How Do You Spell OLIGONUCLEOTIDE DIRECTED MUTAGENESIS?

Pronunciation: [ˈɒlɪɡˌɒnjuːklˌɪətˌa͡ɪd da͡ɪɹˈɛktɪd mjˌuːte͡ɪd͡ʒˈɛnɪsˌɪs] (IPA)

Oligonucleotide directed mutagenesis is a molecular biology technique that involves the synthesis of a short piece of DNA called an oligonucleotide to introduce specific mutations into a DNA sequence. Its spelling in IPA phonetic transcription is ˌɑlɪɡoʊˈnuːkliəˌtaɪd dəˈrɛktəd ˌmjutəˈdʒɛnəsɪs, it is commonly abbreviated as ODPM. This technique has various applications in genetic studies, developmental biology, and biotechnology. It has become a powerful tool in research, allowing scientists to study the effects of specific mutations on gene function and expression.

OLIGONUCLEOTIDE DIRECTED MUTAGENESIS Meaning and Definition

  1. Oligonucleotide directed mutagenesis is a molecular technique used in genetic engineering to introduce specific and targeted changes into DNA sequences. It involves the design and synthesis of short DNA fragments, known as oligonucleotides, which are complementary to the region of interest in the target DNA sequence. These oligonucleotides are chemically modified to contain the desired genetic alteration, such as a point mutation, deletion, insertion, or substitution.

    The process begins by annealing the synthesized oligonucleotide to the target DNA sequence under specific conditions, allowing for base pairing between the oligonucleotide and the corresponding region in the DNA. This forms a stable DNA duplex. The DNA duplex is then used as a template for DNA synthesis, often using DNA polymerase enzymes, to incorporate the designed changes into the target DNA sequence. This leads to the formation of a mutated DNA molecule.

    Oligonucleotide directed mutagenesis offers several advantages over other mutagenesis techniques. It allows precise control and introduction of specific mutations, even in complex DNA sequences, without the need for extensive modifications or cloning steps. It is a highly efficient and flexible method that can be performed in vitro, making it suitable for a wide range of applications, including gene function studies, protein structure-function analyses, and the development of novel biotechnological tools. Oligonucleotide directed mutagenesis has significantly contributed to our understanding of gene function and the development of new therapeutics.

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