SKILL FOCUSPredictingPlanning and initiatingPerforming and recordingCommunicating resultsConducting researchInvestigation
DESIGN YOUR OWN
8•AProblem
How can you use materials available in your home or
classroom to simulate the process of transcription and
translation?Prediction
Predict which aspects of protein synthesis will be
relatively easy to simulate in the classroom, and which
will be more difficult.Materials
Select your own materials as determined by your
experimental plan.Experimental Plan
1.Working in a group, make a list of the steps involved
in transcription and translation. Prepare a second
list that includes the main structures, molecules,
and processes involved at each step.
2.Discuss with your group how you might simulate
the processes of transcription and translation in the
classroom. Some possibilities include
assigning different locations in the classroom to
different cellular structures, and the actions of
different molecules to various students to role
play; or
developing models using paper cutouts or other
materials.Simulating Protein Synthesis
Throughout the 1950s and 1960s, scientists developed a number of models to
explain the steps in protein synthesis even though they were not able to see most
of the processes taking place at the cellular level. Today’s researchers can now
use electron microscopy to help them see and analyze molecular processes,
but large-scale models are still an important tool in scientific research. In this
investigation, you will work with a team to develop and present a simulation of
protein synthesis.moving a distance of exactly one mRNA codon in
the 5 ′– 3 ′direction, is called translocation.
Translocation brings the tRNA holding the
polypeptide chain into the P site, and exposes a new
A site for attachment by a new tRNA molecule. The
tRNA molecule that was in the P site is now in the
E or exit site, and it detaches from the ribosome.
This released tRNA molecule will bind with a new
amino acid to continue the process. Altogether, the
three steps of the polypeptide elongation cycle, as
shown in Figure 8.19 at the top of the next page,
take a total of about 0.10 s to complete.Termination
The elongation cycle continues until a stop codon
appears on the mRNA strand in the A binding site.
Termination occurs when this codon is reached
because there is no tRNA with the complementary
anticodon. The previous tRNA, carrying the
completed polypeptide chain, remains in the P siteAs you research the topic you have chosen for your
Biology Course Challenge, consider how it relates to
gene expression. Here are some ideas.- If you are studying a disease or disorder, research
how changes in gene expression can contribute to this
condition. How do these changes arise at the molecular
level? - Create a list or flowchart of some of the ways in which
interactions among DNA and proteins within cells
can affect people and, more broadly, society and the
environment. Use your results to help further your work.
COURSE CHALLENGETo view an animation clip on tRNA and translation, consult
your Electronic Learning Partner.ELECTRONIC LEARNING PARTNER
266 MHR • Unit 3 Molecular Genetics