Abstract is: Quantum biology is the study of applications of quantum mechanics and theoretical chemistry to aspects of biology that cannot be accurately described by the classical laws of physics. An understanding of fundamental quantum interactions is important because they determine the properties of the next level of organization in biological systems. Many biological processes involve the conversion of energy into forms that are usable for chemical transformations, and are quantum mechanical in nature. Such processes involve chemical reactions, light absorption, formation of excited electronic states, transfer of excitation energy, and the transfer of electrons and protons (hydrogen ions) in chemical processes, such as photosynthesis, olfaction and cellular respiration. Quantum biology may use computations to model biological interactions in light of quantum mechanical effects. Quantum biology is concerned with the influence of non-trivial quantum phenomena, which can be explained by reducing the biological process to fundamental physics, although these effects are difficult to study and can be speculative.
P9545 | Encyclopedia of China (Second Edition) ID | 217301 |
P646 | Freebase ID | /m/0dh_yh |
P227 | GND ID | 4176596-5 |
P8408 | KBpedia ID | QuantumBiology |
P6366 | Microsoft Academic ID | 51555523 |
P349 | NDL Authority ID | 00576779 |
P4215 | nLab ID | quantum biology |
P3417 | Quora topic ID | Quantum-Biology |
P3553 | Zhihu topic ID | 20074920 |
P361 | part of | biology | Q420 |
P443 | pronunciation audio | Audio pronunciation file from the Lingua Libre project. License: CC0 Artists: This work is copyrighted. | |
P910 | topic's main category | Category:Quantum biology | Q21600795 |
Q27644672 | Alexandra Olaya Castro |
Q259054 | Jim Al-Khalili |
Q124538305 | Manuel Sans Segarra |
Q44102108 | 11-cis-retinal reduces constitutive opsin phosphorylation and improves quantum catch in retinoid-deficient mouse rod photoreceptors |
Q38559664 | A Journey with Elie Metchnikoff: From Innate Cell Mechanisms in Infectious Diseases to Quantum Biology |
Q71466939 | A combined quantum/classical molecular dynamics study of the catalytic mechanism of HIV protease |
Q70166551 | A demonstration that O2- is a crucial intermediate in the high quantum yield luminescence of luminol |
Q39353473 | A new nanoprobe based on FRET between functional quantum dots and gold nanoparticles for fluoride anion and its applications for biological imaging |
Q53661420 | A primer on the synthesis, water-solubilization, and functionalization of quantum dots, their use as biological sensing agents, and present status. |
Q38778522 | A quantum leap in biology. One inscrutable field helps another, as quantum physics unravels consciousness |
Q38501292 | Advances in quantum simulations of ATPase catalysis in the myosin motor. |
Q58846590 | An ab Initio Quantum Mechanical Study of Hydrogen-Bonded Complexes of Biological Interest |
Q67278685 | An analysis of the relationship between the current and potential generated by a quantum of acetylcholine in muscle fibers without transverse tubules |
Q52384897 | Analysis of double-quantum-filtered NMR spectra of 23Na in biological tissues. |
Q34121128 | Analysis of the conformational stability and activity of Candida antarctica lipase B in organic solvents: insight from molecular dynamics and quantum mechanics/simulations |
Q38315238 | Aptamer-based turn-on detection of thrombin in biological fluids based on efficient phosphorescence energy transfer from Mn-doped ZnS quantum dots to carbon nanodots |
Q30482870 | Aquaporin-4 dynamics in orthogonal arrays in live cells visualized by quantum dot single particle tracking |
Q39123848 | Aqueous synthesis of glutathione-coated PbS quantum dots with tunable emission for non-invasive fluorescence imaging in the second near-infrared biological window (1000-1400 nm). |
Q57376660 | Aqueous synthesis of highly luminescent AgInS2–ZnS quantum dots and their biological applications |
Q69537925 | Bacterial bioluminescence-identification of fatty acid as product, its quantum yield and a suggested mechanism |
Q37120089 | Biocompatible quantum dots for biological applications |
Q36905280 | Biological applications of quantum dots |
Q40015069 | Biological interactions of quantum dot nanoparticles in skin and in human epidermal keratinocytes |
Q57703307 | Biological measurement beyond the quantum limit |
Q34446250 | Bioluminescence resonance energy transfer using luciferase-immobilized quantum dots for self-illuminated photodynamic therapy |
Q76908224 | CHROMATID ABERRATIONS IN TRADESCANTIA POLLEN TUBES INDUCED BY MONOCHROMATIC X-RAYS OF QUANTUM ENERGY 3 AND 1.5 KEV |
Q28241223 | Calcium binding, quantum yield, and emitting molecule in aequorin bioluminescence |
Q34093618 | Cancer proliferation and therapy: the Warburg effect and quantum metabolism |
Q33715981 | Charging the quantum capacitance of graphene with a single biological ion channel |
Q35053357 | Combined quantum and molecular mechanics calculations on metalloproteins. |
Q54006367 | Communications: Quantum teleportation across the Danube |
Q69383748 | Comparison of time constants of single channel patches, quantum bumps, and noise analysis in Limulus ventral photoreceptors |
Q51339923 | Conduction pathways in microtubules, biological quantum computation, and consciousness. |
Q43187191 | Conjugation of glucose oxidase onto Mn-doped ZnS quantum dots for phosphorescent sensing of glucose in biological fluids |
Q34296256 | Consciousness, biology and quantum hypotheses |
Q23909801 | Contrast of the biological activity of negatively and positively charged microwave synthesized CdSe/ZnS quantum dots |
Q39096517 | Controlling the physical and biological properties of highly fluorescent aqueous quantum dots using block copolymers of different size and shape |
Q34426120 | Curium(III) citrate speciation in biological systems: a europium(III) assisted spectroscopic and quantum chemical study |
Q39688559 | Deep tissue bio-imaging using two-photon excited CdTe fluorescent quantum dots working within the biological window |
Q84379596 | Delivering quantum dot-peptide bioconjugates to the cellular cytosol: escaping from the endolysosomal system |
Q48452780 | Development of effective quantum mechanical/molecular mechanical (QM/MM) methods for complex biological processes |
Q38819090 | Diamond Quantum Devices in Biology |
Q36398809 | Different types of biological proton transfer reactions studied by quantum chemical methods |
Q33257926 | Do we live in a quantum world? Advances in multidimensional coherent spectroscopies refine our understanding of quantum coherences and structural dynamics of biological systems |
Q38953413 | Effect of temperature on net CO2 assimilation and photosystem II quantum yield of electron transfer of French bean (Phaseolus vulgaris L.) leaves during drought stress |
Q49063912 | Efficient biologically inspired photocell enhanced by delocalized quantum states |
Q34604738 | Electronic excitations of biomolecules studied by quantum chemistry |
Q92677525 | Elemental 'particle physics-iology'; the Big Bang behind being human |
Q46935718 | Enhancing the stability and biological functionalities of quantum dots via compact multifunctional ligands |
Q38133688 | Epigenetic regulation of glycosylation is the quantum mechanics of biology. |
Q46648515 | Exploring Mn-doped ZnS quantum dots for the room-temperature phosphorescence detection of enoxacin in biological fluids |
Q34116790 | Exploring primary liver macrophages for studying quantum dot interactions with biological systems. |
Q56637359 | Firefly bioluminescence quantum yield and colour change by pH-sensitive green emission |
Q84948836 | Fluorescence imaging and whole-body biodistribution of near-infrared-emitting quantum dots after subcutaneous injection for regional lymph node mapping in mice |
Q90397136 | From Rust to Quantum Biology: The Role of Iron in Retina Physiopathology |
Q104619304 | From quantum chemistry to quantum biology: a path toward consciousness |
Q30525444 | Functional characterization and axonal transport of quantum dot labeled BDNF. |
Q38292913 | Glowing graphene quantum dots and carbon dots: properties, syntheses, and biological applications |
Q29617209 | Gold nanoparticles: assembly, supramolecular chemistry, quantum-size-related properties, and applications toward biology, catalysis, and nanotechnology |
Q57330424 | Gradated alloyed CdZnSe nanocrystals with high luminescence quantum yields and stability for optoelectronic and biological applications |
Q51171094 | HaloTag protein-mediated site-specific conjugation of bioluminescent proteins to quantum dots. |
Q34420398 | High-valent transition metal centers and noninnocent ligands in metalloporphyrins and related molecules: a broad overview based on quantum chemical calculations |
Q21129341 | How quantum brain biology can rescue conscious free will |
Q51562958 | Identification of serum miRNAs by nano-quantum dots microarray as diagnostic biomarkers for early detection of non-small cell lung cancer. |
Q50442675 | In situ growth of surfactant-free gold nanoparticles on nitrogen-doped graphene quantum dots for electrochemical detection of hydrogen peroxide in biological environments |
Q30492792 | In vivo nano-imaging of membrane dynamics in metastatic tumor cells using quantum dots |
Q33820149 | InAs(ZnCdS) quantum dots optimized for biological imaging in the near-infrared |
Q69376922 | Induction of chromosome aberrations in human lymphocytes by monochromatic X-rays of quantum energy between 4.8 and 14.6 keV |
Q50232764 | Intermolecular CH···O/N H-bonds in the biologically important pairs of natural nucleobases: a thorough quantum-chemical study. |
Q37517369 | Investigating biological processes at the single molecule level using luminescent quantum dots |
Q73616693 | Is there a biology of quantum information? |
Q72403620 | Isolated photosynthetic reaction center of photosystem II as a sensitizer for the formation of singlet oxygen. Detection and quantum yield determination using a chemical trapping technique |
Q23663345 | Jim Al-Khalili: How quantum biology might explain life’s biggest questions |
Q76961135 | LOW ENERGY CONFIGURATION OF PHOTOCHROMIC MOLECULES AND CORRESPONDING MOLECULAR MECHANISMS IN QUANTUM BIOLOGY |
Q51643189 | Large-scale ab initio quantum chemical calculations on biological systems. |
Q33269751 | Light and electron microscopic localization of multiple proteins using quantum dots |
Q80980486 | Light-dependent magnetoreception: quantum catches and opponency mechanisms of possible photosensitive molecules |
Q73387589 | Liposome binding constants and singlet oxygen quantum yields of hypericin, tetrahydroxy helianthrone and their derivatives: studies in organic solutions and in liposomes |
Q33797323 | Long-term exposure of CdTe quantum dots on PC12 cellular activity and the determination of optimum non-toxic concentrations for biological use |
Q42727779 | Luminescent passive-oxidized silicon quantum dots as biological staining labels and their cytotoxicity effects at high concentration |
Q42972889 | Luminescent quantum clusters of gold in bulk by albumin-induced core etching of nanoparticles: metal ion sensing, metal-enhanced luminescence, and biolabeling. |
Q37943584 | Luminescent quantum dots as platforms for probing in vitro and in vivo biological processes |
Q34114579 | Luminescent quantum dots for multiplexed biological detection and imaging |
Q71599892 | Mechanisms in the quantum yield of Cypridina bioluminescence |
Q38284150 | Mind your P's and Q's: the coming of age of semiconducting polymer dots and semiconductor quantum dots in biological applications |
Q21999115 | Mixed Quantum Mechanical/Molecular Mechanical Molecular Dynamics Simulations of Biological Systems in Ground and Electronically Excited States |
Q30923329 | Molecular determinants for ATP-binding in proteins: a data mining and quantum chemical analysis |
Q34215876 | New developments in applying quantum mechanics to proteins. |
Q46114278 | New light on quantum dot cytotoxicity |
Q42937655 | Ni2+-modulated homocysteine-capped CdTe quantum dots as a turn-on photoluminescent sensor for detecting histidine in biological fluids |
Q34964383 | Non-blinking semiconductor colloidal quantum dots for biology, optoelectronics and quantum optics |
Q38544715 | Nontrivial quantum and quantum-like effects in biosystems: Unsolved questions and paradoxes |
Q82920938 | Nuclear quantum tunneling in the light-activated enzyme protochlorophyllide oxidoreductase |
Q32139227 | Observation of a 1H double quantum filtered signal of water in biological tissues |
Q42352410 | Overview of the quantum biology session at the 19th IUPAB congress and 11th EBSA congress |
Q87079503 | Oxygen inhibition of photosynthesis : III. Temperature dependence of quantum yield and its relation to O2/CO 2 solubility ratio |
Q45973287 | Photoactivated CdTe/CdSe quantum dots as a near infrared fluorescent probe for detecting biothiols in biological fluids. |
Q38005575 | Photochemical reactions in biological systems: probing the effect of the environment by means of hybrid quantum chemistry/molecular mechanics simulations |
Q36711638 | Photochemistry of DNA and related biomolecules: quantum yields and consequences of photoionization |
Q43983617 | Photophysical properties of biologically compatible CdSe quantum dot structures |
Q51225300 | Photophysics of dopamine-modified quantum dots and effects on biological systems. |
Q34685242 | Photosynthesis and temperature, with particular reference to effects on quantum yield |
Q48648888 | Physics of life: The dawn of quantum biology |
Q46098219 | Polyethylene glycol-based bidentate ligands to enhance quantum dot and gold nanoparticle stability in biological media |
Q35879614 | Potentials and pitfalls of fluorescent quantum dots for biological imaging |
Q58066325 | Quantum Biological Switch Based on Superradiance Transitions |
Q105982158 | Quantum Biology: An Update and Perspective |
Q70881240 | Quantum Sensitivity of Light Receptors in the Compound Eye of the Fly Musca |
Q75414465 | Quantum Zeno features of bistable perception |
Q57567742 | Quantum biology |
Q64884550 | Quantum biology and human carcinogenesis. |
Q57567751 | Quantum biology at the cellular level—Elements of the research program |
Q94571752 | Quantum biology in low level light therapy: death of a dogma |
Q59459828 | Quantum biology of retinal |
Q38224657 | Quantum biology of the retina. |
Q35112880 | Quantum biology on the edge of quantum chaos |
Q91878515 | Quantum biology revisited |
Q59459829 | Quantum biology: introduction |
Q80882324 | Quantum biology: structure and dynamics |
Q34662137 | Quantum chemical calculations of [NiFe] hydrogenase |
Q35053354 | Quantum chemical calculations of spectroscopic properties of metalloproteins and model compounds: EPR and Mössbauer properties |
Q36607014 | Quantum chemical methods for the investigation of photoinitiated processes in biological systems: theory and applications |
Q58010011 | Quantum chemical studies of C–H activation reactions by high-valent nonheme iron centers |
Q34662123 | Quantum chemical studies of manganese centers in biology |
Q28834147 | Quantum chemical studies of nucleic acids: can we construct a bridge to the RNA structural biology and bioinformatics communities? |
Q30351363 | Quantum chemical studies of protein structure |
Q57535145 | Quantum coherence in biological systems |
Q27346850 | Quantum computation in brain microtubules: Decoherence and biological feasibility |
Q80389895 | Quantum descriptors for biological macromolecules from linear-scaling electronic structure methods |
Q50097566 | Quantum dot biolabeling coupled with immunomagnetic separation for detection of Escherichia coli O157:H7. |
Q36336349 | Quantum dot surfaces for use in vivo and in vitro |
Q37016174 | Quantum dot-NanoLuc bioluminescence resonance energy transfer enables tumor imaging and lymph node mapping in vivo |
Q37350540 | Quantum dot-based resonance energy transfer and its growing application in biology |
Q52011349 | Quantum dot-mediated detection of gamma-aminobutyric acid binding sites on the surface of living pollen protoplasts in tobacco. |
Q51016598 | Quantum dot/bioluminescence resonance energy transfer based highly sensitive detection of proteases |
Q37427410 | Quantum dots - characterization, preparation and usage in biological systems |
Q37064181 | Quantum dots and other fluorescent nanoparticles: quo vadis in the cell? |
Q34711291 | Quantum dots as donors in fluorescence resonance energy transfer for the bioanalysis of nucleic acids, proteins, and other biological molecules |
Q38449415 | Quantum dots as new-generation fluorochromes for FISH: an appraisal |
Q37825108 | Quantum dots brighten biological imaging |
Q35613093 | Quantum dots find their stride in single molecule tracking |
Q37130501 | Quantum dots for cancer diagnosis and therapy: biological and clinical perspectives |
Q36814396 | Quantum dots for cancer research: current status, remaining issues, and future perspectives |
Q37850214 | Quantum dots in cell biology |
Q37763107 | Quantum dots synthesis and biological applications as imaging and drug delivery systems |
Q36163772 | Quantum dots: an insight and perspective of their biological interaction and how this relates to their relevance for clinical use. |
Q58176489 | Quantum effects in biological electron transfer |
Q74664492 | Quantum mechanical calculations on biological systems |
Q40306374 | Quantum mechanical tunnelling in biological systems |
Q36774845 | Quantum mechanics/molecular mechanics structural models of the oxygen-evolving complex of photosystem II. |
Q57703283 | Quantum metrology and its application in biology |
Q35037980 | Quantum physics in neuroscience and psychology: a neurophysical model of mind-brain interaction |
Q28748491 | Quantum physics meets biology |
Q73407498 | Quantum yield of singlet oxygen production by monomeric and aggregated forms of hematoporphyrin derivative |
Q50545717 | Quantum yields and kinetics of the firefly bioluminescence reaction of beetle luciferases |
Q35749500 | Quantum-classical simulation methods for hydrogen transfer in enzymes: a case study of dihydrofolate reductase |
Q78487053 | Quantum-dot nanocrystals for ultrasensitive biological labeling and multicolor optical encoding |
Q38095128 | Quantum-dot-based photoelectrochemical sensors for chemical and biological detection |
Q34293260 | Quantum-dot-decorated robust transductable bioluminescent nanocapsules |
Q70407144 | Quantum-mechanical treatment of the electronic structure and geometry of hydrogen cyanide dimer |
Q37479261 | Recent developments of the quantum chemical cluster approach for modeling enzyme reactions |
Q93169518 | Reflexivity, coding and quantum biology |
Q58648304 | Review: Biofunctionalized Quantum Dots in Biology and Medicine |
Q57348044 | Revisiting the principles of preparing aqueous quantum dots for biological applications: the effects of surface ligands on the physicochemical properties of quantum dots |
Q76961081 | SOME ASPECTS OF QUANTUM BIOLOGY |
Q36164560 | Self-illuminating in vivo lymphatic imaging using a bioluminescence resonance energy transfer quantum dot nano-particle |
Q35651798 | Self-illuminating quantum dots for non-invasive bioluminescence imaging of mammalian gametes |
Q58783552 | Semiconductor Quantum Dots as FRET Acceptors for Multiplexed Diagnostics and Molecular Ruler Application |
Q37189386 | Semiconductor quantum dots and metal nanoparticles: syntheses, optical properties, and biological applications |
Q35861340 | Semiconductor quantum dots as biological imaging agents |
Q57354521 | Semiconductor quantum dots: synthesis and water-solubilization for biomedical applications |
Q37699412 | Semiconductor quantum rods as single molecule fluorescent biological labels |
Q36812566 | Sentinel lymph node mapping with type-II quantum dots |
Q38129353 | Silicon quantum dots for biological applications |
Q30487785 | Single molecule resolution of the antimicrobial action of quantum dot-labeled sushi peptide on live bacteria |
Q44404319 | Spectral emission and quantum yield of firefly bioluminescence |
Q30798733 | Spectroscopic detection of biological NO with a quantum cascade laser |
Q79351635 | Studies on photosynthetic processes. II. Action spectra and quantum requirement for triphosphopyridine nucleotide reduction and the formation of adenosine triphosphate by spinach chloroplasts |
Q38281652 | Surface functionalization of quantum dots for biological applications |
Q33579050 | Synthesis of ternary CuInS(2)/ZnS quantum dot bioconjugates and their applications for targeted cancer bioimaging |
Q78328517 | THE PURIFICATION PROPERTIES, AND CHEMILUMINESCENT QUANTUM YIELD OF BACTERIAL LUCIFERASE |
Q76961083 | TOWARDS QUANTUM BIOLOGY |
Q113725916 | Telepathy as an application of quantum biology |
Q56969894 | Temporal patterns in effective quantum yield of individual zooxanthellae expelled during bleaching |
Q38052698 | The DNA and RNA sugar-phosphate backbone emerges as the key player. An overview of quantum-chemical, structural biology and simulation studies |
Q37519389 | The Quantum Biology of Reactive Oxygen Species Partitioning Impacts Cellular Bioenergetics |
Q28972008 | The Secrets of Quantum Physics |
Q40212861 | The cellular basis of bone remodeling: the quantum concept reexamined in light of recent advances in the cell biology of bone |
Q74281041 | The development of quantum biology during the last decade |
Q51231615 | The development of rapid fluorescence-based immunoassays, using quantum dot-labelled antibodies for the detection of Listeria monocytogenes cell surface proteins. |
Q60054433 | The future of quantum biology |
Q60959232 | The origins of quantum biology |
Q81309096 | The quantum yield of CO2 fixation is reduced for several minutes after prior exposure to darkness. Exploration of the underlying causes |
Q57567748 | The radical-pair mechanism as a paradigm for the emerging science of quantum biology |
Q56921475 | Time-gated biological imaging by use of colloidal quantum dots |
Q30478396 | Tracking of quantum dot-labeled CFTR shows near immobilization by C-terminal PDZ interactions |
Q27641895 | Trypsin revisited: crystallography AT (SUB) atomic resolution and quantum chemistry revealing details of catalysis |
Q36242316 | Turning all the lights on: quantum dots in cellular assays |
Q90258094 | Turning the challenge of quantum biology on its head: biological control of quantum optical systems |
Q33494055 | Two-quantum UV photochemistry of nucleic acids: comparison with conventional low-intensity UV photochemistry and radiation chemistry |
Q33991552 | Unmodified cadmium telluride quantum dots induce reactive oxygen species formation leading to multiple organelle damage and cell death |
Q36936772 | Use of fluorescent quantum dot bioconjugates for cellular imaging of immune cells, cell organelle labeling, and nanomedicine: surface modification regulates biological function, including cytotoxicity |
Q30841014 | Using quantum mechanical approaches to study biological systems |
Q39578995 | Water-soluble chitosan-quantum dot hybrid nanospheres toward bioimaging and biolabeling |
Q36421947 | Witnessing Quantum Coherence: from solid-state to biological systems |
Q119241609 | Life is simple : how Occam's razor set science free and shapes the universe | depicts | P180 |
Q21600795 | Category:Quantum biology | category's main topic | P301 |
Arabic (ar / Q13955) | علم الأحياء الكمومي | wikipedia |
bn | কোয়ান্টাম জীববিজ্ঞান | wikipedia |
Quantenbiologie | wikipedia | |
Quantum biology | wikipedia | |
Biología cuántica | wikipedia | |
Persian (fa / Q9168) | زیستشناسی کوانتومی | wikipedia |
Biologie quantique | wikipedia | |
ביולוגיה קוונטית | wikipedia | |
Biologi kuantum | wikipedia | |
Biologia quantistica | wikipedia | |
量子生物学 | wikipedia | |
კვანტური ბიოლოგია | wikipedia | |
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Kwantumbiologie | wikipedia | |
Biologia quântica | wikipedia | |
Квантовая биология | wikipedia | |
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Kuantum biyolojisi | wikipedia | |
Квантова біологія | wikipedia | |
Sinh học lượng tử | wikipedia | |
yue | 量子生物學 | wikipedia |
量子生物学 | wikipedia | |
Quantum biophysics | wikiversity |
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