4th Six Weeks Lesson Plan
Date
Teks
Objective
Class Work
UNIT 5 Protein Synthesis
Jan. 7 (A)
B.6C Explain the
Identify, illustrate, and
1.  HW - New
Jan. 8 (B)
purpose and process describe the structure and
Notebook Set Up
of transcription and role of RNA and the process
2. RNA and
translation using
of transcription. Compare
Transcription Cornell
models of DNA and
and contrast RNA and DNA.
Notes
RNA.
Compare and contrast
3. RNA vs DNA booklet
replication and transcription. 4. Transcription booklet
Jan. 9 (A)
B.6C Explain the
Describe the process of
1. Fall Semester
Jan. 12 (B)
purpose and process translation. Explain the
Notebook Test
of transcription and process and purpose of
2. RNA and
translation using
protein synthesis and how
Transcription Quiz
models of DNA and
gene expression is a
3. Translation Cornell
RNA.
regulated process. Use a
Notes
B.6D Recognize that codon chart to translate
4. Protein Synthesis
gene expression is a mRNA to amino acids.
Diagram
regulated process.
Jan. 13 or 14 B.6C Explain the
Model the process of protein 1. Transcription Quiz
purpose and process synthesis by correctly
2. Snork Activity
of transcription and determining and illustrating a
translation using
snork’s traits when given only
models of DNA and
the DNA sequences for 10
RNA.
genes.
Jan. 15 or 16 B.6E Identify and
Identify and define DNA
1. Protein Synthesis
illustrate changes in mutations and chromosomal
Quiz
DNA and evaluate
mutations. Compare and
2. Mutation Cornell
the significance of
contrast DNA and
Notes
these changes.
chromosome mutations.
3. Mutation Activity
Evaluate the effect of
mutations by examining
different mutations and their
products.
Jan. 20 or 21 B.6C and B.6E
Correctly answer questions
1. Brief Review
on the Unit 5 Protein
2. Unit 5 Protein
Synthesis Test.
Synthesis Test
Unit 6 Meiosis and Monohybrid Crosses
Jan. 22 or 23 B.6G Recognize the
Identify the stages of meiosis 1. Correct Unit 5
significance of
and describe the purpose of
Protein Synthesis
meiosis to sexual
meiosis.
Test
reproduction
2. Meiosis Notes
3. Meiosis Label and
Color Activity
Jan. 26 or 27 B.6G Recognize the
Compare and contrast
1. Meiosis Quiz
significance of
meiosis and mitosis.
2. Mitosis vs Meiosis
meiosis to sexual
Model
reproduction
3. Mitosis vs. Meiosis
Venn Diagram
Jan. 28 or 29 B.6H Describe how
Describe how DNA
1. Mitosis vs. Meiosis
techniques such as
fingerprinting and genetic
Quiz
DNA fingerprinting,
modifications can be used to 2. Genetic Techniques
Homework
Jan. 30 or
Feb. 2
Feb. 3 or 4
Feb. 5 or 6
Feb. 9 or 10
Feb. 11 or
12
Feb. 13 or
17
genetic
modifications and
chromosomal
analysis are used to
study the genomes
of organisms.
B.6F Predict
possible outcomes
of various genetic
combinations such
as monohybrid
crosses, dihybrid
crosses, and nonMendelian
inheritance.
B.6F Predict
possible outcomes
of various genetic
combinations such
as monohybrid
crosses, dihybrid
crosses, and nonMendelian
inheritance.
B.6G, B.6H, and B.6F
B.6F Predict
possible outcomes
of various genetic
combinations such
as monohybrid
crosses, dihybrid
crosses, and nonMendelian
inheritance.
B.6F Predict
possible outcomes
of various genetic
combinations such
as monohybrid
crosses, dihybrid
crosses, and nonMendelian
inheritance.
B.6F Predict
possible outcomes
of various genetic
combinations such
as monohybrid
crosses, dihybrid
crosses, and nonMendelian
study the genomes of
Notes
organisms. Analyze
3. Karyotype Activity
chromosomes to create a
4. Genetic Techniques
karyotype. Evaluate
WS
karyotypes for gender and
disorders.
Describe Mendel’s
contribution to the field of
genetics. Predict outcomes of
monohybrid crosses.
Predict outcomes of
monohybrid crosses.
Correctly answer questions
on Unit 6 Meiosis and
Monohybrid Genetics Test
Predict outcomes for Nonmendelian inheritance such
as codominance, incomplete
dominance, and multiple
alleles.
Predict outcomes for Nonmendelian inheritance such
as sex-linked and polygenic
traits. Describe how
environmental factors play a
role in the expression of
traits.
Predict outcomes for
dihybrid crosses.
Feb. 18 or
19
inheritance.
B.6F Predict possible Analyze pedigrees to
outcomes of various determine traits of
genetic
individuals.
combinations such
as monohybrid
crosses, dihybrid
crosses, and nonMendelian
inheritance.