Biochemistry and Molecular Biology of Plants Buchanan.epub: A Digital Edition of the Plant Science Classic
Biochemistry and Molecular Biology of Plants Buchanan.epub: A Comprehensive Guide
If you are a plant science student or researcher, you probably have heard of the book Biochemistry and Molecular Biology of Plants by Buchanan et al. This book is widely regarded as the most authoritative and comprehensive reference in the field of plant biochemistry and molecular biology. But did you know that there is an electronic version of this book available in epub format? In this article, we will introduce you to Biochemistry and Molecular Biology of Plants Buchanan.epub, a digital edition that offers many advantages over the print version. We will also show you how to use this book effectively for your learning and teaching needs.
Biochemistry And Molecular Biology Of Plants Buchanan.epub
What is biochemistry and molecular biology of plants?
Biochemistry and molecular biology are two closely related disciplines that study the chemical and physical processes that underlie the structure and function of living organisms. Biochemistry focuses on the molecules that make up cells and tissues, such as proteins, lipids, carbohydrates, nucleic acids, and metabolites. Molecular biology investigates how these molecules interact with each other and with the environment to regulate gene expression, cell division, differentiation, development, signaling, and responses to stress. Plant biochemistry and molecular biology apply these principles to understand how plants grow, develop, adapt, and produce useful products such as food, fiber, fuel, medicine, and biotechnology.
What is Buchanan.epub?
Buchanan.epub is the electronic version of the book Biochemistry and Molecular Biology of Plants, edited by Bob B. Buchanan, Wilhelm Gruissem, and Russell L. Jones. This book was first published in 2000 by the American Society of Plant Biologists (ASPB) and John Wiley & Sons, Inc. It was updated in 2015 with a second edition that reflects the latest advances in plant science research. The book contains 136 chapters written by 253 experts from around the world, covering all aspects of plant biochemistry and molecular biology in depth. The book is divided into seven parts, each consisting of several chapters organized by themes. The epub format is a digital file format that allows you to read the book on various devices such as computers, tablets, smartphones, e-readers, etc. You can also adjust the font size, color, brightness, layout, etc. according to your preferences. You can also search for keywords, highlight text, bookmark pages, add notes, and access hyperlinks within the book or to external sources.
Why is this book important for plant scientists?
This book is important for plant scientists because it provides a comprehensive and authoritative source of information on plant biochemistry and molecular biology. It covers both the fundamental concepts and the cutting-edge topics in the field, such as genomics, proteomics, metabolomics, systems biology, synthetic biology, bioinformatics, etc. It also integrates the knowledge from different disciplines, such as physiology, genetics, ecology, evolution, agronomy, etc. to show how plants function as a whole. This book is suitable for students at various levels, from undergraduate to graduate to postdoctoral, as well as for instructors and researchers who want to update their knowledge and skills. This book is also valuable for professionals and practitioners who work in related fields, such as biotechnology, agriculture, medicine, environmental science, etc.
Main features of the book
Structure and organization
The book is structured into seven parts, each consisting of several chapters organized by themes. The parts are:
Part I: Compartments
This part covers the structure and function of the different compartments of plant cells, such as the cell wall, the plasma membrane, the cytosol, the nucleus, the endoplasmic reticulum, the Golgi apparatus, the mitochondria, the chloroplasts, the peroxisomes, and the vacuoles. It also discusses how these compartments communicate and cooperate with each other.
Part II: Cell Reproduction
This part covers the molecular mechanisms of cell cycle regulation, DNA replication, chromosome structure and dynamics, mitosis and cytokinesis, meiosis and recombination, and gametogenesis. It also covers the topics of cell death and senescence.
Part III: Metabolism and Respiration
This part covers the metabolic pathways and enzymes involved in the synthesis and degradation of carbohydrates, lipids, amino acids, nucleotides, vitamins, cofactors, hormones, and secondary metabolites. It also covers the topics of energy metabolism, oxidative phosphorylation, photosynthesis, photorespiration, carbon fixation, nitrogen fixation, sulfur assimilation, and metal homeostasis.
Part IV: Gene Expression and Biotechnology
This part covers the molecular mechanisms of gene expression regulation at different levels: transcription initiation and elongation; RNA processing; RNA stability; RNA transport; translation initiation and elongation; protein folding; protein modification; protein degradation; protein transport; epigenetic regulation; chromatin remodeling; gene silencing; genomic imprinting; transposable elements; gene editing; genetic engineering; transgenic plants; plant biotechnology.
Part V: Plant Development
This part covers the molecular mechanisms of plant development at different levels: embryogenesis; seed development; seed dormancy and germination; meristem formation and maintenance; organogenesis; pattern formation; cell differentiation; tissue specification; organ polarity; vascular development; root development; shoot development; leaf development; flower development; reproductive development; fruit development.
Part VI: Integration of Metabolism
This part covers the molecular mechanisms of metabolic integration at different levels: metabolic networks; metabolic fluxes; metabolic regulation; metabolic signaling; metabolic modeling.
Part VII: Plant Environment and Agriculture
```html thermoperception and signaling; temperature responses; cold acclimation; heat stress; water perception and signaling; water relations; drought stress; flooding stress; salt perception and signaling; salt stress; nutrient perception and signaling; nutrient uptake and transport; nutrient deficiency and toxicity; biotic perception and signaling; plant-pathogen interactions; plant-herbivore interactions; plant-microbe symbioses; plant defense mechanisms; plant immunity; chemical ecology; abiotic stress tolerance; biotic stress resistance; stress adaptation and acclimation; stress cross-talk and priming; stress memory and epigenetics.
How to use the book effectively
Tips for reading and studying
If you are a student who wants to learn from this book, here are some tips for reading and studying:
Before you start reading a chapter, skim through the table of contents, the introduction, the key terms, and the summary to get an overview of the main topics and concepts.
As you read the chapter, pay attention to the figures and tables, as they often illustrate important points and data. Try to understand the logic and rationale behind each figure and table, and how they relate to the text.
After you finish reading a chapter, review the key terms and the summary to reinforce your understanding of the main topics and concepts. Try to explain them in your own words or give examples.
Test your comprehension and application of the chapter by solving the problems at the end of each chapter. You can also check your answers with the solutions provided online.
If you encounter any difficulties or doubts while reading or studying, consult the references at the end of each chapter for further information or clarification. You can also use the online supplements and updates to access additional resources.
How to access the online materials
If you have purchased the epub version of this book, you can access the online materials by following these steps:
Click on "Resources" tab.
Enter your email address and password to log in. If you do not have an account yet, click on "Create an Account" and follow the instructions.
Once you are logged in, you can access the following online materials:
Solutions manual: This contains detailed solutions to all the problems at the end of each chapter.
PowerPoint slides: These contain summaries of each chapter with key figures and tables.
Animations: These are interactive animations that illustrate some of the complex processes and phenomena discussed in the book.
Videos: These are short videos that demonstrate some of the experimental techniques and methods used in plant biochemistry and molecular biology research.
Updates: These are periodic updates that reflect the latest developments and discoveries in plant science research.
How to design a course syllabus
If you are an instructor who wants to use this book for teaching a course on plant biochemistry and molecular biology, here are some suggestions for designing a course syllabus:
Determine the learning objectives and outcomes of your course. What do you want your students to learn and achieve by the end of your course?
Select the chapters and topics that are relevant and appropriate for your course. You can use the table of contents as a guide, or consult the online supplements for suggested course outlines for different levels and emphases.
Organize the chapters and topics into a logical sequence and schedule. How many lectures or sessions will you devote to each chapter or topic? How will you balance between breadth and depth?
Assign readings, problems, projects, quizzes, exams, etc. to assess your students' progress and performance. How will you measure their understanding and application of the concepts and skills?
Provide feedback, guidance, support, and resources to your students. How will you help them overcome their difficulties and doubts? How will you motivate and inspire them to learn more?
How to use the book in the classroom
If you have decided to use this book for teaching a course on plant biochemistry and molecular biology, here are some tips for using the book in the classroom:
Before you start teaching a chapter, review the key terms, the summary, and the problems to prepare yourself for the main topics and concepts.
As you teach the chapter, use the figures and tables, the animations, and the videos to illustrate and explain the important points and data. Encourage your students to ask questions and participate in discussions.
After you finish teaching a chapter, review the key terms and the summary to reinforce your students' understanding of the main topics and concepts. Ask them to solve some of the problems or give them a quiz to test their comprehension and application.
If you want to go beyond the chapter, use the references, the online supplements, and the updates to explore more advanced or specialized topics and research.
How to access the instructor's manual and other resources
If you have adopted this book for teaching a course on plant biochemistry and molecular biology, you can access the instructor's manual and other resources by following these steps:
Click on "Instructor Companion Site" link.
Enter your email address and password to log in. If you do not have an account yet, click on "Request an Evaluation Copy" and follow the instructions.
Once you are logged in, you can access the following instructor's resources:
Instructor's manual: This contains detailed solutions to all the problems at the end of each chapter, as well as suggestions for course outlines, lecture notes, assignments, etc.
Test bank: This contains multiple-choice questions, short-answer questions, and essay questions for each chapter, along with their answers and explanations.
Image gallery: This contains all the figures and tables from the book in high-resolution format, which you can download and use for your presentations or handouts.
Summary of the main points
In this article, we have introduced you to Biochemistry and Molecular Biology of Plants Buchanan.epub, a digital edition of the most authoritative and comprehensive reference in the field of plant biochemistry and molecular biology. We have also shown you how to use this book effectively for your learning and teaching needs. We have discussed:
What is biochemistry and molecular biology of plants?
What is Buchanan.epub?
Why is this book important for plant scientists?
What are the main features of the book?
How to use the book effectively for students?
How to use the book effectively for instructors?
Benefits of reading the book
By reading this book, you will gain many benefits, such as:
You will learn from the experts who have contributed their knowledge and experience to this book.
You will understand both the fundamental concepts and the cutting-edge topics in plant biochemistry and molecular biology.
You will integrate the knowledge from different disciplines to understand how plants function as a whole.
You will develop your skills in problem-solving, critical thinking, communication, and research.
You will enhance your career prospects in plant science or related fields.
Call to action
```html ants%2C+2nd+Edition-p-9781118918401">https://www.wiley.com/en-us/Biochemistry+and+Molecular+Biology+of+Plants%2C+2nd+Edition-p-9781118918401. You can also access the online materials and resources by following the instructions given in this article.
If you have any questions or feedback about this book, you can contact the editors or the publisher using the information provided in the book. You can also join the online community of plant scientists who use this book by visiting https://www.aspb.org/, the website of the American Society of Plant Biologists.
We hope you enjoy reading this book and find it useful for your learning and teaching needs. Happy reading!
Q: How can I get a print version of this book?
A: You can order a print version of this book from https://www.wiley.com/en-us/Biochemistry+and+Molecular+Biology+of+Plants%2C+2nd+Edition-p-9781118918401. The print version is a hardcover book with 1280 pages and full-color illustrations. The price is $250.00 USD.
Q: How can I cite this book in my academic work?
A: You can cite this book using the following format:
Buchanan, B. B., Gruissem, W., & Jones, R. L. (Eds.). (2015). Biochemistry and molecular biology of plants (2nd ed.). John Wiley & Sons, Inc.
Q: How can I contribute to this book or suggest improvements?
A: You can contribute to this book or suggest improvements by contacting the editors or the publisher using the information provided in the book. You can also submit your feedback online by visiting https://www.wiley.com/en-us/Biochemistry+and+Molecular+Biology+of+Plants%2C+2nd+Edition-p-9781118918401 and clicking on "Contact Us" link.
Q: How can I keep updated with the latest developments and discoveries in plant science research?
A: You can keep updated with the latest developments and discoveries in plant science research by visiting https://www.aspb.org/, the website of the American Society of Plant Biologists. You can also subscribe to their journals, newsletters, podcasts, blogs, social media, etc.
Q: How can I connect with other plant scientists who use this book?
A: You can connect with other plant scientists who use this book by visiting https://www.aspb.org/, the website of the American Society of Plant Biologists. You can also join their online forums, webinars, workshops, conferences, etc. 71b2f0854b