Transcription and translation flip book

Transcription and Translation Flip Book

By: Jared Weber pd. 2

Nucleus

Transcription

Cytoplasm

Transcription

Nucleus

Chromosome

Transcription

Transcription

TA

AT G

C

C

GC

GC

C

GT

A G A

T

T

A

Helicase

Transcription

A G CT G T

T

C T G

AC A CAGCG T

A

Promoter Region Coding RegionTermination Sequence

GC A

mRNA

Transcription

Nucleus

Nuclear Pore

Ribosome

mRNA

Nucleus

Translation

Cytoplasm

Translation

Nucleus

Nuclear Pore

Ribosome

mRNA

Translation

Nucleus

Nuclear Pore

Ribosome

mRNA

Translation

Nucleus

Nuclear Pore

Ribosome

mRNA

Translation

Nucleus

Nuclear Pore

Ribosome

mRNA

Translation

Nucleus

Nuclear Pore

Ribosome

mRNA

Promoter Region Coding RegionTermination Sequence

Translation

T CA A CAGCG T

Ribosome

T CA A CAGCG T

G U C

tRNATranscription

Codon

Anticodon

Ribosome

T CA A CAGCG T

G U C

tRNATranscription

Codon

Anticodon

Peptide Bond

Transcription

G T C

Proteins

Transcription

The five steps of transcription are1. Enzymes unzip a portion of the DNA molecule2. Then RNA polymerase adds the matching RNA complimentary

to the DNA strand3. A RNA sugar-phosphate backbone forms 4. The hydrogen bonds are then broken to free the new RNA

strand 5. Then the RNA exits the nucleus by the use of nuclear pores.

Translation

The five steps of translation are1. First, a ribosome attaches to the mRNA strand and a tRNA

anticodon matches with the mRNA codon2. The ribosome slides over the one codon of the mRNA3. A tRNA molecule carries another amino acid pair to the

second mRNA codon4. The amino acids are then joined together by peptide bonds5. Lastly, the chain of amino acids are formed until the the stop

codon is reached