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Proteomics Collection (page 3)

Proteomics, the study of proteins and their functions within an organism, is a fascinating field that unravels the intricate workings of life

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Proteomics Collection: Human 80S ribosome F007 / 9898
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Proteomics Collection: Type I topoisomerase protein bound to DNA F007 / 9893
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Proteomics Collection: Ubiquitin activating enzyme protein E1 F007 / 9919
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Proteomics Collection: Yeast enzyme, molecular model F007 / 9887
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Proteomics Collection: DNA molecule, artwork F008 / 2034
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Proteomics Collection: DNA molecule, artwork F008 / 2036
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Proteomics Collection: DNA molecule, artwork F008 / 2040
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Proteomics Collection: HIV-1 protease molecule
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Proteomics Collection: HK97 bacteriophage capsid
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Proteomics Collection: Chikungunya virus capsid
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Proteomics Collection: TATA box-binding protein complex C014 / 0867
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Proteomics Collection: HK97 bacteriophage procapsid
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Proteomics Collection: Turnip yellow mosaic virus capsid
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Proteomics Collection: Sindbis virus capsid, molecular model
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Proteomics Collection: Murine polyomavirus capsid
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Proteomics Collection: Human antitumour antibody molecule
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Proteomics Collection: Iron containing protein, molecular model
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Proteomics Collection: Brome mosaic virus capsid
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Proteomics Collection: Cowpea chlorotic mottle virus capsid
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Proteomics Collection: Potassium ion channel protein structure
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Proteomics Collection: Potassium ion channel beta subunit
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Proteomics Collection: Tyrosyl-tRNA synthetase molecule
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Proteomics Collection: KCNQ ion channel protein structure
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Proteomics Collection: Proliferating cell nuclear antigen
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Proteomics Collection: Potassium ion channel cavity structure
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Proteomics Collection: Tumour suppressor protein and DNA C017 / 3645
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Proteomics Collection: ATP synthase molecule C014 / 0880
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Proteomics Collection: Avian polyomavirus capsid
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Proteomics Collection: Anthrax protective antigen molecule C014 / 0886
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Proteomics Collection: HIV enzyme protein, molecular model C014 / 0876
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Proteomics Collection: Tryptophanyl-tRNA synthetase molecule
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Proteomics Collection: Cytoplasmic polyhedrosis virus capsid
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Proteomics Collection: Pho4 transcription factor bound to DNA C014 / 0861
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Proteomics Collection: DNA molecule, artwork F007 / 1996
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Proteomics Collection: DNA molecule, artwork F007 / 1994
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Proteomics Collection: DNA molecule, artwork F007 / 1995
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Proteomics Collection: DNA molecule, artwork F007 / 1991
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Proteomics Collection: DNA molecule, artwork F007 / 1992
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Proteomics Collection: HIV enzyme protein, molecular model
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Proteomics Collection: Anthrax protective antigen molecule C014 / 0865
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Proteomics Collection: TATA box-binding protein complex C017 / 7090
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Proteomics Collection: Theilers encephalomyelitis virus capsid
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Proteomics Collection: TATA box-binding protein complex C017 / 7085
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Proteomics Collection: Adenine molecule, artwork C017 / 7199
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Proteomics Collection: Ricin A-chain, artwork C017 / 3654
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Proteomics Collection: Sirtuin enzyme and p53, artwork C017 / 3660
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Proteomics Collection: Tobacco necrosis virus capsid
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Proteomics Collection: Ricin molecule, artwork C017 / 3649


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Proteomics, the study of proteins and their functions within an organism, is a fascinating field that unravels the intricate workings of life. From anaesthetics inhibiting ion channels to immunoglobulin G antibody molecules, proteomics delves into the molecular mechanisms that shape our existence. In the realm of brain research, scientists explore how proteins influence cognition and behavior. They investigate DNA nucleosomes' structure and function, unraveling their role in gene regulation. Antibodies take center stage as artwork showcases their diverse forms and crucial role in immune defense. Zinc fingers bound to a DNA strand highlight protein-DNA interactions critical for genetic processes. Meanwhile, manganese superoxide dismutase enzyme aids in protecting cells from oxidative stress. The SARS coronavirus protein becomes a subject of intense scrutiny as researchers strive to understand its pathogenicity. Cytochrome b5 molecule reveals insights into electron transfer reactions within cells while glutamine synthetase enzyme plays a vital role in nitrogen metabolism. Lastly, RNA-editing enzymes offer potential therapeutic targets for various diseases with their ability to modify genetic information at the RNA level. Through proteomics, we unlock nature's secrets one protein at a time - deciphering their structures, unraveling their functions, and ultimately enhancing our understanding of life itself.