福建师大福清分校学报
福建師大福清分校學報
복건사대복청분교학보
JOURNAL OF FUQING BRANCH OF FUJIAN NORMAL UNIVERSITY
2013年
2期
55-62
,共8页
薛丽群%陈盛%林渊智%刘泽琛
薛麗群%陳盛%林淵智%劉澤琛
설려군%진성%림연지%류택침
低分子量壳聚糖%超声波%氧化降解%抑菌作用
低分子量殼聚糖%超聲波%氧化降解%抑菌作用
저분자량각취당%초성파%양화강해%억균작용
different molecular weight chitosan%ultrasound%oxidative degradation%bacteriostasis
本实验在超声波条件下用过氧化氢降解壳聚糖制备低分子量壳聚糖,研究了过氧化氢用量、温度、时间、pH值等对壳聚糖溶液粘均分子量的影响,并对降解产物进行红外光谱分析.探讨了降解产物对大肠杆菌、白色念珠菌、枯草芽孢杆菌的抑菌性能.实验结果表明,超声波协同过氧化氢氧化降解壳聚糖的较适宜条件为:1%(w/v)的壳聚糖溶液,加入3%(v/v)的过氧化氢溶液,pH值约为5.0,数控超声清洗仪工作功率为80%,频率为40kHz,温度设定为(50.0±2.0)℃,随着降解时间不同可得到不同粘均分子量的壳聚糖.降解得到的产物对三种细菌均有抑制生长的效果,其中粘均分子量为5.0×104的壳聚糖的抑菌能力最强,且对大肠杆菌的抑制作用最强.
本實驗在超聲波條件下用過氧化氫降解殼聚糖製備低分子量殼聚糖,研究瞭過氧化氫用量、溫度、時間、pH值等對殼聚糖溶液粘均分子量的影響,併對降解產物進行紅外光譜分析.探討瞭降解產物對大腸桿菌、白色唸珠菌、枯草芽孢桿菌的抑菌性能.實驗結果錶明,超聲波協同過氧化氫氧化降解殼聚糖的較適宜條件為:1%(w/v)的殼聚糖溶液,加入3%(v/v)的過氧化氫溶液,pH值約為5.0,數控超聲清洗儀工作功率為80%,頻率為40kHz,溫度設定為(50.0±2.0)℃,隨著降解時間不同可得到不同粘均分子量的殼聚糖.降解得到的產物對三種細菌均有抑製生長的效果,其中粘均分子量為5.0×104的殼聚糖的抑菌能力最彊,且對大腸桿菌的抑製作用最彊.
본실험재초성파조건하용과양화경강해각취당제비저분자량각취당,연구료과양화경용량、온도、시간、pH치등대각취당용액점균분자량적영향,병대강해산물진행홍외광보분석.탐토료강해산물대대장간균、백색념주균、고초아포간균적억균성능.실험결과표명,초성파협동과양화경양화강해각취당적교괄의조건위:1%(w/v)적각취당용액,가입3%(v/v)적과양화경용액,pH치약위5.0,수공초성청세의공작공솔위80%,빈솔위40kHz,온도설정위(50.0±2.0)℃,수착강해시간불동가득도불동점균분자량적각취당.강해득도적산물대삼충세균균유억제생장적효과,기중점균분자량위5.0×104적각취당적억균능력최강,차대대장간균적억제작용최강.
The degradation method of chitosan with hydrogen peroxide under the ultrasound was discussed. The effects of hydrogen peroxide dosage, degradation temperature, degradation time and pH on the degradation process of chitosan were researched. The degradation products were characterized by FTIR. Antibacterial properties of the degradation products against escherichia Coli, Candida Albicans and Bacillus Subtilis were studied. The optimum reaction condition with hydrogen peroxide under the ultrasound was obtained as follow: 3.0%(v/v) hydrogen peroxide of 1.0% (w/v) chitosan solution, the pH was about 5.0, the ultrasound power was 80%, and the frequency was 40kHz, the temperature was (50.0±2.0℃). Chitosan inhibited the growth of Escherichia Coli, candida albicane and Bacillus subtilis, especially Escherichia Coli. And the viscosity-average molecular weight of degraded chitosan was about 5.0×104 exhibited the strongest inhibitory effect.
