Difference between revisions of "Robertazzi 2023 From atoms to words"
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|title=Robertazzi A (2023) Quantum biology: the fuzzy connection between quantum mechanics and living things. | |title=Robertazzi A (2023) Quantum biology: the fuzzy connection between quantum mechanics and living things. From atoms to words. https://www.arturorobertazzi.it/2023/05/quantum-biology-the-fuzzy-connection-between-quantum-mechanics-and-living-things/ | ||
|info=https://www.arturorobertazzi.it/2023/05/quantum-biology-the-fuzzy-connection-between-quantum-mechanics-and-living-things/ | |info=https://www.arturorobertazzi.it/2023/05/quantum-biology-the-fuzzy-connection-between-quantum-mechanics-and-living-things/ | ||
|authors=Robertazzi | |authors=Robertazzi Arturo | ||
|year=2023 | |year=2023 | ||
|journal= | |journal= | ||
|abstract=Here’s the story of how I stumbled upon a realization today: some of my scientific work overlaps with the emerging field of quantum biology. I used to refer to my academic research line as quantum chemistry applied to systems of biological relevance – a scientific journey to studying biological systems through the lens of quantum chemistry. In my previous life as an active academic researcher, I dived deep into the nitty-gritty of biothings, using ab initio calculations and beyond to explore the metal-based anti-cancer agents like cisplatin, NAMI-A, or how metal binding affects DNA structural characteristics. Oh, and let’s not forget about the hours I spent tinkering with catalysts that mimic naturally occurring enzymes and with photosystem II, the first protein complex involved in the light-dependent reactions of photosynthesis. | |abstract=Here’s the story of how I stumbled upon a realization today: some of my scientific work overlaps with the emerging field of quantum biology. I used to refer to my academic research line as quantum chemistry applied to systems of biological relevance – a scientific journey to studying biological systems through the lens of quantum chemistry. In my previous life as an active academic researcher, I dived deep into the nitty-gritty of biothings, using ab initio calculations and beyond to explore the metal-based anti-cancer agents like cisplatin, NAMI-A, or how metal binding affects DNA structural characteristics. Oh, and let’s not forget about the hours I spent tinkering with catalysts that mimic naturally occurring enzymes and with photosystem II, the first protein complex involved in the light-dependent reactions of photosynthesis. | ||
|editor=Gnaiger E | |editor=Gnaiger E |
Latest revision as of 06:33, 6 February 2024
Robertazzi A (2023) Quantum biology: the fuzzy connection between quantum mechanics and living things. From atoms to words. https://www.arturorobertazzi.it/2023/05/quantum-biology-the-fuzzy-connection-between-quantum-mechanics-and-living-things/ |
Robertazzi Arturo (2023)
Abstract: Here’s the story of how I stumbled upon a realization today: some of my scientific work overlaps with the emerging field of quantum biology. I used to refer to my academic research line as quantum chemistry applied to systems of biological relevance – a scientific journey to studying biological systems through the lens of quantum chemistry. In my previous life as an active academic researcher, I dived deep into the nitty-gritty of biothings, using ab initio calculations and beyond to explore the metal-based anti-cancer agents like cisplatin, NAMI-A, or how metal binding affects DNA structural characteristics. Oh, and let’s not forget about the hours I spent tinkering with catalysts that mimic naturally occurring enzymes and with photosystem II, the first protein complex involved in the light-dependent reactions of photosynthesis.
• Bioblast editor: Gnaiger E
Labels:
Quantum biology