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Beach scene with bacterial strains expressing different kinds of fluorescent protein, from the laboratory of the Nobel Prize–winning biochemist Roger Tsien. Microbial art, [1] agar art, [2] or germ art [3] is artwork created by culturing microorganisms in certain patterns. [4] The microbes used can be bacteria, yeast, fungi, or less commonly ...
BioArt is an art practice where artists work with biology, live tissues, bacteria, living organisms, and life processes.Using scientific processes and practices such as biology and life science practices, microscopy, and biotechnology (including technologies such as genetic engineering, tissue culture, and cloning) the artworks are produced in laboratories, galleries, or artists' studios.
One microbiologist recreated Vincent van Gogh's famous painting 'Starry Night' in a petri dish using bacteria -- and the results are stunning Incredible scientist recreates 'Starry Night' painting ...
Daniele Del Nero, for example, constructs scale models of houses and office buildings and then induces mold to grow on them, giving them an unsettling, reclaimed-by-nature look. [36] Stacy Levy sandblasts enlarged images of mold onto glass, then allows mold to grow in the crevasses she has made, creating a macro-micro portrait. [ 37 ]
In Western art, fungi have been historically connoted with negative elements, whereas Asian art and folk art are generally more favorable towards fungi. British mycologist William Delisle Hay, in his 1887 book An Elementary Text-Book of British Fungi, [1] [2] describes Western cultures as being mycophobes (exhibiting fear, loathing, or hostility towards mushrooms).
For example, while bacterial cell membranes are made from phosphoglycerides with ester bonds, Achaean membranes are made of ether lipids. [43] Archaea were originally described as extremophiles living in extreme environments , such as hot springs , but have since been found in all types of habitats . [ 44 ]
[2]: 396 The bacterial flagellum is the best known example. [27] [28] About half of all known bacteria have at least one flagellum; thus, given the ubiquity of bacteria, rotation may in fact be the most common form of locomotion used by living systems—though its use is restricted to the microscopic environment. [29]
On land it occurs in fungi, bacteria and some groups of invertebrates, including insects. The uses of bioluminescence by animals include counterillumination camouflage, mimicry of other animals, for example to lure prey, and signaling to other individuals of the same species, such as to attract mates. In the laboratory, luciferase-based systems ...