Aim: Preparation and study of mitosis in onion root tips
Principle: Somatic growth in plants and animals takes place by the increase in the number of cells. A cell divides mitotically to form two daughter cells wherein the number of chromosomes remains the same (i.e., unchanged) as in the mother cell. In plants, such divisions rapidly take place in meristematic tissues of root and shoot apices, where the stages of mitosis can be easily observed. In animals, mitotically dividing cells can be easily viewed in the bone marrow tissue of a vertebrate, epithelial cells from gills in fishes and the tail of growing tadpole larvae of frog.
Requirement: Onion bulbs, wide mouth glass tubes/jar/bottle, glacial acetic acid, ethanol 2-4% acetocarmine/acetoorcein stain, N/10 HCl, spirit lamp/hot plate, slide, cover slips, blotting paper, molten wax/nail polish and compound microscope
Procedure
Growing of root tips
1. Select a few medium-sized onion bulbs. Carefully remove the dry roots present.
2. Grow root tips by placing the bulbs on glass tubes (of about 3-4 cm. diameter) filled with water. Care should be taken so that the stem portion of the bulb (basal part) just touches the water.
3. A few drops of water may be added periodically to compensate evaporation losses. New roots may take 3-6 days to grow.
4. Cut 2-3 cm long freshly grown roots and transfer them to freshly prepared fixative, i.e., aceto-alcohol (1:3:: glacial acetic acid: ethanol). Keep the root tips in the fixative for 24 hours and then transfer them to 70% ethanol (for preservation and use in future).
5. Onion root-tip cells have a cell cycle of approximately 24-hour duration, i.e., they divide once in 24 hours. and this division usually takes place about two hours after sunrise.
6. Therefore, roots grown on water should be cut only at that time to score maximum number of dividing cells.
Preparation of slide
Take one or two preserved roots, wash them in water on a clean and grease- free slide. Place one drop of N/10 HCl on the root tip followed by 2–3 drops of aceto-carmine or aceto-orcein stain on it. Leave the slide for 5–10 minutes on a hot plate (or warm it slightly on spirit lamp). Care should be taken that the stain is not dried up. Carefully blot the excess stain using blotting paper.
Now cut the comparatively more stained (2–3 mm) tip portion of the root and retain it on the slide and discard the remaining portion. After
(10–20 seconds) put one or two drops of water and blot them carefully using blotting paper. Again put a drop of water on the root tip and mount a cover slip on it avoiding air bubbles. Place the slide in between the folds of blotting
paper using the fingers in such a way that the cover slip mounted on the slide is properly held. Now slowly tap the cover slip using the blunt end of a pencil so that the meristematic tissue of the root tip below the cover slip is properly squashed and spread as a thin layer of cells. Carefully seal the margins of the cover slip using molten paraffin wax or nail polish. This
preparation of onion root tips cells is now ready for the study of mitosis.
Study of slide
Place the slide on the stage of a good quality compound microscope. First observe it under the lower magnification (10 X objective) to search for the area having a few dividing cells. Examine the dividing cells under higher magnification of the microscope to observe the detailed features of mitosis.
Observation
The stages of mitosis can be broadly categorised into two parts: karyokinesis (division of nucleus) followed by cytokinesis (division of cytoplasm, and ultimately of the cell). Those cells, which are not in the phases of cell division are considered to be in interphase. You may observe that most of the cells in a microscope field are in interphase
Interphase
The cells are mostly rectangular, oval or even circular in shape, with almost centrally situated densely stained nucleus. The chromatic (coloured) material of the nucleus is homogeneous and looks granular. The boundary of the nucleus is distinct. One or few nucleoli (sing: nucleolus) can also be observed inside the nucleus
Stages of Mitosis
(a) Prophase
Intact nuclear outline is seen. The chromatin (seen as a homogeneous material in the nucleus at interphase) appears as a network of fine threads (chromosomes). Nucleoli may or may not be visible.
(b) Metaphase
The nuclear membrane disappears. Chromosomes are thick and are seen
arranged at the equatorial plane of the cell. Each chromosome at
this stage has two chromatids joined together at the centromere, which can
be seen by changing the resolution of the microscope. Nucleolus is not
observed during metaphase.
(c) Anaphase
This stage shows the separation of the chromatids of each chromosome. The
chromatids separate due to the splitting of the centromere. Each chromatid now represents a separate chromosome as it has its own centromere. The chromosomes are found as if they have moved towards the two poles of the
cell. The chromosomes at this stage may look like the shape of alphabets 'V', 'J' or 'I' depending upon the position of centromere in them. Different anaphase cells show different stages of movement of chromosomes to opposite poles,
and they are designated to represent early, mid and late anaphase
(d) Telophase
Chromosomes reach the opposite poles, lose their individuality, and look like a mass of chromatin (Fig. 6.1e). Nuclear membrane appears to form the nuclei of the two future daughter cells.
Cytokinesis
In plants, a cell plate is formed in the middle after telophase. The plate can be seen to extend outwards to ultimately reach the margin of the cell and divide the cell into two. Such cell plates are characteristic of plant cells. However, in an animal cell, the two sides of the cell show inpushings or constrictions formed from the peripheral region in the middle of the cell,
which grow inward and meet to divide the cell into two daughter cells.
Precautions
1. Root tip should be taken early in morning hours.
2. Slide should be neat and clean.
