Restriction Enzymes & Molecular Analysis |Verified
Questions Complete with A+ Graded Rationales
Latest Updated 2026
What are restriction endonucleases and why were they pivotal in biotechnology?
Restriction endonucleases are bacterial enzymes that recognize and cut specific DNA
sequences, enabling scientists to fragment and recombine DNA. Their discovery made
modern biotechnology possible by allowing precise manipulation of genes.
Differentiate between endonucleases and exonucleases.
Endonucleases cut internal phosphodiester bonds within a DNA strand, while exonucleases
remove nucleotides from the terminal ends of DNA.
What are blunt ends versus sticky ends, and why are sticky ends important?
Blunt ends result from cuts at the same position on both DNA strands. Sticky ends are
staggered cuts leaving single-stranded overhangs, which can easily hydrogen bond with
complementary sequences for recombinant DNA formation.
How do host bacterial cells protect their DNA from their own restriction enzymes?
They methylate their own DNA at restriction sites, preventing endonucleases from recognizing
and cleaving those sequences.
Describe the key properties of Type I and Type II restriction endonucleases.
Type I enzymes both methylate host DNA and cleave unmethylated DNA at recognition
sequences (usually far from the site). Type II enzymes cut double-stranded DNA at or near
specific recognition sites without methylation activity — these are the primary tools used in
molecular biology.
What is a palindromic sequence, and why is it significant for restriction enzymes?
A palindromic sequence reads the same on both DNA strands in the 5'→3' direction;
restriction enzymes often recognize these symmetrical sites, ensuring precise and
reproducible cutting.
How do ligases complement restriction enzymes in molecular cloning?