Electron micrograph of chromatin (1)

Electron micrograph of the 30-nm fiber.

electron micrograph, 30-nm fiber

  • ID: 16637
  • Source: DNALC.DNAFTB

Related Content

16636. Gallery 29: Electron micrograph of chromatin

Electron micrograph of the 10-nm fiber.

  • ID: 16636
  • Source: DNAFTB

16627. DNA is packaged in a chromosome.

DNAFTB Animation 29: Roger Kornberg explains his work with Aaron Klug on histones, which bind DNA to form chromatin.

  • ID: 16627
  • Source: DNALC.DNAFTB

16767. Gallery 37: Normal Drosophila Head, electron micrograph

Scanning electron micrograph of the head a normal Drosophila.

  • ID: 16767
  • Source: DNAFTB

16649. Gallery 30: An electron micrograph of a mouse liver cell

An electron micrograph of a mouse liver cell. Magnification approximately 12,000 times.

  • ID: 16649
  • Source: DNAFTB

16768. Gallery 37: Antennapedia Drosophila Head, electron micrograph

Scanning electron micrograph of the head a Drosophila mutant for the antennapedia gene.

  • ID: 16768
  • Source: DNAFTB

16645. DNA is packaged in a chromosome.

DNAFTB Problem 29: Test your understanding of chromosome packaging.

  • ID: 16645
  • Source: DNALC.DNAFTB

16533. Gallery 24: Electron micrograph of RNA/DNA hybrid

This was one of the original photos that Roberts and his group used for analyzing their results.

  • ID: 16533
  • Source: DNAFTB

16638. Gallery 29: Chromosome with histone stripped

Electron micrograph of the DNA and the protein scaffold left over from one chromosome (insert) with all the histone stripped out.

  • ID: 16638
  • Source: DNAFTB

16540. Video 24: Richard Roberts, clip 4

Describing the set up of the electron micrograph experiments.

  • ID: 16540
  • Source: DNAFTB

16539. Video 24: Richard Roberts, clip 3

Describing the early experimental evidence for "interrupted" RNA transcripts that went on to suggest the subsequent electron micrograph studies.

  • ID: 16539
  • Source: DNAFTB