@jtrebach @nephrotox Actually, there is! https://t.co/SqQIAqzC3G
@jtrebach Fun fact about BTX! It seems that poison frogs/birds aren't actually immune to their own poisons (as is the case for certain other organisms) but instead have specialized "toxin sponge" proteins to sequester them (instead of Nav1.4 ion channel mu
RT @JGenPhysiol: Abderemane-Ali, @ElectrosomeUCSF et al. suggest that toxin resistance in poison birds and frogs is not rooted in sodium ch…
Abderemane-Ali, @ElectrosomeUCSF et al. suggest that toxin resistance in poison birds and frogs is not rooted in sodium channel mutations & may rely on "toxin sponge" proteins https://t.co/QAYZtuylQ9 From our #IonChannels Update 2022: https://t.co/Oe5
@jtrebach There was this fascinating paper I found recently about batrachotoxin & NaV1.4. It seems that poison frogs/birds aren't actually immune to their own poisons but instead have specialized "toxin sponge" proteins to sequester them (vs. ion chann
RT @JGenPhysiol: Congratulations 🏆 Fayal Abderemane-Ali @UCSF for winning the Cranefield Postdoctoral Fellow Award by @sgpweb! Read the JG…
RT @sgpweb: Cranefield Postdoctoral Fellow Award Dr.Fayal Abderemane-Ali, Post-doctoral Cranefield Award, “Evidence that toxin resistance…
RT @sgpweb: Cranefield Postdoctoral Fellow Award Dr.Fayal Abderemane-Ali, Post-doctoral Cranefield Award, “Evidence that toxin resistance…
RT @JGenPhysiol: Congratulations 🏆 Fayal Abderemane-Ali @UCSF for winning the Cranefield Postdoctoral Fellow Award by @sgpweb! Read the JG…
RT @JGenPhysiol: Congratulations 🏆 Fayal Abderemane-Ali @UCSF for winning the Cranefield Postdoctoral Fellow Award by @sgpweb! Read the JG…
RT @sgpweb: Cranefield Postdoctoral Fellow Award Dr.Fayal Abderemane-Ali, Post-doctoral Cranefield Award, “Evidence that toxin resistance…
RT @cryoET: Very excited to be hosting Dr. Abderemane-Ali @HopkinsMedicine today!
Very excited to be hosting Dr. Abderemane-Ali @HopkinsMedicine today!
Such a cool story, congrats!
RT @JGenPhysiol: Congratulations 🏆 Fayal Abderemane-Ali @UCSF for winning the Cranefield Postdoctoral Fellow Award by @sgpweb! Read the JG…
Congratulations 🏆 Fayal Abderemane-Ali @UCSF for winning the Cranefield Postdoctoral Fellow Award by @sgpweb! Read the JGP study by Abderemane-Ali, @ElectrosomeUCSF and colleagues here: https://t.co/QAYZtuylQ9 https://t.co/dNylRFDlGc
RT @sgpweb: Cranefield Postdoctoral Fellow Award Dr.Fayal Abderemane-Ali, Post-doctoral Cranefield Award, “Evidence that toxin resistance…
Cranefield Postdoctoral Fellow Award Dr.Fayal Abderemane-Ali, Post-doctoral Cranefield Award, “Evidence that toxin resistance in poison birds and frogs is not rooted in sodium channel mutations and may rely on “toxin sponge” proteins” https://t.co/n8f6AN
RT @JGenPhysiol: Abderemane-Ali, @ElectrosomeUCSF et al. suggest that toxin resistance in poison birds and frogs is not rooted in sodium ch…
RT @JGenPhysiol: Abderemane-Ali, @ElectrosomeUCSF et al. suggest that toxin resistance in poison birds and frogs is not rooted in sodium ch…
RT @JGenPhysiol: Abderemane-Ali, @ElectrosomeUCSF et al. suggest that toxin resistance in poison birds and frogs is not rooted in sodium ch…
Abderemane-Ali, @ElectrosomeUCSF et al. suggest that toxin resistance in poison birds and frogs is not rooted in sodium channel mutations & may rely on "toxin sponge" proteins https://t.co/QAYZtuylQ9 From our #Neuroscience Collection 2021 👉 https://t.
Link da imagem: 📷: https://t.co/vIe6E7URYv Pra quem quiser saber mais do assunto, aqui vai o artigo do estudo: https://t.co/xCchS8j1DA
Pasen a leer al genial @rmp033 ⚡️🐸
RT @JGenPhysiol: Roberto Márquez @rmp033 @UMichEEB discusses work (https://t.co/QAYZtugKrz) by Abderemane-Ali, @ElectrosomeUCSF et al. that…
RT @JGenPhysiol: Roberto Márquez @rmp033 @UMichEEB discusses work (https://t.co/QAYZtugKrz) by Abderemane-Ali, @ElectrosomeUCSF et al. that…
RT @JGenPhysiol: Roberto Márquez @rmp033 @UMichEEB discusses work (https://t.co/QAYZtugKrz) by Abderemane-Ali, @ElectrosomeUCSF et al. that…
Roberto Márquez @rmp033 @UMichEEB discusses work (https://t.co/QAYZtugKrz) by Abderemane-Ali, @ElectrosomeUCSF et al. that challenges previously established ideas on the physiological underpinnings of batrachotoxin resistance in poison frogs & birds. h
RT @JGenPhysiol: How do batrachotoxin-bearing frogs and birds avoid self intoxication? Roberto Márquez @rmp033 @UMichEEB discusses recent s…
RT @JGenPhysiol: How do batrachotoxin-bearing frogs and birds avoid self intoxication? Roberto Márquez @rmp033 @UMichEEB discusses recent s…
RT @JGenPhysiol: How do batrachotoxin-bearing frogs and birds avoid self intoxication? Roberto Márquez @rmp033 @UMichEEB discusses recent s…
How do batrachotoxin-bearing frogs and birds avoid self intoxication? Roberto Márquez @rmp033 @UMichEEB discusses recent study (https://t.co/QAYZtuylQ9) by Abderemane-Ali, @ElectrosomeUCSF and colleagues. https://t.co/IZOVrBDqns
RT @RockUPress: In @JGenPhysiol, Roberto Márquez @rmp033 discusses recent study by Abderemane-Ali, @ElectrosomeUCSF and colleagues (https:/…
RT @JGenPhysiol: Roberto Márquez @rmp033 discusses recent study by Abderemane-Ali, @ElectrosomeUCSF and colleagues (https://t.co/QAYZtuylQ9…
RT @JGenPhysiol: Roberto Márquez @rmp033 discusses recent study by Abderemane-Ali, @ElectrosomeUCSF and colleagues (https://t.co/QAYZtuylQ9…
We are delighted to WELCOME Roberto Márquez as our newest assistant professor and Michigan Fellow! See @rmp033's commentary on this recent study.
In @JGenPhysiol, Roberto Márquez @rmp033 discusses recent study by Abderemane-Ali, @ElectrosomeUCSF and colleagues (https://t.co/zIGneHm4Xd) that investigates the mechanisms underlying self-resistance in poison dart frogs and poison birds. https://t.co/Sjr
Roberto Márquez @rmp033 discusses recent study by Abderemane-Ali, @ElectrosomeUCSF and colleagues (https://t.co/QAYZtuylQ9) that investigates the mechanisms underlying self-resistance in poison dart frogs and poison birds. https://t.co/IZOVrBDqns
Our September cover https://t.co/GCsXzHgguk shows recordings from P. uropygialis meridionalis, P. terribilis & D. tinctorius voltage-gated sodium channels (NaV1.4) expressed in HEK293 cells in absence or presence of 10 μM batrachotoxin (BTX) https://t.
.@JGenPhysiol's September cover https://t.co/m0bM9HvBsz shows recordings from P. uropygialis meridionalis, P. terribilis & D. tinctorius voltage-gated sodium channels (NaV1.4) expressed in HEK293 cells in absence or presence of 10 μM batrachotoxin (BTX
RT @JGenPhysiol: Image shows that batrachotoxin competes with anesthetic agent tricaine in NaVs from poisonous species. Abderemane-Ali, @El…
RT @JGenPhysiol: Image shows that batrachotoxin competes with anesthetic agent tricaine in NaVs from poisonous species. Abderemane-Ali, @El…
Image shows that batrachotoxin competes with anesthetic agent tricaine in NaVs from poisonous species. Abderemane-Ali, @ElectrosomeUCSF @megan_kobiela @CASBirdman et al suggest that toxin resistance in poison birds & frogs may rely on toxin sponge prot
RT @CMinicad: ¿Sabías que por mucho tiempo se pensó que la auto resistencia a toxinas en animales venenosos estaba relacionada con poseer c…
RT @CMinicad: ¿Sabías que por mucho tiempo se pensó que la auto resistencia a toxinas en animales venenosos estaba relacionada con poseer c…
¿Sabías que por mucho tiempo se pensó que la auto resistencia a toxinas en animales venenosos estaba relacionada con poseer canales iónicos insensibles a estas? [SEGUIR HILO 👇] Linkk del artículo: https://t.co/EbSNO0Y3yI @CentrosAnid https://t.co/i7YpAq
RT @JGenPhysiol: Evidence that toxin resistance in poison birds and frogs is not rooted in sodium channel mutations and may rely on "toxin…
RT @JGenPhysiol: Evidence that toxin resistance in poison birds and frogs is not rooted in sodium channel mutations and may rely on "toxin…
RT @seseragi_nagi: まじでバトル物作家さんには毒手ができる可能性知って欲しい ↓論文URL https://t.co/91C8z23bkF
まじでバトル物作家さんには毒手ができる可能性知って欲しい ↓論文URL https://t.co/91C8z23bkF
ほほう…なら男塾で見たあの毒手が使えるかもしれないという訳か! なんかおもしろそう! https://t.co/91C8z23bkF
人をも殺す猛毒を持つ虫を食べ体に蓄積する生物は、なぜ毒で死なないのか? : カラパイア https://t.co/sflnmEfZ4D https://t.co/I3djxpZZp4
RT @bnschlz: The Golden Poison frog, Phyllobates terribilis, gets its poison from insects it eats, and protects itself from being poisoned…
The Golden Poison frog, Phyllobates terribilis, gets its poison from insects it eats, and protects itself from being poisoned by using "toxin sponge” proteins https://t.co/olLDxhyjrx #BedtimeScience https://t.co/rYeB628UHe
RT @JGenPhysiol: .@Nature highlight recent JGP study by @ElectrosomeUCSF and colleagues suggesting that poison frogs and birds use sponge p…
.@Nature highlight recent JGP study by @ElectrosomeUCSF and colleagues suggesting that poison frogs and birds use sponge proteins to soak up toxins and avoid poisoning themselves: https://t.co/cDyyq8Rsug See the original study here: https://t.co/Typ9JApONX
.@Nature highlight recent @JGenPhysiol study by @ElectrosomeUCSF and colleagues suggesting that poison frogs and birds use sponge proteins to soak up toxins and avoid poisoning themselves: https://t.co/gnYNvMCQsy See the original study here: https://t.co/z
RT @JGenPhysiol: Evidence that toxin resistance in poison birds and frogs is not rooted in sodium channel mutations and may rely on "toxin…
RT @JGenPhysiol: Evidence that toxin resistance in poison birds and frogs is not rooted in sodium channel mutations and may rely on "toxin…
RT @JGenPhysiol: Evidence that toxin resistance in poison birds and frogs is not rooted in sodium channel mutations and may rely on "toxin…
RT @JGenPhysiol: Evidence that toxin resistance in poison birds and frogs is not rooted in sodium channel mutations and may rely on "toxin…
Evidence that toxin resistance in poison birds and frogs is not rooted in sodium channel mutations and may rely on "toxin sponge" proteins. A new study from Fayal Abderemane-Ali, @ElectrosomeUCSF, @megan_kobiela, @CASBirdman et al. https://t.co/Typ9JApONX
.@NatGeo covered the recent paper by @ElectrosomeUCSF and colleagues suggesting that poisonous birds and frogs use toxin sponge proteins to avoid poisoning themselves: https://t.co/d0uAozQDaa See the original study here: https://t.co/Typ9JApONX
.@NatGeo covered the recent @JGenPhysiol paper by @ElectrosomeUCSF and colleagues suggesting that poisonous birds and frogs use toxin sponge proteins to avoid poisoning themselves: https://t.co/6A6BhbrpYT See the original study here: https://t.co/zNlXhVdEg
Evidence that toxin resistance in poison birds and frogs is not rooted in sodium channel mutations and may rely on “toxin sponge” proteins | Journal of General Physiology | Rockefeller University Press https://t.co/mxvEIPfZaF
RT @ElectrosomeUCSF: Evidence that toxin resistance in poison birds and frogs is not rooted in sodium channel mutations and may rely on “to…
RT @ElectrosomeUCSF: Evidence that toxin resistance in poison birds and frogs is not rooted in sodium channel mutations and may rely on “to…
RT @ElectrosomeUCSF: Evidence that toxin resistance in poison birds and frogs is not rooted in sodium channel mutations and may rely on “to…
RT @ElectrosomeUCSF: Evidence that toxin resistance in poison birds and frogs is not rooted in sodium channel mutations and may rely on “to…
RT @ElectrosomeUCSF: Evidence that toxin resistance in poison birds and frogs is not rooted in sodium channel mutations and may rely on “to…
Really enjoyed this paper! Challenges the idea that toxin resistance relies on NaV channel mutations, instead provides evidence that toxin resistance in poison birds and frogs may rely on “toxin sponge” proteins mopping up the toxins! https://t.co/IKLkm66L
RT @ElectrosomeUCSF: Evidence that toxin resistance in poison birds and frogs is not rooted in sodium channel mutations and may rely on “to…
RT @ElectrosomeUCSF: Evidence that toxin resistance in poison birds and frogs is not rooted in sodium channel mutations and may rely on “to…
RT @cjlxx: Fascinating suggestions regarding survival from chemical warfare in the natural world... https://t.co/IF2EH8R3I8
RT @ElectrosomeUCSF: Evidence that toxin resistance in poison birds and frogs is not rooted in sodium channel mutations and may rely on “to…
RT @ElectrosomeUCSF: Evidence that toxin resistance in poison birds and frogs is not rooted in sodium channel mutations and may rely on “to…
Congrats Dan and all the authors! Great to see this impactful story in press.
Fascinating suggestions regarding survival from chemical warfare in the natural world...
RT @ElectrosomeUCSF: Evidence that toxin resistance in poison birds and frogs is not rooted in sodium channel mutations and may rely on “to…
In @JGenPhysiol, Abderemane-Ali, Daniel Minor @ElectrosomeUCSF & colleagues show that resistance by Pitohui birds and Phyllobates frogs to their own toxins may be mediated not by mutations in their channels, but by toxin-sequestering "sponge" proteins.
RT @JGenPhysiol: A team of researchers from @UCSF, @Stanford & @calacademy has uncovered new clues as to how poisonous frogs and birds avoi…
RT @ElectrosomeUCSF: Evidence that toxin resistance in poison birds and frogs is not rooted in sodium channel mutations and may rely on “to…
Abderemane-Ali, Daniel Minor @ElectrosomeUCSF & colleagues show that resistance by Pitohui birds and Phyllobates frogs to their own toxins may be mediated not by mutations in their channels, but by toxin-sequestering "sponge" proteins. https://t.co/Typ
Evidence that toxin resistance in poison birds and frogs is not rooted in sodium channel mutations and may rely on “toxin sponge” proteins | Journal of General Physiology | Rockefeller University Press https://t.co/STdZ2dldO3
RT @JGenPhysiol: A team of researchers from @UCSF, @Stanford & @calacademy has uncovered new clues as to how poisonous frogs and birds avoi…
A team of researchers from @UCSF, @Stanford & @calacademy has uncovered new clues as to how poisonous frogs and birds avoid intoxicating themselves. Read Press Release: https://t.co/YUm3iuS4wF Read original @JGenPhysiol study: https://t.co/zNlXhVvf8b
A team of researchers from @UCSF, @Stanford & @calacademy has uncovered new clues as to how poisonous frogs and birds avoid intoxicating themselves. Read Press Release: https://t.co/mViRXhhF4C Original Study: https://t.co/Typ9JA8dpn https://t.co/U8Fyi