RT @josepalay: El pit-roig és un ocell que dins el seu cervell disposa d’un mecanisme quàntic que li permet navegar amb toral precisió al l…
RT @josepalay: El pit-roig és un ocell que dins el seu cervell disposa d’un mecanisme quàntic que li permet navegar amb toral precisió al l…
RT @josepalay: El pit-roig és un ocell que dins el seu cervell disposa d’un mecanisme quàntic que li permet navegar amb toral precisió al l…
RT @josepalay: El pit-roig és un ocell que dins el seu cervell disposa d’un mecanisme quàntic que li permet navegar amb toral precisió al l…
RT @josepalay: El pit-roig és un ocell que dins el seu cervell disposa d’un mecanisme quàntic que li permet navegar amb toral precisió al l…
RT @josepalay: El pit-roig és un ocell que dins el seu cervell disposa d’un mecanisme quàntic que li permet navegar amb toral precisió al l…
RT @josepalay: El pit-roig és un ocell que dins el seu cervell disposa d’un mecanisme quàntic que li permet navegar amb toral precisió al l…
RT @josepalay: El pit-roig és un ocell que dins el seu cervell disposa d’un mecanisme quàntic que li permet navegar amb toral precisió al l…
El pit-roig és un ocell que dins el seu cervell disposa d’un mecanisme quàntic que li permet navegar amb toral precisió al llarg de milers de quilòmetres durant les seves migracions https://t.co/AQxaGPqb5F https://t.co/nZkwtp7Qit
@jvicenteprieto @ecsabin Biología cuántica? tiene el apellido pero tiene que ver. ¿o no? https://t.co/X1LPd2T7Vr
そもそも、そういうネット記事とかは、大体このreviewを引用して、量子もつれが重要だとか、そのようなことを主張しているように思えます。 https://t.co/LWAm6jBLf4
Non-trivial #quantum effects in #photosynthesis, #avian #magnetoreception and others in functional #QuantumBiology. https://t.co/QZWTP3kOCa
Review on the functional aspects of "Quantum Biology": https://t.co/pWewIzf4Uf #EdTech #quantumbiology #scicomm #SNRTG #tlhstreams
RT @JoabeGomes7: Review on the functional aspects of "Quantum Biology": https://t.co/oAkvd3UIjs #EdTech #quantumbiology #scicomm #SNRTG #tl…
RT @JoabeGomes7: Review on the functional aspects of "Quantum Biology": https://t.co/oAkvd3UIjs #EdTech #quantumbiology #scicomm #SNRTG #tl…
Review on the functional aspects of "Quantum Biology": https://t.co/T3ypaTMbPu
#Quantum #biology https://t.co/aRX7Bk1fjZ via @nature
RT @taka_fk: 知り合いのiPSの研究者から教えて貰った、量子生物学の論文 https://t.co/Hh5arYbm42
Nature has published great review on #Quantumbiology https://t.co/2gF6K17GVA #bioinformatics #biophotonics #biophotons
Quantum biology https://t.co/5JZpkJU5OE
This is a phenomenal review on the new field of quantum biology. Readily accessible to the intelligent layperson. https://t.co/2gF6K17GVA
This is a phenomenal review on the new field of quantum biology. Readily accessible to the intelligent layperson. https://t.co/g0c1F0C7Fg
RT @taka_fk: 知り合いのiPSの研究者から教えて貰った、量子生物学の論文 https://t.co/Hh5arYbm42
RT @taka_fk: 知り合いのiPSの研究者から教えて貰った、量子生物学の論文 https://t.co/Hh5arYbm42
RT @taka_fk: 知り合いのiPSの研究者から教えて貰った、量子生物学の論文 https://t.co/Hh5arYbm42
知り合いのiPSの研究者から教えて貰った、量子生物学の論文 https://t.co/Hh5arYbm42
Quantum biology : Nature Physics : Nature Research https://t.co/KAncgNLV8Y
Robin: a perfect smart quantum device to safely travel thousands of miles https://t.co/7x1QQS8g6H https://t.co/q4GiFYjAV5
Interesting!!! https://t.co/tQPVeVENbg
@CaribouConjurer https://t.co/sQKHcSc7kU heres the paper so you know I'm not bullshitting
Fucking AMAZING! https://t.co/Mmsv22IJ6D (I like that I cuss an inordinate amount for a Fucking scientist, btw) #QuantumBiology
Quantum biology https://t.co/xiMJAY9gIh
I was kinda disappointed RT @promoman9: @LSilentN @LiveScience ever read into this? https://t.co/W1vo5KyqwT/s/q67K
@LSilentN @LiveScience ever read into this? https://t.co/7Qh0zRJq81
RT @DrXaverius: ¡Lo es! Véase este paper sobre fenómenos biológicos que entendemos mejor con física cuántica https://t.co/kIyvoeuFgT https:…
¡Lo es! Véase este paper sobre fenómenos biológicos que entendemos mejor con física cuántica https://t.co/kIyvoeuFgT https://t.co/JDCSUH4WBQ
@DrXaverius @javipeal Sí hay cierta evi https://t.co/IDBAbUsSR4
Quantum Biology has to be the coolest research field ever! https://t.co/h7aQj6Fwcs
Quantum Biology https://t.co/6VzQlpUTvW
Quantum biology https://t.co/1DysBCUwgw
Rhodopsin reaction "depends critically on the quantum mechanical positioning of the excited-state potential energy." https://t.co/clpzAT2dm8
Rhodopsin reaction "is a result of the ultrafast coherent wave-packet dynamics." https://t.co/clpzAT2dm8
"The remarkably rapid and efficient photoactivated one-way reaction dynamics in rhodopsin." https://t.co/clpzAT2dm8
"Quantum mechanics is required to describe...photoactivated dynamics in biological photoreceptors." https://t.co/clpzAT2dm8
"The quantum nature of electronically excited states and nuclear quantum coherences." https://t.co/clpzAT2dm8
"Photoreceptors contain chromophores that absorb photons and then undergo rapid chemical transformation." https://t.co/clpzAT2dm8
Enzymes: "a large portion of the quantum improvement...could be attributed to...the hydrogen tunnelling rates." https://t.co/clpzAT2dm8
"Kinetic isotope effects in enzymatic reactions have clearly demonstrated nuclear quantum effects in enzymes." https://t.co/clpzAT2dm8
"Hydrogen tunnelling also plays an important role in a wide range of biological enzymatic catalytic reactions." https://t.co/clpzAT2dm8
"Electron tunnelling over such long distances would be impossible in vacuum." https://t.co/clpzAT2dm8
"It is remarkable that...long-distance electron transfer in biology occurs through quantum mechanical tunnelling." https://t.co/clpzAT2dm8
"A strong indication that a single-step tunnelling mechanism is responsible for these biological processes." https://t.co/clpzAT2dm8
"Long-range electron transfer through proteins." https://t.co/clpzAT2dm8
"Long-range electron transfer...in proteins...plays important roles in respiration and photosynthesis." https://t.co/clpzAT2dm8
"Experimental data have clearly demonstrated that long-range electron transfer between redox centres in proteins." https://t.co/clpzAT2dm8
Long-range hydrogen tunnelling plays "important roles in...enzyme catalysis." https://t.co/clpzAT2dm8
"Long-range electron tunnelling...plays (an) important roles in biological redox reactions." https://t.co/clpzAT2dm8
"Tunnelling of light-mass particles is a quintessential quantum effect." https://t.co/clpzAT2dm8
@SamueleMarcora someone might eventually do it through physics https://t.co/TEf78Z9qRi
"Although this is still much larger than the geomagnetic field...the response in vivo may be much stronger." https://t.co/clpzAT2dm8
"Magnetically sensitive radical-pair reaction of order 25% at 30 mT and 1% at 1 mT." https://t.co/clpzAT2dm8
Demonstration of "magnetically sensitive radical-pair reactions in a cryptochrome...from the plant Arabidopsis." https://t.co/clpzAT2dm8
Tunneling in the sense of smell. https://t.co/clpzAT2dm8
"Photon-assisted inelastic tunnelling...evidence that such a mechanism fits the observed features of smell." https://t.co/clpzAT2dm8
"Inelastic tunnelling...by the odorant molecule gives a further level of selectivity to the process." https://t.co/clpzAT2dm8
"Photon-assisted inelastic tunnelling of an electron from a donor to an acceptor mediated by the odorant molecule." https://t.co/clpzAT2dm8
"Cryptochrome...is a prime candidate as the host of the radical-pair mechanism." https://t.co/clpzAT2dm8
"Cryptochrome, a ubiquitous photoactive protein that resides in the eye and is also present in plants and bacteria." https://t.co/clpzAT2dm8
"Radical pair reaction. They found magnetic field sensitivities..,of the same order as the geomagnetic field." https://t.co/clpzAT2dm8
"Maeda et al., reported the most sensitive radical-pair reaction so far" (carotenoid, porphyrin, and fullerene). https://t.co/clpzAT2dm8
"Within the past decade, the observed sensitivity of such reactions has gradually increased." https://t.co/clpzAT2dm8
"In those early experiments sensitivity was observed only for field strengths...much larger than Earth’s (~50 μT)." https://t.co/clpzAT2dm8
"There is a long history of...studies of magnetic-field sensitivity on radical-pair reactions in solution." https://t.co/clpzAT2dm8
"The rate of charge recombination...directly influencing the reaction products of these radical pairs." https://t.co/clpzAT2dm8
"The rate of charge recombination depends on the spin of the separated charges." https://t.co/clpzAT2dm8
"Radical pair. The state of these spins then evolves under the combined effect of the Earth’s weak magnetic field." https://t.co/clpzAT2dm8
"A radical pair is...created, by a photochemical process, in spin-correlated states; that is, singlets or triplets." https://t.co/clpzAT2dm8
"A radical pair is (typically) a pair of bound molecules that each has an unpaired electron." https://t.co/clpzAT2dm8
"Radical pairs...but up to that point only with external fields much stronger than the Earth’s." https://t.co/clpzAT2dm8
"Radical pairs can mediate magnetic-field-sensitive and light-activated chemical reactions." https://t.co/clpzAT2dm8
"Schulten et al., proposed the radical-pair mechanism as a plausible biological chemical-compass." https://t.co/clpzAT2dm8
Robins. "The navigation sense was disrupted by magnetic pulses, and very weak external oscillating magnetic fields." https://t.co/clpzAT2dm8
Robin navigation..."sensitive to changes in magnetic field, but that it readjusted over time to these changes." https://t.co/clpzAT2dm8
Navigation of European robins is "sensitive to changes in the intensity of the external magnetic field." https://t.co/clpzAT2dm8
"In European robins...the navigation sense was shown to be photoreceptor based." https://t.co/clpzAT2dm8
"Most (although not all) magnetite-based compass models operate as a polarity-sensitive sense." https://t.co/clpzAT2dm8
"European robins have a magnetic sense that acts as an inclination compass insensitive to polarity." https://t.co/clpzAT2dm8
"Magnetoreception. The precise mechanism used, and its features, seem to vary greatly from animal to animal." https://t.co/clpzAT2dm8
"Magnetoreception is the ability of some migrating species to navigate using the Earth’s magnetic field." https://t.co/clpzAT2dm8
"Even a few % improvement in efficiency may be vital for a plant or bacteria...in low-light conditions." https://t.co/clpzAT2dm8
"The efficiency benefits provided by quantum models...may be only a few per percent." https://t.co/clpzAT2dm8
"The excitation is...transferred to the reaction centre faster than it can be lost to fluorescence relaxation." https://t.co/clpzAT2dm8
2nd QB time scale. "The rate at which the excitation...is lost owing to fluorescence relaxation (~ 1 ns)." https://t.co/clpzAT2dm8
2nd QB time scale. "It is this latter rate that the excitation must beat, in its race to reach the reaction centre." https://t.co/clpzAT2dm8
1st QB time scale. "The excitation leaves the target molecule and enters the reaction centre (~ 1 ps)." https://t.co/clpzAT2dm8
"Any small enhancement in efficiency may be biologically important." https://t.co/clpzAT2dm8
"Coherence can enhance the efficiency of photosynthetic units...even if just by a few per cent." https://t.co/clpzAT2dm8
"The observation at room temperature of quantum effects in a biological system is itself remarkable." https://t.co/clpzAT2dm8