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Businesswoman looking at Businessman inside of Pressurized Glass Dome
Con derechos protegidos
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Heat shock protein 90 (Hsp90) chaperone complex, molecular model. Hsp90 is a molecular chaperone and a member of the heat shock protein (HSP) family. HSPs are a group of proteins whose levels increase when cells are exposed to raised temperatures or other stress. Hsp90 is one of the most abundant proteins in cells where it is essential for the creation, maintenance, and destruction of proteins. Un
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Line of three apples including good, bad and completely rotten. Set on black background with reflection.
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The backs of old photographs, mildew and dirt textures, scanned at 1200dpi
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People laughing at swordsman with hat in middle ages character
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PETase enzymes breaking down plastic, illustration. PETase (blue) is a bacterial enzyme that breaks down PET (polyethylene terephthalate) plastics (bottles shown) to monomeric molecules (inset at upper right). The whole bacterial degradation process yields terephtalic acid and ethylene glycol, which are environmentally harmless.
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PETase enzymes (blue) breaking down plastic, illustration. PETase is a bacterial enzyme that breaks down PET (polyethylene terephthalate) plastics (red and white, left) to monomeric molecules (upper right). The whole bacterial degradation process yields terephtalic acid and ethylene glycol, which are environmentally harmless.
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Functions of autophagy, computer illustration. Autophagy (autophagocytosis) is the natural mechanism that destroys unnecessary or dysfunctional cellular components and recycles their materials. Autophagy is important in different types of stresses, including starvation, infections, aging, type II diabetes, embryogenesis and other pathological and physiological conditions.
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Autophagy. Computer illustration of the degradation of cellular waste inside an autolysosome (large sphere). Autophagy (autophagocytosis) is the natural mechanism that destroys unnecessary or dysfunctional cellular components and recycles their materials. The 2016 Nobel Prize in Physiology or Medicine was awarded to Japanese cell biologist Yoshinori Ohsumi for his discoveries of mechanisms for aut
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Autophagy. Computer illustration of a lysosome (orange) fusing with an autophagosome (large sphere). Autophagy (autophagocytosis) is the natural mechanism that destroys unnecessary or dysfunctional cellular components and recycles their materials. The target components are first isolated from the rest of the cell within the double-membraned autophagosome. This then fuses with a lysosome, the conte
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Autophagy. Computer illustration of a lysosome (orange) fusing with an autophagosome (large sphere). Autophagy (autophagocytosis) is the natural mechanism that destroys unnecessary or dysfunctional cellular components and recycles their materials. The target components are first isolated from the rest of the cell within the double-membraned autophagosome. This then fuses with a lysosome, the conte
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Autophagy. Computer illustration of the degradation of cellular waste inside an autolysosome (large sphere). Autophagy (autophagocytosis) is the natural mechanism that destroys unnecessary or dysfunctional cellular components and recycles their materials. The 2016 Nobel Prize in Physiology or Medicine was awarded to Japanese cell biologist Yoshinori Ohsumi for his discoveries of mechanisms for aut
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Autophagy. Computer illustration of a lysosome (orange) fusing with an autophagosome (large sphere). Autophagy (autophagocytosis) is the natural mechanism that destroys unnecessary or dysfunctional cellular components and recycles their materials. The target components are first isolated from the rest of the cell within the double-membraned autophagosome. This then fuses with a lysosome, the conte
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Autophagy, computer illustration. Autophagy (autophagocytosis) is the natural mechanism that destroys unnecessary or dysfunctional cellular components and recycles their materials. The stages of autophagy are shown clockwise from top left. First cellular components for degradation are collected together. The double-membrane of the autophagosome forms around the components. The autophagosome fuses
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Autophagy, computer illustration. Autophagy (autophagocytosis) is the natural mechanism that destroys unnecessary or dysfunctional cellular components and recycles their materials. The stages of autophagy are shown clockwise from top left. First cellular components for degradation are collected together. The double-membrane of the autophagosome forms around the components. The autophagosome fuses
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Autophagy. Computer illustration of a lysosome (orange) fusing with an autophagosome (large sphere). Autophagy (autophagocytosis) is the natural mechanism that destroys unnecessary or dysfunctional cellular components and recycles their materials. The target components are first isolated from the rest of the cell within the double-membraned autophagosome. This then fuses with a lysosome, the conte
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Glyphosate herbicide molecule. Crops resistant to glyphosate (genetically modified organisms, GMO) have been produced by genetic engineering. Stylized skeletal formula (chemical structure). Atoms are shown as color-coded circles: hydrogen (hidden), carbon (grey), oxygen (red), nitrogen (blue), phosphorus (orange).
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Para-hydroxybenzoate hydroxylase, molecular model. This flavoprotein enzyme is involved in the degradation of aromatic compounds.
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Heat shock protein 90 (Hsp90) chaperone complex, molecular model. Hsp90 is a molecular chaperone and a member of the heat shock protein (HSP) family. HSPs are a group of proteins whose levels increase when cells are exposed to raised temperatures or other stress. Hsp90 is one of the most abundant proteins in cells where it is essential for the creation, maintenance, and destruction of proteins. Un
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Tetraubiquitin protein, molecular model. Ubiquitin is found in all eukaryotic cells. When a protein is damaged or old it will be tagged by several ubiquitin molecules. The protein is then moved to a proteasome, a hollow barrel shaped protein that degrades other proteins into amino acids and small polypeptides.
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Para-hydroxybenzoate hydroxylase, molecular model. This flavoprotein enzyme is involved in the degradation of aromatic compounds.
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Tetraubiquitin protein, molecular model. Ubiquitin is found in all eukaryotic cells. When a protein is damaged or old it will be tagged by several ubiquitin molecules. The protein is then moved to a proteasome, a hollow barrel shaped protein that degrades other proteins into amino acids and small polypeptides.
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Scratchy Grunge elements Constructed from Scanned old book paper, embellished with scratches.
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Closeup of a Desolate Cracked old Paint Background
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The backs of old photographs, mildew and dirt textures, scanned at 1200dpi embelished with vector ink drips and coffee stain.
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