DNA & RNA Structure. Lesson Overview Lesson Overview The Structure of DNA The Components of DNA What...

DNA & RNA Structure

Lesson OverviewLesson Overview The Structure of DNAThe Structure of DNA

The Components of DNAWhat are the chemical components of DNA?

DNA is a nucleic acid made up of nucleotides joined into long strands or chains by covalent bonds.


Nucleic Acids and NucleotidesNucleic acids are long, slightly acidic molecules originally identified in cell nuclei.

Nucleic acids are made up of nucleotides, linked together to form long chains.

The nucleotides that make up DNA are shown.


Nucleic Acids and NucleotidesDNA’s nucleotides are made up of three basic components: a 5-carbon sugar called deoxyribose, a phosphate group, and a nitrogenous base.


Nitrogenous Bases and Covalent BondsDNA has four kinds of nitrogenous bases: adenine (A), guanine (G), cytosine (C), and thymine (T).

The nitrogenous bases stick out sideways from the nucleotide chain.


Solving the Structure of DNAWhat clues helped scientists solve the structure of DNA?

The clues in Franklin’s X-ray pattern enabled Watson and Crick to build a model that explained the specific structure and properties of DNA.


Chargaff’s RulesErwin Chargaff discovered that the percentages of adenine [A] and thymine [T] bases are almost equal in any sample of DNA.

The same thing is true for the other two nucleotides, guanine [G] and cytosine [C].

The observation that [A] = [T] and [G] = [C] became known as one of “Chargaff’s rules.”


The Double-Helix ModelWhat does the double-helix model tell us about DNA?

The double-helix model explains Chargaff’s rule of base pairing and how the two strands of DNA are held together.


Hydrogen BondingWatson and Crick discovered that hydrogen bonds could form between certain nitrogenous bases, providing just enough force to hold the two DNA strands together.

Hydrogen bonds are relatively weak chemical forces that allow the two strands of the helix to separate.

The ability of the two strands to separate is critical to DNA’s functions.


Base PairingWatson and Crick’s model showed that hydrogen bonds could create a nearly perfect fit between nitrogenous bases along the center of the molecule.

These bonds would form only between certain base pairs—adenine with thymine, and guanine with cytosine.

This nearly perfect fit between A–T and G–C nucleotides is known as base pairing, and is illustrated in the figure.


Base PairingWatson and Crick realized that base pairing explained Chargaff’s rule. It gave a reason why [A] = [T] and [G] = [C].

For every adenine in a double-stranded DNA molecule, there had to be exactly one thymine. For each cytosine, there was one guanine.

B) RNA In order for DNA to

make proteins, it needs the assistance of RNA.

RNA is like a disposable copy of DNA

RNA = ribonucleic acid

RNA is different than DNA in 3 ways:

1. The sugar in RNA is RIBOSE2. RNA is generally a single stranded

molecule3. The four nitrogenous bases found in

RNA are :1. Adenine

2. Cytosine

3. Uracil

4. Guanine

There are 3 types of RNA.

mRNA: messenger RNA Formed complementary to one strand of

DNA Travel from the nucleus to the ribosome

to direct the synthesis of a specific protein

rRNA: ribosomal RNA Associates with proteins to form

ribosomes in the cytoplasm

tRNA: transfer RNA Transport amino acids to the ribosome

PROTEIN SYNTHESIS

Production of proteins Occurs in two parts:

Transcription—involves the synthesis of mRNA from DNA

Translation – the mRNA is read and translated to make a protein

Transcription

1– DNA unzips Where does this happen?

2—RNA polymerase binds to the DNA where the mRNA will be made What is RNA polymerase?

3—RNA polymerase attaches free nucleotides complementary to the DNA strand What does complementary mean?

4– mRNA detaches itself from the DNA when finished copying the information

DNA & RNA Structure. Lesson Overview Lesson Overview The Structure of DNA The Components of DNA What...

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