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21 - 30 of 129 results for: BIO ; Currently searching offered courses. You can also include unoffered courses

BIO 81: Introduction to Ecology

This course will introduce you to the first principles of the science of ecology, the study of interactions between organisms and their environment. If you are on the waitlist, we will contact you during the first week of the quarter when we will have more information about your prospects for joining the course. Contact Lydia Villa (lydiav@stanford.edu) for logistical questions. Prerequisites: None.
Terms: Aut | Units: 4 | UG Reqs: WAY-SMA

BIO 82: Genetics

The focus of the course is on the basic mechanisms underlying the transmission of genetic information and on the use of genetic analysis to study biological and medical questions. Major topics will include: (1) the use of existing genetic variation in humans and other species to identify genes that play an important role in determining traits and disease-susceptibility, (2) the analysis of mutations in model organisms and their use in the investigation of biological processes and questions and (3) using genetic information for diagnosis and the potential for genetic manipulations to treat disease. Prerequisites: None, but BIO 83 is recommended. Lecture attendance as well as discussion section attendance is mandatory. Please only enroll in the lecture section (section 01) on Axess. Discussion section enrollment will be handled on Canvas. As long as you sign up for the lecture section on Axess, you will receive an e-mail a week before classes begin to guide you on how to sign up for a section on Canvas. For logistical questions about the course, please contact Waheeda Khalfan (wkhalfan@stanford.edu).
Terms: Win | Units: 4 | UG Reqs: WAY-SMA

BIO 83: Biochemistry & Molecular Biology

Introduction to the molecular and biochemical basis of life. Lecture topics include the structure and function of proteins, nucleic acids, lipids and carbohydrates, energy metabolism, signal transduction, epigenetics and DNA repair. The course will also consider how defects in these processes cause disease. Preliminary syllabus will be posted by Sep 1st on Stanford Syllabus. If you are on the waitlist, we will contact you during the first week of the quarter when we will have more information about your prospects for joining the course. Contact Waheeda Khalfan (wkhalfan@stanford.edu) for logistical questions. Prerequisites: None.Please only enroll in the lecture section (section 01) on Axess. Discussion section enrollment will be handled on Canvas. As long as you sign up for the lecture section on Axess, you will receive an e-mail a week before classes begin to guide you on how to sign up for a section on Canvas.
Terms: Aut | Units: 4 | UG Reqs: WAY-SMA

BIO 84: Physiology

The focus of Physiology is on understanding how organisms tackle the physical challenges of life on Earth. This course will provide an overview of animal and plant physiology and teach an understanding of how organisms maintain homeostasis, respond to environmental cues and coordinate behaviors across multiples tissues and organ systems. We will examine the structure and function of organs and organ systems and how those systems are controlled and regulated to maintain homeostasis. Control and regulation requires information as does the ability to respond to environmental stimuli, so we will give special consideration to hormonal and neural information systems. We will also be concerned with the interactions and integration of the activities of the different organ systems we study. Prerequisites: none. The course will have in person exams. Lecture attendance as well as discussion section attendance is mandatory. Please only enroll in the lecture section (section 01) on Axess. Discussio more »
The focus of Physiology is on understanding how organisms tackle the physical challenges of life on Earth. This course will provide an overview of animal and plant physiology and teach an understanding of how organisms maintain homeostasis, respond to environmental cues and coordinate behaviors across multiples tissues and organ systems. We will examine the structure and function of organs and organ systems and how those systems are controlled and regulated to maintain homeostasis. Control and regulation requires information as does the ability to respond to environmental stimuli, so we will give special consideration to hormonal and neural information systems. We will also be concerned with the interactions and integration of the activities of the different organ systems we study. Prerequisites: none. The course will have in person exams. Lecture attendance as well as discussion section attendance is mandatory. Please only enroll in the lecture section (section 01) on Axess. Discussion section enrollment will be handled on Canvas. As long as you sign up for the lecture section on Axess, you will receive an e-mail a week before classes begin to guide you on how to sign up for a section on Canvas. For logistical questions about the course, please contact Waheeda Khalfan at wkhalfan@stanford.edu.
Terms: Win | Units: 4 | UG Reqs: WAY-SMA

BIO 85: Evolution

Understanding evolution is key to understanding the diversity of life on earth. We will be focusing on the fundamental principles of evolutionary biology from natural and sexual selection to the formation of new species. To understand these concepts we will delve into the mechanisms that underlie them. The course will also link these fundamental processes to important contemporary evolutionary topics such as the evolution of behavior, life history evolution, and human evolution. Prerequisites: BIO 60 or 61 or 62 or equivalent; recommended: BIO 82, or permission of instructor.
Terms: Win | Units: 4 | UG Reqs: WAY-SMA

BIO 86: Cell Biology

This course will focus on the basic structures inside cells and how they execute cellular functions. Topics include organelles, membrane trafficking, the cytoskeleton, cell division, and signal transduction. Classic and recent primary literature will be incorporated into lectures with an emphasis on state of the art experimental approaches. Prerequisites: BIO 83 is highly recommended.
Terms: Spr | Units: 4 | UG Reqs: WAY-SMA

BIO 101: Science for Conservation Policy: Meeting California's Pledge to Protect 30% by 2030 (EARTHSYS 101C)

California has set the ambitious goal of conserving 30% of its lands and waters by the year 2030. In this course, students will develop science-based recommendations to help policymakers reach this '30 by 30' goal. Through lectures, labs, and field trips, students will gain practical skills in ecology, protected area design in the face of climate change, and science communication. Students will apply these skills to analyze real-world data, formulate conservation recommendations, and communicate their findings in verbal and written testimony to policymakers. Prerequisites: BIO 81 or BIO/ EARTHSYS 105 or BIO/ EARTHSYS 111 or instructor approval.
Terms: Win | Units: 4 | UG Reqs: WAY-AQR

BIO 105A: Ecology and Natural History of Jasper Ridge Biological Preserve (EARTHSYS 105A)

The Ecology and Natural History of the Jasper Ridge Biological Preserve is an upper-division course that aims to help students learn ecology and natural history using a 'living laboratory,' the Jasper Ridge Biological Preserve. The course's central goal is that, as a community of learning, we examine 'via introductory discussions, followed by hands-on experiences in the field' the scientific basis of ecological research, archaeology, edaphology, geology, species interactions, land management, and multidisciplinary environmental education. The first 10 sessions that compose the academic program are led by the instructors, faculty (world-experts on the themes of each session), and JRBP staff. In addition, this 20-week class (winter and spring quarters) trains students to become JRBP Docents that will join the Jasper Ridge education affiliates community. Completion of both Winter ( BIO 105A) and Spring ( BIO 105B) sequence training program is required to join the Ecology and Natural History of Jasper Ridge Biological Preserve course.
Terms: Win | Units: 4

BIO 105B: Ecology and Natural History of Jasper Ridge Biological Preserve (EARTHSYS 105B)

The Ecology and Natural History of the Jasper Ridge Biological Preserve is an upper-division course that aims to help students learn ecology and natural history using a 'living laboratory,' the Jasper Ridge Biological Preserve. The course's central goal is that, as a community of learning, we examine 'via introductory discussions, followed by hands-on experiences in the field' the scientific basis of ecological research, archaeology, edaphology, geology, species interactions, land management, and multidisciplinary environmental education. The first 10 sessions that compose the academic program are led by the instructors, faculty (world-experts on the themes of each session), and JRBP staff. In addition, this 20-week class (winter and spring quarters) trains students to become JRBP Docents that will join the Jasper Ridge education affiliates community. Completion of both Winter ( BIO 105A) and Spring ( BIO 105B) sequence training program is required to join the Ecology and Natural History of Jasper Ridge Biological Preserve course.
Terms: Spr | Units: 4

BIO 111: Microbiology

Introduction to microbiology, with emphasis on bacteria. Topics include the cell structure of microorganisms, gene regulation, bacterial genetics, bacterial evolution and diversity, bacterial development, interaction and communication, bacterial chemotaxis and motility, microbiomes, infectious diseases, bacterial pathogenesis, host defense systems, and viruses. Strongly recommended: molecular biology, biochemistry, genetics or cell biology courses (e.g. BIO 82, 83 or 86).
Terms: Win | Units: 3
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