缢蛏碱性磷酸酶胍溶液中分子折叠与活力变化研究

报道了缢蛏碱性磷酸酶（简称ＡＬＰ）经不同浓度盐酸胍处理时酶的分子构象发生的变化以及酶变化和失活的动力学过程。在胍中酶荧光发谢峰强度下降,紫外差光谱在２４６ｎｍ和２８５ｎｍ处出现２个负峰,ＣＤ谱中酶的α螺旋度下降,且随浓度增大,变化程度也加大。动力学研究表明,酶在０．５ｍｏｌ／Ｌ、１．０ｍｏｌ／Ｌ、２．０ｍｏｌ／Ｌ、３．０ｍｏｌ／Ｌ、４．０ｍｏｌ／Ｌ盐酸胍中的变性速度常数分别为３．２１×１０＾－４ｓ     

盐酸胍对人类胎盘碱性磷酸酶构象与活力的影响

研究人类胎盘碱性磷酸酶（ＰＬＡＰ,Ｅ．Ｃ．３．１．３．１）在胍变性过程中构象与活力的变化;测定胍存在时酶的表观米氏常数（Ｋｍ）。结果表明,低浓度的盐酸胍（＜０．５ｍｏｌ／Ｌ）使变性平衡态酶的发射荧光强度略有下降,酶活力增强;随盐酸胍浓度的增加,其荧光强度不仅不再下降,反而升高,酶逐渐失活;当盐酸胍浓度为１．５ｍｏｌ／Ｌ时,其荧光光谱的最大峰位红移,酶活力迅速下降;当盐酸胍浓度为３ｍｏｌ／Ｌ时,峰位由３３３．５ｎｍ红移至３５７．１ｎｍ,此时酶活力丧失;当盐酸胍浓度为４ｍｏｌ／Ｌ时,峰位不再红移,但其荧光强度继续增加。测得变性初态酶的表观Ｋｍ值随盐酸胍浓度的增加而增大。结果说明,荧光强度的增加和最大发射峰位的红移是该酶变性失活的一个灵敏指标;酶活力的变化明显快于酶分子整体构象的变化;低浓度的盐酸胍微扰了酶活性部位的构象,而对其整体构象无显著影响。提示酶活性部位具有柔性。     

溶剂极性及盐酸胍对碳酸酐酶构象的影响

以紫外荧光光谱为检测手段,比较研究了溶剂极性及盐酸胍对碳酸酐酶构象的影响,结果表明,当盐酸胍浓度小于１ｍｏｌ／Ｌ时酶呈天然构象,１．５ｍｏｌ／Ｌ－２．０ｍｏｌ／Ｌ的盐酸胍导致该酶呈伸展构象;而乙醇不以导致该酶产生稳定的中间态构象,１ｍｏｌ／Ｌ和３ｍｏｌ／Ｌ的甲醇以及３ｍｏｌ／Ｌ的乙醇对盐酸胍致碳酸酐酶中间态的影响不大,甲醇略使致中间态的盐酸胍浓度下降,乙醇略使之上升。     

无花果蛋白酶在胍溶液中的分子折叠与活力变化研究

本文研究无花果蛋白酶（ＥＣ．３．４．４．１２）在不同浓度盐酸胍溶液中分子构象与活力变化关系。酶的内源荧光光谱,圆二色光谱与酶活力的变化表明：荧光光谱呈现二个明显的变化区域,低浓度胍（低于２ｍｏｌ／Ｌ）中,荧光发射峰基本不变,但荧光强度随胍浓度上升,随胍浓度断续增大（高于２ｍｏｌ／Ｌ）,酶的最大发射波长明显红移。当胍浓度低于１ｍｏｌ／Ｌ时,不仅不会使酶失活,反而使酶激活,当胍浓度高于１ｍｏｌ／Ｌ以上时,酶逐渐失活,使酶完全失活的胍浓度为６ｍｏｌ／Ｌ酶的圆二色光谱也随着胍浓度的改变而发生复杂的变化。将荧光变化,ＣＤ谱变化及活力改变结合起来,表明活力的激活与构象的明显变化似是同步发生的,从另一角度进一步说明酶活性部位柔性是充分表现酶活力所必需。     

无花果蛋白酶在胍溶液中的分子折叠与活力变化研究

本文研究无花果蛋白酶（ＥＣ．３．４．４．１２）在不同浓度盐酸胍溶液中分子构象与活力变化关系。酶的内源荧光光谱,圆二色光谱与酶活力的变化表明：荧光光谱呈现二个明显的变化区域,低浓度胍（低于２ｍｏｌ／Ｌ）中,荧光发射峰基本不变,但荧光强度随胍浓度上升,随胍浓度断续增大（高于２ｍｏｌ／Ｌ）,酶的最大发射波长明显红移。当胍浓度低于１ｍｏｌ／Ｌ时,不仅不会使酶失活,反而使酶激活,当胍浓度高于１ｍｏｌ／Ｌ以上     

钙调神经磷酸酶在胍变性过程中活力及构象变化的比较

钙调神经磷酸酶（ＣａＮ）在盐酸胍溶液中的内源荧光、远紫外ＣＤ谱及剩余活力的变化提示：ＣａＮ的酶活力在胍浓度为０．５ｍｏｌ／Ｌ左右可完全丧失,同时伴有内源荧光强度的下降,３３３ｎｍ最大发射峰的红移（提示了色氨酸和酪氨酸残基的暴露）。比较不同胍浓度下牛脑ＣａＮ的失活与整体构象变化,表明酶的失活先于整体构象变化。在０．６ｍｏｌ／Ｌ胍溶液中,内源荧光变化的动力学过程只能测出一相,而酶失活的动力学过程为快、慢两相,快相动力学速度常数比整体构象变化速度常数大１－２个数量级,慢相失活速度常数与整体构象变化速度常数相近。提示低浓度胍可引起该酶的完全失活,活性部位的空间构象比整个酶分子的构象更易受到变性剂的扰乱。     

丹皮酚对心肌细胞自律性和延迟后除极的影响

目的与方法：采用常规玻璃微电极技术研究丹皮酚对离体心肌细胞自律性（ＡＭ）、延迟后除极（ＤＡＤ） 及触发活动（ＴＡ）的影响。结果：１．８×１０－４ｍｏｌ／Ｌ丹皮酚灌流组,肾上腺素（Ａｄｒ）的阈浓度空白对照组为（１．２８±０．５７）μｍｏｌ／Ｌ,药后为（１．５６±０．５３）μｍｏｌ／Ｌ（ｎ＝９,Ｐ＞０．０５）;用（１．８×１０－ ３） ｍｏｌ／Ｌ丹皮酚（Ｐａｅ）灌流组,Ａｄｒ 浓度由空白对照组的（１．２２ ±０．６２）μｍｏｌ／Ｌ升高到（６．２２±２．１１）μｍｏｌ／Ｌ（ｎ＝９,Ｐ＜０．０１）。１．８×１０－３ｍｏｌ／Ｌ的Ｐａｅ 能明显抑制哇巴因（Ｏｕａ）诱发的ＤＡＤ的幅值,当基本刺激周长为５００,４００,３００ 和２００ ｍｓ 时,其ＤＡＤ幅值从（５．５±２．０）ｍＶ,（７．３±２．１）ｍＶ,（８．０ ±２．４）ｍＶ和（９．２±１．９）ｍＶ减小到（３．０±１．１）ｍＶ、（３．６±１．７）ｍＶ,（４．３±２．０） ｍＶ和（５．９ ±１．６） ｍＶ,Ｐ＜０．０１。当基本刺激周长为２００ ｍｓ时,ＴＡ 数目由５．５±１．０ 降至０．７±０．３（Ｐ＜０．０１）。结论：丹皮酚能抑制心肌细胞ＡＭ、ＤＡＤ及ＴＡ,具有抗心律失常作用     

慈菇（Sagittaria safittifolia）α－半乳糖苷酶的纯化与性质

以对硝基苯糖苷基为底物,测定了慈菇的１２种糖苷酶,其中α－甘露糖苷酶、α－和β－半乳糖苷酶活力较高;经硫酸铵分级沉淀,ＳｅｐｈａｄｅｘＧ－１５０分子筛层析,ＣｏｎＡＳｅｐｈａｒｏｓｅ４Ｂ亲和层析,ＤＥＡＥ－ＳｅｐｈａｒｏｓｅＣＬ－６Ｂ离子交换层析,从慈菇抽提液纯化了α－半乳糖苷酶。纯化酶的比活提高１０７２倍,活力回收１５．６％,在圆盘聚丙烯酰胺凝胶电泳和ＳＤＳ－ＰＡＧＥ上均显示１条蛋白质带,在α－半乳糖苷酶浓度为１５０ｍＵ／ｍｌ的溶液中测不到其他糖苷酶的活力。慈菇α－半乳糖苷酶的分子量用ＳｅｐｈａｄｅｘＧ－１００凝胶过滤柱测定或在ＳＤＳ－ＰＡＧＥ上测定均为６０ｋＤ,酶反应的最适ｐＨ在５．８附近,最适温度为６０℃。该酶分解对硝基苯基－α－半乳糖苷的Ｋ＿ｍ值为３．７×１０￣（－４）ｍｏｌ／Ｌ,Ｖ＿ｍ值为２．１×１０￣（－４）ｍｏｌ／Ｌ。银离子、汞离子显著抑制酶活力,Ｄ－半乳糖和密二糖均竞争性地抑制该酶水解对硝基苯基α－Ｄ－半乳糖苷的活力,根据Ｄｉｘｏｎ作图求得其Ｋ＿ｉ值分别为０．９２×１０￣（－３）ｍｏｌ／Ｌ和１．９８×１０￣（－３）ｍｏｌ／Ｌ。２－脱氧－Ｄ－半乳糖和Ｌ－岩藻糖为酶活力的非竞争性抑制剂。化学修饰     

金黄色葡萄球菌核酸酶及其类似物盐酸胍变性的活力与构象变化的比较

金黄色葡萄球菌核酸酶（ＳｔａｐｈｌｏｃｏｃｃａｌＮｕｃｌｅａｓｅ,ＳＮａｓｅ）与其类似物（ＳＮａｓｅＲ）的平衡态盐酸胍变性与复性曲线及比活力值均无明显差别。两者变性与复性的构象变化是可逆的,但活力恢复滞后于失活。低浓度盐酸胍对ＳＮａｓｅＲ有２０％左右的激活,而低浓度（０．１２５ｍｏｌ／Ｌ）的ＮａＣｌ可使ＳＮａｓｅＲ的活力提高近一倍。ＳＮａｓｅＲ盐酸胍变性的失活先于构象变化。比较加入底物竞争抑制剂脱氧胸腺嘧啶核苷３＇－５＇－二磷酸（ｐｄＴｐ）后得到的（ＳＮａｓｅＲ＋ｐｄＴｐ＋Ｃａ２＋）三元络合物平衡态盐酸胍变性的Ｔｒｐ与Ｔｙｒ内源荧光的变化,观测到该酶的活性部位先于整体构象发生变化,结果导致ｐｄＴｐ解离常数Ｋｄ增大．     

金黄色葡萄球菌核酸酶及其类似物盐酸胍变性的活力与构象变化的比较

金黄色葡萄球菌核酸酶（ＳｔａｐｈｌｏｃｏｃｃａｌＮｕｃｌｅａｓｅ,ＳＮａｓｅ）与其类似物（ＳＮａｓｅＲ）的平衡态盐酸胍变性与复性曲线及比活力值均无明显差别。两者变性与复性的构象变化是可逆的,但活力恢复滞后于失活。低浓度盐酸胍对ＳＮａｓｅＲ有２０％左右的激活,而低浓度（０．１２５ｍｏｌ／Ｌ）的ＮａＣｌ可使ＳＮａｓｅＲ的活力提高近一倍。ＳＮａｓｅＲ盐酸胍变性的失活先于构象变化。比较加入底物竞争抑制剂脱氧胸腺嘧啶核苷３＇－５＇－二磷酸（ｐｄＴｐ）后得到的（ＳＮａｓｅＲ＋ｐｄＴｐ＋Ｃａ２＋）三元络合物平衡态盐酸胍变性的Ｔｒｐ与Ｔｙｒ内源荧光的变化,观测到该酶的活性部位先于整体构象发生变化,结果导致ｐｄＴｐ解离常数Ｋｄ增大．     

猪心乳酸脱氢酶(H_4)在盐酸胍变性过程中失活与内源荧光变化速度的比较

本文比较了大然乳酸脱氢酶和硫酸铵稳定的乳酸脱氢酶在盐酸胍性过程式中失活与内源荧光的变化速度.酶失活表现为三相反应,即极快相,其速度常数用停流装置也无法测定;快相和慢相,1M胍变性时,此二相的一级反应速度常数分别为2.7×10~(-3)秒~(-1)和4.17×10~(-4)秒~(-1).在2M硫酸铵存在条件下,用2M胍更性时,快相和慢相的一极反应速度常数分别为6.16×10~(-3)秒~(-1)和1.88×10~(-3)秒~(-1).内源荧光强度的变化表现为二相反应,即极快相,相当酶失活的极快相,但变化幅度远小于酶失活的变化幅度;快相,相当于酶失活的快相,其速度常数为失活速度常数的1/3倍.上述结果表明,类似肌酸激酶,乳酸脱氢酶的失活速度快于酶分子整体构象的变化,相对于整个酶分子来说,活性中心的构象变化对变性剂更加敏感.     

Inactivation Kinetics of Guanidinium Chloride on <Emphasis Type="Italic">Penaeus vannamei</Emphasis>β - <Emphasis Type="Italic">N</Emphasis>-Acetyl-D-Glucosaminidase and the Relationship of Enzyme Activity and its Conformation

The effects of guanidinium chloride (GuHCl) on the activity of Penaeus vannamei β-N-acetyl-d-glucosaminidase (NAGase) have been studied. The results show that GuHCl, at appropriate concentrations, can lead to reversible inactivation of the enzyme, and the IC₅₀ is estimated to be 0.6 M. Changes of activity and conformation of the enzyme in different concentrations of GuHCl have been studied by measuring the fluorescence spectra and its relative activity after denaturation. The fluorescence intensity of the enzyme decreases distinctly with increasing GuHCl concentrations, and the emission peaks appear red-shifted (from 339.4 to 360 nm). Changes in the conformation and catalytic activity of the enzyme are compared. The extent of inactivation is greater than that of conformational changes, indicating that the active site of the enzyme is more flexible than the whole enzyme molecule. The kinetics of inactivation has been studied using the kinetic method of the substrate reaction. The rate constants of inactivation have been determined. The value of k₊₀ is larger than that of k₊₀^′ which suggests that the enzyme is protected by substrate to a certain extent during guanidine denaturation.     

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。     

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.     

不同变性条件下肌酸激酶活力和构象变化的比较

以盐酸胍,十烷基硫酸钠和溴化十烷基三甲铵为变性剂,测定它们对肌酸激酶（ＣＫ）活力和构象之影响。结果发现：ＣＫ活力的丧失明显早于分子整体构象的变化;Ｃ１０Ｓ和Ｃ１０ＮＭ３对ＣＫ的变性有一定的饱和性;而ＧｕＨＣｌ对ＣＫ的变性则没有;溶液ＰＨ增加时,在一定范围内,ＧｕＨＣｌ,Ｃ１０Ｓ和Ｃ１０ＮＭ３对ＣＫ的变性能力都增加,在ＰＨ变化时,利用ＤＴＮＢ测定ＣＫ内埋巯基的暴露来反映构象的变化是成功的。     

Structural characteristics of extra-membrane domains and guanidine hydrochloride-induced denaturation of photosystem 2 core antenna complexes CP43 and CP47

The structural characteristics of the extra-membrane domains and guanidine hydrochloride-induced denaturation of photosystem 2 (PS2) core antenna complexes CP43 and CP47 were investigated using fluorescence emission and circular dichroism (CD) spectra. The extra-membrane domains of CP43 and CP47 possessed a certain degree of secondary and tertiary structure and not a complete random coil conformation. The tertiary structure and the chlorophyll (Chl) a microenvironment of CP47 were more sensitive to guanidine hydrochloride (GuHCl) than that of CP43. Changes in energy transfer from β-carotene to Chl a corresponded well to changes in the tertiary structure while their correlation with changes in the secondary structure was rather poor. Unlike most of water-soluble proteins, both CP43 and CP47 are partly resistant to denaturation induced by guanidine hydrochloride (GuHCl); the denaturation of CP43 or CP47 is not a two-state process. Those features most probably reflect their character as intrinsic membrane proteins.     

α-淀粉酶在盐酸胍和碳酸胍变性中有关胍基作用的研究

利用紫外差谱、荧光光谱和园二色谱法对比地研究了α-淀粉酶盐酸胍和碳酸胍变性,分析了两种胍变性明显差异的原因。通过等同的胍基浓度下,α-淀粉酶两种胍变性的构象变化与活性关系的实验,表明同等摩尔浓度的两种胍盐变性能力上的明显差异并不主要是由于它们胍基含量上的不同。将盐酸胍从中性pH(6.5)调至碱性pH(10.4),其变性能力大增,紫外差谱与碳酸胍变性相似,出现了290nm的正肩和296nm的正峰,与此同时,酶的荧光强度大大降低,大部分酶活性丧失。由此推论,两种胍变性能力的明显差异的重要原因之一是在碱性介质中胍基的变性能力明显增强,并分析了其增强的原因。     

Kinetic study of denaturation and subsequent reduction of disulfide bonds of lysozyme by the rapid ultrasonic absorption measurement

A New technique for the rapid measurement of ultrasonic absorption with a sampling interval of 5 msec has been developed and applied to the kinetic study of denaturation and subsequant redution of hen egg-white lysozyme. The lysozyme is denatured by guanidine hydrochloride (GuHCl) orLiBr, and afetr denaturation by GuHCl, its disulfide bonds are reduced by dithiothreitol (DTT). The ultrasonic adsorption coefficient at 9 MHz increases with denaturation but decreases with reduction. The rate constant of denaturation by GuHCl obtained from the rime variance of ultasonic agrees well with that from uv absorption and optical rotation. The time variance if absorption after GuHCl and Dtt have been simultaneously added exhibits two rate constants. Analysis of the constants as functions of regeant concentrations indicates that the intermediates state between native and reduced states is not necessarily the completely denatured state but depends on the concentartions of GuHCl and DTT.     

精胺和Mg~（2＋）对tRNA~（Ile）圆二向色谱的影响

由于精胺（ｓｐｅｒｍｉｎｅ）能特异地刺激哺乳动物ｔＲＮＡ~（Ｉｌｅ）的氨基酰化,本文用纯化的牛肝ｔＲＮＡ~（Ｉｌｅ）观察了精胺和Ｍｇ（２＋）对ｔＲＮＡ~（Ｉｌｅ）ＣＤ光谱的影响。结果显示：Ｍｇ（２＋）可使牛肝ｔＲＮＡ~（Ｉｌｅ）ＣＤ光谱峰向短波方向偏移２ｎｍ,波峰为２６３ｎｍ,峰值被增大约１０％,ΔθＭｇ（２＋）＝２．３×１０３ｄｅｇ·ｃｍ２／ｄｍｏｌ;而精胺使牛肝ｔＲＮＡ~（Ｉｌｅ）ＣＤ光谱峰减少４０％,Δθｓｐｅｒｍｉｎｅ＝１×１０（－４）ｄｅｇ·ｃｍ２／ｄｍｏｌ;精胺和Ｍｇ（２＋）对肝ｔＲＮＡ~（Ｉｌｅ）－ＩｌｅＲＳ复合物或ＩｌｅＲＳ的ＣＤ光谱基本无影响。表明Ｍｇ（２＋）和精胺可影响牛肝ｔＲＮＡ~（Ｉｌｅ）的构象。实验同时以酵母ｔＲＮＡ（Ｐｈｅ）和Ｅ·ｃｏｌｉｔＲＮＡ~（Ｉｌｅ）作为对照。     

Conformational and activity changes during guanidine denaturation of D-glyceraldehyde-3-phosphate dehydrogenase

Changes in intrinsic protein fluorescence of lobster muscle D-glyceraldehyde-3-phosphate dehydrogenase (D-glyceraldehyde-3-phosphate: NAD+ oxidoreductase (phosphorylating), EC 1.2.1.12) have been compared with inactivation of the enzyme during denaturation in guanidine solutions. The holoenzyme is completely inactivated at guanidine concentrations less than 0.5 M and this is accompanied by a red shift of the emission maximum at 335 nm and a marked decrease in intensity of the intrinsic fluorescence. At 0.5 M guanidine, the inactivation is a slow process, with a first-order rate constant of 2.4 X 10(-3) s-1. A further red shift in the emission maximum and a decrease in intensity occur at guanidine concentrations higher than 1.5 M. The emission peak at 410 nm of the fluorescent NAD derivative introduced at the active site of this enzyme (Tsou, C.L. et al. (1983) Biochem. Soc. Trans. 11, 425-429) shows both a red shift and a marked decrease in intensity at the same guanidine concentration required to bring about the inactivation and the initial changes in the intrinsic fluorescence of the holoenzyme. It appears that treatment by low guanidine concentrations leads to both complete inactivation and perturbation of the active site conformation and that a tryptophan residue is situated at or near the active site.