Hüglin D, Seiffert W, Zimmermann H W
Histochemistry. 1986;86(1):71-82. doi: 10.1007/BF00492348.
The binding of azur B to chondroitin sulfate (CHS) was investigated using absorption spectroscopy. In aqueous solutions it is possible to distinguish three different dye species with absorption bands at 646, 597, and 555 nm. They are assigned to monomers, dimers, and higher aggregates of azure B, which become bound to CHS as the dye concentration (CD) increases. The short-wavelength band (555 nm) causes metachromasia in stained histological materials. When saturation occurs, the metachromatic azure B-CHS complex has a 1:1 composition, i.e., each anionic SO-4 and COO(-)-binding site of CHS binds one dye cation. The composition of the saturated metachromatic complex was determined by spectrophotometric and conductometric titration of CHS with azure B, while the SO-4 and COO- content of CHS was determined by conductometric titration of CHS-acid with NaOH. The binding isotherm of azure B to CHS was determined using gelpermeation chromatography. The isotherm can be described by the model of cooperative binding of ligands to linear biopolymers. We found good agreement between theoretical predictions and experimental findings in the range of 0 less than r less than 0.8 (r = the fraction of occupied binding sites). Using a Schwarz plot, we determined the binding constants of nucleation (Kn = 2.5 X 10(3) M-1) and aggregation (Kq = 1.2 X 10(5) M-1), as well as the cooperativity parameter (q = 50), T = 295 K. With increasing CD, the strong cooperativity of the dye binding favors the formation of metachromatic aggregates rather than monomers and dimers. From the temperature dependence of Kq we evaluated the standard binding enthalpy (delta Hoq = -20.0 kJ mol-1) and entropy (delta Soq = 29.7 JK-1 mol-1) of the cooperative dye binding. The binding was found to be strongly exothermic and accompanied by a thermodynamically favorable entropy increase, this being typical of hydrophobic interactions. Solid azure B-CHS complexes were prepared according to a special dialytic technique and were studied using a microspectrophotometer equipped with a polarizer and an analyzer. The metachromatic 1:1 complex has a broad, intense absorption band whose main peak occurs at 560 nm. This corresponds with the maximum of the metachromatic dye complex in aqueous solution, i.e. 555 nm. The CHS chains of the azure B-CHS complex can be mechanically aligned in a preferred direction (k). We were able to prepare excellently orientated and very fine dye-CHS films which were birefringent and dichroic - the more birefringent, the better the mechanical orientation.(ABSTRACT TRUNCATED AT 400 WORDS)
采用吸收光谱法研究了天青B与硫酸软骨素(CHS)的结合情况。在水溶液中,可以区分出三种不同的染料物种,其吸收带分别位于646、597和555 nm处。它们分别对应天青B的单体、二聚体和更高聚集体,随着染料浓度(CD)的增加,这些聚集体会与CHS结合。短波长带(555 nm)会使染色的组织学材料产生异染性。当达到饱和时,异染性天青B-CHS复合物的组成是1:1,即CHS的每个阴离子SO-4和COO(-)结合位点结合一个染料阳离子。通过用天青B对CHS进行分光光度滴定和电导滴定来确定饱和异染性复合物的组成,而CHS的SO-4和COO-含量则通过用NaOH对CHS-酸进行电导滴定来确定。使用凝胶渗透色谱法测定了天青B与CHS的结合等温线。该等温线可以用配体与线性生物聚合物协同结合的模型来描述。我们发现在0小于r小于0.8的范围内(r = 被占据结合位点的分数),理论预测与实验结果吻合良好。使用施瓦茨图,我们确定了成核结合常数(Kn = 2.5×10(3) M-1)和聚集结合常数(Kq = 1.2×10(5) M-1)以及协同参数(q = 50),T = 295 K。随着CD的增加,染料结合的强协同性有利于形成异染性聚集体而非单体和二聚体。根据Kq的温度依赖性,我们评估了协同染料结合的标准结合焓(ΔHoq = -20.0 kJ mol-1)和熵(ΔSoq = 29.7 JK-1 mol-1)。发现这种结合是强烈放热的,并且伴随着热力学上有利的熵增加,这是疏水相互作用的典型特征。根据一种特殊的透析技术制备了固态天青B-CHS复合物,并使用配备有偏振器和分析器的显微分光光度计对其进行了研究。异染性1:1复合物有一个宽而强的吸收带,其主峰出现在560 nm处。这与水溶液中异染性染料复合物的最大值相对应,即555 nm。天青B-CHS复合物的CHS链可以在一个优选方向(k)上机械排列。我们能够制备出取向极佳且非常精细的染料-CHS薄膜,这些薄膜具有双折射和二色性——双折射越强,机械取向越好。(摘要截断于400字)
