Introduction to Cell and Molecular Biology, BIOL 190, Great Basin College

Fall, 2015

Sections 1005, 1006, 1007, 1008, 1010, 1013

SYLLABUS

Lecture Instructor: Nick Haertle

Office: Lundberg Hall 128C

Phone: 753-2284

E-mail:

Office Hours: M 1:00-4:00; TH 9:00-10:00; F 10:00-12:00; by appointment.

Lecture Reading Assignments and Exam Dates

Chapter Topic

1 Introduction

2 Water & Carbon

3 Proteins

4 Nucleic Acids

5 Carbohydrates

6 Lipids & Membranes

7 Inside the Cell

8 Energy & Enzymes

9 Respiration

10 Photosynthesis

11 Cell – Cell Interactions

12 Cell Cycle

13 Meiosis

14 Mendelian Genetics

15 DNA

16 How Genes Work

17 Transcription & Translation

18 Control of Gene Expression in Bacteria

19 Control of Gene Expression in Eukaryotes

25 Natural Selection

26 Evolutionary Processes

EXAM I: Tuesday, September 22

EXAM II: Tuesday, October 20

EXAM III: Tueday, November 17

FINAL EXAM: Tuesday, December 15

Reading assignments and exam dates are tentative, and may be changed at the discretion of the instructor. Typically, exams will cover between 4-5 chapters. Any changes will be announced in class.

Required Texts:

Biological Science. 5th ed. Freeman. ISBN 9780321743619

Laboratory Manual. 6th ed. Perry, Morton, and Perry.

Grading System and Policies:

The grade for this course will be based on two components: performance in lecture; and laboratory. They will be weighted 75% for the lecture, and 25% for the lab. The lecture grade will be based on four, one hour exams, worth 100 points each. However, pop quizzes may be given at MY DISCREDITION. The lab grade will be based on two practical exams worth 50 points each, a written report worth 50 points and ten weekly quizzes worth 10 points each. The grading scale is as follows:

90 - 100% = A Excellent! Your doing super! Keep up the good work. Have you

considered a career in the life sciences?

80 - 89% = B Superior! Continue what you’re doing, but consider asking

questions on the finer details in the text and lecture material.

70 - 79% = C Adequate. You’ve got it under control, but don’t get complacent.

Review your notes and the text carefully. Ask questions, either in

class or in my office to clarify important topics.

60 - 69% = D Danger zone. All is not lost, but you are at risk. You need to

carefully work through the materials and resources available to

you. Attend regularly, and work on your note taking skills. Make

sure to either ask questions in class or come by my office for help.

60% = F Failing. Definitely come to my office for a visit where we can

work on a strategy for your improvement.

Note: By GBC policy, I can no longer issue a grade of “W” or withdrawal. Be advised that the last date for a student to withdraw from a course is 23 March (up to you to double check and keep up to date).

All exams and lab practicals will be held on the dates listed in the syllabus. Any changes to that schedule will be announced in class well in advance. Missing an exam due to personal reasons or illness must be approved in advance if possible, or by contacting me within 24 hours of the exam in the case of emergency. Make up exams will be allowed and scheduled at my discretion.

Lab practicals are difficult to set up. As a result, make up lab practicals will only be scheduled in unusual circumstances. In these cases the format of the exam may change. Do not miss lab practicals!

Note: The lab schedule and guidelines will be distributed in your lab section by your lab instructor.

Attendance will not be taken, but be advised: Regular attendance is the single most important thing you can do to get and maintain a good grade.

Web Sites Used in This Course:

Two web sites will be used in this course, GBC’s own MyGBC, and WebCampus.

MyGBC:

I will be using the email lists at MyGBC for announcements. Please make sure that your email address at MyGBC is both current and one that you check regularly.

WebCampus:

I will be using WebCampus in lecture sparingly. However, I may start using it more as the semester progresses. Your lab instructor will be making heavy use of WebCampus however. For the time being, do not contact me through WebCampus. If you need to contact me use my regular email or phone listed on the first page. To log into WebCampus, go to: https://gbcnv.instructure.com/login Your WebCampus ID is your Great Basin College email address ID. If you don't have a GBC email address or don't remember your address go to swami.scsr.nevada.edu or the Technology Help Desk , or 753-2167. Passwords will be sent by mail to students who register for their course(s) 5 days before the semester begins. If you register after this time or did not receive a letter by mail, contact the Help Desk as soon as possible.

Miscellaneous Policies:

Americans with Disabilities Act (ADA) Statement: GBC supports providing equal access for students with disabilities. An advisor is available to discuss appropriate accommodations with students. Please contact the ADA Officer (Julie Byrnes) at 775-753-2271 at your earliest convenience to request timely and appropriate accommodations.

Academic Honesty Statement: Great Basin College considers academic honesty one of its highest values. A student who obtains academic credit for work that is not the product of his or her own effort is being dishonest and undermining the academic integrity of the college. Students are expected to be the sole authors of their work. Use of another’s ideas must be accompanied by specific citation and reference. In addition, a learner may not submit the same work for credit in more than one course. The disciplinary consequences of plagiarism and other forms of academic dishonesty include non-acceptance of work submitted, a failing grade in the course, and/or or other disciplinary action as outlined in Great Basin College’s Student Conduct Policy.

Cell Phone Policy: Cell phones must be turned off or to vibrate before class and left off during class. Neither phoning nor text messaging is permitted.

Campus Security:GBC is committed to the safety of our students and has a duty to promote awareness and prevention programs for violence on campus under the Jeanne Clery Act as well as the Campus SaVE (Sexual Violence Elimination Act) and VAWA (Violence Against Women Act), which are amendments to Clery. Acts of violence include, but are not limited to, sexual assault, domestic violence, dating violence, and stalking. Acts of violence can occur on the physical campus or centers of GBC in addition to field placement sites, clinical practice settings, and other places where college or class activities occur.As well, the online environment at GBC is considered a GBC site.If you experience any incidence where your safety has been threatened or violated, or if you feel threatened or harassed, immediately report this to me, any center director, faculty, or staff member, or directly to the Director of Environmental Health, Safety & Security(775.753.2115) or the Vice President for Student Services(775.753.2282).

This syllabus does not in any way represent a contract. It is a reflection of the intent of the instructor, but do recognize that it is an organic construct that may change as the semester progresses. Any changes will be announced in class.

Catalog Description:

BIOL 190 Introduction to Cell and Molecular Biology (4)

Structure and function of cells. Major molecules of life; composition and physiology of cellular organelles; cell metabolism, reproduction, motility, and gene function of both plant and animal cells. Required for biology majors. Concurrent enrollment in a corresponding lab section is required for this course. Prerequisite: Must have completed MATH 96, MATH 97, MATH 120 or higher, or attained satisfactory score for placement into MATH 120 in ACT, SAT or placement tests.

Learning Outcomes and Measurements:

Learning Outcomes / Measurement
Molecules of Life
Solve problems involving the identification and functions of the 4 classes of biologically relevant carbon compounds / Lecture exam, laboratory quizzes
Cellular Metabolism
Describe common biochemical pathways (including glycolysis, Krebs cycle, chemiosmosis, fermentation and photosynthesis) and solve problems involving integrated cellular metabolism. / Lecture exam, laboratory quizzes
Genetics
Apply concepts of transmission and molecular genetics / Lecture exam, laboratory quizzes
Evolution/Natural Selection
Describe how natural selection leads to evolution, and how this process is tested with the tools of quantitative genetics / Lecture exam, laboratory quizzes together with discussion, written response to video, with quantitative genetics problems in lecture and lab

Course Objectives and Outcomes:

·  Introduction to Cell and Molecular Biology is a four credit, freshman level laboratory science course designed for the science major. For biology majors, it is intended as the first semester of a two semester sequence that continues with BIOL 191. Additionally, it can fulfill the science requirement for most associate degrees at Great Basin College.

·  This is a survey course designed for the student intending to major in biology or another science. Such fundamental topics as cell biology, biomolecules, photosynthesis, respiration, genetics (both Mendelian and molecular), and evolution will be introduced.

·  The GBC General Education Objectives (at end of syllabus) are addressed in this class.

Measurement of Objectives:

Learning and general education objectives will be assessed with three distinct tools. Lecture exams will consist of multiple choice questions that will test three types of knowledge: recall of factual information; definitions of terminology; and conceptual and integrative thinking. Laboratory practicals will emphasize recall of the various manipulative and study objects used in the exercises, as well as testing that the students understand the concepts and principles that were generated with these devices. The written laboratory report will asses there written communication skills, as well as their conceptual understanding of a critical lab experiment. This last experiment has been chosen for its mix of conceptual, numeric, and technical skills. Further details on the measurement of the GBC General Education Objectives can be found at the end of this syllabus.

Method of Instruction: Live lecture and laboratory, with assigned readings and online enhancements.

General Education Objectives and Measurement:

Communications Skills Objective

Students will have several opportunities to exercise written and oral communication skills throughout this course. They will complete laboratory reports and written assignments accessing scientific information as well as written exams. Oral communication skills will also be utilized during discussions involved in completing laboratory assignments.

Measurement of this objective: lecture exams (students will be able to read and answer exam questions in written form), lab practical exams (students will read and answer exam questions in written form), written lab report (students will clearly communicate scientific information in written form, see “lab reports” above for grading rubric), class discussions (students will be able to communicate scientific ideas orally, ungraded)

Critical Thinking Objective

Quantitative Ability- Students will use mathematical principles and quantitative methods to complete the laboratory assignments. They will also learn how to quantitatively measure molecular-biological and cellular characteristics.

Reasoning and Independent Thought- Students will use reasoning and independent thought to complete laboratory experiments and answer exam questions.

Scientific Understanding- Students will comprehend workings of molecular-biological and cellular systems and the process by which the scientific knowledge is discovered. They will also develop the ability to understand molecular-biological and cellular information and how it relates to them.

Measurement of this objective: lecture exams (students will be able to answer quantitative questions related to cell and molecular biology on exams, many questions on the exams will require the student to examine data and make an independent conclusion), lab practical exams (students will be able to answer quantitative questions related to cell and molecular biology on exams), written lab report (students will calculate and present quantitative results clearly in the lab reports), class discussions (ungraded)

Personal and Cultural Awareness Objective

Sense of the Individual in Society- Students will gain an understanding of molecular and cellular biology and how this affects them and society.

Sense of the Past- Students will gain an understanding of how biological knowledge was discovered and how this knowledge has changed society and their lives.

Sense of Accountability- Students will comprehend the consequences of human discoveries in molecular and cellular biology and their implications.

Appreciation of Fine Arts- Students will develop an understanding of the value of biological diversity and individual curiosity and creative thought.

Measurement of this objective: lecture exams (students will be able to answer exam questions on the importance and place of cell and molecular biology in society, on the history of biological research, and how their actions affect them and their environment), lab practical exams (students will be able to answer lab practical exam questions on the importance and place of cell and molecular biology in society, on the history of biological research, and how their actions affect them and their environment), class discussions (students will be able to discuss the importance and place of cell and molecular biology in society and how their actions affect them and their environment ungraded)

Personal Wellness Objective

Students will develop skills in determining the consequences of their actions in relation to the environment and their personal health. They will gain knowledge needed to make important decisions involving personal health.

Measurement of this objective: lecture exams (students will be able to answer exam questions on the molecular basis of human health), lab practical exams (students will be able to answer lab practical exam questions on the molecular basis of human health), class discussions (students will discuss the molecular basis of human health, ungraded)

Technological Understanding

Students will gain knowledge of how advancing technology in the field of biology will affect their lives and their personal health.

Measurement of this objective: lecture exams (students will be able to answer exam questions on technology in cell and molecular biology, and human health), lab practical exams (students will demonstrate the ability to use technological lab equipment used in biology and relate the use of this equipment to cell and molecular biology and human health), written lab report (students will present, in written form, the use of technology to discover knowledge in the area of cell and molecular biology – the “procedures” section of their lab reports)