肠道细菌产生氨。
Ammonia production by intestinal bacteria.
作者信息
Vince A, Dawson A M, Park N, O'Grady F
出版信息
Gut. 1973 Mar;14(3):171-7. doi: 10.1136/gut.14.3.171.
Abstract
Bacterial growth and the production of ammonia from urea and by deamination of peptone has been examined at various pHs in both conventional static bacterial cultures and in a continuous cultivation system. Growth occurred on primary testing of 93 out of 100 strains of aerobic Gram-negative bacteria at pH 5, and 48 out of 50 strains of Esch. coli at pH 4.6. Hydrolysis of urea by Proteus mirabilis decreased steadily from pH 7.2 to pH 5.3; below pH 5.3 little hydrolysis occurred. Ammonia production from peptones by Esch. coli decreased from pH 7.2 to pH 4.6. Considerable variation was noted in the ability of different strains to produce ammonia. Experiments with cultures containing both Esch. coli and Pr. mirabilis showed that more ammonia was produced at low pH than was produced by cultures of single organisms. At low pH reduction in the count of organisms was not found to be an essential prerequisite for reduction of ammonia formation.
摘要
在传统的静态细菌培养和连续培养系统中,研究了不同pH值下细菌的生长情况以及尿素产生氨的情况和蛋白胨脱氨产生氨的情况。在pH值为5时,100株需氧革兰氏阴性菌中的93株在初次测试时生长;在pH值为4.6时,50株大肠杆菌中的48株生长。奇异变形杆菌对尿素的水解作用从pH值7.2到pH值5.3稳步下降;在pH值5.3以下,几乎不发生水解。大肠杆菌从蛋白胨产生氨的量从pH值7.2到pH值4.6减少。不同菌株产生氨的能力存在相当大的差异。含有大肠杆菌和奇异变形杆菌的培养物实验表明,在低pH值下产生的氨比单一生物体培养物产生的氨更多。在低pH值下,未发现生物体数量的减少是氨形成减少的必要前提条件。
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本文引用的文献
1
[STUDIES ON THE MECHANISM OF ACTION OF LACTULOSE (BETA-GALACTOSIDE ACTION OF LACTULOSE (BETA-GALACTOSIDO-FRUCTOSE) IN THE INTESTINE].乳果糖(β-半乳糖苷果糖)在肠道中的作用机制研究(乳果糖的β-半乳糖苷作用)
Klin Wochenschr. 1964 Feb 1;42:126-30. doi: 10.1007/BF01479054.
2
Differences in ammonia production by faecal bacteria of patients with hepatic encephalopathy.肝性脑病患者粪便细菌产氨的差异。
Proc R Soc Med. 1966 Dec;59(12):1246. doi: 10.1177/003591576605901210.
3
Long-term treatment of portal-systemic encephalopathy with lactulose.
Australas Ann Med. 1969 May;18(2):117-23. doi: 10.1111/imj.1969.18.2.117.
4
[Treatment of chronic porto-systemic encephalopathy with lactulose].
Schweiz Med Wochenschr. 1969 Apr 19;99(16):584.
5
Improved method for the estimation of plasma ammonia by ion exchange.通过离子交换法估算血浆氨的改进方法。
J Clin Pathol. 1968 Jan;21(1):14-8. doi: 10.1136/jcp.21.1.14.
6
Treatment of chronic hepatic encephalopathy with lactulose.
Med J Aust. 1968 Jul 27;2(4):160-3. doi: 10.5694/j.1326-5377.1968.tb29379.x.
7
Assessment and significance of bacterial overgrowth in the small bowel.小肠细菌过度生长的评估及其意义
Q J Med. 1970 Apr;39(154):265-85.
8
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Q J Med. 1970 Apr;39(154):245-63.
9
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N Engl J Med. 1970 Jul 23;283(4):159-64. doi: 10.1056/NEJM197007232830401.
10
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