66 | SCIENCE ILLUSTRATEDScientists find it difficult to place slime moulds in the right
category of life. The organism is neither an animal, nor a
plant or fungus, but is made up of one large cell with many
nuclei or growth centres linked to the main cell via a network
of tubular structures. The monocellular life form has surprised
scientists by showing signs of intelligence, when in search
of food. Placing bait at the exits, Japanese scientists have
made a slime mould find the shortest way out of a maze.The natural habitat of zebrafish is the Ganges river in India, but
the species also thrives in many labs. It is popular among
scientists, as it is robust and easily breeds in captivity. The early
embryonic stages of the fish are almost transparent, allowing
scientists to study cells inside the fish, while it is alive. Unlike
other test animals, biologists do not have to kill the animal to
study its cells, and so, the zebrafish is used as a model for cell
development and the function of genes in humans.Skin neurons are nerve cells that are
characterized by the fact that they communicate
via electrical or chemical signals. The long green
threads in the image are axons which link the
neurons. They are surrounded by an insulating
fat sheath, which helps increase the speed of the
nerve signals, as they pass from neuron to
neuron. Other nervous system cells – Schwann
cells and oligodendrocytes – produce and
maintain the sheath. That is the process which
can be observed in the red areas of the image.Slime moulds look like trees
or germinating cotton seedsZebrafi sh embryo looks like blobfi sh
Skin nerves look like
clumps of sea grassEnlarged:^10
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Enlarged:^20
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Enlarged: 60 TIMES
REBECCA NUTBROWN/NIKON SMALL WORLD & SHUTTERSTOCK
DR. OSCAR RUIZ/NIKON SMALL WORLD & POLFOTO & GETTY IMAGES
JOSE ALMODOVAR/NIKON SMALL WORLD & E. RESCHKE/GETTY IMAGES & SHUTTERSTOCKNATURE MICROSCOPY