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PROTEIN SYNTHESIS. Four Main Stages 1. Synthesis of Amino acid 2. Transcription (formation of RNA) 3. Amino acid activation 4. Translation.

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Presentation on theme: "PROTEIN SYNTHESIS. Four Main Stages 1. Synthesis of Amino acid 2. Transcription (formation of RNA) 3. Amino acid activation 4. Translation."— Presentation transcript:

1 PROTEIN SYNTHESIS

2 Four Main Stages 1. Synthesis of Amino acid 2. Transcription (formation of RNA) 3. Amino acid activation 4. Translation

3 Synthesis of Amino acid IN PLANT occurs in mitochondria and chloroplasts

4 Synthesis of Amino acid NITRATE AMINO GROUPS REDUCTION AMINO ACIDS COMBINATION WITH A CARBON SKELETON

5 Synthesis of Amino acid IN ANIMAL amino acids are mostly obtained through their food supply some amino acids can be synthesized inside their body

6 TRANSCRIPTION

7 TC A TGA T T A AG T ACA A A T Transcription takes place inside the nucleus. Part of a DNA unwinds.

8 AG T ACA A A T A G C U G A C G G U U U Only one strand acts as a template.

9 AG T ACA A A T A G C U G A C G G U U U Exposed base attracts complementary RNA. RNA POLYMERASE

10 AG T ACA A A T A G C G A C G G U U UU The enzyme RNA polymerase adds one complementary RNA nucleotide to the existing one.

11 AG T ACA A A T A G C G A C G G U U UU The enzyme RNA polymerase moves along the DNA.

12 AG T ACA A A T G C G A C G G U U UU A

13 AG T ACA A A T G C G A C G U U G UU A Complementary RNA nucleotide is added to the growing chain of mRNA one by one.

14 AG T ACA A A T G C G A C G U G UU A U

15 AG T ACA A A T G C G A C G G UU A UU

16 AG T ACA A A T G C G A C G G UU A UU A

17 AG T ACA A A T G C G C G G UU A UU A U

18 AG T ACA A A T G G C G G UU A UU A U C

19 AG T ACA A A T G G C G G UU A UU A U C

20 AG T ACA A A T UC A UGA U U A mRNA CYTOLPLASM mRNA leaves the nucleus through the nuclear pore. NUCLEOPLASM Nuclear pore

21 AG T ACA A A T UC A UGA U U A mRNA mRNA leaves the nucleus through the nuclear pore. CYTOPLASM NUCLEOPLASM

22 UC A UGA U U A mRNA CODON

23 AMINO ACID ACTIVITION

24 AAU Leucine ACU Aspartic Acid AU G Threonine TRANSFER RNA AMINO ACIDS

25 AAU Leucine ACU Aspartic Acid AU G Threonine Amino acids combine with the tRNAs using the energy from the splitting of ADP.

26 AAU Leucine ACU Aspartic Acid AU G Threonine Amino acids combine with the tRNAs using the energy from the splitting of ADP.

27 AAU Leucine ACU Aspartic Acid AU G Threonine ANTICODON

28 TRANSLATION

29 UC A UGA U U A mRNA CYTOPLASM

30 UC A UGA U U A AAU Leucine ACU Aspartic Acid RIBOSOME mRNA attaches to the ribosome.

31 UC A UGA U U A AAU Leucine ACU Aspartic Acid Complementary anticodon of the tRNA is attracted to the codon of the mRNA.

32 UC A UGA U U A AAU Leucine ACU Aspartic Acid AU G Threonine Complementary anticodon of the tRNA is attracted to the codon of the mRNA.

33 UC A UGA U U A AAU Leucine ACU Aspartic Acid AU G Threonine Peptide bond forms between the two adjacent amino acids.

34 UC A UGA U U A AAU Leucine ACU Aspartic Acid AU G Threonine Ribosome moves along the mRNA. Another complementary tRNA is attracted to the codon. The first tRNA is released back to cytoplasm.

35 UC A UGA U U A AAU Leucine ACU Aspartic Acid AU G Threonine Amino acid is linked to the previous amino acids with peptide bond.

36 UC A UGA U U A AAU Leucine ACU Aspartic Acid AU G Threonine A tripetide is formed.

37 UC A UGA U U A AAU ACU AU G Leucine Aspartic Acid Threonine mRNA and tripeptide are released to cytoplasm.

38 SCIENCE UNIT CURRICULUM DEVELOPMENT INSTITUTE EDUCATION DEPARTMENT SO Chi-shing Curriculum Officer (Biology)

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