Gerasimov V N, Dolotov V I, Stepanov A V, Urakov N N
State Scientific Center of Applied Microbiology, Obolensk.
Vestn Ross Akad Med Nauk. 1997(6):24-30.
The morphology, ultrastructure of cells and the structure of microbial populations of various bacteria of the Francisella genus were estimated by electron microscopy. The strain 503 has been found to produce a bacterial population that is most homogeneous in shape and size. It contains microbes of only round and avoid forms, 0.5-0.6 micron in size. In addition of oval and round microbes there are ellipsoid and rod-shaped ones in the strains 15/3M, A. Cole 120, 117, etc. The largest tularemia microbes are typical of the strain Schu. The bacteria of all strains are covered by a capsule-like coat with well-defined borders. A thick capsule (0.12-0.35 micron) is specific for virulent strains whereas a thin capsular coat (0.06-0.12 micron) is encountered in vaccinal and avirulent microbes. The cells of the strain 503 were also shown to have the thickest envelope. All tularemia microbes have an asymmetric structure in the outer and cytoplasmic membranes due to the location of the bulk of intramembrane particles on their inner hydrophobic surfaces. Some F. tularensis microbes are able to produce keel-like protrusions on the outer membrane. The microbial nucleotide occupies 55-65% of the cytoplasmic volume and forms about 20-30 DNA-membrane contacts. Under unfavourable conditions, the microbes are capable of producing cell envelop protrusions and involutional cells, 0.1-0.3 micron in size.
通过电子显微镜对弗朗西斯菌属各种细菌的细胞形态、超微结构及微生物群体结构进行了评估。已发现503菌株产生的细菌群体在形状和大小上最为均一。它仅包含大小为0.5 - 0.6微米的圆形和近似圆形的微生物。在15/3M、A. Cole 120、117等菌株中,除了椭圆形和圆形微生物外,还有椭圆形和杆状的。最大的土拉热微生物是舒氏菌株的典型特征。所有菌株的细菌都被一层边界清晰的荚膜样包膜所覆盖。厚荚膜(0.12 - 0.35微米)是强毒株的特征,而薄荚膜包膜(0.06 - 0.12微米)则见于疫苗株和无毒株微生物。503菌株的细胞也显示具有最厚的包膜。由于大部分膜内颗粒位于其内部疏水表面,所有土拉热微生物在外膜和细胞质膜中都具有不对称结构。一些土拉弗朗西斯菌微生物能够在外膜上产生龙骨状突起。微生物核苷酸占据细胞质体积的55 - 65%,并形成约20 - 30个DNA - 膜接触点。在不利条件下,微生物能够产生大小为0.1 - 0.3微米的细胞包膜突起和退化细胞。
