Presentation is loading. Please wait.

Presentation is loading. Please wait.

DNA structure and function

Published byMerryl Byrd Modified over 9 years ago

Similar presentations

Presentation on theme: "DNA structure and function"— Presentation transcript:

1 DNA structure and function

2 Major points Genetic information flows from DNA to RNA to protein (“central dogma”) DNA is a double helix of two complementary antiparallel strands Specific pairing occurs between bases of nucleic acid (DNA and RNA) strands

3 Reading (3) Chapter 5, pp Chapter 16, pp

4 DNA structure and function
I. Nucleic acid function 1.Overview (replication, transcription, translation) 2. Genetic information flow (DNA -> RNA -> protein) 3. Definition of gene II. Nucleic acid structure

5 Nucleic acid function overview
DNA Replication Transcription RNA Catalysis Translation Protein

6 Nucleic acid function DNA stores hereditary information (genes)
RNA transmits hereditary information

7 DNA function (genes) DNA is a polymer that stores and carries genetic information Information is stored as the sequence of monomer subunits (nucleotides)

8 Definition of gene Genes are the units of heredity
Genes direct RNA and protein syntheses (“Central dogma”) “One gene encodes one protein” (with exceptions)

9 DNA-> RNA-> protein
Is this cell eukaryotic or prokaryotic?

10 “Central dogma” RNA can be reverse transcribed to DNA DNA
catalyzed by protein RNA RNA has catalytic activity Protein Transcription RNA synthesis using DNA template Translation Protein synthesis using RNA template

11 “One gene-one protein”
Genes are the units of heredity Each gene encodes one protein However there are exceptions: -multisubunit proteins -alternative RNA splicing or protein processing -regulatory DNA and catalytic RNA

12 DNA structure and function
I. Nucleic acid function II. Nucleic acid structure 1. Nucleotides 2. Double helix 3. Complementary base-pairing 4. Supercoiling

13 Watson & Crick DNA Double helix

14 DNA structure Polymer of nucleotide subunits A, T, G, C
Base-pairing (complementary) A=T and CG Double helix (Watson & Crick) antiparallel right-handed

15 Nucleotides Monomeric subunits of nucleic acids Composed of:
Phosphate group Five-carbon sugar: ribose (RNA) or deoxyribose (DNA) Nitrogenous base

16 Nucleotide structure

17 Double helix Two polynucleotide strands
Antiparallel (sugars: 5´ to 3´ and 3´ to 5´) Right-handed (B-form) Held together by: Pairing between bases (H-bonds) Stacking interactions

18 Double helix structure

19 Complementary base-pairing
A binds T (or U) T (or U) binds A G binds C C binds G Which is stronger?

20 Levels of DNA structure
Primary structure: sequence of nucleotides Secondary structure: path of strands double helix Tertiary structure: path helix takes in space supercoiling

21 Telephone cord relaxed supercoiled

22 DNA topoisomerases Enzymes that alter DNA topology
DNA gyrase is the only topoisomerase that introduces negative supercoiling

23 Bio 103 home

Download ppt "DNA structure and function"

Similar presentations

Nucleic Acids.

Nucleic Acids.
2006-2007 Nucleic acids: A complex biomolecule that stores cellular information in the form of a code Contain elements: Carbon, Hydrogen, Oxygen, Nitrogen,

Nucleic acids: A complex biomolecule that stores cellular information in the form of a code Contain elements: Carbon, Hydrogen, Oxygen, Nitrogen,
SBI 3C1. Nucleic Acids  Associated with genetic/hereditary information  There are 2 different types of nucleic acids: 1. DNA - Deoxyribonucleic Acid.

SBI 3C1. Nucleic Acids  Associated with genetic/hereditary information  There are 2 different types of nucleic acids: 1. DNA - Deoxyribonucleic Acid.
1 2 3 4 Review: Proteins and their function in the early stages of replication 1 = initiator proteins 2 = single strand binding proteins 3 = helicase 4.

Review: Proteins and their function in the early stages of replication 1 = initiator proteins 2 = single strand binding proteins 3 = helicase 4.
Transcription and Translation

Transcription and Translation
DNA Structure The Genetic Material.

DNA Structure The Genetic Material.
Central Dogma of Biology

Central Dogma of Biology
–DNA functions as the inherited directions for a cell or organism. –How are these directions carried out? Flow of Genetic Information Gene DNA RNA Protein.

–DNA functions as the inherited directions for a cell or organism. –How are these directions carried out? Flow of Genetic Information Gene DNA RNA Protein.
FROM GENE TO PROTEIN: TRANSCRIPTION & RNA PROCESSING Chapter 17.

FROM GENE TO PROTEIN: TRANSCRIPTION & RNA PROCESSING Chapter 17.
DNA: The Molecule of Heredity. DNA Structure Deoxyribonucleic acid. A macromolecule composed of two strands of monomers called nucleotides. These strands.

DNA: The Molecule of Heredity. DNA Structure Deoxyribonucleic acid. A macromolecule composed of two strands of monomers called nucleotides. These strands.
DNA Biology Lab 11. Nucleic Acids  DNA and RNA both built of nucleotides containing Sugar (deoxyribose or ribose) Nitrogenous base (ATCG or AUCG) Phosphate.

DNA Biology Lab 11. Nucleic Acids  DNA and RNA both built of nucleotides containing Sugar (deoxyribose or ribose) Nitrogenous base (ATCG or AUCG) Phosphate.
Chapter 10 – DNA, RNA, and Protein Synthesis

Chapter 10 – DNA, RNA, and Protein Synthesis
DNA STRUCTURE page 63-74 What are the monomers of the nucleic acids?

DNA STRUCTURE page What are the monomers of the nucleic acids?
DNA: The Molecule of Heredity

DNA: The Molecule of Heredity
DNA: The Molecule of Heredity

DNA: The Molecule of Heredity
Copyright © 2005 Brooks/Cole — Thomson Learning Biology, Seventh Edition Solomon Berg Martin Chapter 11 DNA: The Carrier of Genetic Information.

Copyright © 2005 Brooks/Cole — Thomson Learning Biology, Seventh Edition Solomon Berg Martin Chapter 11 DNA: The Carrier of Genetic Information.
The Central Dogma of Molecular Biology DNA → RNA → Proteins Biology II D. Mitchell.

The Central Dogma of Molecular Biology DNA → RNA → Proteins Biology II D. Mitchell.
Chromosome Abnormalities Non-disjunction during meiosis can cause a gamete to have an extra chromosome Trisomy = three copies of the same chromosome. Most.

Chromosome Abnormalities Non-disjunction during meiosis can cause a gamete to have an extra chromosome Trisomy = three copies of the same chromosome. Most.
Protein Synthesis 6C transcription & translation.

Protein Synthesis 6C transcription & translation.
CHAPTER 7 THE CHEMISTRY OF CELLS CONTINUED. Proteins are essential to the structures and activities of life Proteins are involved in –cellular structure.

CHAPTER 7 THE CHEMISTRY OF CELLS CONTINUED. Proteins are essential to the structures and activities of life Proteins are involved in –cellular structure.

Similar presentations

Ads by Google