| Autor: |
V P, Tychinskiĭ, Iu A, Nikolaev, V V, Lisovskiĭ, A V, Kretushev, T V, Vyshenskaia, A L, Muliukin, N A, Suzina, V I, Duda, G I, El'-Registan |
| Rok vydání: |
2007 |
| Předmět: |
|
| Zdroj: |
Mikrobiologiia. 76(2) |
| ISSN: |
0026-3656 |
| Popis: |
The changes in the state of Bacillus subtilis spores that occur during germination were analyzed using dynamic phase microscopy (DPM). DPM is based on monitoring and analyzing the interference image of a specimen in a coherent laser beam. The optical path difference (the phase thickness of the specimen, PT) depends on the geometrical height of the specimen and its refractive index. We demonstrated that the maximum PT value is a convenient criterion of the physiological state of the organism involved: PT isor = 80 nm, 40-50 nm, andor = 0 in dormant, developing (initiated), and heat-killed spores, respectively. We established that (i) heating a spore suspension to 40 degrees C results in a reversible twofold decrease (from 80 to 40 nm) in their PT under conditions that do not promote the development of the bacteria; this decrease is irreversible under growth-promoting conditions; (ii) the PT values of germinating spores oscillate with a considerable fluctuation amplitude (up to 7 nm), in contrast to the limited fluctuation amplitude (within 1 nm) in dormant spores; (iii) activated spores were heterogenous with respect to the PT pattern: a majority of the spores exhibited a usual spatial profile (with a maximum thickness in the center), whereas a minor fraction of them were characterized by an erythrocyte-like profile with a concave center; this implies that the central zone of the spore was more rapidly hydrated (with a decrease in refractive index) than the peripheral zone. |
| Databáze: |
OpenAIRE |
| Externí odkaz: |
|
