@LevayerR always bittersweet to see new work with Eaton’s name on it. makes me think of this (albeit probably unrelated) result in mice https://t.co/72kNewKczf
almost done with weird true science for the night deep brain photoreceptors! https://t.co/6ttx1DXrmr
that new article in nature sheds some light on the topic … “Take a photon not a pill” https://t.co/4XCPqRPKnY
RT @TimBonfield: Deep in our brains, #sunlight helps regulate how fast we burn fat. Discovery @Nature https://t.co/0Pj8jurCVv by Dr. Lang a…
RT @SethBlackshaw: Mammalian deep brain photoreception at last! Expect that encephalopsin/Opn3 will also contribute to this. Violet-light…
RT @CincyChildrens: Mom and Dad were right all along. Kids need sunshine to stay healthy. New study @Nature https://t.co/dg1Vsfa223. shows…
Opsin 5, what are you doing in the hypothalamus?! (Zhang et al.) https://t.co/8VVrhvyPfG
RT @tak_miyawaki: 光感受性GPCRオプシンOpn5は、何故か視床下部POAの温度感受性ニューロンに発現している。低温条件下でUVを体外から照射してみると、投射先である褐色脂肪組織の代謝を抑え、体温の恒常性が保てなくなる(低下する)らしい。マウスは脳深部で紫外線…
What we're reading this month: Opsin expressing neurons in the brain regulate thermogenesis in brown adipose tissue in mice #obesity #fattissue #adipocyte @nature @nresearchnews https://t.co/NJBT8O5Ldw https://t.co/KrS2xeTdbw
See you all in a few minutes 😉 Register below to get the Zoom link:
Fill the registration form to get the Zoom link! Link of the paper👇 https://t.co/V1Jk7EvHvG Registration form 👇 https://t.co/20B4FGErZ7
RT @CincyChildrens: Mom and Dad were right all along. Kids need sunshine to stay healthy. New study @Nature https://t.co/dg1Vsfa223. shows…
The hypothalamus sees! https://t.co/yvGBGxNkSd
RT @CazarezF: What an amazing paper for neuroscience and metabolism! What do you think @SamerHattar ? :) Violet-light suppression of ther…
What an amazing paper for neuroscience and metabolism! What do you think @SamerHattar ? :) Violet-light suppression of thermogenesis by opsin 5 hypothalamic neurons https://t.co/TxVvqI3dbg
RT @TrueDark: In summary: violet light can impact your metabolism and ability to burn sugar or fat. TrueDark Twilights (our sleep-hacking g…
Shout out to Kevin Zhang from our very own #UCCOM MSTP and his colleagues at the Lang lab @CincyChildrens, for publishing this very cool paper on suppression of thermogenesis by violet light sensitive opsin 5 neurons in the POA in @nature https://t.co/MGT
RT @nature: A Nature study describes deep brain neurons sensitive to violet light stimulation that suppress adaptive thermogenesis in the f…
Violet #light modulates brown adipose tissue #thermogenesis in mice, possibly via penetration and activation of violet-sensitive #neurons in the brain's #hypothalamus (and not via activation of such neurons in the retina). @nature https://t.co/G1VnMHcll
A light-sensitive receptor protein expressed in neurons in the mouse brain has been shown to be stimulated by violet light, and to activate a pathway that reduces heat production in brown fat. Read the N&V here https://t.co/vAkXhw7ZjJ and the paper her
Esto es alucinante. Han encontrado células sensibles a la luz en el hipotálamo (expresan opsinas, hasta ahora solo se conocían en la retina). Parecen involucradas en la regulación de la termogénesis 😍 https://t.co/ijmDyPPJYI.
Violet-light suppression of thermogenesis by opsin 5 hypothalamic neurons - PubMed https://t.co/bYi4g83hGz
RT @neuroecology: Crazy - mice have neurons that can detect light DEEP inside the brain in order to regulate body temperature [from Kevin…
RT @LeeGrimesLab: New Nature Article by my colleague @richardalang1. Violet-light-sensitive neuropsin OPN5, expressed in light sensing neur…
RT @nature: A Nature study describes deep brain neurons sensitive to violet light stimulation that suppress adaptive thermogenesis in the f…
New Nature Article by my colleague @richardalang1. Violet-light-sensitive neuropsin OPN5, expressed in light sensing neurons in the hypothalamic preoptic area, modulates the heat-generating capacity of brown adipose tissue. Congrats Lang lab!! https://t.co
怪しい紫の光で活性化する光受容体が脳で体温を調整する。 https://t.co/EN1oE497hB
RT @emulenews: #Nature Violet-light suppression of thermogenesis by opsin 5 hypothalamic neurons https://t.co/DZJp2l3Fg2 Direct measurement…
RT @nature: A Nature study describes deep brain neurons sensitive to violet light stimulation that suppress adaptive thermogenesis in the f…
RT @nature: A Nature study describes deep brain neurons sensitive to violet light stimulation that suppress adaptive thermogenesis in the f…
RT @gottapatchemall: Violet-light suppression of thermogenesis by opsin 5 hypothalamic neurons https://t.co/xcIHiMI4GY https://t.co/qz1viYt…
RT @adipose_papers: Violet-light suppression of thermogenesis by opsin 5 hypothalamic neurons. https://t.co/ikg0DDd16R https://t.co/UBH7Sle…
RT @nature: A Nature study describes deep brain neurons sensitive to violet light stimulation that suppress adaptive thermogenesis in the f…
RT @nature: A Nature study describes deep brain neurons sensitive to violet light stimulation that suppress adaptive thermogenesis in the f…
RT @nature: A Nature study describes deep brain neurons sensitive to violet light stimulation that suppress adaptive thermogenesis in the f…
RT @rebeccyannie: Super cool! Light regulation of thermogenesis in the hypothalamus https://t.co/eumJLheAPJ
RT @nature: A Nature study describes deep brain neurons sensitive to violet light stimulation that suppress adaptive thermogenesis in the f…
In summary: violet light can impact your metabolism and ability to burn sugar or fat. TrueDark Twilights (our sleep-hacking glasses) block up to 100% of blue AND violet light at night to help regulate vital biological functions: https://t.co/a4Nmvbkavb
RT @nature: A Nature study describes deep brain neurons sensitive to violet light stimulation that suppress adaptive thermogenesis in the f…
RT @nature: A Nature study describes deep brain neurons sensitive to violet light stimulation that suppress adaptive thermogenesis in the f…
RT @nature: A Nature study describes deep brain neurons sensitive to violet light stimulation that suppress adaptive thermogenesis in the f…
This is such an interesting paper! https://t.co/i9HCml6dc8
RT @CincyChildrens: Mom and Dad were right all along. Kids need sunshine to stay healthy. New study @Nature https://t.co/dg1Vsfa223. shows…
RT @nature: A Nature study describes deep brain neurons sensitive to violet light stimulation that suppress adaptive thermogenesis in the f…
RT @nature: A Nature study describes deep brain neurons sensitive to violet light stimulation that suppress adaptive thermogenesis in the f…
RT @nature: A Nature study describes deep brain neurons sensitive to violet light stimulation that suppress adaptive thermogenesis in the f…
RT @nature: A Nature study describes deep brain neurons sensitive to violet light stimulation that suppress adaptive thermogenesis in the f…
RT @nature: A Nature study describes deep brain neurons sensitive to violet light stimulation that suppress adaptive thermogenesis in the f…
RT @nature: A Nature study describes deep brain neurons sensitive to violet light stimulation that suppress adaptive thermogenesis in the f…
RT @nature: A Nature study describes deep brain neurons sensitive to violet light stimulation that suppress adaptive thermogenesis in the f…
Get your nature therapy
RT @nature: A Nature study describes deep brain neurons sensitive to violet light stimulation that suppress adaptive thermogenesis in the f…
RT @nature: A Nature study describes deep brain neurons sensitive to violet light stimulation that suppress adaptive thermogenesis in the f…
RT @nature: A Nature study describes deep brain neurons sensitive to violet light stimulation that suppress adaptive thermogenesis in the f…
RT @nature: A Nature study describes deep brain neurons sensitive to violet light stimulation that suppress adaptive thermogenesis in the f…
RT @nature: A Nature study describes deep brain neurons sensitive to violet light stimulation that suppress adaptive thermogenesis in the f…
RT @nature: A Nature study describes deep brain neurons sensitive to violet light stimulation that suppress adaptive thermogenesis in the f…
A Nature study describes deep brain neurons sensitive to violet light stimulation that suppress adaptive thermogenesis in the fat of mice. https://t.co/pIKuOJwQFj https://t.co/yuU6GcMYA9
Violet-light suppression of thermogenesis by opsin 5 hypothalamic neurons. https://t.co/ikg0DDd16R https://t.co/UBH7SleThi
Super cool! Light regulation of thermogenesis in the hypothalamus https://t.co/eumJLheAPJ
RT @neuroecology: Crazy - mice have neurons that can detect light DEEP inside the brain in order to regulate body temperature [from Kevin…
RT @CincyChildrens: Mom and Dad were right all along. Kids need sunshine to stay healthy. New study @Nature https://t.co/dg1Vsfa223. shows…
RT @KevinYackle: Violet-light suppression of thermogenesis by opsin 5 hypothalamic neurons https://t.co/vbs5PBhz01
RT @TimBonfield: Deep in our brains, #sunlight helps regulate how fast we burn fat. Discovery @Nature https://t.co/0Pj8jurCVv by Dr. Lang a…
Sunlight reaches deep into the brain to regulate body metabolism! Violet-light suppression of thermogenesis by opsin 5 hypothalamic neurons | Nature https://t.co/yLX86chLm9
Violet-light suppression of thermogenesis by opsin 5 hypothalamic neurons https://t.co/PbxRqKecQT https://t.co/04FwE7gTqH
Cool new paper by the Lang lab. Great work by Kevin Zhang and @ShaneDS00941306
Amazing discovery by Dr. Lang and colleagues @JSG_Lab. Highly conserved Opn5 sense UV light and regulate BAT thermogenesis in mice.
Congratulations to the Lang lab and collaborators for a very cool story! Violet-light suppression of thermogenesis by opsin 5 hypothalamic neurons https://t.co/h06n1QkJpF
Violet-light suppression of thermogenesis by opsin 5 hypothalamic neurons https://t.co/vbs5PBhz01
UV light can penetrate into the mouse hypothalamus and dampen thermogenesis through glutamatergic neurons that express a UV-sensitive opsin. Extends our understanding of neurons responsive to light independent of visual pathways from zebrafish and bird. ht
UV light can penetrate into the mouse hypothalamus and dampen thermogenesis through glutamatergic neurons that express a UV-sensitive opsin. Extends our understanding of neurons responsive to light independent of visual pathways from zebrafish and bird.
RT @neuroecology: Crazy - mice have neurons that can detect light DEEP inside the brain in order to regulate body temperature [from Kevin…
RT @neuroecology: Crazy - mice have neurons that can detect light DEEP inside the brain in order to regulate body temperature [from Kevin…
RT @neuroecology: Crazy - mice have neurons that can detect light DEEP inside the brain in order to regulate body temperature [from Kevin…
A violet light-sensitive thermoefferent pathway from POA to BAT uses OPN5 as a light sensor. Acting as a deep brain photoreceptor with a peak sensitivity of 380 nm, OPN5 inhibits BAT thermogenesis through a direct light response😮👇🏼 https://t.co/stwI2ZSjbO
RT @NeuroSchnell: Now, that's interesting: A light-sensitive receptor protein is expressed in neurons deep in the mouse brain and these neu…
RT @NeuroSchnell: Now, that's interesting: A light-sensitive receptor protein is expressed in neurons deep in the mouse brain and these neu…
Now, that's interesting: A light-sensitive receptor protein is expressed in neurons deep in the mouse brain and these neurons control body heat. News and Views: https://t.co/58wdyPM6Ud (the paper is here: https://t.co/psMxTVItQ5)
RT @TimBonfield: Deep in our brains, #sunlight helps regulate how fast we burn fat. Discovery @Nature https://t.co/0Pj8jurCVv by Dr. Lang a…
RT @papersofnote: SO INSANELY COOL. A deep brain nonvisual light sensor regulating metabolism. Does it play a role in circadian regulation…
RT @TimBonfield: Deep in our brains, #sunlight helps regulate how fast we burn fat. Discovery @Nature https://t.co/0Pj8jurCVv by Dr. Lang a…
RT @ClaireWyart: Wild: Photoreceptors in the mammalian hypothalamus: optical suppression of thermogenesis, let s bring violet deep into the…
RT @TimBonfield: Deep in our brains, #sunlight helps regulate how fast we burn fat. Discovery @Nature https://t.co/0Pj8jurCVv by Dr. Lang a…
RT @TimBonfield: Deep in our brains, #sunlight helps regulate how fast we burn fat. Discovery @Nature https://t.co/0Pj8jurCVv by Dr. Lang a…
El cuerpo humano nunca dejará de sorprenderme... 😅 qué me dices de esto @javierbutra ????
RT @papersofnote: SO INSANELY COOL. A deep brain nonvisual light sensor regulating metabolism. Does it play a role in circadian regulation…
RT @TimBonfield: Deep in our brains, #sunlight helps regulate how fast we burn fat. Discovery @Nature https://t.co/0Pj8jurCVv by Dr. Lang a…
RT @neuroecology: Crazy - mice have neurons that can detect light DEEP inside the brain in order to regulate body temperature [from Kevin…
Light has a strong effect on your metabolism. Especially the shorter wavelenghts (blue light) are powerful. We are working on a product that can be used for weight loss. The future is promising!
RT @TimBonfield: Deep in our brains, #sunlight helps regulate how fast we burn fat. Discovery @Nature https://t.co/0Pj8jurCVv by Dr. Lang a…
RT @TimBonfield: Deep in our brains, #sunlight helps regulate how fast we burn fat. Discovery @Nature https://t.co/0Pj8jurCVv by Dr. Lang a…
RT @tak_miyawaki: 光感受性GPCRオプシンOpn5は、何故か視床下部POAの温度感受性ニューロンに発現している。低温条件下でUVを体外から照射してみると、投射先である褐色脂肪組織の代謝を抑え、体温の恒常性が保てなくなる(低下する)らしい。マウスは脳深部で紫外線…
RT @TimBonfield: Deep in our brains, #sunlight helps regulate how fast we burn fat. Discovery @Nature https://t.co/0Pj8jurCVv by Dr. Lang a…
RT @emulenews: #Nature Violet-light suppression of thermogenesis by opsin 5 hypothalamic neurons https://t.co/DZJp2l3Fg2 Direct measurement…