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PROTEIN SYNTHESIS

PROTEIN SYNTHESIS. RNA (RIBONUCLEIC ACID) Nucleic acid involved in the synthesis of proteins. RNA STRUCTURE Composed of nucleotides, but differs from DNA in three ways. Single strand of nucleotides instead of double stranded Has uracil instead of thymine

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PROTEIN SYNTHESIS

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  1. PROTEIN SYNTHESIS

  2. RNA (RIBONUCLEIC ACID) Nucleic acid involved in the synthesis of proteins

  3. RNA STRUCTURE Composed of nucleotides, but differs from DNA in three ways. • Single strand of nucleotides instead of double stranded • Has uracil instead of thymine • Contains ribose instead of deoxyribose

  4. RNA FUNCTION Three forms of RNA involved in protein synthesis 1. mRNA (messenger): copies instructions in DNA and carries these to the ribosome. 2. tRNA (transfer): carries amino acids to the ribosome. 3. rRNA (ribosomal): composes the ribosome.

  5. PROTEIN SYNTHESIS Cells build proteins following instructions coded in genes (DNA). • Consists of two parts, transcription and translation

  6. TRANSCRIPTION DNA is copied into a complementary strand of mRNA. WHY? • DNA cannot leave the nucleus. Proteins are made in the cytoplasm. mRNA serves as a “messenger” and carries the protein building instructions to the ribosomes in the cytoplasm.

  7. LOCATION OF TRANSCRIPTION Nucleus

  8. HOW TRANSCRIPTION OCCURS 1. RNA polymerase untwists and unzips a section of DNA (usually a single gene) from a chromosome.

  9. 2. RNA polymerase pairs free RNA nucleotides to the exposed bases of one of the DNA strands following base pair rules. • Uracil replaces thymine • Only 1 strand of DNA serves as a template, the other “hangs out”

  10. 3. Newly synthesized mRNA separates from template DNA and DNA zips back up.

  11. RESULT OF TRANSCRIPTION mRNA strand with instructions for building a protein that leaves the nucleus and goes to the cytoplasm.

  12. TRANSCRIPTION EXAMPLE • Transcribe the following DNA Sequence in mRNA TAC CGG ATC CTA GGA TCA AUG GCC UAG GAU CCU AGU

  13. PROTEINS Structural and functional components of organisms. • Composed of amino acids • order of nucleotides in DNA determines order of amino acids in a protein • One gene codes for one protein

  14. GENETIC CODE The “language” that translates the sequence of nitrogen bases in DNA (mRNA) into the amino acids of a protein. • Codon = three nucleotides on mRNA • One codon specifies one amino acid • Some codons are redundant (code for the same amino acid) • The genetic code is universal to all organisms

  15. DNA: TAC CTT GTG CAT GGG ATC mRNA AUG GAA CAC GUA CCC UAG A.A MET G.A HIS VAL PRO STOP

  16. IMPORTANT CODONS • AUG = start translation (Met) • UAA, UAG, UGA= stop translation

  17. TRANSLATION Instructions in mRNA are used to build a protein

  18. LOCATION OF TRANSLATION ribosome (in the cytoplasm)

  19. PROCESS OF TRANSLATION 1. mRNA binds to the ribosome. 2. Ribosome searches for start codon (AUG) 3. tRNA brings correct amino acid (methionine) to the ribosome. • Each tRNA carries one type of amino acid. • The anticodon (three nitrogen bases on tRNA) must complement codon for amino acid to be added to protein chain

  20. 4. ribosome reads next codon 5. tRNA’s continue lining up amino acids according to codons 6. peptide bonds link amino acids together 7. ribosome reaches STOP codon • Amino acid chain is released

  21. RESULT OF TRANSLATION A Protein What’s the point of all this? Gene Expression is all about protein synthesis. Many of our genetic traits (hair color, eye color, skin color, height, metabolism) are based on the type of proteins that are made.

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