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红外光谱分析木质素在漆酶酶法改性中的反应性
引用本文:邱卫华,陈洪章.红外光谱分析木质素在漆酶酶法改性中的反应性[J].光谱学与光谱分析,2008,28(7):1501-1505.
作者姓名:邱卫华  陈洪章
作者单位:中国科学院过程工程研究所生化工程国家重点实验室,北京,100190
基金项目:国家重点基础研究发展计划(973计划)
摘    要:随着非水酶学的发展,木质素的酶法催化改性得到日益广泛的运用。文章主要考察了漆酶酶法改性反相微乳液体系中云杉碱木质素、乙醇水溶液中乙醇木质素、缓冲液体系中木质素磺酸盐、以及碱溶液中汽爆麦草碱木质素的反应。通过红外光谱对各反应体系中,漆酶催化改性后的木质素结构特点进行分析,结合凝胶色谱法考察木质素的分子量及其分布,结果表明经过YY-5漆酶处理后各种木质素的分子量分布均趋向于高分子区域,且分子量分散性降低,各种木质素的红外光谱结构也发生了明显的变化。初步确定了木质素在漆酶催化改性中存在的反应位点,主要是酚羟基、苯环侧链取代基、羰基等。在四种木质素中,漆酶对碱木质素的改性反应性要高于其他类型的木质素,这可能与碱性溶液体系中漆酶的活性较高有关。

关 键 词:漆酶  木质素反应性  酶法改性  红外光谱结构  分子量及其分散性

FTIR Spectra Analysis of the Reactive Activity of Lignin When Modified by Laccase
QIU Wei-hua,CHEN Hong-zhang.FTIR Spectra Analysis of the Reactive Activity of Lignin When Modified by Laccase[J].Spectroscopy and Spectral Analysis,2008,28(7):1501-1505.
Authors:QIU Wei-hua  CHEN Hong-zhang
Institution:State Key Laboratory of Biochemical Engineering, Institute of Process Engineering, Chinese Academy of Sciences, Beijing 100190, China.
Abstract:In company with the development of nonaqueous enzymology, the enzymatic modification of lignin has gained increasing interests, especially in the synthesis of high molecular material. In the present article, the enzymatic modification of spruce alkali lignin in cetyltrimethylammonium bromide (CTAB) reversed micelles (100 mmol x L(-1) 1, pH 6.0, W/O = 40), alcohol lignin in ethanol solution (50%), lignin sulphonate in sodium phosphate buffer (pH 5.8, 20 mmol x L(-1)) and steam-explosion wheat straw alkali lignin in alkaline solution (pH 10.0, 20 mmol x L(-1) NaOH) by mycelia sterilia YY-5 laccase was studied. Laccase was isolated from Mycelia Sterilia YY-5 (CGMCC-1462) which was an entophytic fungus of Rhus Chinensis Mill. FTIR spectrum was used to assay the structure of lignins and gel permeation chromatography (GPC) was used to determine the molecular weight and molecular weight polydispersity of lignins. Bands of lignin in FTIR spectra of all lignins changed obviously after treated with YY-5 laccase, which indicated that some bond breakage or rearrangement occurred to lignin. The shift of non-conjugated C=O and conjugated carbonyl groups (alpha-carbonyl groups) stretching vibration, the decrease of phenol hydroxyl stretching vibration and the increase of C--O--C stretching vibration of ester bond proved that phenolic hydroxyl, carbonyl group and side chain substituent all might participate in the laccase modification reactions of lignin. Meanwhile, the results of GPC indicated that the molecular of lignins all have certain increase and molecular polydispersity decreased. From the point of the molecular mass polydispersity, the modification effect of YY-5 laccase on steam-exploded wheat straw alkali lignin and spruce alkali lignin was more significantly than other two lignins. The molecular mass polydispersity for steam-exploded wheat straw alkali lignin and spruce alkali lignin was 1.211 and 1.375 respectively, which might contribute to the alkali-stable enzyme for YY-5 laccase. Correspondingly, alkali solution was chosen as the optimum medium for YY-5 laccase to modify lignins.
Keywords:Laccase  Lignin  Enzymatic modification  Reaction activity  FTIR spectra  Molecular weight distribution
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