Biology Grade 9. Preservation and implementation of hereditary information. Collection 1

Embark on an exciting journey through biology! Our "Biology Grade 9. Genetics and Cell Division. Collection 1" course offers a dynamic learning experience that explores the fascinating world of heredity and cellular reproduction. Through interactive lessons, quizzes, and engaging activities, students will gain a deep understanding of how genetic information is stored, expressed, and passed on to the next generation.

Key Features of the Course:

• Interactive quizzes and tests: Test your knowledge and reinforce learning with engaging and challenging quizzes.
• Interactive exercises: Develop critical thinking and research skills through interactive exercises and activities.
• Expertly crafted content: Developed by experienced educators to ensure high-quality and effective learning.
• Focus on biological analysis: Encourage students to analyze physiological processes, interpret biological data, and develop their own perspectives.

Course Modules

Module 1: Topic 4. Storage and Implementation of Hereditary Information

• §21. Features of the organization of genes and genomes of prokaryotic and eukaryotic organisms
• Test your knowledge
• §22. The role of different types of RNA molecules in coding and implementing hereditary information. The genetic code
• Test your knowledge
• §23. Protein biosynthesis
• Test your knowledge
• Practical work 2
• §24. The cell cycle. Mitosis
• Test your knowledge
• §25. Meiosis
• Test your knowledge
• §26. Germ cells and fertilization
• Test your knowledge
• §27. Processes of fertilization
• Test your knowledge
• §28. Stages of individual development of organisms
• Test your knowledge
• §29. Post-embryonic development and growth of organisms
• Test your knowledge

Expected Learning Outcomes

• Characterize key genetic processes: Describe the processes of transcription, protein biosynthesis, and DNA replication. Explain the genetic code and its role in protein synthesis, the relationship between chromosome structure and function, and the stages of the cell cycle, mitosis, and meiosis.
• Compare and contrast cellular events: Differentiate between the processes of transcription and replication, as well as mitosis and meiosis.
• Operate with key terminology: Define and use terms such as gene, genetic code, nucleus, chromosomes, ribosomes, transcription, translation, mitosis, and meiosis.
• Identify and name components: List the types of genes, stages of hereditary information implementation, phases of mitosis and meiosis, and periods of ontogenesis in multicellular organisms.
• Provide practical examples: Give examples of applying the principle of nucleotide complementarity.

By the end of this course, students will have a deep understanding of genes, genomes, and the fundamental processes of cell division. They will be able to apply this biological knowledge to real-life situations and solve basic problems related to genetics and cell biology.