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From DNA to Proteins Transcription.

Published byRudolf Bláha Modified over 5 years ago

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Presentation on theme: "From DNA to Proteins Transcription."— Presentation transcript:

1 From DNA to Proteins Transcription

2 Central Dogma A termed coined by Francis Crick. The central dogma of molecular biology is an explanation of the flow of genetic information within a biological system. Replication copies DNA Transcription: The process by which DNA makes RNA Translation: The process by which RNA makes proteins

3 Central Dogma Replication copies DNA
Transcription converts DNA message into intermediate molecule, called RNA Translation interprets an RNA message into string of amino acids, called polypeptide (protein)

4 In prokaryotic cells processes take place in cytoplasm
In eukaryotic cells processes are separated a. Replication and Transcription in nucleus b. Translation occurs in cytoplasm (ribosome)

5 RNA acts as messenger between nucleus and protein synthesis in cytoplasm (ribosome)
RNA differs from DNA in three significant ways a. Sugar in RNA is ribose not deoxyribose b. RNA has the base uracil in place of thymine c. RNA is single stranded not double

6 Transcription copies sequence of DNA (one gene) and is catalyzed by RNA polymerase
a. DNA begins to unwind at specific site (gene)

7 b. Using one strand of DNA, complementary strand of RNA is produced
c. RNA strand detaches and DNA reconnects

8 Transcription produces 3 kinds of RNA
Messenger RNA (mRNA) code for amino acid Ribosomal RNA (rRNA) forms part of ribosome Transfer RNA (tRNA) brings amino acids from the cytoplasm to a ribosome to help make growing protein

9 The transcription process is similar to replication
a. Both occur in nucleus b. Both involve unwinding of DNA c. Both involve complementary base pairing

10 Amino acids are coded by mRNA base sequences
A codon is a sequence of three nucleotides that codes for an amino acid.

11 RNA could code 64 different combinations
There are 20 amino acids used to build proteins in human body and most other organisms

12 Many amino acids are coded by more than one codon
Also special codons: Start codon  signals start of translation Stop codon  signals end of amino acid chain

13 This code is universal – same in almost all organisms
a. Suggests common ancestor b. Means scientist can insert gene from one organism into another to make functional protein

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