My AP Biology Thoughts  Unit 6 Gene Expression and RegulationWelcome to My AP Biology Thoughts podcast, my name is Saarim Rizavi and I am your host for episode #108 called Unit 6 Gene Expression and Regulation: Translation. Today we will be discussing everything there is to know about translation. I will first be giving a brief overview of what translation is, it’s overall function, the 3 steps involved in translation, and some of the different components and organelles involved in translation. I’ll then go into greater detail on the individual steps of translation which will involve the organelles and different components mentioned before. Finally, I will relate the process of translation to the broader topic of gene expression and regulation. Before I begin, I would like to give credit to Khan Academy, biologydictionary.com, and nature.com for the information they provided me with in order for this podcast to be possible. So thanks to them. Alright, so here we go:Segment 1: Introduction to TranslationTranslation is the process of creating proteins from an mRNA templateA cell reads information from mRNA molecules and uses this information to build a protein - involves decoding an mRNA and using its information to build a polypeptide, and multiple polypeptide chains form a proteinThree basic steps of translation - initiation, elongation, and terminationInitiation - the ribosomes get together with the mRNA and the first tRNA so translation can beginElongation - the amino acids are brought to the ribosome by tRNAs and linked together to form a chain of amino acidsTermination - the finished polypeptide is released to go and do its job in the cellIn mRNA, the instructions for building a polypeptide come in groups of 3 nucleotides called codons - there are 61 codons for amino acids and each of them is read to specify a certain amino acid out of the 20 possible amino acidsStop codons tell the cell when polypeptide is complete and the AUG codon is the start codon which signals the start of protein constructionIn translation, the codons of an mRNA are read in order, from the 5’ end to the 3’ end, by tRNAs.tRNA’s = molecular bridges that connect mRNA codons to the amino acid they encodeOne end of the tRNA has a sequence of 3 nucleotides called an anticodon, which binds to a matching mRNA codon through base pairing; the other end of the tRNA carries the amino acid specified by the codonstRNAs bind to mRNAs inside the ribosomes - ribosomes are made up of protein and ribosomal RNAThe ribosomes provide a set of slots where tRNAs can find their matching codons on the mRNA template and deliver their amino acids. As these tRNAs enter slots in the ribosome and bind to codons, their amino acids are linked to the growing polypeptide chain in a...