm{<mtext>K</mtext>}}$, and the intracellular K⁺ concentration are about the same as in adult cells. Following blockade of the Na⁺ channels with TTX, norepinephrine produces slowly rising overshooting responses, indicating the presence of functional beta-adrenergic receptors. Thus, trypsin-dispersed myocardial cells can be made to retain highly differentiated membrane properties in vitro.     

Adenoviral Transduction of Naive CD4 T Cells to Study Treg Differentiation

Regulatory T cells (Tregs) are essential to provide immune tolerance to self as well as to certain foreign antigens. Tregs can be generated from naive CD4 T cells in vitro with TCR- and co-stimulation in the presence of TGFβ and IL-2. This bears enormous potential for future therapies, however, the molecules and signaling pathways that control differentiation are largely unknown.Primary T cells can be manipulated through ectopic gene expression, but common methods fail to target the most important naive state of the T cell prior to primary antigen recognition. Here, we provide a protocol to express ectopic genes in naive CD4 T cells in vitro before inducing Treg differentiation. It applies transduction with the replication-deficient adenovirus and explains its generation and production. The adenovirus can take up large inserts (up to 7 kb) and can be equipped with promoters to achieve high and transient overexpression in T cells. It effectively transduces naive mouse T cells if they express a transgenic Coxsackie adenovirus receptor (CAR). Importantly, after infection the T cells remain naive (CD44^low, CD62L^high) and resting (CD25^-, CD69^-) and can be activated and differentiated into Tregs similar to non-infected cells. Thus, this method enables manipulation of CD4 T cell differentiation from its very beginning. It ensures that ectopic gene expression is already in place when early signaling events of the initial TCR stimulation induces cellular changes that eventually lead into Treg differentiation.     

Synthesis and secretion of egg-specific protein from follicle cells of the silkworm,Bombyx mori

The synthesis and secretion of egg-specific protein (ESP) were investigated using the follicle cells isolated from the developing ovary of the silkworm, Bombyx mori. The follicle cells were isolated manually from a follicle into a cell layer by thoroughly extruding the oocyte contents through a small hole. Whole follicles and isolated follicle cells were incubated in vitro with [³⁵S]methionine, and ESP and its precursors were immunochemically isolated using antiserum raised to ESP. The isolated follicle cells incorporated label into ESP but the incorporation rate was about one-fifth of that found in whole follicles. About 20% of the total radioactivity of ESPs were recovered from the incubation medium of the isolated follicle cells while only trace activity (<2%) was found in the incubation medium of whole follicles. These results clearly showed that follicle cells synthesize and release ESP to be taken up by the developing oocyte.     

Peripheral Blood Invariant Natural Killer T Cells of Pig-Tailed Macaques

In humans, invariant natural killer T (iNKT) cells represent a small but significant population of peripheral blood mononuclear cells (PBMCs) with a high degree of variability. In this study, pursuant to our goal of identifying an appropriate non-human primate model suitable for pre-clinical glycolipid testing, we evaluated the percentage and function of iNKT cells in the peripheral blood of pig-tailed macaques. First, using a human CD1d-tetramer loaded with α-GalCer (α-GalCer-CD1d-Tet), we found that α-GalCer-CD1d-Tet⁺ CD3⁺ iNKT cells make up 0.13% to 0.4% of pig-tailed macaque PBMCs, which are comparable to the percentage of iNKT cells found in human PBMCs. Second, we observed that a large proportion of Vα24⁺CD3⁺ cells are α-GalCer-CD1d-Tet⁺CD3⁺ iNKT cells, which primarily consist of either the CD4⁺ or CD8⁺ subpopulation. Third, we found that pig-tailed macaque iNKT cells produce IFN-γ in response to α-GalCer, as shown by ELISpot assay and intracellular cytokine staining (ICCS), as well as TNF-α, as shown by ICCS, indicating that these iNKT cells are fully functional. Interestingly, the majority of pig-tailed macaque iNKT cells that secrete IFN-γ are CD8⁺ iNKT cells. Based on these findings, we conclude that the pig-tailed macaques exhibit potential as a non-human animal model for the pre-clinical testing of iNKT-stimulating glycolipids.     

Growth and Differentiation of Adult Hippocampal Arctic Ground Squirrel Neural Stem Cells

Arctic ground squirrels (Urocitellus parryii, AGS) are unique in their ability to hibernate with a core body temperature near or below freezing ¹. These animals also resist ischemic injury to the brain in vivo^2,3 and oxygen-glucose deprivation in vitro^4,5. These unique qualities provided the impetus to isolate AGS neurons to examine inherent neuronal characteristics that could account for the capacity of AGS neurons to resist injury and cell death caused by ischemia and extremely cold temperatures. Identifying proteins or gene targets that allow for the distinctive properties of these cells could aid in the discovery of effective therapies for a number of ischemic indications and for the study of cold tolerance. Adult AGS hippocampus contains neural stem cells that continue to proliferate, allowing for easy expansion of these stem cells in culture. We describe here methods by which researchers can utilize these stem cells and differentiated neurons for any number of purposes. By closely following these steps the AGS neural stem cells can be expanded through two passages or more and then differentiated to a culture high in TUJ1-positive neurons (~50%) without utilizing toxic chemicals to minimize the number of dividing cells. Ischemia induces neurogenesis ⁶ and neurogenesis which proceeds via MEK/ERK and PI3K/Akt survival signaling pathways contributes to ischemia resistance in vivo⁷ and in vitro⁸ (Kelleher-Anderson, Drew et al., in preparation). Further characterization of these unique neural cells can advance on many fronts, using some or all of these methods.     

Cellulose bead entrapped microbial cells for biotechnical applications

Immobilization of intact or pretreated microbial cells instead of partially purified enzymes offers several advantages. A novel method has been applied to entrap Actinoplanes missouriensis, Bacillus coagulans, Kluyveromyces fragilis, K. lactis, Saccharomyces cerevisiae, Serratia sp., and Streptomyces albus cells within α-cellulose beads, with activity recoveries of about 22 to 85%. The best results were obtained with S. albus for glucose isomerase and with S. cerevisiae for invertase. The application of entrapped glucose isomerase-active A. missouriensis cells to increase the sweetness of β-galactosidase-hydrolysed dairy products was investigated in detail. Pressure drop across the column reactor bed was negligible; the stability of the entrapped enzyme was highest at pH 7.5 in the presence of both Mg²⁺and Co²⁺, although Co²⁺could be omitted with little effect on performance; and the activity was drastically affected by Ca²⁺content of substrate due to competition with Mg²⁺. The reactor was successfully operated for more than 5 weeks for the isomerization of demineralized concentrated whey hydrolysate of 8% lactose, 23% galactose, and up to 36% added glucose to obtain a syrup of sweetness approaching that of sucrose.     

Electric Field-controlled Directed Migration of Neural Progenitor Cells in 2D and 3D Environments

Endogenous electric fields (EFs) occur naturally in vivo and play a critical role during tissue/organ development and regeneration, including that of the central nervous system^1,2. These endogenous EFs are generated by cellular regulation of ionic transport combined with the electrical resistance of cells and tissues. It has been reported that applied EF treatment can promote functional repair of spinal cord injuries in animals and humans^3,4. In particular, EF-directed cell migration has been demonstrated in a wide variety of cell types^5,6, including neural progenitor cells (NPCs)^7,8. Application of direct current (DC) EFs is not a commonly available technique in most laboratories. We have described detailed protocols for the application of DC EFs to cell and tissue cultures previously^5,11. Here we present a video demonstration of standard methods based on a calculated field strength to set up 2D and 3D environments for NPCs, and to investigate cellular responses to EF stimulation in both single cell growth conditions in 2D, and the organotypic spinal cord slice in 3D. The spinal cordslice is an ideal recipient tissue for studying NPC ex vivo behaviours, post-transplantation, because the cytoarchitectonic tissue organization is well preserved within these cultures^9,10. Additionally, this ex vivo model also allows procedures that are not technically feasible to track cells in vivo using time-lapse recording at the single cell level. It is critically essential to evaluate cell behaviours in not only a 2D environment, but also in a 3D organotypic condition which mimicks the in vivo environment. This system will allow high-resolution imaging using cover glass-based dishes in tissue or organ culture with 3D tracking of single cell migration in vitro and ex vivo and can be an intermediate step before moving onto in vivo paradigms.     

Nerve growth factor-mediated induction of tyrosine hydroxylase and of neurite outgrowth in cultures of bovine adrenal chromaffin cells: dependence on developmental stage

Adrenal medullary cells were cultured in a serum-free medium from fetal, neonatal (calves), and adult bovine animals. Neurite outgrowth in response to nerve growth factor (NGF) was observed in cells obtained from fetuses up to a gestational age of 3 months but not in cultures from older animals. The tyrosine hydroxylase (TH) specific activity was found to depend on the cell density and corresponded, at a density of 2 × 10⁵ cells/cm², to the specific activity found in vivo. The TH specific activity increased about sevenfold from fetuses to adult animals. Administration of NGF in vitro caused an increase of the TH specific activity in fetal cells by up to 140% and in calf cells typically by 70–100%. Cultures from adult animals showed no significant TH increase in response to NGF. Scatchard analysis and kinetic studies of the NGF binding at 0°C to intact adrenal medullary cells cultured from calves or from adult bovine animals revealed the presence of only one class of receptors, having a dissociation constant (K_D) of 1 × 10 ⁹, M. There are 16,000 binding sites per cell. The affinity of the reeptors in vivo (determined in crude membrane preparations) did not alter during development, whereas the receptor density decreased with increasing fetal age, but was the same for calves and adults. Whereas the loss of NGF-mediated fiber outgrowth during development might be related to the reduction of receptor density, the disappearance of the NGF-mediated TH induction does not correlate with changes in the binding characteristics of NGF to the adrenal chromaffin cells.     

Modification of available arginine residues in proteins by p-hydroxyphenylglyoxal

p-Hydroxyphenylglyoxal reacts with arginine residues in proteins to give a single product which can be quantitated spectrophotometrically. The reaction takes place under mild conditions, pH 7–9 and 25°C. Under these conditions up to complete modification of N^α-citraconyl-l-arginine was obtained within 60 min with less than 5% modification of other common amino acid side chains. The extent of modification in a protein can be determined at 340 nm using the molar absorption coefficient of 1.83 × 10⁴m^?1 cm^?1 for the product at pH 9.0 and 25°C following removal of excess reagent by gel filtration. Several proteins, previously shown to have essential arginines, were modified by p-hydroxyphenylglyoxal and the losses in arginines were determined spectrophotometrically. These results were in close agreement with those of previous investigators. Rhea ovomucoid, a glycoprotein without arginines but containing an essential lysine, was relatively unaffected.     

Development of anaerobically inducible nar promoter expression vectors for the expression of recombinant proteins in Escherichia coli

Dissolved oxygen (DO)-controlled nar promoter expression vectors were constructed, and their expression efficiency was compared with that of the T7 promoter pET22 expression vector by expressing human growth hormone (hGH), enhanced green fluorescence protein (EGFP), and β-tyrosinase in Escherichia coli cells. The nar promoter expression vector pRBS, which was engineered with a 5′-untranslated region and ribosomal binding site for the T7 promoter, expressed hGH at a rate of up to 32% of the total cellular proteins (TCP) in E. coli W3110narL⁻. The expression level of hGH was further enhanced, up to ∼42% of the TCP, by adding the N-terminal peptide tag of β-galactosidase to hGH, which was comparable to the expression of ∼43% of the TCP in pET-lac:hGH/BL21(DE3). A further engineered expression vector, pRBS(fnr), which coexpressed fumarate/nitrate reductase (fnr), expressed more EGFP than pET22 in BL21(DE3). In addition, recombinant β-tyrosinase was successfully expressed at a rate of up to ∼45% of the TCP in pRBS(fnr) in W3110narL⁻. From these results, the DO-controlled nar promoter system developed in this study can be considered a reliable and cost-effective expression system for protein production, especially in large-scale fermentation, as an alternative to the pET/BL(DE3) system.     

Reduction of patient dose in medical radiography by utilizing scattered X-rays: Relation between permissible limit of scatter fraction,viewer brightness,and perceptibility of vision

This paper proposes a new technique for reducing the patient dose when employing medical radiographs prepared by using screen-film systems. In this technique the patient dose can be reduced by employing scattered X-rays in order to obtain the same film density as that realized without the use of scattered X-rays. The minimum perceptible thickness difference ΔX_min, which can be recognized by liminal vision, was psychophysically calculated by considering the energy spectrum of incident X-ray, sensitivity spectrum of the screen layer, and the perception capability of human vision. From the calculated ΔX_mins in various conditions, the permissible upper limit of scatter fraction for obtaining the same ΔX_min for three kinds of luminances, and the fraction of reduction in the primary X-rays were determined.As an example of the results, when the object size required for perception is 1.3 mm, a scatter fraction up to 42% can be permitted at a density D of 1.0 for a luminance of 2548 cd m^?2. When we increase the luminance of the viewer from 478 cd m^?2 to 2548 cd m^?2, the upper limit of the permitted scatter fraction varies from 30% to 42% at a D of 1.0, i.e., the patient dose can be reduced by 17% under the same perceptibility of ΔX_min by utilizing scattered X-rays. This reduction can be successfully achieved by changing the lead content of the grid from 0.45 to 0.38 g cm^?2.     

Sunlight effects on the DMSP-sulfur and leucine assimilation activities of polar heterotrophic bacterioplankton

The influence of solar ultraviolet radiation and photosynthetically active radiation (PAR) on summertime marine bacterial uptake and assimilation of sulfur from radiolabeled dimethlysulfoniopropionate (³⁵S-DMSP) was studied at four Arctic and two Antarctic stations. Incubations with ³H-leucine were also conducted for comparative purposes as a measurement of bacterial activity. Arctic waters were characterized by large numbers of colonial Phaeocystis pouchetii and higher DMSP concentrations than in the two diatom-dominated Antarctic samples. Exposure to full sunlight radiation (280–700?nm), and to a lesser extent to PAR?+?UVA (320–700?nm), generally decreased the bacterial assimilation of ³H-leucine with respect to darkness, and caused variable effects on ³⁵S-DMSP assimilation. By using a single-cell approach involving microautoradiography we found high percentages of sulfur assimilating cells within the bacterial groups Gammaproteobacteria, Bacteroidetes, SAR11 and Roseobacter despite the varying DMSP concentrations between Arctic and Antarctic samples. The dominant SAR11 clade contributed 50–70% of the cells assimilating both substrates in the Arctic stations, whereas either Gammaproteobacteria or SAR11 were the largest contributors to ³H-leucine uptake in samples from the two Antarctic stations. Only one station was analyzed for single-cell ³⁵S-DMSP assimilation in Antarctica, and Gammaproteobacteria were major contributors to its uptake, providing the first evidence for Antarctic bacteria actively taking up ³⁵S-DMSP. PAR?+?UVA repeatedly increased the number of SAR11 cells assimilating ³H-leucine. This pattern also occurred with other ³⁵S-DMSP assimilating groups, though not so consistently. Our results support a widespread capability of polar bacteria to assimilate DMSP-sulfur during the season of maximum DMSP concentrations, and show for the first time that all major polar taxa can be highly active at this assimilation under the appropriate circumstances. Our findings further confirm the role of sunlight as a modulator of heterotrophic carbon and sulfur fluxes in the surface ocean.     

Influencing Factors and Applicability of the Viability EMA-qPCR for a Detection and Quantification of Campylobacter Cells from Water Samples

In recent years, increasing numbers of human campylobacteriosis cases caused by contaminated water have been reported. As the culture-based detection of Campylobacter is time consuming and can yield false-negative results, the suitability of a quantitative real-time PCR method in combination with an ethidium monoazide pretreatment of samples (EMA-qPCR) for the rapid, quantitative detection of viable Campylobacter cells from water samples was investigated. EMA-qPCR has been shown to be a promising rapid method for the detection of viable Campylobacter spp. from food samples. Application of membrane filtration and centrifugation, two methods frequently used for the isolation of bacteria from water, revealed a mean loss of up to 1.08 log₁₀ cells/ml from spiked samples. Both methods used alone lead to a loss of dead bacteria and accumulation of viable bacteria in the sample as shown by fluorescence microscopy. After filtration of samples, no significant differences could be detected in subsequent qPCR experiments with and without EMA pretreatment compared to culture-based enumeration. High correlations (R² = 0.942 without EMA, R² = 0.893 with EMA) were obtained. After centrifugation of samples, qPCR results overestimated Campylobacter counts, whereas results from both EMA-qPCR and the reference method were comparable. As up to 81.59% of nonviable cells were detected in pond water, EMA-qPCR failed to detect correct quantities of viable cells. However, analyses of spiked tap water samples revealed a high correlation (R² = 0.863) between results from EMA-qPCR and the reference method. After membrane filtration, EMA-qPCR was successfully applied to Campylobacter field isolates, and results indicated an advantage over qPCR by analysing defined mixtures of viable and nonviable cells. In conclusion, EMA-qPCR is a suitable method to detect viable Campylobacter from water samples, but the isolation technique and the type/quality of the water sample impact the results.