Nucleic acids

• Describe the basic structure of a mono-nucleotide and how they bond to form DNA (include complementary base pairing) and RNA

• Explain the nature of the genetic code (triplet code only; non-overlapping and degenerate not required at AS)

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Genetic jargon

• DeoxyriboNucleic acid • Contain instructions on how to build

proteins used in the body.• Found in cell nucleus.• Codes for individual Proteins.

DNA

A double helix

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2 forms of Nucleic acid

• DNA – deoxyribonucleic acid

found in nucleus

• RNA – ribonucleic acid

found in 3 different forms

• Hold coded information to build an organism

Mononucleotides or nucleotides

• Monomers of Nucleic acids

• Each nucleotide is made of

-Phosphate group

-Pentose sugar

-Nitrogenous base

What are the differences between DNA and RNA?

• DNA – pentose sugar - deoxyribose• Nitrogenous base DNA – Four types:• Double strand RNA –Pentose sugar - ribose A C G and Uracil instead of Single strand

A

C G

T

T

Ribose sugars in DNA and RNA

Joining Nucleotides together

• Condensation reaction between

• Phosphate of one nucleotide and sugar of another

• Phosphodiester Bond• Backbone of chain =

sugar- phosphate • Bases project into

centre

Organic bases are purines or pyrimidines

• Adenine and Guanine are purines

• Thymine, Uracil and Cytosine are pyrimidines

Part of a DNA part molecule

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PBASE

Sugar

PBASE

Sugar

PBASE

Sugar

PBASE

Sugar

DNA

PBASE

Sugar

Adenine

Guanine

Cytosine

Thymine

BASE

BASE

Thymine

Adenine

Thymine

BASE

Cytosine

BASEGuanine

BASEAdenine

Hydrogen bonding and base pairing

A-T, C-G and number of hydrogen bonds • Chains are the same distance apart

• Because base pair up in a particular way

• Pyrimidine pairs up with a purine

• A with T or U

• C with G

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DNA Replication

• The double helix is untwisted• Hydrogen bonds between the bases are

broken apart to unzip the DNA• Bases are exposed• Free nucleotides are H bonded onto the

exposed bases• Covalent bonds formed between

phosphate and sugar to make the backbone

DNA replication

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Why semi conservative?

• A new double helix consists on I parent stand and 1 new strand

• Only one of the original strands is conserved