树脂载体固定S-腺苷甲硫氨酸合成酶的研究

目的:筛选一种适合S-腺苷甲硫氨酸合成酶固定化的树脂载体,进行固定化工艺优化及固定化酶性质研究。方法:以固定化率和表观酶活回收率为指标,筛选固定化效果最佳的一种树脂,采用单因素实验对固定化条件进行优化。结果:阴离子交换树脂载体ESR-2表现出最优的固定化率(94.03%)和酶活回收率(47.45%);最佳固定化条件为加酶量4U/g、pH 8.0、15℃吸附10h,最佳条件下固定化酶表观酶活为2.1U/g,表观酶活回收率达51.6%。固定化酶的最适pH为8.5,最适温度为35℃,连续反应10批次后酶活剩余77.92%。结论:树脂载体ESR-2固定化S-腺苷甲硫氨酸合成酶酶活及稳定性较好,能够用于S-腺苷甲硫氨酸的工业化大规模生产。     

交联壳聚糖微球固定化β-葡萄糖苷酶工艺研究

目的:以戊二醛交联壳聚糖微球为载体,通过共价连接反应固定化β-葡萄糖苷酶.方法:以固定化酶比活和酶活回收率为目标,采用单因素方法优化固定化工艺、微球制备条件.结果:微球最佳制备条件:2.5%壳聚糖,2%乙酸,7.5%氢氧化钠,氢氧化钠:乙醇(v/v)=1:1.最佳固定化工艺为:0.1g壳聚糖微球在20mL 3%戊二醛溶液中50℃交联2h.加酶量为7 388mU/g干球,25℃吸附24h.固定化酶比活为6 188mU/g干球,酶活回收率为95.4%.结论:交联壳聚糖微球共价连接法可有效固定化β-葡萄糖苷酶.     

DA-F127水凝胶包埋固定化含腈水合酶细胞

腈水合酶是一类可催化腈类化合物转化生成相应酰胺类物质的酶。含腈水合酶的游离细胞催化水合反应存在酶容易失活、细胞无法重复利用、分离纯化困难等缺陷,细胞固定化技术可有效解决这些问题。为探索合适的固定化方法,以含腈水合酶的重组E.coli细胞为研究对象,以固定化酶活回收率和批次反应情况为评价指标,筛选比较了几种常用的包埋固定化方法。结果表明,DA-F127水凝胶包埋固定化细胞不仅具有较高的酶活回收率,而且稳定性也很好。对该方法进行了固定化条件和操作稳定性优化,当DA-F127浓度为15%、UV光源距离为20cm、光照时间为6min、菌体含量为20mg/g 固定化细胞时,酶活回收率为89.74%,并且可以催化9批次150g/L的3-氰基吡啶完成转化,第九批次转化率可达98.26%。与游离细胞催化过程相比,单位质量游离细胞的烟酰胺产量提高了12倍,具有良好的工业应用前景。     

DA-F127水凝胶包埋固定化含腈水合酶细胞

腈水合酶是一类可催化腈类化合物转化生成相应酰胺类物质的酶。含腈水合酶的游离细胞催化水合反应存在酶容易失活、细胞无法重复利用、分离纯化困难等缺陷,细胞固定化技术可有效解决这些问题。为探索合适的固定化方法,以含腈水合酶的重组E. coli细胞为研究对象,以固定化酶活回收率和批次反应情况为评价指标,筛选比较了几种常用的包埋固定化方法。结果表明,DA-F127水凝胶包埋固定化细胞不仅具有较高的酶活回收率,而且稳定性也很好。对该方法进行了固定化条件和操作稳定性优化,当DA-F127浓度为15%、UV光源距离为20cm、光照时间为6min、菌体含量为20mg/g固定化细胞时,酶活回收率为89. 74%,并且可以催化9批次150g/L的3-氰基吡啶完成转化,第九批次转化率可达98. 26%。与游离细胞催化过程相比,单位质量游离细胞的烟酰胺产量提高了12倍,具有良好的工业应用前景。     

包埋法固定化真菌漆酶及其应用研究

采用海藻酸钠包埋法固定真菌漆酶,海藻酸钠和CaCl2的最佳浓度分别为3%和4%,最佳给酶量为30U,最大回收率为48.0%.与游离漆酶相比,固定化漆酶的热稳定性有明显改善,最适反应pH向酸性方向漂移0.5,最适反应温度提高了5℃.使用固定化酶处理低浓度造纸废水,运行8批次后残留酶活为64%.     

固定化脂肪酶性质及其应用研究

利用以四甲氧基硅烷(TMOS)和甲基三甲氧基硅烷(MTMS)为前驱体的溶胶-凝胶法(sol-gel)固定洋葱假单胞菌属脂肪酶,考查了固定化酶和游离酶的酶学性质及催化不同油脂酯交换合成生物柴油的情况。结果表明,80℃以下固定化酶能保持80%以上的酶活,而游离酶在50℃以后活力急剧下降,到80℃残余酶活约为10%;固定化酶在体积分数50%的甲醇中处理48 h能保持85%的酶活,在体积分数90%的乙醇中处理48h能保持31%的酶活,而游离酶残余酶活只有69%和0;在酯交换反应中固定化酶的催化效率比游离酶高10%~20%,且固定化酶重复使用11次后仍能保持60%的酶活。结果显示,酶经过固定化后稳定性和催化活性显著提高。     

糖化酶在丝素膜上的固定化及性质研究

利用丝素作糖化酶的固定化载体,应用包埋法和共价交联法两种方法,制备了固定化糖化酶丝素膜,研究结果表明,共价交联法制备的酶膜活力较高,且回收率可达50%以上;与溶液酶相比,固定化酶的最适温度提高了10℃,热稳定性与贮存稳定性也有了很大提高。     

环氧树脂固定化L-谷氨酸氧化酶

通过环氧树脂作为载体对经(NH4)2SO4盐析处理后的L-谷氨酸氧化酶(LGOX)进行固定化,优化固定化工艺条件,并利用固定化LGOX转化产α-酮戊二酸(α-KG)。结果表明:饱和度45%的(NH4)2SO4为最佳盐析浓度;当选用环氧树脂ES-105作为固定化载体、树脂加量为20 m L酶液(14 U/m L)加入3.5 g载体、固定化K3PO4缓冲液浓度为0.2 mol/L(p H 7.0)、固定化温度25℃、固定化时间24 h时,固定化LGOX酶活力最高,其酶活回收率为85.9%,比酶活55.7 U/g。利用该固定化酶转化L-谷氨酸产α-KG,当谷氨酸钠质量浓度为100 g/L,反应20 h,产物收率达98.2%。固定化酶重复使用14批次后,产物收率仍有90%以上;重复使用20批,收率有83.2%。因此,该固定化酶具有具良好的操作稳定性。     

d-阿洛酮糖3-差向异构酶重组枯草芽孢杆菌构建及固定化应用

d-阿洛酮糖3-差向异构酶 (d-allulose-3-epimerase) 是异构化d-果糖生成d-阿洛酮糖 (d-allulose) 的关键酶。为提高d-阿洛酮糖3-差向异构酶的热稳定性并获得可重复使用的d-阿洛酮糖3-差向异构酶重组枯草芽孢杆菌固定化细胞,N端融合双亲短肽,通过聚丙烯酰胺凝胶电泳 (SDS-PAGE) 分析,异源d-阿洛酮糖3-差向异构酶在枯草芽孢杆菌中正确折叠,蛋白大小为33 kDa。40 ℃孵育48 h,SAP1-DSDPEase残余酶活仍保持在58%。固定化细胞最优条件为海藻酸钠浓度2%、二氧化钛添加量1︰4 (二氧化钛︰海藻酸钠)、氯化钙溶液浓度2%、戊二醛0.02%作为交联剂。该条件下固定化细胞酶活回收率高达82%,固定化细胞与游离细胞相比,最适反应温度不变均为80 ℃,热稳定性提高,连续10次操作使用,酶活回收率仍保留58%,机械强度仍保持100%,转化率仍保持在28.8%,残余酶活保持在70.5%。在海藻酸钠溶液中加入二氧化钛可减少固定化细胞的细胞泄露,增大了机械强度。     

N-氨甲酰基-D-氨基酸酰胺水解酶的固定化工艺

以TJS环氧基树脂作为载体对N-氨甲酰基-D-氨基酸酰胺水解酶进行固定化,最佳工艺条件为：1g树脂载体大约对应133U酶液,蛋白质量浓度0.35mg/mL,固定时间15h,温度28℃,pH7.5,固定化酶活达到58.5U。蛋白固定率可达97.4%,酶活回收率达到49.3%,得到的固定化酶使用半衰期达到26批。     

Immunoglobulin G-induced experimental chronic immune synovitis: cell-mediated immunity to native interstitial collagen molecules and their constituent polypeptide chains

In vitro cell-mediated immune responses to homologous rabbit immunoglobulin G (IgG), purified protein derivative (PPD), native Type I, II, and III collagen, and denatured Type I, II, and III collagen were studied in an IgG-induced animal model of immune synovitis. Immune response was measured as augmented [3H]thymidine incorporation by spleen cells on exposure to antigen. Immune responses were observed in vitro after 72 hr of culture with antigen, while a majority of responses to antigens occurred after 96 hr of incubation. Separation of spleen cell subpopulations showed that measured immune responses were of T-cell origin. In vitro cell-mediated immune responses were observed for native and denatured collagen in splenic cell cultures from six of seven synovitic rabbits (P less than 0.01) but not in control spleen cell cultures derived from normal, adjuvant-primed or IgG-immune nonsynovitic rabbits. The incidence of cellular reactivity to incubation with native interstitial collagens was as follows: Type I, 43%; Type II, 43%; Type III, 57%. The incidence of in vitro immune responses to denatured collagens in cultures derived from rabbits with synovitis was: Type I, 50%; Type II, 50%; Type III, 67%. The relatively high incidence of immune response to both native and denatured collagens suggests that immunity to structural components of the synovial membrane and the adjacent surface of articular cartilage may play a role in the inflammation observed in immune synovitis.     

Formaldehyde as a pre-treatment for dermal collagen heterografts

The preparation, stability both in vitro and in vivo and resistance to bacterial collagenase of trypsin-purified pig dermal collagen cross-linked with a range of concentrations of formaldehyde in phosphate-buffered saline, was studied using ¹⁴C-labelled formaldehyde as a tracer. Washing in phosphate-buffered saline at 37°C produced rapid loss of formaldehyde over 6 weeks before stability was reached. After 19 weeks washing, 12–20% of the initial radioactivity remained, representing 6, 18 and 35 μmol formaldehyde/g of collagen after 21 days reaction with 0.1, 1 and 5% formaldehyde, respectively. Collagen, incorporating stable-bound formaldehyde arising from reaction with formaldehyde in concentrations of 0.5% or over, was totally resistant to bacterial collagenase.The stabilizing effect of formaldehyde cross-linking was also demonstrated by implants of fibrous pig dermal collagen in rats. After 8 weeks a significant constant amount of formaldehyde was retained in all implants. There was no net loss of mass over a 24 week period when pre-treated with 1% formaldehyde but some loss when pre-treated with 0.1% formaldehyde.     

Surface contact modulation of inflammatory macrophage antibody dependent cytotoxicity and prostanoid release.

Adherence to extracellular matrix proteins modulates the functional and secretory activities of mononuclear phagocytes, although the mechanisms regulating these adherence-dependent changes are poorly understood. In this study, the ability of rat inflammatory peritoneal macrophages (PM) to adhere to an endothelial cell-derived extracellular matrix or a denatured collagen/fibronectin-coated surface and perform antibody dependent cell cytotoxicity (ADCC) and secrete reactive oxygen intermediates was compared with PM adherent to tissue culture plastic. Prostaglandin E2 (PGE2) and thromboxane B2 (TxB2), two major cyclooxygenase products released by inflammatory macrophages, were also measured by PM adherent to the protein coated surfaces. Rat exudate PM were equally adherent to tissue culture plastic or wells coated with either endothelial cell derived matrix or denatured collagen (gelatin)/fibronectin. PM adherent to a denatured collagen/fibronectin-coated wells demonstrated significantly less cytolytic activity (15 +/- 2% lysis) when compared with either tissue culture plastic adherent PM (43 +/- 7% lysis) or PM adherent to extracellular matrix (59 +/- 11% lysis). PM adherent to extracellular matrix released twofold more TxB2 than plastic adherent PM, while PM adherent to denatured collagen/fibronectin released 40% more PGE2 than cells adherent to tissue culture plastic or 80% more PGE2 than PM adherent to the extracellular matrix. PM adherent to denatured collagen/fibronectin release less superoxide anion (27 +/- .9 nmoles/10(6) PM) than PM adherent to either tissue culture plastic (43 +/- 1 nmoles/10(6) PM) or the extracellular matrix (60 +/- 0.5 nmoles/10(6) PM). Furthermore, incubation of plastic adherent PM with exogenous PGE2 reduced superoxide production in a dose-dependent manner. These results demonstrate that the inhibition of ADCC and secretion of reactive oxygen intermediates by PM adherent to a denatured collagen/fibronectin surface correlated with an increased release of the immunosuppressive prostanoid PGE2. Furthermore, the addition of exogenous PGE2 to plastic adherent PM reproduced the depression in ADCC and superoxide anion production observed by PM adherent to a denatured collagen/fibronectin surface. These studies suggest that the increased production and release of PGE2 by inflammatory macrophages adherent to a denatured collagen surface may act to suppress cytotoxic mechanisms and thereby constitutes part of an autocrine feedback mechanism regulating macrophage function during wound injury.     

Lysosomal function in the degradation of defective collagen in cultured lung fibroblasts

Human fibroblasts when induced to make nonhelical , defective collagen have mechanisms for degrading up to 30% of their newly synthesized collagen intracellularly prior to secretion. To determine if at least a portion of the degradation of defective collagen occurs by lysosomes, extracts of cultured HFL-1 fibroblasts were examined for proteinases capable of degrading denatured type I [3H]procollagen. The majority of the proteolytic activity against denatured [3H]-procollagen had a pH optimum of 3.5-4; it was stimulated by dithiothreitol and inhibited 95% by leupeptin, 10% by pepstatin, and 98% by leupeptin and pepstatin together. Extracts of purified lysosomes from the fibroblasts were active in degrading denatured [3H]procollagen and were completely inhibited by leupeptin and pepstatin. To demonstrate directly that human lung fibroblasts can translocate a portion of their defective collagen to lysosomes, cultured cells were incubated with cis-4-hydroxyproline and labeled with [14C]proline to cause the cells to make nonhelical [14C]procollagen. About 3% of the total intracellular hydroxy[14C]proline was found in lysosomes. If, however, the cells were also treated with NH4Cl, an inhibitor of lysosomal function, 18% of the intracellular hydroxy[14C]proline was found in lysosomes. These results demonstrate that cultured human lung fibroblasts induced to make defective collagen are capable of shunting a portion of such collagen to their lysosomes for intracellular degradation.     

The gelatinolytic activity of rat uterus collagenase

The collagenase produced by rat uterine cells in culture has been examined for its ability to degrade denatured collagen. Acting as a gelatinase, rat uterus collagenase was able to successfully degrade the denatured chains of collagen types I through V. In addition, the enzyme produced multiple cleavages in these chains and displayed values for Km of 4-5 microM, compared to values of 1-2 microM when native collagen was used as substrate. Furthermore, rat uterus collagenase degraded the alpha 2 chain of denatured type I collagen at a significantly faster rate than the alpha 1 chain, as previously observed for human skin fibroblast collagenase. In contrast to the action of human skin collagenase, however, the rat uterus enzyme was found to be a markedly better gelatinase than a collagenase, degrading the alpha chains of denatured type I guinea pig skin collagen at rates some 7-15-fold greater than native collagen. Human skin collagenase degrades the same denatured chains at rates ranging from 13-44% of its rate on native collagen. Rat uterus collagenase, then, is approximately 50 times better a gelatinase than is human skin collagenase. In addition to its ability to cleave denatured collagen chains at greater rates than native collagen, the rat uterus collagenase also attacked a wider spectrum of peptide bonds in gelatin than does human skin collagenase. In addition to cleaving the Gly-Leu and Gly-Ile bonds characteristic of its action on native collagen, rat uterus collagenase readily catalyzed the cleavage of Gly-Phe bonds in gelatin. The rat enzyme was also capable of cleaving Gly-Ala and Gly-Val bonds, although these bonds were somewhat less preferred by the enzyme. The cleavage of peptide bonds other than Gly-Leu and Gly-Ile appears to be a property of the collagenase itself and not a contaminating protease. Thus, it appears that the collagenase responsible for the degradation of collagen during the massive involution of the uterus might also act as a gelatinase to further degrade the initial products of collagenolysis to small peptides suitable for further metabolism.     

A spectrophotometric study of the denaturation of deoxyribonucleic acid in the presence of urea or formaldehyde and its relevance to the secondary structure of single-stranded polynucleotides

1. The thermal denaturation of DNA from rat liver was studied spectrophotometrically. In sodium phosphate buffers denaturation led to a single-stranded form having, at 25 degrees , about 25% of the hypochromism of the intact double helix. 2. The hypochromism of the denatured form was the same in 1mm- as in 10mm-sodium phosphate buffer and was scarcely affected by reaction with formaldehyde. The hypochromism was decreased by about 40% in the presence of 8m-urea. 3. The hypochromism of denatured DNA at low ionic strengths was about the same as that of fragments of reticulocyte ribosomal RNA that were too short to form double-helical secondary structure and about the same as that of RNA after reaction with formaldehyde. 4. The spectrum of DNA was slightly affected by the presence of 8m-urea or 4m-guanidinium chloride. The differences in the spectrum of the native and denatured forms of DNA in 0.1m-sodium phosphate buffer, in 8m-urea-10mm-sodium phosphate buffer and in 4m-guanidinium chloride-10mm-sodium phosphate buffer, pH7.6, were similar but not identical. 5. Denatured rat liver DNA appears to have no double-helical character at 25 degrees in 10mm-sodium phosphate buffer, pH7.6; increasing the buffer concentration to 0.1m leads to a more compact form in which about 40% of the residues form base pairs.     

Attachment of cells to basement membrane collagen type IV

Of ten different cell lines examined, three showed distinct attachment and spreading on collagen IV substrates, and neither attachment nor spreading was enhanced by adding soluble laminin or fibronectin. This reaction was not inhibited by cycloheximide or antibodies to laminin, indicating a direct attachment to collagen IV without the need of mediator proteins. Cell-binding sites were localized to the major triple-helical domain of collagen IV and required an intact triple helical conformation for activity. Fibronectin showed preferential binding to denatured collagen IV necessary to mediate cell binding to the substrate. Fibronectin binding sites of collagen IV were mapped to unfolded structures of the major triple-helical domain and show a similar specificity to fibronectin-binding sites of collagen I. The data extend previous observations on biologically potential binding sites located in the triple helix of basement membrane collagen IV.     

Direct evidence for the binding of rat liver DPP IV to collagen in vitro

Previous studies have shown that the tripeptide Gly-Pro-Ala, a substrate for dipeptidyl peptidase IV (DPP IV, EC 3.3.14.5), interferes with initial spreading of hepatocytes on a matrix consisting of fibronectin and denatured collagen. In the present investigation we report that the tripeptide as well as the anti-DPP IV antibody inhibits the initial spreading of hepatocytes also on native collagen. This effect appears to be due to the interaction of DPP IV from hepatocyte plasma membrane with native collagen. It is shown in vitro by immunohistochemistry, catalytic histochemistry, and by affinity chromatography of solubilized plasma membrane on collagen-Sepharose that DPP IV has a binding affinity to collagen. This binding does not affect the activity of DPP IV.     

Fibronectin-independent attachment of human gingival fibroblasts to interstitial and basement membrane collagens

We have studied the ability of human gingival fibroblasts (HGF) to attach to different interstitial (types I, II and III) and basement membrane (types IV and V) collagens. HGF cells were plated onto collagen-coated Petri dishes under various conditions and the percentage of cells attaching to the collagen was determined. HGF were found to attach to all the different types of native collagens, but attached poorly to the corresponding denatured collagens. When plated in the presence of 15% fetal bovine serum (FBS) or fibronectin-depleted FBS, similar percentages (approximately 85%) of cells attached to both interstitial and basement membrane collagens, demonstrating an attachment mechanism that is independent of plasma fibronectin. That the attachment in the presence of serum was also independent of cellular fibronectin was shown by the inability of fibronectin antibodies to block attachment to any of the collagen types. HGF were also capable of attaching to all of the collagen types in the complete absence of serum. In previous studies, investigators using cell lines have suggested that cell attachment in the absence of serum is non-physiological. However, the serum-free attachment of HGF to collagen was found to be dependent on cellular protein synthesis indicating that this attachment mechanism has biological significance.     

Delayed Release Nutrient Supplement for Mushroom Culture

The disadvantages associated with the supplementation of noncomposted nutrients to mushroom compost at spawning were largely overcome by encapsulating microdroplets of vegetable oil within a protein coat that was denatured with formaldehyde. Increases in mushroom yield of 60% were obtained. Delayed nutrient release was indicated by prolonged stimulation of yields beyond the first few flushes.