The instructor lives in the United States in the Central Time Zone.

An AP Biology class taught by Gina Jude Curriculum follows a comprehensive curriculum that delves into the intricacies of life sciences. Students enrolled in this course are exposed to an array of topics, ranging from cellular biology and genetics to ecology and evolution. With a strong emphasis on critical thinking and scientific inquiry, students engage in hands-on laboratory experiments, data analysis, and observation techniques that foster their understanding of key biological concepts. Gina Jude Curriculum’s teaching methodology involves stimulating discussions where students explore real-world applications of the subject matter. Through interactive lectures and multimedia presentations, we ensure that complex ideas are conveyed effectively while maintaining an environment conducive to learning. Moreover, regular assessments such as quizzes and exams allow students to evaluate their progress throughout the course while preparing them for the rigor of the AP Biology exam at year-end. By integrating both theoretical knowledge and practical skills within her classroom, Gina Jude Curriculum provides students with a solid foundation in AP Biology necessary for future academic pursuits or careers in related fields.

Unit 1 Topics: 

1.1 Structure of Water and Hydrogen Bonding.

1.2 Elements of Life 

1.3 Introduction to Biological Macromolecules

1.4 Properties of Biological Macromolecules 

1.5 Structure and Function of Biological Macromolecules

1.6 Nucleic Acids 

Unit 2 Topics: 

2.1 Cell Structure: Subcellular Components 

2.2 Cell Structure and Function 

2.3 Cell Size

2.4 Plasma Membranes 

2.5 Membrane Permeability

2.6 Membrane Transport 

2.7 Facilitated Diffusion 

2.8 Tonicity and Osmoregulation 

2.9 Mechanisms of Transport 

2.10 Cell Compartmentalization 

2.11 Origins of Cell  

Unit Topics 3: 

3.1 Enzyme Structure 

3.2 Enzyme Catalysis 

3.3 Environmental Impacts on Enzyme Function 

3.4 Cellular Energy 

3.5 Photosynthesis 

3.6 Cellular Respiration 

3.7 Fitness 

Unit 4 Topics: 

4.1 Cell Communication 

4.2 Introduction to Signal Transduction

4.3 Signal Transduction 

4.4 Changes in Signal Transduction Pathways 

4.5 Feedback 

4.6 Cell Cycle 

4.7 Regulation of Cell Cycle 

Unit 5 Topic: 

5.1 Meiosis 

5.2 Meiosis and Genetic Diversity 

5.3 Mendelian Genetics 

5.4 Non-Mendelian Genetics 

5.5 Environmental Effects on Phenotype 

5.6 Chromosomal Inheritance 

Unit 6 Topics: 

6.1 DNA and RNA Structure 

6.2 Replication 

6.3 Transcription and RNA Processing 

6.4 Translation 

6.5 Regulation of Gene Expression

6.6 Gene Expression and Cell Specialization 

6.7 Mut

6.8 Biotechnology 

Unit 7 Topics: 

7.1 Introduction to Natural Selection 

7.2 Natural Selection 

7.3 Artificial Selection 

7.4 Population Genetics 

7.5 Hardy-Weinberg Equilibrium 

7.6 Evidence of Evolution 

7.7 Common Ancestry 

7.8 Continuing Evolution 

7.9 Phylogeny

7.10 Speciation 

7.11 Extinction 

7.12 Variations in Populations 

7.13 Origin of Life on Earth 

Unit 8 Topics: 

8.1 Responses to the Environment 

8.2 Energy Flow Through Ecosystems 

8.3 Population Ecology 

8.4 Effect of Density of Populations 

8.5 Community Ecology 

8.6 Biodiversity 

8.7 Disruptions to Ecosystems