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Make sure tonight’s homework is written in your agenda. Quietly, discuss and respond to the following questions (answers should be written on your whiteboard). What is the difference between a trait and a characteristic? Where are genes found in cells? Why is DNA important? . Do Now! .
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Make sure tonight’s homework is written in your agenda. • Quietly, discuss and respond to the following questions (answers should be written on your whiteboard). • What is the difference between a trait and a characteristic? • Where are genes found in cells? • Why is DNA important? Do Now!
What does DNA look like? Section 4.1
DNA- DeoxyriboNucleic Acid, a molecule that is present in all living cells and that contains the information that determines the traits that a living thing inherits and needs to live. • Nucleotide- in a nucleic-acid chain, a subunit that consists of a sugar, a phosphate, and a nitrogenous base. Vocabulary
As we’ve discussed, inherited traits are determined by genes, and genes are passed from one generation to the next. • Genes are parts of chromosomes, which are structures in the nucleus of most cells (eukaryotic cells). • Chromosomes are made of protein and DNA (DeoxyriboNucleic Acid), or the genetic material (the material that determines inherited characteristics). What we already know . . .
While first studying DNA, scientists knew that the material that makes up genes must be able to • (1.) give instructions for building and maintaining new cells and • (2.) each cell must be copied so that new cells have the same genetic composition. • NUCLEOTIDES! The subunits of DNA! Nucleotides make up DNA and consist of a sugar, a phosphate, and a base. • There are four different bases: Adenine (A), Thymine (T), Guanine (G), and Cytosine (C) Pieces of the puzzle . . .
Biochemist ERWIN CHARGAFF noticed that the amount of adenine in DNA always equals the amount of thymine AND that the amount of guanine always equals the amount of cytosine. These are known as Chargaff’s Rules. • Chemist ROSALIND FRANKLIN used a process called X-ray diffraction to view DNA. The images she captured suggested that DNA has a spiral shape. • Scientists JAMES WATSON and FRANCIS CRICK used Franklin’s images to build the first model of DNA. Understanding DNA . . .
A strand of DNA looks like a twisted ladder. This is known as a double helix. • The two sides of the ladder are made up of alternating sugar and phosphate parts. • The rungs of the ladder are made up of a pair of bases. • Adenine and thymine always pair up to make a rung. • Guanine and cytosine always pair up to make a rung. DNA’s Double Structure . . .
During replication, a DNA molecule is split down the middle (where the bases meet). • The bases on each side of the molecule are exposed and new complementary nucleotides are added to each side of the ladder. Then, two DNA molecules are formed (half made up of old DNA and half made up of new DNA). • DNA is copied every time a cell divides. • The job of unwinding, copying, and rewinding the DNA is done by proteins within the cell. Other proteins help with the process of carrying out the instructions written in the code of the DNA. • http://www.youtube.com/watch?v=8kK2zwjRV0M Making copies of DNA . . .
http://www.youtube.com/watch?feature=player_profilepage&v=0jOapfqVZlohttp://www.youtube.com/watch?feature=player_profilepage&v=0jOapfqVZlo • Today, we will be making a model of DNA using origami. Use the template, instructions sheet, and video to help you. • First, make sure to label the bases (T with A AND C with G) and color them before folding if using a blank template. DNA origami model . . .
