Skip to main content
Back

BIOL-15 Biosciences Syllabus and Course Structure – Yuba College Summer 2026

Study Guide - Smart Notes

Tailored notes based on your materials, expanded with key definitions, examples, and context.

Course Overview

This course, BIOL-15 Biosciences at Yuba College, provides an introduction to the unifying principles of biology. It covers foundational topics such as the chemistry of life, cell structure and function, energy transformation, genetics, evolution, and organismal structure. The course is designed to fulfill general education requirements and includes both lecture and laboratory components.

Key Course Topics

  • Biology as a Science (Ch. 1): Introduction to the scientific method, characteristics of life, and the diversity of living organisms.

  • Chemical Basis of Life (Ch. 2): Structure of atoms, molecules, and chemical reactions essential for life.

  • Biological Macromolecules (Ch. 3): Structure and function of carbohydrates, lipids, proteins, and nucleic acids.

  • Cell Structure and Function (Ch. 4): Comparison of prokaryotic and eukaryotic cells, organelles, and cellular processes.

  • Cellular Transport and Energy (Ch. 5-6): Mechanisms of transport across membranes, enzymes, catabolism, and energy transformation.

  • Photosynthesis (Ch. 7): Conversion of light energy to chemical energy in plants.

  • Cell Cycle and Division (Ch. 8): Mitosis, meiosis, regulation of the cell cycle, and cancer development.

  • Genetics and Inheritance (Ch. 9-11): Patterns of inheritance, DNA structure and replication, gene expression, and regulation.

  • Biotechnology (Ch. 12): Modern techniques in DNA technology and genomics.

  • Evolution (Ch. 13-15): Mechanisms of evolution, natural selection, and evolutionary history.

  • Animal Structure and Function (Ch. 20-23, 25, 27-28): Tissues, organ systems (respiratory, cardiovascular, digestive, urinary), reproduction, and the nervous system.

Student Learning Outcomes

  • Identify the unifying characteristics of mitotic cell division in living cells.

  • Describe the process of protein synthesis in cells.

  • Compare and contrast the structure and function of major types of biomacromolecules.

Course Objectives

  • Describe and compare the structure and function of prokaryotic and eukaryotic cells.

  • Identify and explain essential metabolic activities related to energy transformation and molecular synthesis.

  • Apply scientific terminology and the scientific method.

  • Describe genetic inheritance and the cell cycle, including cancer development.

  • Explain sexual and asexual reproduction, including spermatogenesis and oogenesis.

  • Describe the structure and bonding of biological molecules.

  • Discuss natural selection and genetic variation as mechanisms of evolution.

Course Structure and Grading

Component

Points

Percentage

Syllabus Quiz

20

2%

Assignments (12)

240

24%

Lab Reports (12, lowest dropped)

270

27%

Quizzes (6)

270

27%

Lab Journal

100

10%

Final Exam

100

10%

Total

1000

100%

Assignments and Laboratory Work

  • Assignments: Weekly assignments reinforce lecture content and are due Fridays at 11:59 pm.

  • Lab Reports: Assess understanding of laboratory methods, data analysis, and scientific reasoning. The lowest score is dropped.

  • Quizzes: Six quizzes assess comprehension of lecture, reading, and lab material.

  • Lab Journal: Maintains records of observations, procedures, and data from laboratory activities.

  • Final Exam: Comprehensive, covering all course content.

Course Schedule (Selected Topics)

Date

In-Person Labs

Online Topics (Textbook Chapters)

6/9

Lab safety and scientific measurements

Biology & diversity of life (Ch. 1.1-1.3), Scientific method (Ch. 1.4-1.7), Chemistry (Ch. 2)

6/16

Testing for biological macromolecules; Quiz 1

Biological macromolecules (Ch. 3)

6/23

Microscopes and cells; Quiz 2

Cells (Ch. 4), Cellular transport (Ch. 5.1-5.9)

6/30

Properties of catalase; Quiz 3

Cell cycle, mitosis, and cancer (Ch. 8.3-8.10, 11.15-11.18), Meiosis (Ch. 8.11-8.17), Inheritance (Ch. 9)

7/7

Carbohydrate catabolism and photosynthesis; Quiz 4

DNA structure and replication (Ch. 10.1-10.5), Gene expression and control (Ch. 11.1-11.11), Mutations and genetic disorders

7/14

DNA extraction and replication, transcription, and translation; Quiz 5

Biotechnology (Ch. 12), Evolution (Ch. 13-15), Anatomy and physiology intro

7/21

Peppered moth simulation; Quiz 6

Tissue types (Ch. 20.1-20.7), Organ systems (Ch. 21-23, 25.4-25.9), Reproduction (Ch. 27)

7/28

Blood pressure and heart rate; Review

Nervous system (Ch. 28), Review

Laboratory Safety and Participation

  • Follow all laboratory safety procedures, including proper attire and equipment handling.

  • Active participation and collaboration in lab activities are expected.

  • Missed labs cannot be made up; the lowest lab report score is dropped to accommodate emergencies.

Academic Integrity

  • All work must be your own. Plagiarism, unauthorized collaboration, and use of AI tools for graded assignments are prohibited.

  • Violations may result in assignment failure, course failure, and referral to college authorities.

Support Services

  • Academic counseling, tutoring, disability services, and technology support are available through Yuba College.

  • Students with disabilities should contact DSPS and the instructor early to arrange accommodations.

Additional info:

  • This syllabus aligns with standard introductory biology courses and covers the majority of topics listed in the provided chapter titles, including cell biology, genetics, evolution, and physiology.

  • Students are expected to use the "Modified Mastering Biology for Campbell Biology: Concepts & Connections (10th Edition)" textbook.

Pearson Logo

Study Prep