Topic 10 Flipped Video Playlist Link
Video Due Dates:
Check Planbook under Class Info Tab. It is hyperlinked at the top. I will edit the due dates here soon!
Check Planbook under Class Info Tab. It is hyperlinked at the top. I will edit the due dates here soon!
PowerPoints Topic 7 AHL |
Genetics Review PowerPoints SL |
Presentation 1: Cell Division
Presentation 2: Meiosis Presentation 3: Sources of Genetic Variation in Meiosis Presentation 4: Dihybrid Crosses Presentation 5: Linkage and Recombinants Presentation 6: Polygenic Inheritance Presentation 7: Evolution - Changing the Gene Pool Presentation 8: Darwin and Natural Selection Presentation 9: Three Types of Natural Selection Presentation 10: Speciation |
Presentation 1: Intro to Genetics and Punnet Squares
Presentation 2: Incomplete/Codominance, Blood Types, Sex-linked Presentation 3: Genetic Disorders and Pedigrees Presentation 4: Pedigree Practice Presentation 5: Karyotypes and Nondisjunction |
Notes Packets
Notes Packet - 10.1 Meiosis | |
File Size: | 432 kb |
File Type: | docx |
Notes Packet - 10.2 Genetics | |
File Size: | 295 kb |
File Type: | docx |
Notes Packet - 10.3 Evolution | |
File Size: | 379 kb |
File Type: | docx |
Related Links Topics 10 and 3
Mitosis and Meiosis (3.3 and 10.1)
» Cells Alive Mitosis Review
» Biology Project Cell Cycle and Mitosis Review
» Cells Alive Meiosis Animation
» Biology Project Meiosis Tutorial
» Lab Bench Activity: Mitosis and Meiosis
» Random Orientation Animation
» Independent Assortment Animation
» Non-disjunction animation (Sumanas)
» Non-disjunction Animation (Glencoe)
» Using Karyotypes to Diagnose Genetic Disorders (HHMI)
» Amniocentesis Animation
Genetics
» Dihybrid Crosses
» Dihybrid Crosses Practice
» Sex Linked Inheritance Practice
» Math Bench: Chi-Square Tests
» Corn Genetics Chi-Square Analysis
» TED: Skin Color is an Illusion (Nina Jablonski)
Evolution
» Crash Course: Speciation
» Salamander Speciation
» Anole Lizard Speciation
» Speciation Tutorial
» Bozeman Science: Speciation
Mitosis and Meiosis (3.3 and 10.1)
» Cells Alive Mitosis Review
» Biology Project Cell Cycle and Mitosis Review
» Cells Alive Meiosis Animation
» Biology Project Meiosis Tutorial
» Lab Bench Activity: Mitosis and Meiosis
» Random Orientation Animation
» Independent Assortment Animation
» Non-disjunction animation (Sumanas)
» Non-disjunction Animation (Glencoe)
» Using Karyotypes to Diagnose Genetic Disorders (HHMI)
» Amniocentesis Animation
Genetics
» Dihybrid Crosses
» Dihybrid Crosses Practice
» Sex Linked Inheritance Practice
» Math Bench: Chi-Square Tests
» Corn Genetics Chi-Square Analysis
» TED: Skin Color is an Illusion (Nina Jablonski)
Evolution
» Crash Course: Speciation
» Salamander Speciation
» Anole Lizard Speciation
» Speciation Tutorial
» Bozeman Science: Speciation
10.1 Meiosis
Essential idea: Meiosis leads to independent assortment of chromosomes and unique composition of alleles in daughter cells.
Nature of science:
Making careful observations—careful observation and record keeping turned up anomalous data that Mendel’s law of independent assortment could not account for. Thomas Hunt Morgan developed the notion of linked genes to account for the anomalies. (1.8)
Understandings:
Applications and skills:
Guidance:
Aims:
10.2 Inheritance
Essential idea: Genes may be linked or unlinked and are inherited accordingly.
Nature of science:
Looking for patterns, trends and discrepancies—Mendel used observations of the natural world to find and explain patterns and trends. Since then, scientists have looked for discrepancies and asked questions based on further observations to show exceptions to the rules. For example, Morgan discovered non-Mendelian ratios in his experiments with Drosophila. (3.1)
Understandings:
Applications and skills:
Guidance:
Theory of knowledge:
Aims:
10.3 Gene pools and speciation
Essential idea: Gene pools change over time.
Nature of science:
Looking for patterns, trends and discrepancies—patterns of chromosome number in some genera can be explained by speciation due to polyploidy. (3.1)
Understandings:
Applications and skills:
Guidance:
Theory of knowledge:
Utilization:
Essential idea: Meiosis leads to independent assortment of chromosomes and unique composition of alleles in daughter cells.
Nature of science:
Making careful observations—careful observation and record keeping turned up anomalous data that Mendel’s law of independent assortment could not account for. Thomas Hunt Morgan developed the notion of linked genes to account for the anomalies. (1.8)
Understandings:
- Chromosomes replicate in interphase before meiosis.
- Crossing over is the exchange of DNA material between non-sister homologous chromatids.
- Crossing over produces new combinations of alleles on the chromosomes of the haploid cells.
- Chiasmata formation between non-sister chromatids can result in an exchange of alleles.
- Homologous chromosomes separate in meiosis I.
- Sister chromatids separate in meiosis II.
- Independent assortment of genes is due to the random orientation of pairs of homologous chromosomes in meiosis I.
Applications and skills:
- Skill: Drawing diagrams to show chiasmata formed by crossing over.
Guidance:
- Diagrams of chiasmata should show sister chromatids still closely aligned, except at the point where crossing over occurred and a chiasma was formed.
Aims:
- Aim 6: Staining of lily anthers or other tissue containing germ-line cells and microscope examination to observe cells in meiosis are possible activities.
10.2 Inheritance
Essential idea: Genes may be linked or unlinked and are inherited accordingly.
Nature of science:
Looking for patterns, trends and discrepancies—Mendel used observations of the natural world to find and explain patterns and trends. Since then, scientists have looked for discrepancies and asked questions based on further observations to show exceptions to the rules. For example, Morgan discovered non-Mendelian ratios in his experiments with Drosophila. (3.1)
Understandings:
- Gene loci are said to be linked if on the same chromosome.
- Unlinked genes segregate independently as a result of meiosis.
- Variation can be discrete or continuous.
- The phenotypes of polygenic characteristics tend to show continuous variation.
- Chi-squared tests are used to determine whether the difference between an observed and expected frequency distribution is statistically significant.
Applications and skills:
- Application: Morgan’s discovery of non-Mendelian ratios in Drosophila.
- Application: Completion and analysis of Punnett squares for dihybrid traits.
- Application: Polygenic traits such as human height may also be influenced by environmental factors.
- Skill: Calculation of the predicted genotypic and phenotypic ratio of offspring of dihybrid crosses involving unlinked autosomal genes.
- Skill: Identification of recombinants in crosses involving two linked genes.
- Skill: Use of a chi-squared test on data from dihybrid crosses.
Guidance:
- Alleles are usually shown side by side in dihybrid crosses, for example, TtBb. In representing crosses involving linkage, it is more common to show them as vertical pairs, for example:
- This format will be used in examination papers, or students will be given sufficient information to allow them to deduce which alleles are linked.
Theory of knowledge:
- The law of independent assortment was soon found to have exceptions when looking at linked genes. What is the difference between a law and a theory in science?
Aims:
- Aim 4: Use analytical skills to solve genetic crosses.
- Aim 8: Ethical issues arise in the prevention of the inheritance of genetic disorders.
10.3 Gene pools and speciation
Essential idea: Gene pools change over time.
Nature of science:
Looking for patterns, trends and discrepancies—patterns of chromosome number in some genera can be explained by speciation due to polyploidy. (3.1)
Understandings:
- A gene pool consists of all the genes and their different alleles, present in an interbreeding population.
- Evolution requires that allele frequencies change with time in populations.
- Reproductive isolation of populations can be temporal, behavioural or geographic.
- Speciation due to divergence of isolated populations can be gradual.
- Speciation can occur abruptly.
Applications and skills:
- Application: Identifying examples of directional, stabilizing and disruptive selection.
- Application: Speciation in the genus Allium by polyploidy.
- Skill: Comparison of allele frequencies of geographically isolated populations.
Guidance:
- Punctuated equilibrium implies long periods without appreciable change and short periods of rapid evolution.
Theory of knowledge:
- Punctuated equilibrium was long considered an alternative theory of evolution and a challenge to the long established paradigm of Darwinian gradualism. How do paradigm shifts proceed in science and what factors are involved in their success?
Utilization:
- Many crop species have been created to be polyploid. Polyploidy increases allelic diversity and permits novel phenotypes to be generated. It also leads to hybrid vigour.