Making and staining a wet mount Refer to
- Slides: 36
Making and staining a wet mount Refer to the Practical Manual Introduction Sections F. 1 and F. 2 1
Preparation of a wet mount A wet mount is a temporary preparation of material for light microscope that can be made quickly and that may be stained with water-based stains. 2
Equipment Water bottle Cover slips Stain Absorbent paper Dissecting needles Slides Tweezers 3
Precautions n n n Make sure that the microscope slides and cover slips are clean Slides can be easily cleaned with water, then alcohol and then flamed or wiped with a tissue Cover slips are very fragile and can be treated in the same manner but with great care 4
Precautions n n Always handle the glass slides and cover slips by their edges Always place the glass slide and cover slip on a piece of absorbent paper towel 5
Step 1 n Using a dropper bottle or a pipette add one to two drops of distilled water to the centre of the slide n Stain may be added with or instead of water at this stage 6
Attention n An ‘e’ has been used in the next step of this demonstration as it is easy to see in photographs, and you need a slide using an ‘e’ from an OHT for the first practical Specimens are usually used Specimens viewed with a transmission light microscope must be very thin, to allow the light to pass through them 7
Step 2 n n Add the specimen to this drop Another drop of water may be added at this point if necessary 8
Step 3 n n The specimen is then covered with a thin cover slip to exclude air and dust, and to protect the high power microscope objectives This is done by holding the cover slip by the edges, and then placing it on the slide at an angle of about 45° so that the angle includes the specimen and the drop of water (or mounting medium) 9
Step 3 – continued n n n Gently and slowly lower the cover slip using a dissecting needle If this is done with care and done very slowly there should be few, if any, air bubbles trapped on the specimen or under the cover slip Air bubbles will be seen under the microscope as perfect circles with distinct dark edges 10
Drawing of lowering cover slip 11
Start – Step 3 12
Slowly lower – Step 3 13
Lowered – Step 3 Air bubble 14
Problems: if an air bubble occurs n Using extra water to irrigate slide n n n Add a drop of water to the side of the cover slip on the side away from the bubble Then apply absorbent paper to the edge of the cover slip near the bubble Water will be drawn across the slide and often the bubble moves with it Raise the cover slip, add more water and then lower it again Tapping the cover slip very gently may release the bubble 15
Lowered with no air bubble 16
Finishing slide n n Hopefully the specimen is near the centre of the cover slip and the cover slip is close to the centre of the slide Carefully remove any excess water from the top and bottom of the slide There should be NO water on the top of the cover slip When you are happy with the slide then proceed to Step 4 17
Step 4 n n Look at the specimen under low power and if there are too many air bubbles in the specimen then mount another specimen If specimens begin to dry out then add a drop of water to the edge of the cover slip and draw it under the cover slip, using the same method as staining a mounted specimen (see next section). 18
Different mounting medium n n If the specimen is to be viewed for more than 10 minutes then it can be mounted in glycerine = mounting medium Hydramount is a fairly permanent water based mounting medium 19
Staining or irrigating a wet mount Stains are chemicals that dye parts of cells. A great variety of stains are available and are used to reveal and identify various structures 20
Drawing for staining 21
Staining while on microscope 22
Step 1 n Place the slide on a small piece of paper towel 23
Step 2 n Add a drop of stain (or water) to the slide at the edge of the cover slip as shown 24
Stain drawn across slide n On the opposite side of the cover slip place a small piece of tissue or filter paper. This will draw the stain from one side of the cover slip to the other and so through the specimen 25
Stain drawn across slide (1) 26
Stain drawn across slide (2) Absorbent paper towel 27
Stain drawn across slide (3) 28
Stain drawn across slide (4) 29
Stain drawn across slide (5) 30
Blot excess from right-hand side 31
Blot excess from left-hand side 32
Finished slide 33
Other uses n This technique can be used to: n Change the concentration of the solution under the microscope n n Increase intensity of the stain by adding more stain Decrease the intensity of the stain by adding more water Add water to a specimen that is drying out See the effect that different solution concentrations have on cells etc. 34
Common problems Water on top of cover slip Specimen badly positioned Air bubble Excess stain or water on top of slide beside cover slip and/or bottom of slide 35
Slide dried out 36
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