ASSIGNMENT DISCOVERY ONLINE CURRICULUM

ASSIGNMENT DISCOVERY ONLINE CURRICULUM free pdf ebook was written by Darren Cole on January 08, 2001 consist of 10 page(s). The pdf file is provided by school.discoveryeducation.com and available on pdfpedia since May 08, 2012.

assignment discovery online curriculum lesson title: building a model dna grade level: 6-8 subject area: life..documentary raising the mammoth (parts 1 and 2), which airs on..students that dna works something like the alphabet. while the...

x
send send what is readshare?


Thank you for helping us grow by simply clicking on facebook like and google +1 button below ^^

ASSIGNMENT DISCOVERY ONLINE CURRICULUM pdf




Read
: 302
Download
: 0
Uploaded
: May 08, 2012
Category
Author
: Darren Cole
Total Page(s)
: 10
ASSIGNMENT DISCOVERY ONLINE CURRICULUM - page 1
ASSIGNMENT DISCOVERY ONLINE CURRICULUM Lesson title: Building a Model DNA Grade level: 6-8 Subject area: Life Science Duration: Two class periods Objectives: Students will: 1. Understand that chromosomes are structures in the nucleus of a cell that carry genes 2. Understand that genes are smaller units that contain the hereditary code, DNA 3. Understand that the genetic code is transmitted biochemically through molecules called deoxyribonucleic acid (DNA) 4. Understand the structure of the DNA molecule Materials For each student: Two 24-inch pieces of fishing line Eight 2-inch pieces of blue chenille stems (pipe cleaners) Eight 2-inch pieces of green chenille stems Eight 2-inch pieces of purple chenille stems Eight 2-inch pieces of orange chenille stems Eighteen pieces of dried pinwheel pasta Sixteen pieces of dried ziti cut pasta One copy of Take-Home Activity Sheet: Crack the DNA Vocabulary Code This lesson plan can be enhanced by viewing the documentary Raising the Mammoth (parts 1 and 2), which airs on the Discovery Channel February 26, April 2, May 7, and June 11. To purchase the video from our School Store, call 1-888-892-3484. Procedures: 1. Ask students to brainstorm traits they have that are passed on from their parents, such as eye color, hair texture, and facial characteristics. Then ask them how these traits are passed on from one generation to the next. The answer is DNA, or deoxyribonucleic acid. Explain that all organisms carry an elaborate blueprint containing the information necessary to develop and 1
You're reading the first 10 out of 10 pages of this docs, please download or login to readmore.
ASSIGNMENT DISCOVERY ONLINE CURRICULUM - page 2
maintain life. This “manual of instructions” is located in a chemical molecule called DNA. DNA is found within a person’s genes. Genes are small structures found in chromosomes, structures within the nucleus of cells. 2. Tell students that DNA works something like the alphabet. While the alphabet has 26 letters, DNA’s “alphabet” has only four letters. These letters are guanine (G), adenine (A), cytosine (C), and thymine (T). Just as the 26 letters of the alphabet can be used to form millions of words for communication, DNA’s alphabet can be combined to form codes with more than five billion combinations of G’s, A’s, T’s, and C’s. The differences in these combinations result in differences among human beings. 3. The DNA molecule consists of two strands that form a double helix, a spiraling shape much like a twisted ladder. The DNA molecule has a sugar component, a phosphate component, and four different bases—adenine, thymine, cytosine, and guanine. To help students understand how these components fit together to form DNA, have each student make a model of DNA with fishing line, dried pasta, and different-colored pipe cleaners. 4. First, give each student 2 pieces of line, 18 pieces of pinwheel pasta, 16 pieces of ziti pasta, and different-colored chenille stems (pipe cleaners). Explain that the pinwheel pasta represents the sugar component, the ziti pasta the phosphate, and the chenille stems each of the bases. 5. Tell students to start with the pinwheel pasta and alternate with the ziti pasta as they thread the pasta on the line. On each line, they should string nine pieces of pinwheel pasta alternating with eight pieces of ziti. Wrap the line around the final piece of pasta at the end of each line so that the pasta does not fall off. After pasta has been strung on both lines, each line should have a total of 17 alternating pieces of pasta. Have students lay the two lines side by side. 6. Then give students the “code” for the chenille stems—the blue stem represents adenine; the green stem, thymine; the purple stem, cytosine; and the orange stem, guanine. Explain that the bases in DNA are found in pairs and that adenine always pairs with thymine and cytosine always pairs with guanine. 7. Have students represent these base pairs with twisted chenille stems. First, have them twist the eight blue stems and eight green stems together, making a total of eight blue-green stems, about 2 inches long. Likewise, have them twist the eight purple and eight orange stems together, making a total of eight purple-orange stems, about 2 inches long. Students will find that the chenille stems twist together easily. 8. Now, have students create a “ladder” using the pasta lines as the sides and the twisted chenille stems as steps. Beginning at the top, students should connect the two ends of a twisted chenille stem to the top pasta pieces on the two lines. Then use a second chenille 2
ASSIGNMENT DISCOVERY ONLINE CURRICULUM - page 3
stem to connect the next two pasta pieces directly across from each other. They should continue building their ladder, one step at a time, until they have connected the bottom two pieces of pasta. Remind them that they can place the twisted chenille stems in any order. (The blue-green stems do not have to alternate with the orange-purple stems.) After all the stems have been woven, the DNA model is complete. 9. Using the DNA models, discuss the following questions with the class. To enhance the discussion, you may want students to look up additional information in other resources. How do the bases pair up in a DNA molecule? How does your model help you figure this out? What differentiates one DNA molecule from another? How could you change your DNA model to reflect changes among DNA molecules? How do you think a DNA molecule makes an exact copy of itself? How does its structure help it do so? 10. Assign the Take-Home Activity Sheet: Crack the DNA Vocabulary Code for homework. Then go over the vocabulary words to make sure that students have mastered them. Adaptation for older students: Have older students use this topic to integrate art and science. Instruct them to design and create a DNA model using materials of their own choice. Suggested materials include stained glass, clay, beads, buttons, wood pieces, recycled materials, and food items. They should include a key that explains what each item represents. After students have completed their models, have them display the models in the classroom. Questions: 1. What is the relationship between chromosomes and genes and between genes and DNA molecules? 2. For the past several years, scientists have been working to map and sequence the human genome—that is, all the instructions needed for making an organism. Aptly called the Human Genome Project, it is considered one of the biggest milestones in scientific history. Why do you think this project is so important? What types of information could it provide? 3. Do you think we have a better chance of curing genetic diseases, such as muscular dystrophy or cystic fibrosis, with our increased knowledge of genetic codes? What issues does this increased knowledge raise? 4. Scientists have been working to understand genes since the 19th century. Research the work of the Austrian monk and biologist Gregor Mendel. Why is he considered the “father of 3
ASSIGNMENT DISCOVERY ONLINE CURRICULUM - page 4
genetics”? What organisms did he study to learn how traits are passed on from parents to offspring? 5. In 1997, scientists were able to clone a sheep. What do you think the potential of cloning is? Do you think that scientists will be able to clone people some day? What dangers does that possibility raise? 6. If scientists can retrieve DNA from the remains of extinct animals, they might be able to clone them. What are some potential dangers of cloning extinct mammals, such as the mammoth? What are some advantages of cloning extinct mammals? Evaluation: Use the following three-point rubric to evaluate students’ work during this lesson. Students should be able to follow directions to make their DNA models, identify the parts of the model, and participate in the class discussion about DNA. Three points: students followed directions accurately, completed their model completely and accurately, identified each part of the model, and actively participated in the class discussion about DNA. Two points: students followed most of the directions accurately, completed their model but had a couple of errors, identified most parts of the model, and participated somewhat in the class discussion. One point: students followed some of the directions accurately but were not able to complete their model, identified some parts of the model, and participated a little bit in the class discussion. Extensions: The Pros and Cons of Genetic Research The Human Genome Project has generated much excitement recently. People have reacted both positively and negatively to scientists’ current findings. Have groups of three or four students conduct research on the most current information available from this project. Then have them share their findings with the class. What ethical dilemmas do your students feel should be addressed before further research is conducted? How will the Human Genome Project revolutionize the way medicine is practiced? 4
ASSIGNMENT DISCOVERY ONLINE CURRICULUM - page 5
Suggested Readings: Mammoths Adrian Lister and Paul Bahn, Macmillan, 1994. Frozen carcasses and skeletons of mammoths have been discovered throughout the Northern Hemisphere, from Siberia to South Dakota. This book explains what scientists have learned about the origins of mammoths, their lives, and how they became extinct. The interactions of mammoths and prehistoric humans are also discussed. Dramatic and informative illustrations and photographs enrich the book. Includes a map and guide to mammoth sites and museums around the world. The Science of Jurassic Park and the Lost World or, How to Build a Dinosaur Rob DeSalle and David Lindley, BasicBooks/HarperCollins, 1997. Could an extinct creature really be cloned and brought to life as we've seen in the movies? The two scientists who authored this book provide a light-hearted, but scientifically accurate discussion of how the movies got it wrong and what it really would take to accomplish such a feat. Web Links: The Mammoths’ Demise Theories regarding the extinction of the mammoth. http://www.discoveringarchaeology.com/0599toc/5cover1-mammoth.shtml What Drove the Giants of the Ice Age to Extinction? An extensive informational site, including excavation sites and techniques, historical perspectives, skeletal diagrams, classroom lesson plans and tests, web links, and books. http://www.idbsu.edu/bsuradio/misc/mammoth/frames.html Mammoth Site Museum of Hot Springs, South Dakota Includes a museum tour, mammoth information and paleontology links, educational activities, and a Quicktime video of an actual scientific excavation. 5
ASSIGNMENT DISCOVERY ONLINE CURRICULUM - page 6
http://www.mammothsite.com/ All About Mammoths Specific and easy-to-read information about mammoths. http://www.allaboutmammals.com/subjects/mammals/mammoth/ Extinct in the Wild: North America’s Woolly Mammoth and the Sabre Tooth Cat General information and lesson plans. http://www.bagheera.com/inthewild/ext_woollym.htm Woolly Web Links (Discovery Channel School website) A variety of mammoth site web links, book suggestions, and selected facts. http://school.discovery.com/schooladventures/woollymammoth/weblinks.html Vocabulary: amino acids Definition: The essential building blocks of life. Context: Amino acids provide the structural components of cells and tissues. chromosome Definition: A structure found in the nucleus of cells. Context: Chromosomes carry genes, smaller units that contain DNA, the code of life. cloning Definition: To create progeny asexually. Context: Dolly the sheep is recognized as the first mammal created through cloning. DNA Definition: The genetic material contained in every cell and unique to each individual. Context: DNA is responsible for the enormous possibilities for variability in the living world. enzyme Definition: A complex protein that can catalyze biochemical reactions in the body. Context: In addition to determining heredity, genes also carry the information needed for constructing enzymes needed for essential biochemical reactions. genetics Definition: The study of what genes are made of, how they work, and how they are inherited. Context: The field of genetics includes understanding how living systems grow and are maintained during their life span and how they duplicate and pass on genetic material. 6
ASSIGNMENT DISCOVERY ONLINE CURRICULUM - page 7
heredity Definition: The transfer within a species of characteristics from one generation to another. Context: Heredity is responsible for how we look, what we are interested in, and in some cases, what diseases we may get during our lifetime. nucleotide Definition: The basic structural unit of DNA. Context: Each strand of a DNA molecule is a linear arrangement of nucleotides, which are each composed of one sugar, one phosphate, and one nitrogenous base. nucleus Definition: A body found in most plant and animal cells that contains the genetic material. Context: Scientists were able to break the genetic code within the nucleus of cells. polypeptide Definition: A molecular chain of amino acids. Context: Proteins are actually polypeptides, chains of more than two amino acids. protein Definition: A large, complex molecule made up of amino acids. Context: Human beings can synthesize at least 100,000 different kinds of proteins. ribosome Definition: The material from which ribonucleic acid (RNA) is made. Context: Ribosome is key to protein synthesis, an essential part of the genetic code. RNA (ribonucleic acid) Definition: A transient intermediary molecule similar to a single strand of DNA. Context: The protein-coding instructions from genes are transmitted indirectly through a messenger RNA molecule, which serves as a template for protein synthesis. Academic Standards: Grade level: 6-8 Subject area: Life Science Standard: Understands the genetic basis for the transfer of biological characteristics from one generation to the next. Benchmark: Knows that the characteristics of an organism can be described in terms of a combination of traits; some traits are inherited and others result from interactions with the environment. 7
ASSIGNMENT DISCOVERY ONLINE CURRICULUM - page 8
Grade level: 6-8 Subject area: Life Science Standard: Knows that hereditary information is contained in genes (located in the chromosomes of each cell), each of which carries a single unit of information; an inherited trait of an individual can be determined by either one or many genes, and a single gene can influence more than one trait. Benchmark: Knows that the characteristics of an organism can be described in terms of a combination of traits; some traits are inherited and others result from interactions with the environment. Credit: Wendy Goldfein, sixth-grade teacher, Fairfax County School District, Springfield, Virginia, and freelance writer. DiscoverySchool.com http://www.discoveryschool.com Copyright 2000 Discovery.com. Teachers may reproduce copies of these materials for classroom use only. 8
ASSIGNMENT DISCOVERY ONLINE CURRICULUM - page 9
Take-Home Activity Sheet: Building a DNA Model Name: Crack the DNA Vocabulary Code See if you can crack the DNA vocabulary code by finding the words listed below. On the back, write the definitions of each word. AMINO ACID (Hint: The two words are found separately in the puzzle.) CHROMOSOME CLONING DNA ENZYME NUCLEOTIDE POLYPEPTIDE PROTEIN RIBOSOME RNA This puzzle was created with DiscoverySchool.com’s Puzzlemaker.
ASSIGNMENT DISCOVERY ONLINE CURRICULUM - page 10
Take-Home Activity Sheet: Building a DNA Model Name: Crack the DNA Code Solution amino acids: the essential building blocks of life chromosome: structures found in the nucleus of cells that carry genes cloning: to create progeny asexually DNA: the genetic material contained in every cell and unique to each individual enzyme: a complex protein that causes biochemical reactions in the body nucleotide: the basic structural units of DNA polypeptide: a molecular chain of amino acids protein: large, complex molecules made up of amino acids ribosome: the material from which ribonucleic acid (RNA) is made RNA (ribonucleic acid): a transient intermediary molecule similar to a single strand of DNA
You're reading the first 10 out of 10 pages of this docs, please download or login to readmore.

People are reading about...