1. DNA & RNA

2. The Vocabulary of DNA Genetics—The study of genes & heredity
Trait-- inherited characteristic determined by the presence and expression of dominant and/or recessive alleles.
Gene-- a segment of DNA that codes for a protein, which in turn codes for a trait (skin tone, eye color, etc.)

3. DNA Facts Chromosomes are made of DNA Deoxyribonucleic Acid (DNA)
Molecule that stores genetic information in cells
Copies itself exactly for new cells

4. DNA-Deoxyribonucleic Acid
DNA is often called the blueprint of life.
In simple terms, DNA contains the instructions for making proteins within the cell.
Why is DNA called the blueprint of life?

5. Proteins Responsible for all cell structures and functions
Made of long chains of amino acids
There are 20 amino acids in the body
Proteins are responsible for:
Hair, skin, hormones, muscle movement, antibodies, enzymes, chemical reactions, oxygenation of cells.

6. Rosalind Franklin and Maurice Wilkins took DNA X-ray photos that were essential to the discovery of the double helix of DNA by James Watson and Francis Crick in 1953.
When Watson, Crick and Wilkins got their Nobel prize awards in 1962, Rosalind Franklin was cheated of deserved recognition in part by her early death from cancer in 1958.

7. Why is the Study of DNA Important?
It’s essential to all life on earth
Medical Benefits—disease detection, treatment, prevention
Development of Crops
Forensics

8. DNA Structure
DNA is a polymer (composed of repeating subunits called nucleotides)
2 long strands
Each a chain of nucleotides

9. Nucleotides Consists of… Phosphate Carbon sugar (deoxyribose)
Nitrogen base

10. Adenine and Guanine are PURINES
Adenine and guanine each have two rings of carbon and nitrogen atoms. C N O
Guanine C N
Adenine

11. Thymine and Cytosine are PYRIDAMINES
Thymine and cytosine each have one ring of carbon and nitrogen atoms. C N O
cytosine C N O
thymine

12. Types of Nitrogenous Bases
A = adenine
T = thymine
C = cytosine
G = guanine

13. DNA Strand Each nucleotide bonds to the next one to form a strand.
The two strands twist around a central axis to form a double helix.(Twisted Ladder)
Sides of the ladder alternate phosphate and sugar (deoxyribose)
Rungs are held together by Hydrogen bonds

14. Base Pair Rule Adenine can bond only with Thymine
A-T or T-A (2 H bonds)
Cytosine can bond only with Guanine
C-G or G-C (3 H bonds)
This is called the BASE PAIR RULE or Chargaff’s Rule

15. Nitrogenous Bases Those 4 bases (ATCG) have endless combinations
Just like the letters of the alphabet can combine to make an infinite number of words.
The two strands are said to be complimentary
That means that if you have GAATAC on one side you will have _ _ _ _ _ _ on the other.

16. Replication The process by which DNA makes a copy of itself
Why does DNA need to copy?
Cells divide for an organism to grow or reproduce
Every new cell needs a copy of DNA
In DNA replication enzymes work to unwind and separate the double helix and add complimentary nucleotides to the exposed strands

17. Replication DNA replication is semi-conservative.
When it makes a copy, one half of the old strand is ALWAYS kept in the new strand
This helps reduce the number of copy errors.

18. DNA Replication DNA helicases—break H-bonds linking bases
DNA polymerases— move along each of the strands, adding nucleotides, according to base pairing rules.

19. DNA Replication The result is two exact copies of the original DNA
Each new double helix is composed of one original DNA strand and one new strand.
Semi-conservative

20. Translation DNA is in the nucleus
To make proteins, DNA must get its instructions to the ribosomes who make proteins.
To transport its instructions, it uses Messenger RNA (mRNA)

21. RNA Ribonucleic Acid Consists only of one strand of nucleotides
Has ribose (a 5C sugar) NOT deoxyribose
Has uracil (U) as a nitrogenous base NOT thymine

22. DNA by the Numbers Each cell has about 3 meters of DNA.
The average human has 300 trillion cells.
The average human has enough DNA to go from the earth to the sun more than 400 times.
DNA has a diameter of only meters.
The earth is 150 billion meters
or 93 million miles from
the sun.
If you unravel all the DNA in the chromosomes of one of your cells, it would stretch out 2 meters. If you did this to the DNA in all your cells, it would stretch from here to sun more than 400 hundred times!

23. Coming Soon