Kozak sequence

(noun)

a sequence which occurs on eukaryotic mRNA and has the consensus (gcc)gccRccAUGG. The Kozak consensus sequence plays a major role in the initiation of the translation process. The sequence was named after the person who brought it to prominence, Marilyn Kozak.

Related Terms

Examples of Kozak sequence in the following topics:

  • Plasmids as Cloning Vectors

    • The vector itself is generally a DNA sequence that consists of an insert (transgene) and a larger sequence, which serves as the "backbone" of the vector.
    • Plasmids are double-stranded, generally circular DNA sequences capable of automatically replicating in a host cell .
    • Kozak sequence: a vector should encode for a Kozak sequence in the mRNA, which assembles the ribosome for translation of the mRNA.
    • Epitope: A vector containing a sequence for a specific epitope that is incorporated into the expressed protein.
    • Targeting sequence: Expression vectors may include encoding for a targeting sequence in the finished protein that directs the expressed protein to a specific organelle in the cell or specific location such as the periplasmic space of bacteria.

  • DNA Sequencing Based on Sanger Dideoxynucleotides

    • Sanger sequencing, also known as chain-termination sequencing, refers to a method of DNA sequencing developed by Frederick Sanger in 1977.
    • More recently, dye-terminator sequencing has been developed.
    • Automated DNA-sequencing instruments (DNA sequencers) can sequence up to 384 DNA samples in a single batch (run) in up to 24 runs a day.
    • Automation has lead to the sequencing of entire genomes.
    • Different types of Sanger sequencing, all of which depend on the sequence being stopped by a terminating dideoxynucleotide (black bars).

  • DNA Sequencing of Insertion Sites

    • An insertion sequence (also known as an IS, an insertion sequence element, or an IS element) is a short DNA sequence that acts as a simple transposable element.
    • The coding region in an insertion sequence is usually flanked by inverted repeats.
    • Although insertion sequences are usually discussed in the context of prokaryotic genomes, certain eukaryotic DNA sequences belonging to the family of Tc1/mariner transposable elements may be considered to be insertion sequences.
    • A complex transposon does not rely on flanking insertion sequences for resolvase.
    • It involves cutting genomic DNAs with a restriction enzyme, ligating vectorettes to the ends, and amplifying the flanking sequences of a known sequence using primers derived from the known sequence along with a vectorette primer.

  • Detecting Uncultured Microorganisms

    • These advances have allowed the adaptation of shotgun sequencing to metagenomic samples .
    • The approach, used to sequence many cultured microorganisms and the human genome, randomly shears DNA, sequences many short sequences, and reconstructs them into a consensus sequence.
    • Shotgun sequencing and screens of clone libraries reveal genes present in environmental samples.
    • This was further followed by high-throughput sequencing which did the same process as the shotgun sequencing but at a much bigger scale in terms of the amount of DNA that could sequenced from one sample.
    • (A) sampling from habitat; (B) filtering particles, typically by size; (C) Lysis and DNA extraction; (D) cloning and library construction; (E) sequencing the clones; (F) sequence assembly into contigs and scaffolds

  • Metagenomics

    • Conventional sequencing begins with a culture of identical cells as a source of DNA.
    • The approach, used to sequence many cultured microorganisms and the human genome, randomly shears DNA, sequences many short sequences, and reconstructs them into a consensus sequence.
    • These techniques for sequencing DNA generate shorter fragments than Sanger sequencing; 454 pyrosequencing typically produces ~400 bp reads, Illumina and SOLiD produce 25-75 bp reads.
    • However, this limitation is compensated for by the much larger number of sequence reads.
    • An additional advantage to short read sequencing is that this technique does not require cloning the DNA before sequencing, removing one of the main biases in environmental sampling.

  • Slipped-Strand Mispairing

    • Slipped strand mispairing (SSM) is a process that produces mispairing of short repeat sequences during DNA synthesis.
    • The short repeat sequences are 1 to 7 nucleotides and can be homogeneous or heterogeneous repetitive DNA sequences.
    • The overlapping promoter regions have repeats of the dinucleotide TA in the -10 and -35 sequences.
    • The second way that SSM induces transcriptional regulation is by changing the short repeat sequences located outside the promoter.
    • Black boxes are short sequence repeats.

  • Homologs, Orthologs, and Paralogs

    • The terms "percent homology" and "sequence similarity" are often used interchangeably.
    • As with anatomical structures, high sequence similarity might occur because of convergent evolution, or, as with shorter sequences, because of chance.
    • Such sequences are similar, but not homologous.
    • Sequence regions that are homologous are also called conserved.
    • Paralogous sequences provide useful insight into the way genomes evolve.

  • Mutation

    • Mutations are accidental changes in a genomic sequence of DNA; this includes the DNA sequence of a cell's genome or the DNA or RNA sequence.
    • In molecular biology and genetics, mutations are accidental changes in a genomic sequence of DNA: the DNA sequence of a cell's genome or the DNA or RNA sequence in some viruses.
    • These random sequences can be defined as sudden and spontaneous changes in the cell.
    • In general, this form of mutagenesis requires that the wild type gene sequence be known.

  • Vectors for Genomic Cloning and Sequencing

    • The vector itself is generally a DNA sequence that consists of an insert (transgene) and a larger sequence that serves as the "backbone" of the vector.
    • Vectors called expression vectors (expression constructs) are specifically for the expression of the transgene in the target cell, and generally have a promoter sequence that drives expression of the transgene.
    • Plasmids are double-stranded generally circular DNA sequences that are capable of automatically replicating in a host cell .
    • These plasmid transcription vectors characteristically lack crucial sequences that code for polyadenylation sequences and translation termination sequences in translated mRNAs, making protein expression from transcription vectors impossible.
    • However, because viral vectors are frequently lacking infectious sequences, they require helper viruses or packaging lines for large-scale transfection.

  • Annotating Genomes

    • Genome annotation is the identification and understanding of the genetic elements of a sequenced genome.
    • The genome sequence of an organism includes the collective DNA sequences of each chromosome in the organism.
    • For a bacterium containing a single chromosome, a genome project will aim to map the sequence of that chromosome.
    • Once a genome is sequenced, it needs to be annotated to make sense of it.
    • Genome annotation is the process of attaching biological information to sequences.