Transcription and Translation of DNA



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Transcription and Translation of DNA Genotype our genetic constitution ( makeup) is determined (controlled) by the sequence of bases in its genes Phenotype determined by the proteins synthesised when genes are expressed (copied) Gene expression involves transcription and translation RNA ribonucleic acid is involved in both processes Each nucleotide is composed of ribose sugar, an organic base and a phosphate group Differences between DNA and RNA 1. RNA has ribose instead of deoxyribose 2. RNA has uracil instead of thymine 3. RNA is a single strand, DNA is double stranded Back to DNA.... Characteristics are the result of biochemical processes controlled by enzymes Enzymes are made of protein made up of polypeptide chains composed of amino acids Genetic code Sequence of bases along DNA represents a sequence of codewords Each DNA stand bears a series of base triplets arranged in a particular order for coding for proteins needed by an organism 1 P a g e

Genetic information for making protein is on the DNA in the nucleus Assembly of amino acids into polypeptides takes place in the cytoplasm Remember, DNA is double stranded and is too big to leave the nucleus So, A molecule of mrna is transcribed, copied out, from a section of DNA mrna meets another nucleic acid trna, transfer RNA Genetic information is changed into or translated into protein Transcription and primary transcript Promoter region of DNA where transcription is initiated RNA polymerase is enzyme responsible for transcription As the enzyme moves along the gene from the promoter, it brings about the synthesis of mrna mrna has nucleotide sequence complementary to one of the two DNA strands RNA polymerase adds nucleotides to the 3 end of the growing mrna molecule A terminator region is reached and the m RNA becomes separated from the DNA template The mrna is called the primary transcript at this stage Stages of Transcription Stage 1 DNA double helix unwinds Stage 2 weak hydrogen bonds breaking between bases, causing DNA strands to separate Stage 3 free RNA nucleotides (moving freely in the nucleus) find complimentary pair on the DNA strand Stage 4 weak hydrogen bonds are formed between the new bases pairing Stage 5 strong chemical bonds are formed between the new RNA nucleotides, opposite the DNA. This allows a new strand to be formed 2 P a g e

Stage 6 weak hydrogen bonds are breaking between DNA & RNA, allowing mrna to break from the DNA template Stage 7 new mrna strand is ready to be transported out of the nucleus into the cytoplasm Stage 8 weak hydrogen bonds reunite the two original DNA strands into a double helix again. Long stretches of DNA in a gene do not code for a protein Introns non coding regions Exons coding regions Introns are cut out from the primary transcript and exons are spliced together This forms mrna with a continuous sequence of nucleotides This sequence is translated into a sequence of amino acids 3 P a g e

RNA Splicing Translation Translation is the synthesis of protein, as a polypeptide chain, under the direction of mrna The genetic message, carried by mrna, is made up of a series of base triplets called codons Codon is the basic unit of the genetic code trna t RNA is required for translation trna is found in the cytoplasm trna has a 3D structure because it is folded back on itself but is not double stranded trna has one particular triplet of bases exposed an anticodon 4 P a g e

An anticodon is complementary to a mrna codon and corresponds with a particular amino acid i.e. its base sequence is specific to one of the 20 amino acids Each trna picks up an amino acid from the cytoplasm s amino acid pool The amino acid is carried by the trna to a ribosome and it is added to a growing polypeptide chain Start and Stop codons mrna codon AUG codes for methionine and acts as a start codon mrna codons UAA, UAG and UGA act as stop codons Ribosome Contains enzymes for protein synthesis Function of a ribosome is to bring a trna molecule, bearing an amino acid, into contact with mrna Ribosome has one binding site for mrna Ribosome has three binding sites for trna. These are needed to :- hold trna carrying the peptide chain hold the trna carrying the next amino acid allowing it to be joined by peptide bond discharge ( release) the trna from the ribosome These three sites are called P, A and E 5 P a g e

Ribosome binds to the 5 end of the mrna so that the start codon, AUG, is in position at binding site P Next Molecule of trna carrying its amino acid methionine becomes attached, by hydrogen bonds, to site P mrna codon at site A recognises and forms hydrogen bonds with the anticodon on the trna molecule bearing its amino acid When the first two amino acids are aligned, they become joined by peptide bonds As the ribosome moves along, the t RNA that was at site P is moved to site E and is discharged from the ribosome to be re-used The trna that was at site A is moved to sit P and the vacated site A becomes occupied by the next trna carrying an amino acid... and so on! Eventually a stop codon is reached (AUU AUC UGA) At this point, site A becomes occupied by a release factor which frees the polypeptide from the ribosome 6 P a g e

Polyribosome Not mentioned in arrangements but interesting Multiple translation is achieved by several ribosomes being attached to the ribosome and translating at the same time In this way many copies of the polypeptide are made 7 P a g e

One gene, many proteins A primary transcript is cut up and its exons are spliced together to form mrna ready for translation Alternative segments of mrna may be treated as exons and introns So, the same primary transcript has the potential to make several mrna molecules each with a different sequence of base triplets One gene can code for several different proteins And, a limited number of genes can give rise to a wide variety of proteins Post-translational modifications A single polypeptide chain may be cleaved (cut) by enzymes to make it active e.g. Insulin requires the central section to be cut out by protease enzymes see next slide A protein s structure can be modified by adding carbohydrate or a phosphate group e.g. Mucus is a glycoprotein, protein with carbohydrate added P53 is a regulatory protein which is usually inactive When a cell s DNA is damaged, phosphate is added this makes it active P53 active can repair DNA or bring about cell death 8 P a g e

9 P a g e Pro-insulin shown in the diagram opposite is inactive and only becomes active when the section shown is cut out. This process is called cleavage

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