genes and genetic code

    avatar
    Created by
    Mabel Young

    Cards (33)

    • the order of bases in a gene determines the order of amino acids in a protein
    • each amino acid is coded for by a sequence of 3 bases (this is called a codon)
    • A gene may also code for a section of functional DNA
    • functional RNA are RnA molecules other than messenger RNA (involved in protein production)
    • examples of functional RNA molecules include tRNA (transfer RNA) and rRNA (ribosomal RNA)
    • mRNA is a section of DNA that codes for a protein
    • In the genome, there are sections of DNA that code for tRNA and rRNA
    • a universal genetic code is one in which each triplet codes for the same amino acid in all organisms
    • a non-overlapping genetic code is one in which each base in the sequence is read only once
    • a degenerate genetic code is one in which most amino acids are coded for by more than one triplet
    • the genetic code is degenerate, universal and non-overlapping
    • the start codon is a series of three bases at the start of a gene + initiates translation
    • The start codon codes for the amino acid methionine and is removed from the protein if not actually needed for the structure
    • The start codon is TAC in DNA and AUG in mRNA
    • The stop codon is a series of three bases at the end of every gene that do not code for an amino acid
    • The stop codon marks the end of the polypeptide chains and causes ribosomes to detach and therefore translation to stop
    • The stop codons are ATT, ACT and ATC in DNA
    • 20 amino acids that the genetic code has to be able to code for
    • degenerate -> each amino acid is coded for by more than one triplet of bases
    • the code is degenerate as 64 possible combinations (4x4x4 because 4^3) is more than is needed to code for 20 amino acids
    • Introns are sections of DNA that do not code for amino acids and therefore polypeptide chains
    • the true purpose of introns is currently unknown
    • introns are removed during protein synthesis
    • prokaryotic DnA does not contain introns
    • exons are regions of genes that do code for a protein
    • Eukaryotic DNA also contains repeating regions of DNA located outside of genes (called short tandem repeats or microsatelillites) which are also non-coding
    • A gene can exist in multiple forms
    • These are called alleles
    • Humans usually have 2 alleles of the same gene - one for each chromosome
    • The base sequence of two alleles of the same gene may be slightly different to one another
    • This difference may lead to slightly different proteins being made
    • a gene is a section of DNA that contains a code for making a polypeptide and functional RNA
    • polypeptides make proteins so genes determine the proteins of an organism