How Does Sanger Sequencing Work?

What are the steps involved in Sanger sequencing?

Choose the correct sequence from the options below:

A. Denaturation, Primer annealing, Extension

B. Extension, Denaturation, Primer annealing

C. Primer annealing, Extension, Denaturation

D. Denaturation, Extension, Primer annealing

Answer:

The steps of Sanger sequencing are denaturation, primer annealing, and extension.

Sanger sequencing is a method used to determine the sequence of nucleotides in a DNA molecule. It involves the use of DNA polymerase, primers, and dideoxynucleotides (ddNTPs) labeled with fluorescent markers.

The steps of Sanger sequencing are as follows:

Denaturation:

The DNA sample is heated to high temperatures to separate it into two strands.

Primer annealing:

Short DNA segments called primers are added, which have sequence complementary to the target DNA.

Extension:

DNA polymerase and all four nucleotides (A, T, G, and C) are added, allowing the synthesis of the new DNA strand.

The sequence is read using a laser scanner that detects the fluorescent markers on the dideoxynucleotides, which terminate the synthesis of the DNA strand at specific points.

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