乳过氧化物酶与链球菌的结合。
Lactoperoxidase binding to streptococci.
作者信息
Pruitt K M, Adamson M, Arnold R
出版信息
Infect Immun. 1979 Jul;25(1):304-9. doi: 10.1128/iai.25.1.304-309.1979.
Abstract
There have been conflicting reports regarding the binding of lactoperoxidase to bacterial cell surfaces. We describe here the effects of cell-bound lactoperoxidase on acid production by suspensions of Streptococcus mutans (NCTC 10449) in the presence of hydrogen peroxide and thiocyanate. Saline suspensions of log-phase bacteria were treated with 0.1 mg of lactoperoxidase per ml and were then washed thoroughly. The addition of hydrogen peroxide and thiocyanate markedly reduced the acid production of these lactoperoxidase-treated bacteria but had no effect on the acid production of untreated controls. After a 3-h incubation in saline, the lactoperoxidase-treated bacteria produced acid in the presence of hydrogen peroxide and thiocyanate at the same rate as untreated bacteria. These observations suggest that lactoperoxidase is initially bound to the cell surface in an enzymatically active form at a concentration sufficient to inhibit acid production. The lactoperoxidase is slowly degraded or desorbed as the bacteria stand in saline suspension.
摘要
关于乳过氧化物酶与细菌细胞表面的结合,一直存在相互矛盾的报道。我们在此描述了在过氧化氢和硫氰酸盐存在的情况下,细胞结合的乳过氧化物酶对变形链球菌(NCTC 10449)悬液产酸的影响。对数生长期细菌的盐水悬液用每毫升0.1毫克乳过氧化物酶处理,然后彻底洗涤。添加过氧化氢和硫氰酸盐显著降低了这些经乳过氧化物酶处理的细菌的产酸量,但对未处理的对照的产酸量没有影响。在盐水中孵育3小时后,经乳过氧化物酶处理的细菌在过氧化氢和硫氰酸盐存在下产酸的速率与未处理的细菌相同。这些观察结果表明,乳过氧化物酶最初以酶活性形式以足以抑制产酸的浓度结合到细胞表面。随着细菌在盐水悬液中静置,乳过氧化物酶会缓慢降解或解吸。
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