Introduction The Central Dogma of Molecular Biology

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DNA mRNA Transcription Introduction The Central Dogma of Molecular Biology Cell Polypeptide (protein) Translation Ribosome

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DNA. Transcription. Ribosome. mRNA. Translation. Polypeptide (protein). Introduction The Central Dogma of Molecular Biology. Cell. Protein Synthesis. Flow of Information: DNA RNA Proteins Transcription Translation - PowerPoint PPT Presentation

Transcript of Introduction The Central Dogma of Molecular Biology

Page 1: Introduction The Central Dogma  of Molecular Biology

DNA

mRNA

Transcription

Introduction

The Central Dogma of Molecular Biology

Cell

Polypeptide(protein)

TranslationRibosome

Page 2: Introduction The Central Dogma  of Molecular Biology

Protein SynthesisFlow of Information:DNA RNA Proteins

Transcription Translation

Transcription is the process by which a molecule of DNA is copied into a complementary strand of RNA.

This is called messenger RNA (mRNA) because it acts as a messenger between DNA and the ribosomes where protein synthesis is carried out.

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Protein Synthesis TranscriptionTranscription process

•RNA polymerase (an enzyme) attaches to DNA at a special sequence that serves as a “start signal”.

•The DNA strands are separated and one strand serves as a template.

•The RNA bases attach to the complementary DNA template, thus synthesizing mRNA.

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Protein Synthesis: Transcription

Transcription process continued

•The RNA polymerase recognizes a termination site on the DNA molecule and releases the new mRNA molecule.

(mRNA leaves the nucleus and travels to the ribosome in the cytoplasm.)

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Protein Synthesis: Transcription

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DNA

Cytoplasm

Nucleus

Eukaryotic Transcription

ExportG AAAAAA

RNA

Transcription

Nuclear pores

G AAAAAA

RNAProcessing

mRNA

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Protein Synthesis: Translation

Translation is the process of decoding a mRNA molecule into a polypeptide chain or protein.

Each combination of 3 nucleotides on mRNA is called a codon or three-letter code word.

Each codon specifies a particular amino acid that is to be placed in the polypeptide chain (protein).

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Protein Synthesis: Translation

Page 9: Introduction The Central Dogma  of Molecular Biology

SU

GA

R-P

HO

SP

HA

TE

BA

CK

BO

NE

B A

S E

S

H

PO

O

HO

O

O

CH2NH2N

NH

N

N

HOH

P

O

O

HO

O

O

CH2

NH2

N

N

N

N

H

P

O

OH

HO

O

O

CH2

NH2

N

N

N

N

O

A Codon

GuanineGuanine

AdenineAdenine

AdenineAdenine

Arginine

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Protein Synthesis: Translation

•A three-letter code is used because there are 20 different amino acids that are used to make proteins.

•If a two-letter code were used there would not be enough codons to select all 20 amino acids.

•That is, there are 4 bases in RNA, so 42 (4x 4)=16; where as 43 (4x4x4)=64.

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Protein Synthesis: Translation

Page 12: Introduction The Central Dogma  of Molecular Biology

Protein Synthesis: Translation•Therefore, there is a total of 64 codons with mRNA, 61specify a particular amino acid.

• This means there are more than one codon for each of the 20 amino acids.

•The remaining three codons (UAA, UAG, & UGA) are stop codons, which signify the end of a polypeptide chain (protein).

•Besides selecting the amino acid methionine, the codon AUG also serves as the “initiator” codon, which starts the synthesis of a protein

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Protein Synthesis: Translation

Page 14: Introduction The Central Dogma  of Molecular Biology

Protein Synthesis: TranslationTransfer RNA (tRNA)

•Each tRNA molecule has 2 important sites of attachment.

•One site, called the anticodon, binds to the codon on the mRNA molecule.

•The other site attaches to a particular amino acid.

•During protein synthesis, the anticodon of a tRNA molecule base pairs with the appropriate mRNA codon.

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Protein Synthesis: Translation

Page 16: Introduction The Central Dogma  of Molecular Biology

MethionineMet-tRNA

U*

9

262223Pu

16

12Py 10

25

20:1

G*

17:1

Pu

A20:2

1713

20G

A5051

656463

G

62

52

CPu

59

A*

C

Py

T49

39

4142

31

2928

Pu*

43127

U35

38

36

Py*

34

403047:1

47:15

46

Py47:16

4544

47

73CCA

707172

66676869

321

7654

A CU

Anticodon

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Protein Synthesis: TranslationRibosome:

•Are made up of 2 subunits, a large one and a smaller one, each subunit contains ribosomal RNA (rRNA) & proteins.

•Protein synthesis starts when the two subunits bind to mRNA.

•The initiator codon AUG binds to the first anticodon of tRNA, signaling the start of a protein.

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Protein Synthesis: TranslationRibosome:

•The anticodon of another tRNA binds to the next mRNA codon, bringing the 2nd amino acid to be placed in the protein.

•As each anticodon & codon bind together a peptide bond forms between the two amino acids.

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Protein Synthesis: TranslationRibosome:

•The protein chain continues to grow until a stop codon reaches the ribosome, which results in the release of the new protein and mRNA, completing the process of translation.

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Protein Synthesis: Translation

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AE

Large subunit

P

Small subunit

Translation - Initiation

fMet

UACGAG...CU-AUG--UUC--CUU--AGU--GGU--AGA--GCU--GUA--UGA-AT GCA...TAAAAAA5’mRNA

3’

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AE

Ribosome P UCU

Arg

Aminoacyl tRNA

PheLeu

Met

SerGly

Polypeptide

CCA

Translation - Elongation

GAG...CU-AUG--UUC--CUU--AGU--GGU--AGA--GCU--GUA--UGA-AT GCA...TAAAAAA5’mRNA

3’

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AE

Ribosome P

PheLeu

Met

SerGly

Polypeptide

Arg

Aminoacyl tRNA

UCUCCA

Translation - Elongation

GAG...CU-AUG--UUC--CUU--AGU--GGU--AGA--GCU--GUA--UGA-AT GCA...TAAAAAA5’mRNA

3’

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ANYTHING

ACIDAMINE

Protein Synthesis

C

O

OHCN

H

HH

C

HO H

C

H

O

CN

H

HH

C

H H

C

H

O

OHCN

H

HH

C

HO H

Serine

C

H

O

OHCN

H

HH

C

H H

AlanineH

C

O

OHC

R

N

H

H

Amino Acid

H2O

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AE

Ribosome P

CCA

Arg

UCU

PheLeu

Met

SerGly

Polypeptide

Translation - Elongation

GAG...CU-AUG--UUC--CUU--AGU--GGU--AGA--GCU--GUA--UGA-AT GCA...TAAAAAA5’mRNA

3’

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AE

Ribosome P

Translation - Elongation

Aminoacyl tRNA

CGA

Ala

CCA

Arg

UCU

PheLeu

Met

SerGly

Polypeptide

GAG...CU-AUG--UUC--CUU--AGU--GGU--AGA--GCU--GUA--UGA-AT GCA...TAAAAAA5’mRNA

3’

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AE

Ribosome P

Translation - Elongation

CCA

Arg

UCU

PheLeu

Met

SerGly

Polypeptide

CGA

Ala

GAG...CU-AUG--UUC--CUU--AGU--GGU--AGA--GCU--GUA--UGA-AT GCA...TAAAAAA5’mRNA

3’

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3’

5’

5’

3’

Transcription And Translation In Prokaryotes

Ribosome

Ribosome5’

mRNA

RNAPol.