乙二醇对木瓜蛋白酶催化活性的影响

对不同浓度乙二醇水溶液影响木瓜蛋白酶水解酪蛋白的催化活性及构象的改变进行研究。结果表明,木瓜蛋白酶在乙二醇水溶液中水解酪蛋白的活性显著下降。动力学测定表明,木瓜蛋白酶在乙二醇水溶液中最大反应速度明显下降;差示光谱显示,在乙二醇水溶液中木瓜蛋白酶的二级结构发生了变化;荧光发射光谱显示,木瓜蛋白酶在乙二醇水溶液中发射峰位几乎没移动,但发射强度明显增高。     

乙醇溶液对木瓜蛋白酶催化活性的影响

研究了乙醇溶液对木瓜蛋白酶水解酪蛋白的催化活性及构象的影响。结果表明,木瓜蛋白酶在一定浓度乙醇溶液中水解酪蛋白的活性有显著上升。动力学测定表明木瓜蛋白酶在乙醇溶液中米氏常数（Km）下降。差示光谱显示,在乙醇溶液中木瓜蛋白酶的二级结构发生了变化。荧光发射光谱表明,木瓜蛋白酶在乙醇溶液中发射峰位几乎没移动,但发射强度明显增高。     

浙江蝮蛇蛇毒蛋白水解酶(蛋白酶a)的酶学性质及生物学活性研究

应用离子交换及凝胶柱层析,从浙江蝮蛇(Agkistrodon halys Pallas)蛇毒中分离纯化出一种具有酪蛋白水解活性的蛋白酶a。经研究表明,以酪蛋白为底物,该蛋白酶a作用的最适pH值为9.5,最适温度为45℃,Km值为1.33×10~(-5)mol/L,酶活性受EDTA抑制。蛋白酶a不水解TAME,BAEE等精氨酸脂。实验表明,蛋白酶a具有纤维蛋白溶解作用而无出血毒性,EDTA和半胱氨酸可抑制其纤溶活性。     

尼龙固定化木瓜蛋白酶及其应用研究

 尼龙经CaCl_2和H_2O的甲醇溶液处理,稀HCl水解用戊二醛交联以制备固定化木瓜蛋白酶。在溶液酶浓度为1mg/mL pH7.5—8.0、4—15℃条件下固定3h,活力回收42.5％,相对活力46％,偶联效率52％,半衰期72天。溶液酶Km值和固定化酶K_m~(aPP)值(底物酪蛋白W/V,％)分别为0.28％和0.35％。溶液酶和固定化酶分别在pH6.5和pH8.0以下活力稳定;最适pH分别为7.0和8.0;在65℃处理30min活力分别为原有活力的89％和66％。当酪蛋白浓度为1.5％和2.5％以上活力分别受到抑制。固定化酶在6mol/L脲中连续浸洗5次共6h其活力稳定,仍有原活力的44.4％;用以处理啤酒浊度比对照下降了2-11倍;蛋白质含量下降了55％;冷藏(4℃)120天,无冷混浊发生;同时各项理化指标和风味不变。     

木瓜凝乳蛋白酶、木瓜蛋白酶和木瓜蛋白酶Ⅲ的蛋白水解活性

番木瓜(Carica papaya)浆汁中含有三种蛋白酶——木瓜蛋白酶,木瓜疑乳蛋白酶和木瓜蛋白酶Ⅲ(以前称为肽酶)。本研究旨在确定木瓜凝乳蛋白酶和木瓜蛋白酶Ⅲ的蛋白水解活性在量和专一性方面是否与木瓜蛋白酶相同。在测试中用偶氮酪蛋白、血清清蛋白和软骨蛋白多糖作底物,精确比较标准酶制剂的水解蛋白活性;以清蛋白和磷酸化酶α作底物,比较它们的相对专一性;把蛋白质中的肽键与合成底物的水解动力学参数加以比较。     

纤维素固相化木瓜蛋白酶

 本文用叠氮法制备了纤维素固相化木瓜蛋白酶(简称CMCP)。与相应酶液水解酪蛋白的反应相比,它表现出较低的酶活性,较高的最适pH值和较高的稳定性。CMCP的比活回收率约为24％,最适pH值向碱性范围移动约为0.5个单位。CMCP经60℃热处理,持续3h活性无明显下降,在4℃下保存127天,活性只下降了40％左右。对这些参数,本文都根据CMCP的结构特点进行了分析。 CMCP柱还表现出明显的对啤酒的防浊能力。过柱的啤酒,氨基酸的含量大大增加。     

一种食源性溶栓酶的分离纯化与部分酶学性质的研究

目的对以豆渣为原料,接种纳豆菌的发酵物分离纯化和酶学性质研究。方法采用生理盐水浸提、(NH4)2SO4分级沉淀、Sephadex G-100凝胶层析等纯化步骤,得到层析纯的食源性溶栓酶-纳豆激酶,结果经聚丙烯酰胺凝胶电泳显示为二个组分。酶学性质研究表明,以酪蛋白为底物时,最适反应温度为60℃,最适反应pH为8.0,在pH7~9溶液中,37℃以下基本稳定。体外溶栓作用表明,纳豆激酶溶解纤维蛋白的方式主要是直接溶解,而不是纤溶酶原激活剂。     

产低温蛋白酶极地菌株的筛选及Pseudoalteromonas sp. QI-1产蛋白酶粗酶性质

通过酪蛋白平板法从实验室极地微生物资源库中筛选到130株在低温条件(4℃)下具有蛋白酶活性的菌株,并对部分酪蛋白水解圈较大的菌株进行了酶活测定和系统发育分析。发现酶活较高的8株菌分别属于假交替单胞菌属(Pseudoalteromonas)、科尔韦尔氏菌属(Colwellia)、希瓦氏菌属(Shewanella)、嗜冷杆菌属(Psychrobacter)。选择低温蛋白酶活性较高的菌株Pseudoalteromonas sp.QI-1为研究对象,以酪蛋白为反应底物对其所产低温蛋白酶粗酶酶性质进行初步研究。结果表明:QI-1低温蛋白酶酶活最适反应温度为40℃,在0℃时保持10%的相对酶活,酶活最适反应pH为10.0;其催化作用不需要金属离子的参与;热稳定性极差,在60℃放置15 min即完全失活。     

木瓜蛋白酶对某些食物蛋白的消化作用

本文就木瓜蛋白酶对某些食物蛋白的消化作用进行了比较系统的研究。选择的食物有瘦猪肉、瘦羊肉、瘦牛肉、花生、黄豆、红豆、绿豆和眉豆等。结果表明,该酶对大部分食物消化的最适pH在7.0附近,但对花生消化的最适PH是8.0,这可能与花生蛋白在碱性溶液中有较大溶解度有关。而木瓜蛋白酶对这些食物蛋白消化的最适温度均为75℃,高于文献报道的活性稳定温度。此外,还测定了酶,食物不同比例的最适消化时间和它对各食物的表观消化率,显示该酶对肉类蛋白具有很高的消化效果,而对植物蛋白则较差。     

酶切菌紫质C端引起的紫膜蛋白的发光性质变化

用木瓜蛋白酶切去bRC端尾巴约20—25个氨基酸之后发现:在KCl盐浓度作用下,其蛋白荧光光谱中的色氨酸荧光成份有明显的增强;用Cs~ 对bR蛋白荧光的猝灭实验表明此色氨酸荧光成份的增加是由于在KCl作用下bR中某些色氨酸残基暴露的结果;磷光光谱实验表明在KCl作用下色氨酸磷光的增加也是由于色氨酸残基暴露的结果。本文讨论了这种构象变化可能影响正常bR分子中菌蛋白光循环的进行,从而使质子泵效率降低;并且此构象变化可能与其C端尾巴的构象有关。     

菓菠萝蛋白酶的分子构象与活力变化的研究

发现CBZ-Lys·pNP能有效地被菓菠萝蛋白酶(Fruit Bromelain E.C.3.4.22.5)作用,测得Km为4.167×10~(-4)mol/L,k_(cat)为742min~(-1)。以荧光和紫外差示光谱为监测手段,对酶分子构象变化进行研究。酶的荧光强度随胍浓度增大而逐渐下降,4mol/L胍变性时,发射峰自332nm红移到353nm,并在310nm处出现新的发射峰。酶的荧光强度都因SDS存在而下降,SDS浓度大于3.47mmol/L有所回升,并出现红移,同时在315nm处出现新的发射肩;紫外差示光谱显示在236nm有一个较显著的员峰,此峰与β-螺旋结构变化有关,278、286和295nm出现三个负峰,260nm有较小正峰,说明酶分子中Tyr、Trp和Phe的微环境发生了明显的变化。测定酶在不同浓度胍和SDS中的变性和失活速度常数,对酶构象变化及催化活力的关系作了比较研究,酶的失活速度均大于变性速度。     

Effect of methanol on the activity and conformation of acid phosphatase from the prawn Penaeus penicillatus

Prawn (Penaeus penicillatus) acid phosphatase (EC 3.1.3.2) catalyzes the nonspecific hydrolysis of phosphate monoesters. The effects of some pollutants in sea water on the enzyme activity results in the loss of the biological function of the enzyme, which leads to disruption of phosphate metabolism in cells. This paper analyzes the effects of methanol on the activity and conformation of prawn acid phosphatase. The results show that low concentrations of methanol can lead to reversible inactivation. Inhibition of the enzyme by methanol is classified as non-competitive inhibition, and the inhibition constant (Ki) is 8.5%. Conformational changes of the enzyme molecule in methanol solutions of different concentrations were measured using fluorescence emission, differential UV-absorption, and circular dichroism spectra. Increased methanol concentrations caused the fluorescence emission intensity of the enzyme to increase. The ultraviolet difference spectra of the enzyme denatured with methanol had two negative peaks, at 222 and 270 nm, and a positive peak at 236 nm. The changes in the fluorescence and ultraviolet difference spectra reflected the changes of the microenvironments of tryptophan and tyrosine residues of the enzyme. The CD spectrum changes of the enzyme show that the secondary structure of the enzyme also changed some. These results suggest that methanol is a non-competitive inhibitor and the conformational integrity of the enzyme is essential for its activity.     

有机溶剂对缢蛏碱性磷酸酯酶分子构象和催化活力的影响

本文初步研究了三种有机溶剂甲醇、二甲基甲酰胺、二氧六环对缢蛏碱性磷酸酯酶(ALP)分子构象和催化活力的影响。发现在有机溶剂作用下,ALP的荧光发射光谱、紫外差光谱、园二色光谱都发生了显著的变化,而酶经甲醇、二甲基甲酰胺预处理后酶活力提高,经二氧六环预处理后活力下降,但当测活体系中有三种有机溶剂存在时,酶的活力却被大大抑制。     

Investigation of the structure and proteolytic activity of papain in aqueous miscible organic media

The stability of papain was studied in aqueous-organic mixtures by means of residual proteolytic activity along with various spectroscopic analyses (fluorescence and ATR-FTIR combined with isotopic exchange with D₂O). The investigated systems contained 1 or 10% (v/v) of an aqueous buffered solution (pH 8.0) in acetonitrile (ACN), methanol (MeOH) or dimethyl formamide (DMF). The results evidenced that papain retained almost all its catalytic activity after 24 h of incubation in the presence of ACN, and a more compact conformation of the enzyme was detected. Papain suffered an important loss of enzymatic activity (ca. 80%) after 24 h incubation in MeOH although, no global conformational change and minor secondary structure rearrangements were detected. This observation suggests that somehow the active site region was altered. On the other hand, papain suffered a complete inactivation when exposed to those media containing DMF. Fluorescence analyses revealed that an irreversible conformational change took place after 24 h incubation, and a moderate increase in β-sheet and β-turn structures was the most relevant finding when secondary structure was analyzed. The evidences demonstrated that the organic solvents induce a more rigid and compact structure of papain regardless of the organic:buffer ratio investigated. In turn, these modifications affect the active catalytic site in the particular case of MeOH and DMF. These findings were in agreement with the thermo-stability of the enzyme performed after heating at 353 K in all the studied media, that is the presence of ACN did not substantially affect the secondary structure of papain. Nevertheless, the α-helix domain demonstrated to be less thermally stable than the β-sheet domain, turning into aggregated structures after heating, especially in the presence of MeOH and DMF.     

高分子膜载体固定化木瓜蛋白酶

在浸润条件下,以0.5%(v/v)戊二醛交联的高分子膜尼龙载体固定化木瓜蛋白酶。对固定化条件进行了优化,比较了固定化酶与游离酶的酶学参数。结果表明,4℃、pH6.0条件下,将膜载体浸润于2mg/mL酶液中5h,固定化酶活为303.4U/g。固定化酶最适反应pH为6.0～7.0,最适反应温度为65℃。其pH稳定性、热稳定性均比游离酶高。     

纤维素酶在二甲基亚砜微扰条件下的动力学行为和光谱学变化

为了探索二甲基亚砜对纤维素酶催化活性的影响,以羧甲基纤维素钠(CMC)为底物来研究纤维素酶纯酶在二甲基亚砜中的动力学变化、紫外吸收光谱、紫外差示光谱和荧光发射光谱。实验表明:在3%的二甲基亚砜中,纤维素酶的催化活性下降了46.78%;其Km值从缓冲液中的2.500 mg/mL上升到二甲基亚砜中的3.922 mg/mL;在二甲基亚砜中,酶分子的肽键紫外吸收稍有改变,但其氨基酸基团的紫外吸收没有改变;其紫外差示光谱出现明显的正峰和负峰;其荧光发射光谱没有改变。研究结果证明:二甲基亚砜通过轻微改变酶分子的肽链结构,使分子构象改变,导致酶分子对底物的亲和力下降,从而降低其催化活性。     

Unfolding and inactivation of Ampullarium crossean beta-glucosidase during denaturation by guanidine hydrochloride

Changes of activity and conformation of Ampullarium crossean beta-glucosidase in different concentrations of guanidine hydrochloride (GuHCl) have been studied by measuring the fluorescence spectra and its relative activity after denaturation. The fluorescence intensity of the enzyme decreased distinctly with increasing guanidine concentrations, the emission peaks appeared red shifted (from 338.4 to 350.8 nm), whereas a new fluorescence emission peak appeared near 310 nm. Changes in the conformation and catalytic activity of the enzyme were compared. A corresponding rapid decrease in catalytic activity of the enzyme was also observed. The extent of inactivation was greater than that of conformational changes, indicating that the active site of the enzyme is more flexible than the whole enzyme molecule. k(+0)>k(+0)' also showed that the enzyme was protected by substrate to a certain extent during guanidine denaturation.     

Systematic investigation of interactions between papain and MPA-capped CdTe quantum dots

Fluorescent quantum dots (QDs) have been widely applied in biological and biomedical areas, but relatively little is known about the interaction of QDs with some natural enzymes. Herein, the interactions between 3-mercaptopropionic acid-capped CdTe QDs (MPA-QDs) and papain were systematically investigated by UV–Vis absorption spectra, fluorescence spectra and circular dichroism (CD) spectra under the physiological conditions. The fluorescence spectra results indicated that MPA-QDs quenched the fluorescence intensity of papain. The modified Stern–Volmer quenching constant K _a at different temperatures and the corresponding thermodynamic parameters ΔH, ΔG and ΔS were also calculated. The binding of MPA-QDs and papain is a result of the formation of QDs-papain complex and the electrostatic interactions play a major role in stabilizing the complex. The CD technique was further used to analyze the conformational changes of papain induced by MPA-QDs and the results indicated that the biological activity of papain was affected by MPA-QDs dramatically.