No. It is a staining on the cell itself.
Staining is done to distinguish the cells from each other. It also allows detection of abnormalities in the white blood cell, red blood cell and platelets.
Yes, it is. Using the Gram staining method, the wall can be seen.
Peptidoglycan, being the most important element for gram staining, cell differentiation....etc...
eosinophil
Staining is done to help determine what the sample is. It makes it visible under a microscope and it gives some information about the structure of the cell. A positive Gram stain means that the cell has a thick peptidoglycan layer.
No. It is a staining on the cell itself.
Staining is done to distinguish the cells from each other. It also allows detection of abnormalities in the white blood cell, red blood cell and platelets.
staining affinity refers to the molecular attraction of a specific stain for a particular type of cell component.
Mycoplasma organisms do not contain a cell wall. Thus, traditional cell staining techniques (which require the presence of a cell wall), do not highlight the organism. A special staining technique is required for visualization.
The Gram staining method, named after the Danish bacteriologist who originally devised it, started in 1882.
Yes, it is. Using the Gram staining method, the wall can be seen.
yup..two types of differential staining.. 1 - staining the whole cell to differentiate from another 2 - structural stainging of an individual cell
It tells the microbiologist/clinician facts about the cell wall construction of the bacterium. This then indicates which antibiotics to prescribe if you are trying to get rid of a bacterial infection.
Staining
Fluorescien staining
Staining enabled scientist to identify cell organelles.