File:21. Физички методи за контрола на микробниот раст со осмотски притисок.ogg

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English: Physical factors of microbial growth using osmotic pressure

Procedures:

1. Each petri dish is divided with a marker down the middle, leaving two halves.

2. With a sterile inoculation loop, each half is inoculated with either E.coli or B.subtilis.

3. The plates are incubated at 37 oC for 24h.

RESULTS: Microorganisms in their natural habitats consistently face changes in the osmotic pressure of their environment. When the cell faces an environment with a lesser net amount of dissolved moieties, the cell is under hypotonic or hypoosmotic stress, from the water attempting to enter the cell. This is where the rigid cell wall of most bacteria and fungi succeeds in preventing plasmolysis or deformation. Should the net concentration of dissolved moieties be equal across the intra and extracellular environment, the cell is said to be in isotonic conditions. Should the net concentration of all dissolved moieties outside the cell exceed that of those dissolved inside, the cell is under hypertonic or hyperosmotic stress, due to the water attempting to leave the cell. Incubating different bacteria at different NaCl and glucose concentrations should show inhibited growth at those concentrations where the cell’s natural defense mechanisms do not compensate the environmental stress factor.

Planned and performed by Sofija Kostandinovska, Institute of Biology, FNSM, Ss. Cyril and Methodius University, Skopje, Macedonia.
Македонски: Физички мерки за контрола на микробниот раст со осмотски притисок

Постапки:

1. Секоја плоча со маркер се дели наполу.

2. Со претходно стерилизирана еза, се засејува едната половина од секоја плоча со E.coli, а другата половина со B.subtillis.

3. Плочите се инкубираат 24 часа, на 37 Целзиусови степени.

РЕЗУЛТАТ: Микроорганизмите, во своите природни живеалишта, постојано се соочуваат со промени во осмотскиот притисок. Кога концентрацијата на растворените материи е поголема внатре во клетката велиме дека клетката се наоѓа во хипотонична средина и водата во тој случај навлегува во клетката. Меѓутоа, ригидниот клеточен ѕид на бактериите и фунгите не дозволуваат да дојде до плазмоптиза. Доколку концентрацијата на растворот е еднаква и од двете страни на клеточната мембрана, клетката е во изотонична средина. Во тој случај водата подеднакво влегува и излегува од клетката. Хипотоничната и изотоничната средина обично не се штетни за микроорганизмите. Доколку концентрацијата на растворените материи е поголема однадвор отколку во клетката, тогаш клетката е во хипертонична средина. Во овие услови водата излегува надвор од клетката и доаѓа до плазмолиза. На тој начин клетката дехидрира и нејзиниот раст е инхибиран. По инкубацијата, се забележува дека растот на двете бактерии се намалува како што се зголемува концентрацијата на NaCl и гликозата во медиумот.

Осмислено и изведено од Софија Костандиновска, Институт за биологија, ПМФ, УКИМ, Скопје.
Date
Source Own work
Author Deni Ingilizovski


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