Gallery 36: Thomas Sargent, 1983

Thomas Sargent, 1983.

Thomas Sargent

  • ID: 16739
  • Source: DNALC.DNAFTB

Related Content

16755. Biography 36: Thomas Dean Sargent (1953- )

Tom Sargent did some of the first differential gene expression studies using cDNA subtraction.

  • ID: 16755
  • Source: DNAFTB

16746. Video 36: Tom Sargent, clip 4

Sargent's gene library and comparisons with today's gene chips.

  • ID: 16746
  • Source: DNAFTB

16740. Gallery 36: Differential Expression Data

Figure from Sargent and Dawid's differential expression experiment in frog embryos.

  • ID: 16740
  • Source: DNAFTB

16743. Video 36: Tom Sargent, clip 1

Part I: Theories on how organisms end up with differentiated cells.

  • ID: 16743
  • Source: DNAFTB

16744. Video 36: Tom Sargent, clip 2

Part II: Theories on how organisms end up with differentiated cells.

  • ID: 16744
  • Source: DNAFTB

16747. Video 36: Tom Sargent, clip 5

Molecules that regulate development are similar in different organisms.

  • ID: 16747
  • Source: DNAFTB

16748. Video 36: Tom Sargent, clip 6

Why use other animal models to study development?

  • ID: 16748
  • Source: DNAFTB

16745. Video 36: Tom Sargent, clip 3

The cell as a micro-computer that can interpret signals for different responses.

  • ID: 16745
  • Source: DNAFTB

16736. Animation 36: Different genes are active in different kinds of cells.

Igor Dawid and Thomas Sargent explain how they developed subtractive mRNA hybrization to find genes expressed by different cell types. Pat Brown and Steve Fodor show how genomes can be screened with DNA arrays and GeneChips™

  • ID: 16736
  • Source: DNALC.DNAFTB

16038. Thomas Robert Cech and Sidney Altman, 1989

RNA was the first genetic molecule.

  • ID: 16038
  • Source: DNAi