The Basics of Cloning
Cloning DNA involves the creation of recombinant DNA molecules by combining DNA fragments from different sources. One common method involves using plasmids as vectors to carry donor inserts into host cells for replication and expression.
Complementary Sticky Ends
When cutting both the donor DNA and the plasmid with the same restriction enzyme, it results in complementary sticky ends that can anneal together. This allows for the insertion of the donor insert into the plasmid with high efficiency.
Why Further Amplification is Necessary
Even if plenty of plasmid DNA is available, further amplification is often needed for several reasons:
Efficiency: Despite the high efficiency of using complementary sticky ends, not all donor inserts may successfully integrate into the plasmid. Further amplification increases the chances of successful clones.
Yield: While enough plasmid DNA may be available for the initial cloning, additional amplification is required to obtain larger quantities of the recombinant plasmid for downstream applications.
Verification: Additional rounds of amplification allow for the verification of the correct recombinant plasmid by screening for the desired insert and confirming its sequence.
Case Studies
In a study published in Nature Biotechnology, researchers successfully cloned a gene of interest into a plasmid using complementary sticky ends. However, further amplification was necessary to obtain enough recombinant plasmid for protein expression studies in E. coli.
Statistics
A survey of molecular biology laboratories found that over 70% of researchers routinely perform further amplification of recombinant plasmids after initial cloning to ensure successful downstream applications.