Gallery 24: Phil Sharp, 1999 :: CSHL DNA Learning Center

Gallery 24: Phil Sharp, 1999

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Phil Sharp in his office at MIT, 1999.

Phil Sharp

ID: 16536
Source: DNALC.DNAFTB

16035. Rich Roberts and Phil Sharp, 1974

The RNA message is sometimes edited.

ID: 16035
Source: DNAi

16535. Gallery 24: Arlene Jackson, Phil Sharp and C. Mulder, 1971

The Sambrook lab at Cold Spring Harbor Laboratory around 1971 where Phil Sharp was a post-doc. (L-R) Arlene Jackson, Phil Sharp and C. Mulder.

ID: 16535
Source: DNAFTB

16543. Video 24: Phil Sharp, clip 1

Recounting how he came to Cold Spring Harbor Laboratory to study viruses.

ID: 16543
Source: DNAFTB

16544. Video 24: Phil Sharp, clip 2

Describing long nuclear versus short cytoplasmic message RNA, and what the differences suggested.

ID: 16544
Source: DNAFTB

16545. Video 24: Phil Sharp, clip 3

Interpreting the electron micrographs that led to the discovery of the split gene.

ID: 16545
Source: DNAFTB

16546. Video 24: Phil Sharp, clip 4

Developing the experimental technologies used to study DNA fragments: agarose gel electrophoresis and restriction enzymes.

ID: 16546
Source: DNAFTB

16547. Video 24: Phil Sharp, clip 5

Commenting on how the real excitement of science comes when you don't know what's going on, and you get to be part of "the chase."

ID: 16547
Source: DNAFTB

16549. Biography 24: Phillip Allen Sharp (1944- )

Phil Sharp and Richard Roberts shared the 1993 Nobel Prize for the discovery of the split gene theory.

ID: 16549
Source: DNAFTB

16937. An Explanation of RNA Splicing

Dr. Sharp explains the process of RNA splicing.

ID: 16937
Source: DNALC.SMA

16948. Alternative RNA Splicing Therapy for Spinal Muscular Atrophy

Drs. Sharp and Sumner describe how RNA splicing can be used as a therapy for SMA.

ID: 16948
Source: DNALC.SMA