In biotechnology, what is the significance of DNA ligase?

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Study for the HOSA Biomedical Laboratory Test. Enhance your skills with interactive flashcards and multiple-choice questions, featuring helpful hints and explanations. Prepare effectively and boost your confidence!

Multiple Choice

In biotechnology, what is the significance of DNA ligase?

Explanation:
DNA ligase plays a crucial role in biotechnology by binding together DNA fragments. This enzyme facilitates the formation of phosphodiester bonds between the sugar and phosphate groups of adjacent nucleotides, effectively sealing nicks in the sugar-phosphate backbone of the DNA. This activity is essential during various molecular cloning procedures, where DNA segments from different sources need to be joined together into a single coherent DNA molecule. For instance, when inserting a gene of interest into a plasmid vector, after the plasmid and the gene have been cut with restriction enzymes, DNA ligase is used to join the two pieces. The ability to effectively join these fragments is vital in genetics, cloning, and synthetic biology, enabling researchers to create recombinant DNA molecules for further study or application. This understanding is fundamental in gene therapy, genetic engineering, and numerous biotechnological applications, highlighting the significance of DNA ligase in manipulating genetic material.

DNA ligase plays a crucial role in biotechnology by binding together DNA fragments. This enzyme facilitates the formation of phosphodiester bonds between the sugar and phosphate groups of adjacent nucleotides, effectively sealing nicks in the sugar-phosphate backbone of the DNA. This activity is essential during various molecular cloning procedures, where DNA segments from different sources need to be joined together into a single coherent DNA molecule.

For instance, when inserting a gene of interest into a plasmid vector, after the plasmid and the gene have been cut with restriction enzymes, DNA ligase is used to join the two pieces. The ability to effectively join these fragments is vital in genetics, cloning, and synthetic biology, enabling researchers to create recombinant DNA molecules for further study or application.

This understanding is fundamental in gene therapy, genetic engineering, and numerous biotechnological applications, highlighting the significance of DNA ligase in manipulating genetic material.

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