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Packet 7: DNA/RNA/Protein Synthesis Notes: pg. 1-2

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Presentation on theme: "Packet 7: DNA/RNA/Protein Synthesis Notes: pg. 1-2"— Presentation transcript:

1 Packet 7: DNA/RNA/Protein Synthesis Notes: pg. 1-2

2 Notes: DNA DNA- Deoxyribonucleic Acid
DNA is responsible for storing and transferring genetic information from one generation to the next.

3 DNA Structure DNA is made from many nucleotides joined together
The shape of each DNA molecule looks like a ladder that has been twisted – this shape is called a double helix.

4 This shape was discovered by two scientists: Watson and Crick

5 DNA Structure

6 DNA Structure Each nucleotide (Part D) is made up of 3 parts:
1.(part A) Deoxyribose – a 5 carbon sugar 2. (part B) A phosphate group 3. (part C) A nitrogenous base (a base that contains nitrogen)

7 Nucleotide

8 There are four nitrogenous bases:
1. (G) Guanine 2. (A) Adenine 3. (C) Cytosine 4. (T) Thymine

9 If you know the nucleotides that make up one of the strands of DNA, you will always be able to figure out what its base pair is on the opposite side. The base pairing rule states that: Guanine will always pair with Cytosine Adenine will always pair with Thymine

10 The base pairs in the double helix are held together by weak hydrogen bonds.
The backbone of DNA is made up of alternating (D) deoxyribose and (P) phosphate molecules which are held together by strong covalent bonds. D D P P D D P P D P D D P P D D P P D D P P D D

11 So if you have 4 C’s in a strand, how many G’s will you have?

12

13 The two opposing strands are said to be complementary (Since by knowing one half you can figure out the other) Therefore, when the DNA molecule is split in half, each side becomes a template for a new DNA molecule. By attaching the complementary base to each nucleotide, two new strands of DNA may be created.

14 Before a cell divides to become two cells, the DNA must duplicate itself so that each cell will have a copy of the same genetic code. This copying process is called replication.

15 Replication: An enzyme (helicase) comes in and breaks the hydrogen bonds between the base pairs which causes the strand of DNA to split or “unzips” (what is left looks like a ladder cut in two). The appropriate complementary bases are then matched up (by DNA polymerase – an enzyme). The sugar-phosphate molecules are then attached (the sides of the ladder). What you are left with is two identical strands of DNA – the cell can now divide.

16 Replication

17 Classwork Color the backbone of original strand blue and the newly formed strand red. Identify the parts of the DNA molecule below as the original strand or the new strand.

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