Standard genetic sequencing approaches can tell you a lot about the genetic makeup and activity in a sample, like a piece of ...

What if you could take a picture of every gene inside a living organism—not with light, but with DNA itself? Scientists at ...

Real image of DNA molecules being copied in human cells ... and the white arrows indicate the direction in which the molecule is being copied. The distance between the ends of the white arrows ...

Using advanced imaging techniques and precise microfluidics control to stretch out curly DNA ... the image. During this time, ...

When we see pictures of chromosomes ... Chromatin refers to proteins that help organize the long DNA molecule. The protein shown here supports and organizes small loops of DNA.

In short, DNA is a complex molecule that consists of many components ... used a process called X-ray diffraction to capture images of DNA molecules (Figure 5). Although the black lines in these ...

For the first time, scientists have witnessed the very moment DNA begins to unravel, revealing a necessary molecular event ...

Referring to Franklin's X-ray image known as "Exposure 51," James ... Watson and Crick made a crucial advance when they proposed that the DNA molecule was made up of two chains of nucleotides ...

The parts of a DNA molecule that have these instructions are called genes. An individual's genome is the sum total of their genes. Two nucleotides together form a base pair; the sugars and ...

Francis Crick and James Watson with a model of the DNA molecule At midday on 28 February ... made an X-ray diffraction image of DNA, which is known as Photograph 51. This showed that DNA had ...

In 1970, biochemist Robert Wells of the University of Alabama at Birmingham saw something strange in his X-ray images of a new synthetic DNA polymer. The DNA molecule was composed of the traditional ...