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PROTEIN SYNTHESIS copyright cmassengale 1 Protein Synthesis • DNA ‘s code must be copied and taken to the ribosomes. • In the ribosomes, this code must be read so amino acids can be assembled to make proteins. • This process is called PROTEIN SYNTHESIS copyright cmassengale 2 RNA copyright cmassengale 3 Roles of RNA and DNA • DNA is the MASTER PLAN • RNA is the BLUEPRINT (copy) of the Master Plan copyright cmassengale 4 RNA Differs from DNA • RNA has a sugar ribose DNA has a sugar deoxyribose copyright cmassengale 5 Other Differences • • RNA contains the base uracil (U) DNA has thymine (T) RNA molecule is single-stranded DNA is doublestranded copyright cmassengale DNA 6 Structure of RNA copyright cmassengale 7 Remember the Complementary Bases On DNA: A-T C-G On RNA: A-U C-G copyright cmassengale 8 . Three Types of RNA • Messenger RNA (mRNA) copies DNA’s code & carries the genetic information to the ribosomes • Ribosomal RNA (rRNA), along with protein, makes up the ribosomes • Transfer RNA (tRNA) transfers amino acids to the ribosomes where proteins are synthesized copyright cmassengale 9 Messenger RNA • Long Straight chain of Nucleotides • Made in the Nucleus • Copies DNA & carries info to ribosomes. copyright cmassengale 10 Ribosomal RNA (rRNA) • Globular in shape • Are part of the ribosomes actual structure. • Site of protein Synthesis (where the proteins are made) copyright cmassengale 11 Transfer RNA (tRNA) • Clover-leaf shape • Single stranded molecule. • Attachment site at one end for an amino acids. • Opposite end has three nucleotide bases called the anticodon. copyright cmassengale 12 Transfer RNA amino acid attachment site U A C anticodon copyright cmassengale 13 Codons and Anticodons • The 3 bases of an anticodon are complementary to the 3 bases of a codon • Example: Codon ACU Anticodon UGA copyright cmassengale UGA ACU 14 Transcription and Translation (The actual making of a protein.) copyright cmassengale 15 Protein Synthesis The production or synthesis of proteins. Two phases: Transcription & Translation copyright cmassengale 16 Transcription • The process of copying the sequence of one strand of DNA, the template strand. • mRNA copies the template strand. copyright cmassengale 17 Transcription • During transcription, RNA polymerase binds to DNA and separates the DNA strands • RNA Polymerase then uses one strand of DNA as a template to assemble nucleotides into RNA copyright cmassengale 18 Transcription • Promoters are regions on DNA that show where RNA Polymerase must bind to begin the Transcription of RNA Called the TATA box. copyright cmassengale 19 Transcription • Specific base sequences act as signals to stop Called the termination signal. • Once the Polymerase is done it falls off, the DNA re-zips up and the mRNA escapes out the nucleus. copyright cmassengale 20 mRNA Transcript •mRNA leaves the nucleus through its pores and goes to the ribosomes. copyright cmassengale 21 Translation • Translation is the process of decoding the mRNA into a protein. • Ribosomes read mRNA three bases or 1 codon at a time and construct the proteins copyright cmassengale 22 Step 1- Initiation • mRNA enters the ribosome and attaches to the tRNA. The tRNA has an anticodon that matches with the three “start” nucleotides. 23 Initiation amino aa2 2-tRNA 1-tRNA anticodon hydrogen bonds U A C A U G codon G A U C U A C U U C G A mRNA copyright cmassengale 24 Step 2 - Elongation • The ribosome moves down the mRNA strand. • The first tRNA detaches and leaves it’s amino acid. • Two new tRNA with their amino acids move into position (positions are called A and P) • The new tRNAs have the correct amino acid for that specific codon. Each copyright cmassengale 25 amino Acid forms a bond. Amino 1 peptide bonds Amino 4 Amino 2 Amino 3 4-tRNA 2-tRNA A U G 3-tRNA G C U G A U G A A C U A C U U C G A A C U mRNA copyright cmassengale 26 Amino 1 peptide bonds Amino 5 Amino 2 Amino 3 Amino 4 5-tRNA U G A 3-tRNA 4-tRNA G A A G C U G C U A C U U C G A A C U mRNA copyright cmassengale 27 Termination • tRNA’s will continue to read mRNA and hook up amino acids until “stop” codon is reached. • A “stop” codon is three nucleotides on the mRNA that tRNA does not have an anticodon for. copyright cmassengale 28 Dissaembly • When the stop codon is reached the ribosome falls off, the protein goes into the body, and the tRNAs go out to find more amino acids. • The ribosome will go find another strand of mRNA and the 29 whole process starts over. End Product –The Protein! • The end products of protein synthesis is a primary structure of a protein • A sequence of amino acid bonded together by peptide bonds 2 1 3 4 5 199 copyright cmassengale 200 30