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J Clin Microbiol. 1996 Jan;34(1):108-13. doi: 10.1128/jcm.34.1.108-113.1996.
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Unusual groups of Morganella ("Proteus") morganii isolated from clinical specimens: lysine-positive and ornithine-negative biogroups.从临床标本中分离出的不寻常摩根菌(“变形杆菌”)菌群:赖氨酸阳性和鸟氨酸阴性生物群。
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The secreted hemolysins of Proteus mirabilis, Proteus vulgaris, and Morganella morganii are genetically related to each other and to the alpha-hemolysin of Escherichia coli.奇异变形杆菌、普通变形杆菌和摩根氏摩根菌分泌的溶血素在基因上彼此相关,且与大肠杆菌的α-溶血素相关。
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摩根氏摩根菌生物群和亚种的生化研究。

Biochemical investigations of biogroups and subspecies of Morganella morganii.

作者信息

Janda J M, Abbott S L, Khashe S, Robin T

机构信息

Microbial Diseases Laboratory, California Department of Health Services, Berkeley 94704-1011, USA.

出版信息

J Clin Microbiol. 1996 Jan;34(1):108-13. doi: 10.1128/jcm.34.1.108-113.1996.

DOI:10.1128/jcm.34.1.108-113.1996
PMID:8748284
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC228741/
Abstract

We determined the subspecies and biogroup designations for 73 strains of Morganella morganii principally recovered from routine clinical specimens. On the basis of trehalose fermentation, 90% of all strains were identified as M. morganii subsp. morganii (trehalose negative), while the remaining 10% were designated M. morganii subsp. sibonii (trehalose positive). Using three tests (ornithine decarboxylase [ODC] and lysine decarboxylase [LDC] activities and susceptibility to tetracycline), we determined the biogroup designations for these 73 strains. Four of the seven recognized biogroups within the genus Morganella were found in the study, with biogroup A (ODC positive [ODC+], LDC negative [LDC-]) predominating (78%); all M. morganii subsp. sibonii strains were found to belong to biogroup G (ODC+, LDC-). Rapid glycerol fermentation (24 h) was linked to nonmotility and biogroup B strains (ODC+, LDC+). LDC activity but not tetracycline resistance appeared to be associated with the possession of a 40- to 45-MDa plasmid. The use of three commercial systems (API ZYM, API 50 CH, and Biolog GN) failed to detect any new biochemical tests useful for subspecies identification, with the possible exception of L-phenylalanine utilization as a sole carbon source in the Biolog GN system. No Morganella strain was found to invade either HEp-2 or Vero cell lines, but four of seven M. morganii subsp. morganii strains were cytotoxic on sheets of both cells. This cytotoxic activity appeared to correlate with the rapid expression of beta-hemolytic activity.

摘要

我们确定了主要从常规临床标本中分离出的73株摩根氏摩根菌的亚种和生物群分类。基于海藻糖发酵,所有菌株中有90%被鉴定为摩根氏摩根菌摩根亚种(海藻糖阴性),其余10%被指定为摩根氏摩根菌西博尼亚种(海藻糖阳性)。通过三项试验(鸟氨酸脱羧酶[ODC]和赖氨酸脱羧酶[LDC]活性以及对四环素的敏感性),我们确定了这73株菌株的生物群分类。在该研究中发现了摩根菌属七个公认生物群中的四个,其中A生物群(ODC阳性[ODC+],LDC阴性[LDC-])占主导(78%);所有摩根氏摩根菌西博尼亚种菌株均属于G生物群(ODC+,LDC-)。快速甘油发酵(24小时)与无运动性和B生物群菌株(ODC+,LDC+)相关。LDC活性而非四环素抗性似乎与携带40至45兆达尔的质粒有关。使用三种商业系统(API ZYM、API 50 CH和Biolog GN)未能检测到任何有助于亚种鉴定的新生化试验,Biolog GN系统中以L-苯丙氨酸作为唯一碳源利用的情况可能除外。未发现摩根菌菌株侵袭HEp-2或Vero细胞系,但七株摩根氏摩根菌摩根亚种菌株中有四株对两种细胞片具有细胞毒性。这种细胞毒性活性似乎与β-溶血活性的快速表达相关。