Conjugation and modeled structure/function analysis of lysozyme on glycine esterified cotton cellulose-fibers

被引:21
作者
Edwards, JV [1 ]
Sethumadhavan, K [1 ]
Ullah, AHJ [1 ]
机构
[1] ARS, USDA, So Reg Res Ctr, Cotton Text Chem Unit, New Orleans, LA 70179 USA
来源
BIOCONJUGATE CHEMISTRY | 2000年 / 11卷 / 04期
关键词
D O I
10.1021/bc990141u
中图分类号
Q5 [生物化学];
学科分类号
071010 ; 081704 ;
摘要
The antimicrobial activity of lysozyme covalently bound to glycine-derivatized cotton cellulose was assessed in a 96-well format. Lysozyme was immobilized on glycine-bound cotton through a carbodiimide reaction. The attachment to cotton fibers was made through both a single glycine and a glycine dipeptide esterified to cotton cellulose. Higher levels of lysozyme incorporation were evident in the diglycine-linked cotton cellulose samples. The antibacterial activity of the lysozyme-conjugated cotton cellulose against Bacillus subtilis was assessed as a suspension of pulverized cotton fibers in microtiter wells. Inhibition of B. subtilis growth was observed to be optimal within a range of 0.14-0.3 mM (equivalent to 4-20 mg of lysozyme-bound cotton/mL) of lysozyme. Enhancement of activity over soluble lysozyme may result from the solid-phase protection afforded by the cellulose linkage of the glycoprotein against proteolytic lysis. Computational models of lysozyme based on its crystal structure attached through aspartate, glutamate, and COOH-terminal residues to cellopentaose-(3) Gly-O-6-glycyl-glycine ester were constructed. The models demonstrate no steric constraints to the active-site cleft from the glycine-conjugated cellulose chain when lysozyme is bound at the carboxylates of Asp-87, Glu-7, Asp-119, Asp-18, and COOH-terminal Leu-129. The more robust antibacterial activity of the enzyme when bonded to cotton fibers suggests good potential for biologically active enzymes on cotton-based fabrics.
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页码:469 / 473
页数:5
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