High-level production of human leptin by fed-batch cultivation of recombinant Escherichia coli and its purification.

Human leptin is a 16-kDa (146-amino-acid) protein that is secreted from adipocytes and influences body weight homeostasis. In order to obtain high-level production of leptin, the human obese gene coding for leptin was expressed in Escherichia coli BL21(DE3) under the strong inducible T7 promoter. The recombinant leptin was produced as inclusion bodies in E. coli, and the recombinant leptin content was as high as 54% of the total protein content. For production of recombinant human leptin in large amounts, pH-stat fed-batch cultures were grown. Expression of leptin was induced at three different cell optical densities at 600 nm (OD600), 30, 90, and 140. When cells were induced at an OD600 of 90, the amount of leptin produced was 9.7 g/liter (37% of the total protein). After simple purification steps consisting of inclusion body isolation, denaturation and refolding, and anion-exchange chromatography, 144.9 mg of leptin that was more than 90% pure was obtained from a 50-ml culture, and the recovery yield was 41.1%.     

重组戊型肝炎病毒衣壳蛋白工程菌的高密度培养

在10L发酵罐中对戊型肝炎病毒衣壳蛋白在重组大肠杆菌中表达发酵工艺进行了研究,用分批培养方法探讨了不同培养基、培养基中磷酸盐浓度和Mg^2＋浓度等因素对菌体生长与重组蛋白表达的影响;用分批补料培养研究了不同的补料工艺对菌体生长与重组蛋白表达的影响,同时对重组菌诱导时期、诱导持续时间以及不同诱导温度表达包含体在尿素溶液中的溶解性进行了研究。结果表明,在优化后的培养基中,磷酸盐浓度、Mg^2＋浓度分别为80mmol/L 与20mmol/L时菌体生长与表达效果较好;分批补料培养中,37℃培养9h菌体达到对数期中期(约45OD600)为适宜诱导时期,加入终浓度为10mmol/L IPTG后诱导5h,OD600达到80以上,重组蛋白表达量达到29.74％,为最适收获菌体时间;37℃表达的包含体80％以上溶解在4mol/L的尿素溶液中,最终浓度达到14mg/mL; 10L发酵罐中确定的发酵工艺参数在30L发酵罐中进行了放大培养,10L发酵罐中确定的发酵工艺参数在30L发酵罐上具有可放大性与重复性, 可以应用于工业生产。     

Direct chemical extraction of a recombinant viral coat protein from Escherichia coli at high cell density.

The release of protein and DNA from nonrecombinant E. coli JM101 and recombinant E. coli HMS174(DE3) expressing L1 (the major viral coat protein of human papillomavirus type 16) as an inclusion body was demonstrated at high cell density (OD(600) = 160). For the nonrecombinant strain, extraction efficiency decreased significantly as cell mass increased, with a high viscosity increase in the postextraction broth. A different dependence on cell concentration was observed for the recombinant strain, with total protein extraction efficiency exceeding 85% for both uninduced and induced cells. Almost complete release of the recombinant L1 protein was achieved at high cell concentration (OD(600) = 80 approximately 160) without the use of reducing agent. This greatly extends the concentration range for chemical extraction.     

Measurements of multiply scattered light for on-line monitoring of changes in size distribution of cell debris suspension

Dual wavelength frequency-domain measurements of photon migration (FDPM) are conducted on filtrate samples obtained from an industrial centrifugation process designed to separate Escherichia coli cell debris from the inclusion bodies. FDPM measurements consist of detecting phase delay of intensity-modulated light at 670 and 820 (or 830) nm. Optical properties of isotropic scattering and absorption are obtained from the regression of phase delay data to the optical diffusion equation. We show that the corresponding intensity-based measurements alone cannot provide accurate and independent estimates for these optical properties. However, FDPM-derived scattering coefficients of filtrate solutions (primarily consisting of 0.1-0.2 micrometer E. coli cell debris) are sensitive to approximately 1 vol % of added inclusion bodies (of 1-2 micrometer size). The technique, theory, and future adaptation of FDPM as an on-line monitor to detect the loss of inclusion bodies in centrifugation following homogenization are presented and contrasted to conventional, intensity-based measurements.     

Relation between cell disruption conditions, cell debris particle size, and inclusion body release

The efficiency of physical separation of inclusion bodies from cell debris is related to cell debris size and inclusion body release and both factors should be taken into account when designing a process. In this work, cell disruption by enzymatic treatment with lysozyme and cellulase, by homogenization, and by homogenization with ammonia pretreatment is discussed. These disruption methods are compared on the basis of inclusion body release, operating costs, and cell debris particle size. The latter was measured with cumulative sedimentation analysis in combination with membrane-associated protein quantification by SDS-PAGE and a spectrophotometric peptidoglycan quantification method. Comparison of the results obtained with these two cell debris quantification methods shows that enzymatic treatment yields cell debris particles with varying chemical composition, while this is not the case with the other disruption methods that were investigated. Furthermore, the experiments show that ammonia pretreatment with homogenization increases inclusion body release compared to homogenization without pretreatment and that this pretreatment may be used to control the cell debris size to some extent. The enzymatic disruption process gives a higher product release than homogenization with or without ammonia pretreatment at lower operating costs, but it also yields a much smaller cell debris size than the other disruption process. This is unfavorable for centrifugal inclusion body purification in this case, where cell debris is the component going to the sediment and the inclusion body is the floating component. Nevertheless, calculations show that centrifugal separation of inclusion bodies from the enzymatically treated cells gives a high inclusion body yield and purity.     

Physics of a rapid CD4 lymphocyte count with colloidal gold

The inherent surface charges and small diameters that confer colloidal stability to gold particle conjugates (immunogold) are detrimental to rapid cell surface labeling and distinct cluster definition in flow cytometric light scatter assays. Although the inherent immunogold surface charge prevents self aggregation when stored in liquid suspension, it also slows binding to cells to timeframes of hours and inhibits cell surface coverage. Although the small diameter of immunogold particles prevents settling when in liquid suspension, small particles have small light scattering cross sections and weak light scatter signals. We report a new, small particle lyophilized immunogold reagent that maintains activity after 42°C storage for a year and can be rapidly dissolved into stable liquid suspension for use in labelling cells with larger particle aggregates that have enhanced scattering cross section. Labeling requires less than 1 min at 20°C, which is ～30 times faster than customary fluorescent antibody labeling. The labeling step involves neutralizing the surface charge of immunogold and creating specifically bound aggregates of gold on the cell surface. This process provides distinct side-scatter cluster separation with blue laser light at 488 nm, which is further improved by using red laser light at 640 nm. Similar comparisons using LED light sources showed less improvement with red light, thereby indicating that coherent light scatter is of significance in enhancing side-scatter cluster separation. The physical principles elucidated here for this technique are compatible with most flow cytometers; however, future studies of its clinical efficacy should be of primary interest in point-of-care applications where robust reagents and rapid results are important.     

The application of multi-parameter flow cytometry to the study of recombinant <Emphasis Type="Italic">Escherichia coli</Emphasis> batch fermentation processes

Multi-parameter flow cytometric techniques coupled with dual colour fluorescent staining were used to study the physical and metabolic consequences of inclusion body formation in batch cultures of the recombinant Escherichia coli strain MSD3735. This strain contains a plasmid coding for the isopropylthiogalactopyranoside-inducible model eukaryotic protein AP50. It is known that the synthesis of foreign proteins at high concentrations can exert a severe metabolic stress on the host cell and that morphological changes can occur. In this work, using various points of induction, it was shown that inclusion body formation is followed immediately by measurable changes in the characteristic intrinsic light scatter patterns for the individual cell (forward scatter, 90° side scatter) and a concomitant progressive change in the individual cell physiological state with respect to both cytoplasmic membrane polarisation and permeability. This work establishes flow cytometry as a potentially valuable tool for monitoring recombinant fermentation processes, providing important information for scale-up. Further, we discuss the possibility of optimising inclusion body formation by manipulating the fermentation conditions based on these rapid real-time measurements.     

Multiparametric flow cytometric analysis of radiation-induced micronuclei in mammalian cell cultures.

A new flow cytometric method is presented that quantifies the frequency of radiation-induced micronuclei in mammalian cell cultures with high precision. After preparing a suspension of main nuclei and micronuclei stained with ethidium bromide and Hoechst 33258, both types of particles are measured simultaneously in a flow cytometer using forward light scatter and three fluorescence emission intensities excited by UV, 488 nm, and by energy transfer from Hoechst 33258 to ethidium bromide. Nonspecific debris overlapping the micronucleus distribution especially in the low fluorescence intensity region was discriminated from micronuclei by calculating ratios of the different fluorescences. The frequencies of radiation-induced micronuclei measured with this new technique agreed well with results obtained by conventional microscopy. The lower limit of the DNA content of micronuclei identified by this technique was found to be about 0.5%-0.75% of the DNA content of G1-phase nuclei. Dose effect curves and the time-dependent induction of micronuclei were measured for two different mouse cell lines.     

Action spectra for phototaxis in zoospores of the brown algaPseudochorda gracilis

Summary Action spectra for phototaxis in zoospores of brown alga,Pseudochorda gracilis (Laminariales), were examined in the wavelength range between 300 and 600 nm using the Okazaki Large Spectrograph and a video tracking system. The direction of swimming (both in percent cells swimming in parallel with the stimulating light, and in mean angle of cell movement) was dependent on the wavelength. The action spectra had two peaks at 420 and 460 nm, while light above 500 nm was not effective in changing the swimming direction of the cells.Abbreviations TCMA tracker-cell movement analyzer system - CMA cell movement analyzer program     

HER2胞外段的克隆与原核表达

应用RT-PCR技术从人乳腺癌细胞系SK-BR-3中克隆出人表皮生长因子受体2(human epidermal growth factorreceptor 2,HER2)基因的胞外段,并插入到表达载体pET-30a中,得到重组表达载体pET30-HER2(Ex)。将该载体转化至大肠杆菌BL21(DE3)细胞中,加入IPTG进行诱导表达,成功获得HER2胞外段蛋白。分别提取培养液上清、大肠杆菌周质腔、细胞质可溶性及不可溶性组分蛋白进行SDS-PAGE电泳分析,确定目的蛋白定位于大肠杆菌细胞质包涵体中。通过改变诱导温度、诱导物浓度、诱导起始菌体密度和诱导时间,寻找最佳表达条件,使目的蛋白的表达量达到最高。结果表明,在37℃下,OD600达到1.0时,经终浓度为0.1 mmol/L的IPTG诱导4 h,目的蛋白的表达量最高。将重组表达菌进行超声破碎,分离出包涵体组分,经Ni2+亲和层析纯化后获得了纯度>90%的HER2胞外段蛋白,从而为抗HER2抗体的制备及肿瘤疫苗的研究奠定了基础。     

Effects of Sunlight on Stained Sections Mounted in Various Media

Sections stained with haematoxylin and eosin showed maximum optical density (OD) at 536 nm, with a second peak at 600 nm. Sections stained with only eosin showed a peak at 536 nm, whilst those stained with haetnatoxylin showed a peak at 600 nm. Reduction in OD at these wavelengths was used to estimate fading of the staining. Direct sunlight reduced the OD of sections mounted in 22 different mounting media by 14 to 64% at 536 nm and 12 to 51% at 600 nm.     

Hydrophobic interaction expanded bed adsorption chromatography (HI-EBAC) based facile purification of recombinant streptokinase from E. coli inclusion bodies

The downstream processing of recombinant streptokinase (rSK), a protein used for dissolution of blood clots has been investigated employing Escherichia coli inclusion bodies obtained after direct chemical extraction followed by expanded bed adsorption chromatography (EBAC). Streptokinase was over-expressed using high cell density (final OD(600)=40) culture of recombinant E. coli, and an SK protein concentration of 1080 mg l(-1) was achieved. The wet cell pellet after centrifugation was re-suspended in 8M urea containing buffer resulting in direct extraction of almost 97% of cellular proteins into solution. Compared to mechanical disruption using sonication, the direct extraction helped in simultaneous cell lysis and inclusion body (IB) solubilization in a single integrated step. The post-extraction solution containing cell debris and cellular proteins was diluted and directly loaded on to an EBAC column containing Streamline phenyl, without clarification. By passing the solution four times through the column and using 1M NaCl during loading, 82.7% rSK activity could be recovered in the 10mM sodium phosphate buffer used for elution. A 3-fold increase in specific activity of rSK, from 0.18 x 10(5) in cell lysate to 0.53 x 10(5)IU mg(-1) resulted after this step. rSK was further purified to near-homogeneity (specific activity=0.96 x 10(5)IU mg(-1)) by a subsequent ion-exchange step operated in packed bed mode. An overall downstream recovery of 63% rSK was achieved after EBAC and ion exchange chromatography. The paper thus describes the purification of rSK using a three-step regime involving simple, efficient and highly facile steps.     

High cell density cultivation of recombinant <Emphasis Type="Italic">E. coli</Emphasis> for hirudin variant 1 production by temperature shift controlled by pUC18-based replicative origin

The copy number of a plasmid, pUC-based vector, was previously shown to be affected by culture temperature. In this study, intracellular hirudin variant 1 (f-HV1) fused to porcine adenylate kinase protein was produced using recombinant Escherichia coli by temperature shift cultivation coupled with a high cell density cultivation technique for E. coli JM109. The optimal temperature for cellular growth suppressing f-HV1 production was 33 degrees C, resulting in a final dried cell concentration of 45.7 g/l, with a specific growth rate of 0.54 1/h. Optimizing the temperature-shift conditions (temperature shifted to an OD660 nm of 15 from 33 degrees C to 37 degrees C) resulted in the production of f-HV1 up to 4763 mg/l as an inclusion body with dried cell concentration of 44 g/l in 18 h.     

Fluorescence as an alternative to light-scatter gating strategies to identify frozen–thawed cells with flow cytometry

Flow cytometry is a key instrument in biological studies, used to identify and analyze cells in suspension. The identification of cells from debris is commonly based on light scatter properties as it has been shown that there is a relationship between forward scattered light and cell volume and this has become common practice in flow cytometry. Cryobiological conditions induce changes in cells that alter their light scatter properties. Cells with membrane damage from freeze–thaw stress produce lower forward scatter signals and may fall below standard forward scatter thresholds. In contrast to light scatter properties that cannot identify damaged cells from debris, fluorescent dyes used in membrane integrity and mitochondrial polarization assays are capable of labeling and discriminating all cells in suspension. Under cryobiological conditions, isolating cell populations is more effectively accomplished by gating on fluorescence rather than light scatter properties. This study shows the limitations of using forward scatter thresholds in flow cytometry to identify and gate cells after exposure to a freeze–thaw protocol and demonstrates the use of fluorescence as an alternative means of identifying and analyzing cells.     

重组人血管内皮抑制素（rh-Endostatin）大肠杆菌表达体系发酵条件的优化

优化了重组人血管内皮抑制素的E. coli表达体系的发酵条件。利用E. coli表达体系得到了较高的产量,在9h左右的发酵周期内达到OD600值140,包涵体蛋白产量为3 g/L。主要优化了异丙基-β-D-硫代半乳糖苷（Isopropyl-β-D-thiogalactopyranoside, IPTG）的终浓度、诱导时间、培养温度、补料控制方法等条件,并且在诱导后提高培养温度到40℃,在非常短的培养周期内达到了高密度培养的目的。利用E. coli表达,继而通过复性获得有活性的重组人血管内皮抑制素,成本低、生产过程稳定可控、得到的蛋白性质稳定,符合工业生产的需要。     

Cell size, DNA, and cytokeratin analysis of human head and neck tumors by flow cytometry

Cell subsets have been discriminated in cell suspensions derived from 37 human head and neck tumors by means of light scatter, DNA, and cytokeratin flow cytometry (FCM). Cell dispersion was performed overnight at 4 degrees C in two different enzyme mixtures, i.e., trypsin/dithioerythritol and collagenase/DNase, under slight agitation of sliced tumor tissue. Cells were examined before and after fractionation on a discontinuous low-density bovine serum albumin (BSA) gradient. Forward and right-angle light scatter FCM of 23 tumor specimens revealed four main subpopulations with different size and structure. Fractionation of primary cell suspensions on a BSA gradient at unit gravity separated debris, small cells and large cells. DNA FCM of the enriched populations demonstrated a relation between large cells and DNA aneuploidy. Epithelial cells, as recognized by cytokeratin antibodies, were also related with large cells. The results demonstrated the usefulness of light scatter, DNA, and cytokeratin analysis of crude and fractionated tumor cell suspensions for assessment of the efficacy of a particular dispersion technique and to obtain information of the cell subsets dispersed.     

Detection of hepatopancreatic parvovirus (HPV) of penaeid shrimp by in situ hybridization at the electron microscope level

A post-embedding in situ hybridization procedure was developed to detect hepatopancreatic parvovirus (HPV) of penaeid shrimp at the ultrastructural level. The procedure was optimized using sections of resin-embedded hepatopancreas from HPV-infected juvenile Penaeus monodon and postlarval P. chinensis. The hepatopancreata were fixed using various fixatives, dehydrated, and embedded in the hydrophilic resin Unicryl. A 592 bp HPV-specific DNA probe, labeled with DIG-11-dUTP, was tested both on semi-thin and ultra-thin sections and examined by light and electron microscopy, respectively. Hybridized probe was detected by means of an anti-DIG antibody conjugated to 10 nm gold particles and subsequent silver enhancement. Hybridization signal intensities were similar with all fixatives tested, but ultrastructure was best preserved with either 2 or 6% glutaraldehyde. Post-fixation with 1% osmium tetroxide improved ultrastructure but markedly decreased hybridization signal and induced non-specific deposition of gold and silver. Under optimized conditions, this technique was used to successfully follow the development of HPV from absorption and transport through the cytoplansm to nuclear penetration, replication and release by cytolysis. The probe signal was consistently observed among necrotic cell debris within the lumen of hepatopancreatic tubules, within the microvillous border of tubule epithelial cells, within the cytoplasm, and within diagnostic HPV intranuclear inclusion bodies. The nucleolus and karyoplasm of patently infected cells (i.e., showing HPV intranuclear inclusion bodies) were almost devoid of signal. Electron-lucent structures, known as intranuclear bodies, commonly found within the virogenic stroma, showed only weak labeling. This is the first use of in situ hybridization to detect HPV nucleic acids with the electron microscope. The technique should be useful for studying the pathogenesis of HPV.     

High throughput purification of recombinant human growth hormone using radial flow chromatography

Recombinant human growth hormone (r-hGH) was expressed in Escherichia coli as inclusion bodies. Using fed-batch fermentation process, around 670 mg/L of r-hGH was produced at a cell OD600 of 35. Cell lysis followed by detergent washing resulted in semi-purified inclusion bodies with more than 80% purity. Purified inclusion bodies were homogenous in preparation having an average size of 0.6 μm. Inclusion bodies were solubilized at pH 12 in presence of 2 M urea and refolded by pulsatile dilution. Refolded protein was purified with DEAE-anion exchange chromatography using both radial and axial flow column (50 ml bed volume each). Higher buffer flow rate (30 ml/min) in radial flow column helped in reducing the batch processing time for purification of refolded r-hGH. Radial column based purification resulted in high throughput recovery of diluted refolded r-hGH in comparison to axial column. More than 40% of inclusion body protein could be refolded into bioactive form using the above method in a single batch. Purified r-hGH was analyzed by mass spectroscopy and found to be bioactive by Nb2 cell line proliferation assay. Inclusion body enrichment, mild solubilization, pulsatile refolding and radial flow chromatography worked co-operatively to improve the overall recovery of bioactive protein from inclusion bodies.     

Light-Induced Absorption Changes in Etiolated Coleoptiles

Blue (or green) light induced reversible and irreversible absorption changes in etiolated wheat (Triticum aestivum) coleoptiles. Immediately after a 10 s pulse of blue light there was an absorbance increase at 440 nm and a decrease at 420 nm. The absorbance at 440 nm returned to the original level in a biphasic way, with first-order rate constants of 0.05 s^?1 and 0.006 s^?1 at 25°C. The change at 440 nm was partly, but not completely, inhibited by iodide. In the 500–600 nm region complex changes occurred, indicating the participation of at least two different cytochromes, one of which was oxidized during a 10 s light pulse and the other oxidized more slowly during the following dark period.     

玫瑰茄悬浮细胞合成花青素的光效应研究

光照对悬浮培养的玫瑰茄细胞生物量无影响。随着光照强度增大,玫瑰茄细胞合成花青素的量增加,光照强度３１．０ｗ／ｍ２为饱和光照强度,超过该强度,玫瑰茄细胞合成花青素的量不再进一步增加;可见光中蓝光（４２０～５３０ｎｍ）是促进玫瑰茄细胞合成花青素最有效单色光,光强为３０．０ｗ／ｍ２,接种量为０．２ｇ湿细胞的５０ｍｌ培养液经１６ｄ培养,花青素产量为８．９７ｍｇ／５０ｍｌ,高出相同光照强度全色光下的６．５３ｍｇ／ｍｌ;黄光和绿光分别有一定的促进作用。当黑暗下的培养时间不超过８ｄ,后期经过不少于８ｄ的光照可以诱导出和全程光照相当的花青素产量,分别为６．６４和６．７２ｍｇ／５０ｍｌ（总培养时间不少于１６ｄ）。当黑暗下培养时间超过１２ｄ,由于营养成分消耗,光照延长,花青素产量也无法提高,添加１０ｍｌ新鲜培养基再进行光诱导,花青素产量可以提高（６．７５ｍｇ／５０ｍｌ）。