Roberto Favilla , Matteo Goldoni , Fabio Del Signore , Paolo Di Muro , Benedetto Salvato , Mariano Beltramini
{"title":"Guanidinium chloride induced unfolding of a hemocyanin subunit from Carcinus aestuarii","authors":"Roberto Favilla , Matteo Goldoni , Fabio Del Signore , Paolo Di Muro , Benedetto Salvato , Mariano Beltramini","doi":"10.1016/S0167-4838(02)00279-0","DOIUrl":null,"url":null,"abstract":"<div><p>The effects of guanidinium hydrochloride (GuHCl) on the functional and structural properties of a 75-kDa, functionally active hemocyanin (Hc) subunit isolated from the crab <em>Carcinus aestuarii</em> (holo-<em>Cae</em>SS2) were investigated. The holo form of the protein contains two copper ions in the active site and is capable of reversibly binding dioxygen. The present results are compared with those previously described for the corresponding functionally inactive subunit (apo-<em>Cae</em>SS2), devoid of the two active site copper ions (accompanying paper [R. Favilla, M. Goldoni, A. Mazzini, M. Beltramini, P. Di Muro, B. Salvato, paper published in this issue]). As with apo-<em>Cae</em>SS2, both equilibrium and kinetic unfolding measurements were carried out using light scattering (LS), circular dichroism, intrinsic and extrinsic fluorescence (IF and EF, respectively). In addition here, absorbance spectroscopy was exploited to evaluate oxygen binding by holo-<em>Cae</em>SS2. These data were combined with those relative to the protein copper content to obtain information on the stability of the active site as a function of denaturant concentration. The different techniques used revealed several unfolding transitions. At GuHCl<1 M, an appreciable increase of LS intensity was observed, about an order of magnitude lower than with apo-<em>Cae</em>SS2, suggesting some reversible protein aggregation. A first cooperative transition as a function of GuHCl was detected as an increase of intensity of the protein IF (<em>C</em><sub>1/2</sub>=1 M), followed by a second transition, characterised by a small intensity decrease and a red shift of the emission maximum (<em>C</em><sub>1/2</sub>=1.4 M). Cooperative transitions with <em>C</em><sub>1/2</sub> values near 1.4 M GuHCl were also detected by following the decrement of: (a) EF intensity of anilino-1-naphtalenesulphonate (ANS) bound to the protein; (b) absorbance at 340 nm, typical of oxy holo-<em>Cae</em>SS2; (c) copper-to-protein stoichiometry. A transition at higher GuHCl (<em>C</em><sub>1/2</sub>=1.8 M) was also observed by far UV circular dichroism (far UV CD) and related to global unfolding. Unfolding kinetics was also studied using the fluorescence stopped-flow technique. All traces were best fitted by a sum of three or four exponential terms, depending on GuHCl concentration. A comprehensive unfolding model is proposed, which accounts for most of the complex behaviour of this protein subunit, including oxy and deoxy native and aggregation-prone intermediates, a highly fluorescent intermediate, molten globule-like apo and unfolded species.</p></div>","PeriodicalId":100166,"journal":{"name":"Biochimica et Biophysica Acta (BBA) - Protein Structure and Molecular Enzymology","volume":"1597 1","pages":"Pages 51-59"},"PeriodicalIF":0.0000,"publicationDate":"2002-05-20","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://sci-hub-pdf.com/10.1016/S0167-4838(02)00279-0","citationCount":"7","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Biochimica et Biophysica Acta (BBA) - Protein Structure and Molecular Enzymology","FirstCategoryId":"1085","ListUrlMain":"https://www.sciencedirect.com/science/article/pii/S0167483802002790","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}
引用次数: 7
Abstract
The effects of guanidinium hydrochloride (GuHCl) on the functional and structural properties of a 75-kDa, functionally active hemocyanin (Hc) subunit isolated from the crab Carcinus aestuarii (holo-CaeSS2) were investigated. The holo form of the protein contains two copper ions in the active site and is capable of reversibly binding dioxygen. The present results are compared with those previously described for the corresponding functionally inactive subunit (apo-CaeSS2), devoid of the two active site copper ions (accompanying paper [R. Favilla, M. Goldoni, A. Mazzini, M. Beltramini, P. Di Muro, B. Salvato, paper published in this issue]). As with apo-CaeSS2, both equilibrium and kinetic unfolding measurements were carried out using light scattering (LS), circular dichroism, intrinsic and extrinsic fluorescence (IF and EF, respectively). In addition here, absorbance spectroscopy was exploited to evaluate oxygen binding by holo-CaeSS2. These data were combined with those relative to the protein copper content to obtain information on the stability of the active site as a function of denaturant concentration. The different techniques used revealed several unfolding transitions. At GuHCl<1 M, an appreciable increase of LS intensity was observed, about an order of magnitude lower than with apo-CaeSS2, suggesting some reversible protein aggregation. A first cooperative transition as a function of GuHCl was detected as an increase of intensity of the protein IF (C1/2=1 M), followed by a second transition, characterised by a small intensity decrease and a red shift of the emission maximum (C1/2=1.4 M). Cooperative transitions with C1/2 values near 1.4 M GuHCl were also detected by following the decrement of: (a) EF intensity of anilino-1-naphtalenesulphonate (ANS) bound to the protein; (b) absorbance at 340 nm, typical of oxy holo-CaeSS2; (c) copper-to-protein stoichiometry. A transition at higher GuHCl (C1/2=1.8 M) was also observed by far UV circular dichroism (far UV CD) and related to global unfolding. Unfolding kinetics was also studied using the fluorescence stopped-flow technique. All traces were best fitted by a sum of three or four exponential terms, depending on GuHCl concentration. A comprehensive unfolding model is proposed, which accounts for most of the complex behaviour of this protein subunit, including oxy and deoxy native and aggregation-prone intermediates, a highly fluorescent intermediate, molten globule-like apo and unfolded species.
研究了盐酸胍(GuHCl)对aestuarii蟹(holo-CaeSS2)中一个75 kda的功能活性血青素(Hc)亚基的功能和结构性质的影响。该蛋白的全息形式在活性位点含有两个铜离子,并且能够可逆地结合双氧。目前的结果与先前描述的相应的功能非活性亚基(apo-CaeSS2)进行了比较,缺乏两个活性位点铜离子(随附论文[R。Favilla, M. Goldoni, A. Mazzini, M. Beltramini, P. Di Muro, B. Salvato,论文发表在本期杂志上])。与apo-CaeSS2一样,利用光散射(LS)、圆二色性、内在荧光和外在荧光(分别为IF和EF)进行平衡和动力学展开测量。此外,本文还利用吸光度法评价了holo-CaeSS2的氧结合。这些数据与蛋白质铜含量的相关数据相结合,以获得活性位点稳定性作为变性剂浓度函数的信息。使用的不同技术揭示了几种展开转换。在GuHCl<1 M时,观察到LS强度明显增加,比载脂蛋白caess2低一个数量级,表明存在可逆的蛋白质聚集。作为GuHCl函数的第一次合作跃迁是蛋白质IF强度的增加(C1/2=1 M),随后是第二次合作跃迁,其特征是强度的小降低和最大发射量的红移(C1/2=1.4 M)。与蛋白质结合的苯胺-1-萘磺酸盐(ANS)的EF强度降低,也检测到C1/2值接近1.4 M的GuHCl的合作跃迁:(b) 340 nm处吸光度,典型的氧holo-CaeSS2;(c)铜与蛋白质的化学计量学。远紫外圆二色性(远紫外CD)也观察到高GuHCl (C1/2=1.8 M)下的转变,并与全局展开有关。利用荧光停流技术研究了展开动力学。根据GuHCl浓度的不同,所有的痕量最适合用三到四个指数项的总和来拟合。提出了一个全面的展开模型,该模型解释了该蛋白质亚基的大部分复杂行为,包括氧和脱氧原生和易聚集的中间体,高荧光中间体,熔融球状载脂蛋白和未折叠的物种。