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POGIL Cellular Communication: A Deep Dive into Cell Signaling
Are you struggling to grasp the complexities of cellular communication? Do endless textbook readings leave you feeling more confused than enlightened? Then you’ve come to the right place! This comprehensive guide explores the fascinating world of cellular communication through the lens of POGIL (Process-Oriented Guided-Inquiry Learning) activities, offering a practical and engaging approach to mastering this crucial biological concept. We'll break down key processes, explain complex mechanisms, and provide you with the tools you need to truly understand how cells interact and communicate with each other. Prepare to unlock the secrets of cellular signaling!
What is POGIL and Why is it Useful for Understanding Cellular Communication?
POGIL is a pedagogical approach that emphasizes active learning and collaborative problem-solving. Instead of passively absorbing information, POGIL activities encourage students to actively engage with the material, working together to analyze data, interpret results, and construct their own understanding. This approach is particularly effective for understanding cellular communication, a topic characterized by intricate pathways and multiple interacting components. By actively working through POGIL activities, students develop a deeper, more robust understanding of the underlying principles, rather than simply memorizing facts.
Key Components of Cellular Communication: A POGIL-Inspired Breakdown
Cellular communication involves a complex interplay of signaling molecules and receptors, leading to a diverse range of cellular responses. Let's dissect some key components using a POGIL-like approach:
#### 1. Signal Reception: The First Step
The process begins with signal reception. Imagine a cell receiving a letter (the signal). This “letter” is a signaling molecule, often a hormone, neurotransmitter, or growth factor. The cell needs a specific “mailbox” (receptor) to receive this letter. POGIL activities could focus on analyzing different receptor types (e.g., G-protein coupled receptors, enzyme-linked receptors, ligand-gated ion channels) and how they bind specific signaling molecules. This allows for a focused exploration of receptor specificity and the initial steps of signal transduction.
#### 2. Signal Transduction: Relaying the Message
Once the signal is received, it needs to be relayed within the cell. This is the signal transduction pathway. Think of it as passing the letter from the mailbox to the appropriate department within the “cell city.” This often involves a cascade of intracellular events, including phosphorylation, second messenger production, and protein activation. A POGIL activity could involve tracing a specific signaling pathway, identifying key proteins and enzymes, and predicting the consequences of disrupting different steps in the pathway.
#### 3. Cellular Response: The Final Outcome
The final step is the cellular response. The message has arrived, and the cell now acts accordingly. This could involve changes in gene expression, metabolism, cell growth, or cell death. A POGIL exercise could involve comparing and contrasting different cellular responses to the same signal, depending on the cell type or the presence of other signals. This highlights the context-dependent nature of cellular responses.
#### 4. Signal Termination: Shutting Down the System
It’s crucial to shut down the signaling pathway once the response is complete. Think of it as archiving the letter once its purpose is served. This prevents prolonged or inappropriate cellular responses. POGIL activities could explore different mechanisms of signal termination, such as receptor downregulation, enzyme inactivation, or the breakdown of second messengers.
Types of Cellular Communication: Direct and Indirect
Cellular communication can be classified into direct and indirect interactions:
Direct Communication: This occurs via gap junctions or plasmodesmata, allowing direct transfer of molecules between adjacent cells. A POGIL activity could focus on comparing and contrasting the structure and function of these connections in animal and plant cells.
Indirect Communication: This involves secreted signaling molecules that travel to target cells. This is further divided into autocrine, paracrine, endocrine, and juxtacrine signaling, each with different ranges and mechanisms. A POGIL exercise could involve analyzing case studies of each type of signaling, identifying the signaling molecule, the target cell, and the resulting response.
Examples of Cellular Communication in Action
Numerous biological processes rely on efficient cellular communication. These include immune responses, nervous system function, hormone regulation, and embryonic development. A POGIL activity could involve investigating a specific biological process, identifying the key signaling molecules and pathways involved, and analyzing the consequences of disruptions in the communication process.
Conclusion
Understanding cellular communication is fundamental to comprehending various biological processes. By utilizing a POGIL approach, you can actively engage with the material, fostering a deeper and more robust understanding of this complex topic. This guide has provided a framework for exploring key concepts, but the true learning lies in actively participating in POGIL activities, collaborating with peers, and tackling challenging problems.
FAQs
1. What are some good resources for finding POGIL activities on cellular communication? Many universities and colleges with biology departments post their POGIL activities online. Search for "[University Name] POGIL cellular communication" to find potential resources. Also check the POGIL Project website itself.
2. How can I adapt POGIL activities for different learning styles? POGIL activities can be adapted to cater to different learning styles. Visual learners might benefit from diagrams and illustrations; auditory learners from discussions; and kinesthetic learners from hands-on experiments.
3. Are there POGIL activities suitable for different educational levels? Yes, POGIL activities are designed to be adaptable to various learning levels, from high school to university. The complexity and depth of the concepts explored can be adjusted based on the students' background knowledge.
4. How does POGIL compare to traditional lecture-based learning in this context? POGIL emphasizes active learning and collaborative problem-solving, leading to a deeper understanding compared to passive absorption of information through lectures. Students actively construct their knowledge rather than passively receiving it.
5. Can POGIL activities be used in online learning environments? Absolutely! Many online platforms facilitate collaborative learning and allow for the implementation of POGIL activities in virtual classrooms. Tools for sharing documents, conducting discussions, and providing feedback are readily available.
| pogil cellular communication: POGIL Shawn R. Simonson, 2023-07-03 Process Oriented Guided Inquiry Learning (POGIL) is a pedagogy that is based on research on how people learn and has been shown to lead to better student outcomes in many contexts and in a variety of academic disciplines. Beyond facilitating students’ mastery of a discipline, it promotes vital educational outcomes such as communication skills and critical thinking. Its active international community of practitioners provides accessible educational development and support for anyone developing related courses.Having started as a process developed by a group of chemistry professors focused on helping their students better grasp the concepts of general chemistry, The POGIL Project has grown into a dynamic organization of committed instructors who help each other transform classrooms and improve student success, develop curricular materials to assist this process, conduct research expanding what is known about learning and teaching, and provide professional development and collegiality from elementary teachers to college professors. As a pedagogy it has been shown to be effective in a variety of content areas and at different educational levels. This is an introduction to the process and the community.Every POGIL classroom is different and is a reflection of the uniqueness of the particular context – the institution, department, physical space, student body, and instructor – but follows a common structure in which students work cooperatively in self-managed small groups of three or four. The group work is focused on activities that are carefully designed and scaffolded to enable students to develop important concepts or to deepen and refine their understanding of those ideas or concepts for themselves, based entirely on data provided in class, not on prior reading of the textbook or other introduction to the topic. The learning environment is structured to support the development of process skills –– such as teamwork, effective communication, information processing, problem solving, and critical thinking. The instructor’s role is to facilitate the development of student concepts and process skills, not to simply deliver content to the students. The first part of this book introduces the theoretical and philosophical foundations of POGIL pedagogy and summarizes the literature demonstrating its efficacy. The second part of the book focusses on implementing POGIL, covering the formation and effective management of student teams, offering guidance on the selection and writing of POGIL activities, as well as on facilitation, teaching large classes, and assessment. The book concludes with examples of implementation in STEM and non-STEM disciplines as well as guidance on how to get started. Appendices provide additional resources and information about The POGIL Project. |
| pogil cellular communication: Preparing for the Biology AP Exam Neil A. Campbell, Jane B. Reece, Fred W. Holtzclaw, Theresa Knapp Holtzclaw, 2009-11-03 Fred and Theresa Holtzclaw bring over 40 years of AP Biology teaching experience to this student manual. Drawing on their rich experience as readers and faculty consultants to the College Board and their participation on the AP Test Development Committee, the Holtzclaws have designed their resource to help your students prepare for the AP Exam. Completely revised to match the new 8th edition of Biology by Campbell and Reece. New Must Know sections in each chapter focus student attention on major concepts. Study tips, information organization ideas and misconception warnings are interwoven throughout. New section reviewing the 12 required AP labs. Sample practice exams. The secret to success on the AP Biology exam is to understand what you must know and these experienced AP teachers will guide your students toward top scores! |
| pogil cellular communication: Biology for AP ® Courses Julianne Zedalis, John Eggebrecht, 2017-10-16 Biology for AP® courses covers the scope and sequence requirements of a typical two-semester Advanced Placement® biology course. The text provides comprehensive coverage of foundational research and core biology concepts through an evolutionary lens. Biology for AP® Courses was designed to meet and exceed the requirements of the College Board’s AP® Biology framework while allowing significant flexibility for instructors. Each section of the book includes an introduction based on the AP® curriculum and includes rich features that engage students in scientific practice and AP® test preparation; it also highlights careers and research opportunities in biological sciences. |
| pogil cellular communication: POGIL Activities for AP Biology , 2012-10 |
| pogil cellular communication: Molecular Biology of the Cell , 2002 |
| pogil cellular communication: Teaching and Learning STEM Richard M. Felder, Rebecca Brent, 2024-03-19 The widely used STEM education book, updated Teaching and Learning STEM: A Practical Guide covers teaching and learning issues unique to teaching in the science, technology, engineering, and math (STEM) disciplines. Secondary and postsecondary instructors in STEM areas need to master specific skills, such as teaching problem-solving, which are not regularly addressed in other teaching and learning books. This book fills the gap, addressing, topics like learning objectives, course design, choosing a text, effective instruction, active learning, teaching with technology, and assessment—all from a STEM perspective. You’ll also gain the knowledge to implement learner-centered instruction, which has been shown to improve learning outcomes across disciplines. For this edition, chapters have been updated to reflect recent cognitive science and empirical educational research findings that inform STEM pedagogy. You’ll also find a new section on actively engaging students in synchronous and asynchronous online courses, and content has been substantially revised to reflect recent developments in instructional technology and online course development and delivery. Plan and deliver lessons that actively engage students—in person or online Assess students’ progress and help ensure retention of all concepts learned Help students develop skills in problem-solving, self-directed learning, critical thinking, teamwork, and communication Meet the learning needs of STEM students with diverse backgrounds and identities The strategies presented in Teaching and Learning STEM don’t require revolutionary time-intensive changes in your teaching, but rather a gradual integration of traditional and new methods. The result will be a marked improvement in your teaching and your students’ learning. |
| pogil cellular communication: The Core Concepts of Physiology Joel Michael, William Cliff, Jenny McFarland, Harold Modell, Ann Wright, 2017-02-20 This book offers physiology teachers a new approach to teaching their subject that will lead to increased student understanding and retention of the most important ideas. By integrating the core concepts of physiology into individual courses and across the entire curriculum, it provides students with tools that will help them learn more easily and fully understand the physiology content they are asked to learn. The authors present examples of how the core concepts can be used to teach individual topics, design learning resources, assess student understanding, and structure a physiology curriculum. |
| pogil cellular communication: Anatomy and Physiology J. Gordon Betts, Peter DeSaix, Jody E. Johnson, Oksana Korol, Dean H. Kruse, Brandon Poe, James A. Wise, Mark Womble, Kelly A. Young, 2013-04-25 |
| pogil cellular communication: Process Oriented Guided Inquiry Learning (POGIL) Richard Samuel Moog, 2008 POGIL is a student-centered, group learning pedagogy based on current learning theory. This volume describes POGIL's theoretical basis, its implementations in diverse environments, and evaluation of student outcomes. |
| pogil cellular communication: Flip Your Classroom Jonathan Bergmann, Aaron Sams, 2012-06-21 Learn what a flipped classroom is and why it works, and get the information you need to flip a classroom. You’ll also learn the flipped mastery model, where students learn at their own pace, furthering opportunities for personalized education. This simple concept is easily replicable in any classroom, doesn’t cost much to implement, and helps foster self-directed learning. Once you flip, you won’t want to go back! |
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| pogil cellular communication: Anatomy & Physiology Lindsay Biga, Devon Quick, Sierra Dawson, Amy Harwell, Robin Hopkins, Joel Kaufmann, Mike LeMaster, Philip Matern, Katie Morrison-Graham, Jon Runyeon, 2019-09-26 A version of the OpenStax text |
| pogil cellular communication: Teaching at Its Best Linda B. Nilson, 2010-04-20 Teaching at Its Best This third edition of the best-selling handbook offers faculty at all levels an essential toolbox of hundreds of practical teaching techniques, formats, classroom activities, and exercises, all of which can be implemented immediately. This thoroughly revised edition includes the newest portrait of the Millennial student; current research from cognitive psychology; a focus on outcomes maps; the latest legal options on copyright issues; and how to best use new technology including wikis, blogs, podcasts, vodcasts, and clickers. Entirely new chapters include subjects such as matching teaching methods with learning outcomes, inquiry-guided learning, and using visuals to teach, and new sections address Felder and Silverman's Index of Learning Styles, SCALE-UP classrooms, multiple true-false test items, and much more. Praise for the Third Edition of Teaching at Its BestEveryone veterans as well as novices will profit from reading Teaching at Its Best, for it provides both theory and practical suggestions for handling all of the problems one encounters in teaching classes varying in size, ability, and motivation. Wilbert McKeachie, Department of Psychology, University of Michigan, and coauthor, McKeachie's Teaching TipsThis new edition of Dr. Nilson's book, with its completely updated material and several new topics, is an even more powerful collection of ideas and tools than the last. What a great resource, especially for beginning teachers but also for us veterans! L. Dee Fink, author, Creating Significant Learning ExperiencesThis third edition of Teaching at Its Best is successful at weaving the latest research on teaching and learning into what was already a thorough exploration of each topic. New information on how we learn, how students develop, and innovations in instructional strategies complement the solid foundation established in the first two editions. Marilla D. Svinicki, Department of Psychology, The University of Texas, Austin, and coauthor, McKeachie's Teaching Tips |
| pogil cellular communication: Signal Transduction in Plants P. Aducci, 1997 The molecular aspects of recognition and transduction of different kinds of signals is a research area that is spawning increasing interest world-wide. Major advances have been made in animal systems but recently plants too, have become particularly attractive because of their promising role in biotechnology. The type of signals peculiar to the plant world and the similarity of plant transduction pathways investigated thus far to their animal counterparts are prompting more and more studies in this modern area of cell biology. The present book provides a comprehensive survey of all aspects of the recognition and transduction of plant signals of both chemical and physical origin such as hormones, light, toxins and elicitors. The contributing authors are drawn from diverse areas of plant physiology and plant molecular biology and present here different approaches to studying the recognition and transduction of different signals which specifically trigger molecular processes in plants. Recent advances in the field are reviewed, providing the reader with the current state of knowledge as well as insight into research perspectives and future developments. The book should interest a wide audience that includes not only researchers, advanced students, and teachers of plant biology, biochemistry and agriculture, but it has also significant implications for people working in related fields of animal systems. |
| pogil cellular communication: Problem-based Learning Dorothy H. Evensen, Cindy E. Hmelo, Cindy E. Hmelo-Silver, 2000-01-01 This volume collects recent studies conducted within the area of medical education that investigate two of the critical components of problem-based curricula--the group meeting and self-directed learning--and demonstrates that understanding these complex phenomena is critical to the operation of this innovative curriculum. It is the editors' contention that it is these components of problem-based learning that connect the initiating problem with the process of effective learning. Revealing how this occurs is the task taken on by researchers contributing to this volume. The studies include use of self-reports, interviews, observations, verbal protocols, and micro-analysis to find ways into the psychological processes and sociological contexts that constitute the world of problem-based learning. |
| pogil cellular communication: Principles of Biology Lisa Bartee, Walter Shiner, Catherine Creech, 2017 The Principles of Biology sequence (BI 211, 212 and 213) introduces biology as a scientific discipline for students planning to major in biology and other science disciplines. Laboratories and classroom activities introduce techniques used to study biological processes and provide opportunities for students to develop their ability to conduct research. |
| pogil cellular communication: The Eukaryotic Cell Cycle J. A. Bryant, Dennis Francis, 2008 Written by respected researchers, this is an excellent account of the eukaryotic cell cycle that is suitable for graduate and postdoctoral researchers. It discusses important experiments, organisms of interest and research findings connected to the different stages of the cycle and the components involved. |
| pogil cellular communication: Basic Concepts in Biochemistry: A Student's Survival Guide Hiram F. Gilbert, 2000 Basic Concepts in Biochemistry has just one goal: to review the toughest concepts in biochemistry in an accessible format so your understanding is through and complete.--BOOK JACKET. |
| pogil cellular communication: Discipline-Based Education Research National Research Council, Division of Behavioral and Social Sciences and Education, Board on Science Education, Committee on the Status, Contributions, and Future Directions of Discipline-Based Education Research, 2012-08-27 The National Science Foundation funded a synthesis study on the status, contributions, and future direction of discipline-based education research (DBER) in physics, biological sciences, geosciences, and chemistry. DBER combines knowledge of teaching and learning with deep knowledge of discipline-specific science content. It describes the discipline-specific difficulties learners face and the specialized intellectual and instructional resources that can facilitate student understanding. Discipline-Based Education Research is based on a 30-month study built on two workshops held in 2008 to explore evidence on promising practices in undergraduate science, technology, engineering, and mathematics (STEM) education. This book asks questions that are essential to advancing DBER and broadening its impact on undergraduate science teaching and learning. The book provides empirical research on undergraduate teaching and learning in the sciences, explores the extent to which this research currently influences undergraduate instruction, and identifies the intellectual and material resources required to further develop DBER. Discipline-Based Education Research provides guidance for future DBER research. In addition, the findings and recommendations of this report may invite, if not assist, post-secondary institutions to increase interest and research activity in DBER and improve its quality and usefulness across all natural science disciples, as well as guide instruction and assessment across natural science courses to improve student learning. The book brings greater focus to issues of student attrition in the natural sciences that are related to the quality of instruction. Discipline-Based Education Research will be of interest to educators, policy makers, researchers, scholars, decision makers in universities, government agencies, curriculum developers, research sponsors, and education advocacy groups. |
| pogil cellular communication: Assessing and Improving Value in Cancer Care Institute of Medicine, Board on Health Care Services, National Cancer Policy Forum, 2009-11-30 Unlike many other areas in health care, the practice of oncology presents unique challenges that make assessing and improving value especially complex. First, patients and professionals feel a well-justified sense of urgency to treat for cure, and if cure is not possible, to extend life and reduce the burden of disease. Second, treatments are often both life sparing and highly toxic. Third, distinctive payment structures for cancer medicines are intertwined with practice. Fourth, providers often face tremendous pressure to apply the newest technologies to patients who fail to respond to established treatments, even when the evidence supporting those technologies is incomplete or uncertain, and providers may be reluctant to stop toxic treatments and move to palliation, even at the end of life. Finally, the newest and most novel treatments in oncology are among the most costly in medicine. This volume summarizes the results of a workshop that addressed these issues from multiple perspectives, including those of patients and patient advocates, providers, insurers, health care researchers, federal agencies, and industry. Its broad goal was to describe value in oncology in a complete and nuanced way, to better inform decisions regarding developing, evaluating, prescribing, and paying for cancer therapeutics. |
| pogil cellular communication: EBOOK: Foundations of Problem-based Learning Maggi Savin Baden, Claire Howell Major, 2004-08-16 “This book closes a gap in the PBL literature. It is a thoroughly researched, well documented and engagingly written three part harmony addressing conceptual frames, recurring themes, and broadening horizons. An essential addition to your library.” Professor Karl A. Smith, University of Minnesota “…a comprehensive guide for those new to PBL, and suitable for those new to teaching or for the more experienced looking for a new challenge.” Dr Liz Beaty, Director (Learning and Teaching), HEFCE “This book vividly articulates the key ideas of PBL and provides new PBL practitioners with key guiding posts for its implementation. It is an excellent contribution to the art of using PBL.” Associate Professor Oon-Seng Tan, Nanyang Technological University, Singapore ·What is problem-based learning? ·How can it be used in teaching? · How does problem-based learning affect staff and students? · How do we assess and evaluate it? Despite the growth in the use of problem-based learning since it was first popularised, there have been no resources to examine the foundations of the approach and offer straightforward guidance to those wishing to explore, understand, and implement it. This book describes the theoretical foundations of problem-based learning and is a practical source for staff wanting to implement it. The book is designed as a text that not only explores the foundations of problem-based learning but also answers many of the frequently-asked questions about its use. It has also been designed to develops the reader's understanding beyond implementation, including issues such as academic development, cultural, diversity, assessment, evaluation and curricular models of problem-based learning. Foundations of Problem-based Learning is a vital resource for lecturers in all disciplines who want to understand problem-based learning and implement it effectively in their teaching. |
| pogil cellular communication: The Language of Science Education William F. McComas, 2013-12-30 The Language of Science Education: An Expanded Glossary of Key Terms and Concepts in Science Teaching and Learning is written expressly for science education professionals and students of science education to provide the foundation for a shared vocabulary of the field of science teaching and learning. Science education is a part of education studies but has developed a unique vocabulary that is occasionally at odds with the ways some terms are commonly used both in the field of education and in general conversation. Therefore, understanding the specific way that terms are used within science education is vital for those who wish to understand the existing literature or make contributions to it. The Language of Science Education provides definitions for 100 unique terms, but when considering the related terms that are also defined as they relate to the targeted words, almost 150 words are represented in the book. For instance, “laboratory instruction” is accompanied by definitions for openness, wet lab, dry lab, virtual lab and cookbook lab. Each key term is defined both with a short entry designed to provide immediate access following by a more extensive discussion, with extensive references and examples where appropriate. Experienced readers will recognize the majority of terms included, but the developing discipline of science education demands the consideration of new words. For example, the term blended science is offered as a better descriptor for interdisciplinary science and make a distinction between project-based and problem-based instruction. Even a definition for science education is included. The Language of Science Education is designed as a reference book but many readers may find it useful and enlightening to read it as if it were a series of very short stories. |
| pogil cellular communication: POGIL Activities for High School Chemistry High School POGIL Initiative, 2012 |
| pogil cellular communication: Working with Numbers Sandra Ruth Schuck, Sandra Sadler, 2012 Suited for children in Year 1, aged 6-7, this book contains more than one hundred activities on number skills such as counting, sequencing, a dding, subtracting and grouping numbers. This range of interesting, grad ed questions will help Year 1 students become confident in working with numbers. This book follows the Year 1 Australian Curriculum Mathematics syllabus closely to provide all Year 1 students with a solid mathematica l foundation. In this book your child will find: Eight carefully graded units A wide variety of interesting ex ercises Words associated with each topic examined to ensure und erstanding A revision page after each unit to reinforce the con cepts covered A lift-out answer section |
| pogil cellular communication: How People Learn National Research Council, Division of Behavioral and Social Sciences and Education, Board on Behavioral, Cognitive, and Sensory Sciences, Committee on Developments in the Science of Learning with additional material from the Committee on Learning Research and Educational Practice, 2000-08-11 First released in the Spring of 1999, How People Learn has been expanded to show how the theories and insights from the original book can translate into actions and practice, now making a real connection between classroom activities and learning behavior. This edition includes far-reaching suggestions for research that could increase the impact that classroom teaching has on actual learning. Like the original edition, this book offers exciting new research about the mind and the brain that provides answers to a number of compelling questions. When do infants begin to learn? How do experts learn and how is this different from non-experts? What can teachers and schools do-with curricula, classroom settings, and teaching methodsâ€to help children learn most effectively? New evidence from many branches of science has significantly added to our understanding of what it means to know, from the neural processes that occur during learning to the influence of culture on what people see and absorb. How People Learn examines these findings and their implications for what we teach, how we teach it, and how we assess what our children learn. The book uses exemplary teaching to illustrate how approaches based on what we now know result in in-depth learning. This new knowledge calls into question concepts and practices firmly entrenched in our current education system. Topics include: How learning actually changes the physical structure of the brain. How existing knowledge affects what people notice and how they learn. What the thought processes of experts tell us about how to teach. The amazing learning potential of infants. The relationship of classroom learning and everyday settings of community and workplace. Learning needs and opportunities for teachers. A realistic look at the role of technology in education. |
| pogil cellular communication: Teach Better, Save Time, and Have More Fun Penny J. Beuning, Dave Z. Besson, Scott A. Snyder, Ingrid DeVries Salgado, 2014-12-15 A must-read for beginning faculty at research universities. |
| pogil cellular communication: BIO2010 National Research Council, Division on Earth and Life Studies, Board on Life Sciences, Committee on Undergraduate Biology Education to Prepare Research Scientists for the 21st Century, 2003-02-13 Biological sciences have been revolutionized, not only in the way research is conductedâ€with the introduction of techniques such as recombinant DNA and digital technologyâ€but also in how research findings are communicated among professionals and to the public. Yet, the undergraduate programs that train biology researchers remain much the same as they were before these fundamental changes came on the scene. This new volume provides a blueprint for bringing undergraduate biology education up to the speed of today's research fast track. It includes recommendations for teaching the next generation of life science investigators, through: Building a strong interdisciplinary curriculum that includes physical science, information technology, and mathematics. Eliminating the administrative and financial barriers to cross-departmental collaboration. Evaluating the impact of medical college admissions testing on undergraduate biology education. Creating early opportunities for independent research. Designing meaningful laboratory experiences into the curriculum. The committee presents a dozen brief case studies of exemplary programs at leading institutions and lists many resources for biology educators. This volume will be important to biology faculty, administrators, practitioners, professional societies, research and education funders, and the biotechnology industry. |
| pogil cellular communication: The Power of Problem-based Learning Barbara J. Duch, Susan E. Groh, Deborah E. Allen, 2001-01-01 Problem-based learning is a powerful classroom process, which uses real world problems to motivate students to identify and apply research concepts and information, work collaboratively and communicate effectively. It is a strategy that promotes life-long habits of learning.The University of Delaware is recognized internationally as a center of excellence in the use and development of PBL. This book presents the cumulative knowledge and practical experience acquired over nearly a decade of integrating PBL in courses in a wide range of disciplines.This how to book for college and university faculty. It focuses on the practical questions which anyone wishing to embark on PBL will want to know: Where do I start????How do you find problems????What do I need to know about managing groups????How do you grade in a PBL course?The book opens by outlining how the PBL program was developed at the University of Delaware--covering such issues as faculty mentoring and institutional support--to offer a model for implementation for other institutions.The authors then address the practical questions involved in course transformation and planning for effective problem-based instruction, including writing problems, using the Internet, strategies for using groups, the use of peer tutors and assessment. They conclude with case studies from a variety of disciplines, including biochemistry, pre-law, physics, nursing, chemistry, political science and teacher educationThis introduction for faculty, department chairs and faculty developers will assist them to successfully harness this powerful process to improve learning outcomes. |
| pogil cellular communication: Organic Chemistry Suzanne M. Ruder, The POGIL Project, 2015-12-29 ORGANIC CHEMISTRY |
| pogil cellular communication: Learner-Centered Teaching Maryellen Weimer, 2008-05-02 In this much needed resource, Maryellen Weimer-one of the nation's most highly regarded authorities on effective college teaching-offers a comprehensive work on the topic of learner-centered teaching in the college and university classroom. As the author explains, learner-centered teaching focuses attention on what the student is learning, how the student is learning, the conditions under which the student is learning, whether the student is retaining and applying the learning, and how current learning positions the student for future learning. To help educators accomplish the goals of learner-centered teaching, this important book presents the meaning, practice, and ramifications of the learner-centered approach, and how this approach transforms the college classroom environment. Learner-Centered Teaching shows how to tie teaching and curriculum to the process and objectives of learning rather than to the content delivery alone. |
| pogil cellular communication: Medical Microbiology Illustrated S. H. Gillespie, 2014-06-28 Medical Microbiology Illustrated presents a detailed description of epidemiology, and the biology of micro-organisms. It discusses the pathogenicity and virulence of microbial agents. It addresses the intrinsic susceptibility or immunity to antimicrobial agents. Some of the topics covered in the book are the types of gram-positive cocci; diverse group of aerobic gram-positive bacilli; classification and clinical importance of erysipelothrix rhusiopathiae; pathogenesis of mycobacterial infection; classification of parasitic infections which manifest with fever; collection of blood for culture and control of substances hazardous to health. The classification and clinical importance of neisseriaceae is fully covered. The definition and pathogenicity of haemophilus are discussed in detail. The text describes in depth the classification and clinical importance of spiral bacteria. The isolation and identification of fungi are completely presented. A chapter is devoted to the laboratory and serological diagnosis of systemic fungal infections. The book can provide useful information to microbiologists, physicians, laboratory scientists, students, and researchers. |
| pogil cellular communication: Concepts of Biology Samantha Fowler, Rebecca Roush, James Wise, 2023-05-12 Black & white print. Concepts of Biology is designed for the typical introductory biology course for nonmajors, covering standard scope and sequence requirements. The text includes interesting applications and conveys the major themes of biology, with content that is meaningful and easy to understand. The book is designed to demonstrate biology concepts and to promote scientific literacy. |
| pogil cellular communication: Peer-Led Team Learning: Evaluation, Dissemination, and Institutionalization of a College Level Initiative Leo Gafney, Pratibha Varma-Nelson, 2008-06-24 There seems to be no end to the flood of conferences, workshops, panel discussions, reports and research studies calling for change in the introductory science courses in our colleges and universities. But, there comes a time to move from criticism to action. In 1993, the Division of Undergraduate Education of the National Science Foundation called for proposals for systemic initiatives to change the way int- ductory chemistry is taught. One of the five awards was to design, develop and implement the peer-led Workshop, a new structure to help students learn science. This book is a study of 15 years of work by the Peer-Led Team Learning (PLTL) project, a national consortium of faculty, learning specialists and students. The authors have been in the thick of the action as project evaluator (Gafney) and co-principle investigator (Varma-Nelson). Readers of this book will find a story of successful change in educational practice, a story that continues today as new institutions, faculty, and disciplines adopt the PLTL model. They will learn the model in theory and in practice and the supporting data that encourage others to adopt and adapt PLTL to new sit- tions. Although the project has long since lost count of the number of implem- tations of the model, conservative estimates are that more than 100 community and four year colleges and a range of universities have adopted the PLTL model to advance student learning for more than 20,000 students in a variety of STEM disciplines. |
| pogil cellular communication: POGIL Activities for Introductory Anatomy and Physiology Courses Murray Jensen, Anne Loyle, Allison Mattheis, The POGIL Project, 2014-08-25 This book is a collection of fifteen POGIL activities for entry level anatomy and physiology students. The collection is not comprehensive: it does not have activities for every body system, but what we do offer is a good first step to introducing POGIL to your students. There are some easy and short activities (Levels of Organization) and others that are more difficult (Determinants of Blood Oxygen Content). |
| pogil cellular communication: Biochemistry Education Assistant Teaching Professor Department of Chemistry and Biochemistry Thomas J Bussey, Timothy J. Bussey, Kimberly Linenberger Cortes, Rodney C. Austin, 2021-01-18 This volume brings together resources from the networks and communities that contribute to biochemistry education. Projects, authors, and practitioners from the American Chemical Society (ACS), American Society of Biochemistry and Molecular Biology (ASBMB), and the Society for the Advancement of Biology Education Research (SABER) are included to facilitate cross-talk among these communities. Authors offer diverse perspectives on pedagogy, and chapters focus on topics such as the development of visual literacy, pedagogies and practices, and implementation. |
| pogil cellular communication: Evolving Corporate Education Strategies for Developing Countries: The Role of Universities Narasimharao, B. PanduRanga, 2013-01-31 Educational commissions continue to press the need for growth in higher education. In particular, universities in developing countries persist in putting their academic theory into practice by aiming to integrate their intellectual and cultural traditions into higher education. Evolving Corporate Education Strategies for Developing Countries: The Role of Universities presents the theories and opportunities for integrating corporate education into traditional universities as well as highlighting the professional development in different subject areas. This book provides relevant research important for policy makers, practitioners and scholars of higher education. |
| pogil cellular communication: Microtubule Dynamics Anne Straube, 2017-04-30 Microtubules are at the heart of cellular self-organization, and their dynamic nature allows them to explore the intracellular space and mediate the transport of cargoes from the nucleus to the outer edges of the cell and back. In Microtubule Dynamics: Methods and Protocols, experts in the field provide an up-to-date collection of methods and approaches that are used to investigate microtubule dynamics in vitro and in cells. Beginning with the question of how to analyze microtubule dynamics, the volume continues with detailed descriptions of how to isolate tubulin from different sources and with different posttranslational modifications, methods used to study microtubule dynamics and microtubule interactions in vitro, techniques to investigate the ultrastructure of microtubules and associated proteins, assays to study microtubule nucleation, turnover, and force production in cells, as well as approaches to isolate novel microtubule-associated proteins and their interacting proteins. Written in the highly successful Methods in Molecular BiologyTM series format, chapters include introductions to their respective topics, lists of the necessary materials and reagents, step-by-step, readily reproducible laboratory protocols, and tips on troubleshooting and avoiding known pitfalls. Definitive and practical, Microtubule Dynamics: Methods and Protocols provides the key protocols needed by novices and experts on how to perform a broad range of well-established and newly-emerging techniques in this vital field. |
| pogil cellular communication: Concepts in Biochemistry Rodney F. Boyer, 1998 Rodney Boyer's text gives students a modern view of biochemistry. He utilizes a contemporary approach organized around the theme of nucleic acids as central molecules of biochemistry, with other biomolecules and biological processes treated as direct or indirect products of the nucleic acids.The topical coverage usually provided in current biochemistry courses is all present - only the sense of focus and balance of coverage has been modified. The result is a text of exceptional relevance for students in allied-health fields, agricultural studies, and related disciplines. |
| pogil cellular communication: Trends in Teaching Experimentation in the Life Sciences Nancy J. Pelaez, Stephanie M. Gardner, Trevor R. Anderson, 2022-05-11 This book is a guide for educators on how to develop and evaluate evidence-based strategies for teaching biological experimentation to thereby improve existing and develop new curricula. It unveils the flawed assumptions made at the classroom, department, and institutional level about what students are learning and what help they might need to develop competence in biological experimentation. Specific case studies illustrate a comprehensive list of key scientific competencies that unpack what it means to be a competent experimental life scientist. It includes explicit evidence-based guidelines for educators regarding the teaching, learning, and assessment of biological research competencies. The book also provides practical teacher guides and exemplars of assignments and assessments. It contains a complete analysis of the variety of tools developed thus far to assess learning in this domain. This book contributes to the growth of public understanding of biological issues including scientific literacy and the crucial importance of evidence-based decision-making around public policy. It will be beneficial to life science instructors, biology education researchers and science administrators who aim to improve teaching in life science departments. Chapters 6, 12, 14 and 22 are available open access under a Creative Commons Attribution 4.0 International License via link.springer.com. |
| pogil cellular communication: Phys21 American Physical Society, American Association of Physics Teachers, 2016-10-14 A report by the Joint Task Force on Undergraduate Physics Programs |
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