Presentation is loading. Please wait.

Presentation is loading. Please wait.

Nucleic Acids and Genetics Chapter 5 A. P. Biology Mr. Knowles Liberty Senior High School.

Published byDerick Henry Modified over 9 years ago

Similar presentations

Presentation on theme: "Nucleic Acids and Genetics Chapter 5 A. P. Biology Mr. Knowles Liberty Senior High School."— Presentation transcript:

1 Nucleic Acids and Genetics Chapter 5 A. P. Biology Mr. Knowles Liberty Senior High School

2 Is Genetics Important to Me?

3 Genetics Basic unit of heredity- Gene- a linear sequence of nucleotides of DNA. Genotype- genetic make-up of organism; its potential characteristics. Phenotype- the observable physical traits of an organism. The Phenotype is the organism’s physical expression of its Genotype.

4 Eukaryotes are Diploid Locus - is a gene’s location on the chromosome. Allele- an alternative form of a gene at a specific locus. Eukaryotes have pairs of identical chromosomes- diploid. May have two alleles of a gene. Prokaryotes are not diploid.

5 When good DNA goes Bad! A permanent change in the sequence of nucleotides - mutation. Mutations change the information of that gene. DNA- function is to store and transfer information.

6 Mistakes in DNA -->Mutations

7 How is DNA Accurately Transferred? DNA serves as a template for its own replication; an exact pattern. How, you ask? By base pairing.

8 What is a Nucleotide? Subunits of DNA/RNA are Nucleotides = nitrogenous base + deoxy- or ribose sugar (5 carbons) + PO 4 Purines: Adenine and Guanine Pyrimidines: Cytosine, Thymine, Uracil

9 Monosaccharides of Nucleic Acids

10 Adenosine Monophosphate Base = adenine In DNA, sugar = deoxyribose (In RNA, sugar = ribose) A phosphate group, PO 4 The Nucleotide = AMP

11 Adenosine Monophosphate

12 Adenosine Triphosphate (ATP)

13 Guanosine Monophosphate

14 Thymine Monophosphate

15 Cytosine Monophosphate

16 Uracil Monophosphate (in RNA)

17 Base Pairing Rules In DNA, A = T C G In RNA, A = U C G

18 H-Bonding Between Bases

19

20

21

22 Characteristics of DNA Chains of nucleotides linked together by phosphodiester bonds. Carbon 5 of deoxyribose is attached to PO 4. Carbon 3 of deoxyribose is a OH- free to attach to the next nucleotide. Double helix is held together by H- bonding.

23 Double Helix DNA is antiparallel: 5’PO 4 -------------------------3’OH 3’OH -------------------------5’PO 4

24 The 3-D Structure of DNA

25 DNA Replication Begins at a specific location on the circular bacterial chromosome-origin (OriC). Occurs in two directions at the same time-two moving replication forks- points where the two strands separate to allow replication of DNA.

26 Bring on DNA Replication!

27

28

29 Replication, must I see!

30 Replication Fork

31 Show me the Replication!

32

33 DNA Replication

34

35 Prokaryotes single, circular chromosome. one single origin on the chromosome. rate of over 1,000 nt/second. Eukaryotes multiple, linear chromosomes. several origins on each chromosome. rate of about 50- 100 nt/second

Download ppt "Nucleic Acids and Genetics Chapter 5 A. P. Biology Mr. Knowles Liberty Senior High School."

Similar presentations

Let’s Review! What is a macromolecule?

Let’s Review! What is a macromolecule?
AP Biology 2006-2007 Nucleic acids AP Biology 2006-2007 Nucleic Acids.

AP Biology Nucleic acids AP Biology Nucleic Acids.
Nucleic Acids.

Nucleic Acids.
Nucleic Acids Hereditary Material. Nucleic Acids VI. nucleic acids transmit hereditary information by determining what proteins a cell makes A. two classes.

Nucleic Acids Hereditary Material. Nucleic Acids VI. nucleic acids transmit hereditary information by determining what proteins a cell makes A. two classes.
Mrs. Stewart Biology I Honors. STANDARDS: CLE 3210.4.1Investigate how genetic information is encoded in nucleic acids. CLE 3210.4.2Describe the relationships.

Mrs. Stewart Biology I Honors. STANDARDS: CLE Investigate how genetic information is encoded in nucleic acids. CLE Describe the relationships.
Family Resemblances Why do siblings often look alike?

Family Resemblances Why do siblings often look alike?
Information Storage and Energy Transfer

Information Storage and Energy Transfer
The Structure of DNA.

The Structure of DNA.
DNA & Genetics Biology. Remember chromosomes? What are genes? Made up of DNA and are units of heredity; unique to everyone What are traits? Are physical.

DNA & Genetics Biology. Remember chromosomes? What are genes? Made up of DNA and are units of heredity; unique to everyone What are traits? Are physical.
DNA: The Molecule of Heredity

DNA: The Molecule of Heredity
DNA and Replication 12-1 and 12-2. I can… - Explain the structure of DNA -Identify each subunit that makes up DNA.

DNA and Replication 12-1 and I can… - Explain the structure of DNA -Identify each subunit that makes up DNA.
DNA. Nucleic Acids Informational polymers Made of C,H,O,N and P No general formula Examples: DNA and RNA.

DNA. Nucleic Acids Informational polymers Made of C,H,O,N and P No general formula Examples: DNA and RNA.
8. Nucleotides and Nucleic Acids

8. Nucleotides and Nucleic Acids
NUCLEIC ACIDS.

NUCLEIC ACIDS.
DNA Structure and Replication 8.2 and 8.3

DNA Structure and Replication 8.2 and 8.3
Molecular Biology 2.6 Structure of DNA and RNA. Nucleic Acids The nucleic acids DNA and RNA are polymers of nucleotides.

Molecular Biology 2.6 Structure of DNA and RNA. Nucleic Acids The nucleic acids DNA and RNA are polymers of nucleotides.
D.N.A. DeoxyriboNucleic Acid

D.N.A. DeoxyriboNucleic Acid
From DNA to Protein. Knowledge of Nucleic Acid Chemistry Is Essential to the Understanding of DNA Structure.

From DNA to Protein. Knowledge of Nucleic Acid Chemistry Is Essential to the Understanding of DNA Structure.
Regents Biology Nucleic Acids Information storage.

Regents Biology Nucleic Acids Information storage.
5 pts. 1. What is the micromolcule of nucleic acids?

5 pts. 1. What is the micromolcule of nucleic acids?

Similar presentations

Ads by Google