XeCl准分子激光辐照对溶菌酶结构的影响

利用荧光光谱、SDS-PAGE和NMR方法,考察308 nm XeCl准分子激光辐照对溶菌酶结构与活性的影响。使用能量密度为0.3 mJ/mm2的激光辐照溶菌酶,脉冲数分别为25、50、100、200、600、1200、1800、3600和7200。结果表明,用低强度激光辐照(低于200个脉冲)时,溶菌酶的活性出现增高趋势。随着激光辐照脉冲数的进一步增大,溶菌酶的活性又开始逐步降低。激光辐照处理后,溶菌酶的荧光强度发生了与生物活性相对应的先增高再降低现象,说明溶菌酶的高级结构发生了显著变化。SDS-PAGE结果显示,经激光辐照后,溶菌酶出现了分子间的聚合。分析溶菌酶的1H-NMR谱发现,辐照后,溶菌酶色氨酸(Trp)111、Trp63和Trp62的化学位移发生了变化,此结果进一步说明,激光辐照使溶菌酶的高级结构发生了变化。该实验可为激光辐照诱导蛋白质去折叠的研究提供参考。

Effect of XeCl Excimer Laser Irradiation on Lysozyme Structure

De-activative effect of lysozyme by using 308 nm XeCl excimer laser radiation was investigated.Fluorescence spectrophotometry,SDS-PAGE and NMR techniques were employed to determine the conformation change of the protein.Lysozyme was exposed at XeCl ecimer laser radiation(energy density was 0.3 mJ/mm2) of 25,50,100,200,600,1200,1800,3600 and 7200 pulse.Data showed that the activity of lysozyme was improved when the radiation pulse was less than 200.Whereas the lysozyme activity was negatively regulated by fl...