@VP @US_FDA causes of blindness in humans. The researchers used the CRISPR gene editing approach to restore the genes in selected mice." https://t.co/4uMEnT1SYW Actual Study of Mice Vision being restored by CRISPR https://t.co/YVzXkRmtnf
— one of the causes of blindness in humans. The researchers used the CRISPR gene editing approach to restore the genes in selected mice." https://t.co/4uMEnT1SYW Actual Study of Mice Vision being restored by CRISPR https://t.co/YVzXkRmtnf $BLUE $VRTX $BIB
Qin et al. provide evidence for the prevention of vision loss caused by retinitis pigmentosa-associated gene mutations via unconstrained in vivo prime editing in the degenerating retinas. https://t.co/AUDhHOC60o In our #Neuroscience collection https://t.c
RT @Lucie_JExpMed: A beautiful image from a beautiful paper! Read all about genome editing in the retina here 👉 https://t.co/PvdgTULCHI
"Vision rescue via unconstrained in vivo prime editing in degenerating neural retinas" Qin H, Zhang W, Zhang S, Feng Y [..] Yao K. J Exp Med 2023-03-17. https://t.co/Zvr6O6d2FH #CRISPR;PE<SpRY>
RT @yaireinhorn: An interesting article, published in @JExpMed, described in vivo #PrimeEditing of a mouse model of #RetinitisPigmentosa, e…
RT @yaireinhorn: An interesting article, published in @JExpMed, described in vivo #PrimeEditing of a mouse model of #RetinitisPigmentosa, e…
RT @yaireinhorn: An interesting article, published in @JExpMed, described in vivo #PrimeEditing of a mouse model of #RetinitisPigmentosa, e…
An interesting article, published in @JExpMed, described in vivo #PrimeEditing of a mouse model of #RetinitisPigmentosa, efficiently correcting Pde6b in the #retina, preserving #photoreceptors thus rescuing visual function & vision-dependent behavior.
"Vision rescue via unconstrained in vivo prime editing in degenerating neural retinas" Qin H, Zhang W, Zhang S, Feng Y [..] Yao K. J Exp Med 2023-03-17. https://t.co/Zvr6O6d2FH PE<SpRY>
RT @NEIDirector: Exciting new study from the Wuhan University of Science and Technology using a more versatile form of #CRISPR (prime editi…
RT @davidrliu: Qin, Yao, and coworkers report the in vivo prime editing of a mouse model of retinitis pigmentosa, efficiently correcting Pd…
RT @JExpMed: On our May cover: Qin et al (https://t.co/isx43H2iFR) develop a genome-editing tool to rescue retina functionality & restore v…
Wwaaauuuuu!!!….😲😲😲😲😲😲
RT @JExpMed: On our May cover: Qin et al (https://t.co/isx43H2iFR) develop a genome-editing tool to rescue retina functionality & restore v…
RT @Lucie_JExpMed: A beautiful image from a beautiful paper! Read all about genome editing in the retina here 👉 https://t.co/PvdgTULCHI htt…
A beautiful image from a beautiful paper! Read all about genome editing in the retina here 👉 https://t.co/PvdgTULCHI
RT @JExpMed: On our May cover: Qin et al (https://t.co/isx43H2iFR) develop a genome-editing tool to rescue retina functionality & restore v…
On @JExpMed May cover: Qin et al (https://t.co/iblWIoY6J5) develop a genome-editing tool to rescue retina functionality & restore vision in mice. Image shows a section of a Pde6bT to C mouse retina immunostained for GFP, rhodopsin & nuclei JEM’s M
On our May cover: Qin et al (https://t.co/isx43H2iFR) develop a genome-editing tool to rescue retina functionality & restore vision in mice. Image shows a section of a Pde6bT to C mouse retina immunostained for GFP, rhodopsin & nuclei. JEM’s May I
Vision rescue via unconstrained in vivo prime editing in degenerating neural retinas https://t.co/2FNhhRxjKm
Qin et al. (Wuhan Univ. of Science and Technology) provides convincing evidence for the prevention of vision loss caused by retinitis pigmentosa-associated gene mutations via unconstrained in vivo prime editing in the degenerating retinas. https://t.co/AUD
Using a prime editor, Qin et al. (https://t.co/AUDhHOC60o) restored visual functions in a mouse model (rd10) of retinitis pigmentosa. Samuel W. Du and Krzysztof Palczewski @UCIrvine provide insights to the study: https://t.co/oyjVq3O1yK #HumanDiseaseGenet
RT @NEIDirector: Exciting new study from the Wuhan University of Science and Technology using a more versatile form of #CRISPR (prime editi…
"Vision rescue via unconstrained in vivo prime editing in degenerating neural retinas" Qin H, Zhang W, Zhang S, Feng Y [..] Yao K. J Exp Med 2023-03-17. https://t.co/Zvr6O6d2FH PE based on #CRSIRP-SpRY (with unconstrained PAM requirement)
RT @NEIDirector: Exciting new study from the Wuhan University of Science and Technology using a more versatile form of #CRISPR (prime editi…
RT @NEIDirector: Exciting new study from the Wuhan University of Science and Technology using a more versatile form of #CRISPR (prime editi…
RT @medical_xpress: New gene-editing technique reverses #vision loss in mice @RockUPress @JExpMed https://t.co/W6tEo5b977 https://t.co/W7iO…
RT @NEIDirector: Exciting new study from the Wuhan University of Science and Technology using a more versatile form of #CRISPR (prime editi…
RT @NEIDirector: Exciting new study from the Wuhan University of Science and Technology using a more versatile form of #CRISPR (prime editi…
RT @NEIDirector: Exciting new study from the Wuhan University of Science and Technology using a more versatile form of #CRISPR (prime editi…
RT @NEIDirector: Exciting new study from the Wuhan University of Science and Technology using a more versatile form of #CRISPR (prime editi…
RT @NEIDirector: Exciting new study from the Wuhan University of Science and Technology using a more versatile form of #CRISPR (prime editi…
RT @NEIDirector: Exciting new study from the Wuhan University of Science and Technology using a more versatile form of #CRISPR (prime editi…
Exciting new study from the Wuhan University of Science and Technology using a more versatile form of #CRISPR (prime editing) to correct #RetinitisPigmentosa in mice. Much work to be done to establish safety and efficacy in humans. @JExpMed paper: https:
RT @JExpMed: Eye on genome editing. Samuel W. Du and Krzysztof Palczewski @UCIrvine highlight study from Qin et al. (https://t.co/AUDhHOCDP…
RT @Lucie_JExpMed: Very excited to share this study, and check out the #Insight here 👉 https://t.co/JTuvWHG1wP
RT @JExpMed: Vision rescue via unconstrained in vivo prime editing in degenerating neural retinas. A new study from Huan Qin, Wenliang Zhan…
RT @Lucie_JExpMed: Very excited to share this study, and check out the #Insight here 👉 https://t.co/JTuvWHG1wP
RT @JExpMed: Eye on genome editing. Samuel W. Du and Krzysztof Palczewski @UCIrvine highlight study from Qin et al. (https://t.co/AUDhHOCDP…
Very excited to share this study, and check out the #Insight here 👉 https://t.co/JTuvWHG1wP
RT @JExpMed: Vision rescue via unconstrained in vivo prime editing in degenerating neural retinas. A new study from Huan Qin, Wenliang Zhan…
Eye on genome editing. Samuel W. Du and Krzysztof Palczewski @UCIrvine highlight study from Qin et al. (https://t.co/AUDhHOCDPW) that restored visual functions in a mouse model (rd10) of retinitis pigmentosa: https://t.co/oyjVq3Ozoi #HumanDiseaseGenetics
凄そう。
RT @JExpMed: Vision rescue via unconstrained in vivo prime editing in degenerating neural retinas. A new study from Huan Qin, Wenliang Zhan…
Vision rescue via unconstrained in vivo prime editing in degenerating neural retinas. A new study from Huan Qin, Wenliang Zhang, Shiyao Zhang, Yuan Feng, Kai Yao and colleagues (Wuhan University of Science and Technology): https://t.co/AUDhHOC60o #Neurosci
👁️🐭 #Cécité et #rétinite pigmentaire: une étidition génomique a permis de corriger la mutation et inverser la perte des cellules rétiniennes dans le cadre de cette dystrophie rétinienne héréditaire chez la #souris https://t.co/zW8Yo7yWT1 https://t.co/IRgO
بس
Genome-editing tool using versatility of prime editors and unconstrained PAM requirement of SpRY successfully implemented in the mouse model of Pde6b-associated retinitis pigmentosa, leading to substantial functional rescue of vision @JExpMed https://t.co
RT @crisprtalk: Check out these in vivo editing efficiencies, (mouse retinas) and retinal fluorescent images. Vision was restored in the mu…
Great work by Qin and coworkers showing in vivo prime editing in the Pde6b mouse model of retinitis pigmentosa using PE-SpRY. This was one of the first mutations we worked on in 2020/21, finding also low editing with PE-SpCas9. https://t.co/3ce8F4l5QR ht
👍
RT @NeuroscienceNew: “Vision rescue via unconstrained in vivo prime editing in degenerating neural retinas” by Huan Qin et al. Journal of E…
باستخدام تقنية كريسبر الجديدة تمكن علماء من استعادة البصر في فئران مصابة بالتهاب الشبكية الصباغي https://t.co/EnubUrwhIa
Retinitis pigmentosa (RP) is a group of rare genetic disorders that affect the cells in the retina, which is the layer of tissue at the back of the eye responsible for transmitting visual signals to the brain. RP causes these cells…https://t.co/PFH8xvztx7
Check out these in vivo editing efficiencies, (mouse retinas) and retinal fluorescent images. Vision was restored in the mutant mice. https://t.co/GG6sJVrJOH https://t.co/gwb36N9vRA
1/ Researchers have successfully restored the vision of mice with retinitis pigmentosa, one of the major causes of blindness in humans, using a new, highly versatile form of https://t.co/onbF6ULwoQ
$beam $prme Chinese are coming. You BE and PE people better get off your asses and show some efficiency and speed. You think these Chinese are doing monthly woke meetings? https://t.co/GG6sJVrJOH
Vision rescue via unconstrained in vivo prime editing in degenerating neural retinas | Journal of Experimental Medicine - https://t.co/NPtMJl1LIg
Retinitis pigmentosa apparently cured in mice. https://t.co/G3QmW5l7p4
RT @NeuroscienceNew: “Vision rescue via unconstrained in vivo prime editing in degenerating neural retinas” by Huan Qin et al. Journal of E…
“Vision rescue via unconstrained in vivo prime editing in degenerating neural retinas” by Huan Qin et al. Journal of Experimental Medicine https://t.co/pOp3Io6eLy
Insights in @JExpMed: Samuel W. Du and Krzysztof Palczewski @UCIrvine highlight study from Qin et al. (https://t.co/qyye9CWTJ0) that restored visual functions in a mouse model (rd10) of retinitis pigmentosa. https://t.co/Cno00guRFC #HumanDiseaseGenetics h
In @JExpMed, Qin, Zhang, Zhang, Feng, Yao et al. develop a genome-editing tool characterized by the versatility of prime editors and unconstrained PAM requirement of SpRY, and use the tool to rescue vision in a mouse model of retinitis pigmentosa. https://
Insights: Samuel W. Du and Krzysztof Palczewski @UCIrvine highlight study from Qin et al. (https://t.co/AUDhHOC60o) that restored visual functions in a mouse model (rd10) of retinitis pigmentosa. https://t.co/oyjVq3O1yK #HumanDiseaseGenetics https://t.co/
Qin, Zhang, Zhang, Feng, Yao et al. develop a genome-editing tool characterized by the versatility of prime editors and unconstrained PAM requirement of SpRY, and use the tool to rescue vision in a mouse model of retinitis pigmentosa. https://t.co/AUDhHOC6
Vision rescue via unconstrained in vivo prime editing in degenerating neural retinas https://t.co/PVs2K5Wpgv @JExpMed
Researchers in China have successfully restored the vision of mice with retinitis pigmentosa, one of the major causes of blindness in humans. Read Press Release: https://t.co/lKp2X6Y9xw Original study in @JExpMed: https://t.co/qyye9CWTJ0 https://t.co/LQ5Zx
Researchers in China have successfully restored the vision of mice with retinitis pigmentosa, one of the major causes of blindness in humans. Read Press Release: https://t.co/Deg4jB7MSI Original study: https://t.co/AUDhHOC60o https://t.co/vHOGrWXQAe