Synthesis
(c) Cancerous cells are often characterized by a large
nucleus. Based on what you know about cancer and
cell division, provide an explanation for the enlarged
nucleus.
(d) Why are malignant (cancerous) tumors a greater
threat to life than benign tumors?
(e) Provide a hypothesis that explains why the skin is so
susceptible to cancer.(f ) A scientist finds a group of irregularly shaped cells
in an organism. The cells demonstrate little
differentiation, but the nuclei in some of the cells
stain darker than others.
(i) Based on these findings, would it be logical to
conclude that the organism has cancer? Justify
your answer.
(ii) What additional tests might be required to prove
or disprove the hypothesis that the cells are
cancerous?INVESTIGATION 17.2continued
Comparing Mitosis and Meiosis
In this investigation, you will model and compare the events of
mitosis and meiosis. In this model, you will create homologous
chromosomes that have the same size and shape, but different
colours. This will show that they are similar but not identical.
Materials
red modelling clay plastic knife
blue modelling clay sheets of paper
green modelling clay pencil
Procedure
For each step, make a coloured sketch of your model with
appropriate labels. Include brief descriptions of your steps
and make sure to use the same step numbers as given.
Part 1: Mitosis
- Take some red clay and roll it between your hands to
create a piece 10 cm long and about as thick as your
finger. Make another piece about 5 cm long. - Repeat step 1 with the blue clay.
- Make an identical copy of each piece of clay. Then
attach the identical pieces with a green ball of clay
(Figure 1). - Draw a line down the length of a sheet of paper.
Line up the four chromosomes along the line
(Figure 2).
Purpose Design Analysis
Problem Materials Evaluation
Hypothesis Procedure Synthesis
Prediction EvidenceINVESTIGATION 17.3 Report Checklist
590 Chapter 17 NEL
Figure 1Figure 2- Remove the green balls and move each
of the single pieces of clay to opposite
ends of the paper (Figure 3, next page). - Before every mitotic division, each
chromosome is duplicated during
interphase. Make an identical copy
of each piece of clay as before
(Figure 4, next page).
Part 2: Meiosis
- Follow steps 1 to 3 from part 1.