This is the third in a series of mini-documentaries about past or current work of notable scientists based at New York institutions. The vodcasts are produced by New York high school students with the help of the DNALC.
Duration: 3 minutes, 55 seconds
Posted: March 20, 2013
DNA; gene; genetics; New York; high school; evolution, Drosophila, fly, chromosome, map, inheritance, mutation, Morgan, Bridges, Sturtevant, Columbia, Schemerhorn, model, Brooklyn
- ID: 16993
- Source: DNALC
- Download: mp4
DNA polymerase (blue) makes many copies of DNA (red) in a cycle of the polymerase chain reaction (PCR).
The cycles of the polymerase chain reaction (PCR).
The DNA sequencing method developed by Fred Sanger forms the basis of automated "cycle" sequencing reactions today.
Kary Mullis explains how the polymerase chain reaction (PCR) was named.
Image of Kary Mullis. In 1985, Kary Mullis invented the polymerase chain reaction (PCR), a method of amplifying or producing many copies of a specific piece of DNA. The revelation came to this eccentric character on a drive in northern California.
Kary Mullis talks about his discovery of the polymerase chain reaction (PCR), a process that allows chemists to produce many copies of a specific fragment of DNA.
The quartz wafer is in the holding position on the DNA synthesizer. The wafer is moved to a vertical reaction vessel for the process of DNA chain elongation.
James Watson describes sequencing the human genome using markers and BACs, and Craig Venter explains using cDNA libraries, ESTs, and shotgun sequencing.
Fred Sanger outlines DNA sequencing.
The sequencing method developed by Fred Sanger forms the basis of automated "cycle" sequencing reactions today. Fluorescent dyes are added to the reactions, and a laser within an automated DNA sequencing machine is used to analyze the DNA fragments produc