Students conduct their own research to discover and understand the methods designed …
Students conduct their own research to discover and understand the methods designed by engineers and used by scientists to analyze or validate the molecular structure of DNA, proteins and enzymes, as well as basic information about gel electrophoresis and DNA identification. In this computer-based activity, students investigate particular molecular imaging technologies, such as x-ray, atomic force microscopy, transmission electron microscopy, and create short PowerPoint presentations that address key points. The presentations include their own explanations of the difference between molecular imaging and gel electrophoresis.
Part of an interdisciplinary week-long unit on DNA and genetics with activities …
Part of an interdisciplinary week-long unit on DNA and genetics with activities in science, math, and language arts. This lesson is Part A: Science. Students complete a teacher-made scavenger hunt as an introduction to DNA and genetics, then watch a short video and use their science books to learn more about the topic. Students work in pairs to investigate DNA, genetics, and cloning through internet research and compile their information in the form of their own internet scavenger hunt.
This is the introduction of our Neuroscience open-access textbook. The content of …
This is the introduction of our Neuroscience open-access textbook. The content of this chapter focuses on giving studnets an overview of the brain and behavior before diving into specific topics.
Students are introduced to the concepts of evolution by natural selection and …
Students are introduced to the concepts of evolution by natural selection and digital evolution software. They learn about the field of evolutionary computation, which applies the principles of natural selection to solve engineering design problems. They learn the similarities and differences between natural selection and the engineering design process.
Students learn how engineers apply their understanding of DNA to manipulate specific …
Students learn how engineers apply their understanding of DNA to manipulate specific genes to produce desired traits, and how engineers have used this practice to address current problems facing humanity. They learn what genetic engineering means and examples of its applications, as well as moral and ethical problems related to its implementation. Students fill out a flow chart to list the methods to modify genes to create GMOs and example applications of bacteria, plant and animal GMOs.
Genetics, otherwise known as the Science of Heredity, is the study of …
Genetics, otherwise known as the Science of Heredity, is the study of biological information, and how this information is stored, replicated, transmitted and used by subsequent generations. The study of genetics can be sub-divided into three main areas: Transmission Genetics, Molecular Genetics, and Population Genetics. In this Introductory text, the focus is on Transmission or Classical Genetics, which deals with the basic principles of heredity and the mechanisms by which traits are passed from one generation to the next. The work of Gregor Mendel is central to Transmission Genetics; as such, there is a discussion about the pioneering work performed by him along with Mendel’s Laws, as they pertain to inheritance. Other aspects of Classical Genetics are covered, including the relationship between chromosomes and heredity, the arrangement of genes on chromosomes, and the physical mapping of genes.
Data Carpentry lesson to learn to navigate your file system, create, copy, …
Data Carpentry lesson to learn to navigate your file system, create, copy, move, and remove files and directories, and automate repetitive tasks using scripts and wildcards with genomics data. Command line interface (OS shell) and graphic user interface (GUI) are different ways of interacting with a computer’s operating system. The shell is a program that presents a command line interface which allows you to control your computer using commands entered with a keyboard instead of controlling graphical user interfaces (GUIs) with a mouse/keyboard combination. There are quite a few reasons to start learning about the shell: For most bioinformatics tools, you have to use the shell. There is no graphical interface. If you want to work in metagenomics or genomics you’re going to need to use the shell. The shell gives you power. The command line gives you the power to do your work more efficiently and more quickly. When you need to do things tens to hundreds of times, knowing how to use the shell is transformative. To use remote computers or cloud computing, you need to use the shell.
BIOLOGY 2115 Word Count: 6121 (Note: This resource's metadata has been created …
BIOLOGY 2115
Word Count: 6121
(Note: This resource's metadata has been created automatically by reformatting and/or combining the information that the author initially provided as part of a bulk import process.)
Three-minute video phenomena for the Kentucky Blue people. A great introduction to …
Three-minute video phenomena for the Kentucky Blue people. A great introduction to the passing of traits via sexual reproduction including Punnett squares and dominant and recessive traits.
This lesson uses the fundamentals of protein synthesis as a context for …
This lesson uses the fundamentals of protein synthesis as a context for investigating the closest living relative to Tyrannosaurus rex and evaluating whether or not paleontologist and dinosaur expert, Jack Horner, will be able to "create" live dinosaurs in the lab. The first objective is for students to be able to access and properly utilize the NIH's protein sequence database to perform a BLAST, using biochemical evidence to determine T rex's closest living relative. The second objective is for students to be able to explain and evaluate Jack Horner's plans for creating live dinosaurs in the lab. The main prerequisite for the lesson is a basic understanding of protein synthesis, or the flow of information in the cell from DNA to RNA during transcription and then from RNA to protein during translation
This is a worksheet (with sample answers for instructors) that was developed to …
This is a worksheet (with sample answers for instructors) that was developed to help learners get a better understanding of the nuances related to the regulation of the Lac operon, and to provide them with opportunities to practice analytical thinking. We have used it for years in the biology component of a first year university science course (for science majors).
Biotechnology is perhaps the most rapidly advancing area in science today. The …
Biotechnology is perhaps the most rapidly advancing area in science today. The Advances in Biotechnology volume has been created to provide language teachers with resources about breakthroughs in biotechnology. Each chapter of the volume highlights one aspect of research in the field of DNA and genetics along with its applications to and implications for society. The chapters feature relevant background information on each topic, interactive and communicative classroom activities, and a list of related print and Internet resources that will allow teachers to expand the lesson further.
This activity provides brief instructions and recommended reliable sources for students to …
This activity provides brief instructions and recommended reliable sources for students to investigate and report on a genetic disorder of their choice.
Students make two different formulations of imitation Silly Putty with varying degrees …
Students make two different formulations of imitation Silly Putty with varying degrees of cross-linking. They witness how changes in the degree of cross-linking influence the putty properties.
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