Dan Minor
@electrosomeucsf.bsky.social
New work from our lab. Structures of K2P6.1 (TWIK2) that yield a new and suprising perspective on how lipids affect K2P channels. Great work from Abishek Mondal and Sangeeta Niranjan in my lab.
www.biorxiv.org/content/10.1...
www.biorxiv.org/content/10.1...
June 15, 2025 at 10:52 PM
New work from our lab. Structures of K2P6.1 (TWIK2) that yield a new and suprising perspective on how lipids affect K2P channels. Great work from Abishek Mondal and Sangeeta Niranjan in my lab.
www.biorxiv.org/content/10.1...
www.biorxiv.org/content/10.1...
New insights from our group into how frogs resist toxic environments published today! 🎉🐸
Congratulations to Sandra, Samantha @samnscience.bsky.social, Zhou, and our collaborators Tod Leighfield, Filizola lab @martafilizola.bsky.social, and Du Bois lab at Stanford.
www.nature.com/articles/s41...
Congratulations to Sandra, Samantha @samnscience.bsky.social, Zhou, and our collaborators Tod Leighfield, Filizola lab @martafilizola.bsky.social, and Du Bois lab at Stanford.
www.nature.com/articles/s41...
Structural basis for saxitoxin congener binding and neutralization by anuran saxiphilins
Nature Communications - Dinoflagellates and cyanobacteria produce saxitoxin (STX) congeners that block voltage-gated sodium channels. Here authors show how amphibians may sequester STX congeners...
www.nature.com
April 24, 2025 at 6:04 PM
New insights from our group into how frogs resist toxic environments published today! 🎉🐸
Congratulations to Sandra, Samantha @samnscience.bsky.social, Zhou, and our collaborators Tod Leighfield, Filizola lab @martafilizola.bsky.social, and Du Bois lab at Stanford.
www.nature.com/articles/s41...
Congratulations to Sandra, Samantha @samnscience.bsky.social, Zhou, and our collaborators Tod Leighfield, Filizola lab @martafilizola.bsky.social, and Du Bois lab at Stanford.
www.nature.com/articles/s41...
Our THIK study of the THIK K2P is out showing a novel feature that affects function (flow restrictor) and a PUFA modulation site. Congratulations to my team. 🥳 See also work by @profkalium.bsky.social in the same issue of NSMB. A growing thicket of THIK structures 😃
www.nature.com/articles/s41...
www.nature.com/articles/s41...
Structure of the human K2P13.1 channel reveals a hydrophilic pore restriction and lipid cofactor site - Nature Structural & Molecular Biology
Roy-Chowdhury et al. report structures of the human leak channel K2P13.1 that identify a hydrophilic pore restriction and a polyunsaturated-fatty-acid-binding site corresponding to a small-molecule ag...
www.nature.com
February 26, 2025 at 5:47 PM
Our THIK study of the THIK K2P is out showing a novel feature that affects function (flow restrictor) and a PUFA modulation site. Congratulations to my team. 🥳 See also work by @profkalium.bsky.social in the same issue of NSMB. A growing thicket of THIK structures 😃
www.nature.com/articles/s41...
www.nature.com/articles/s41...
Minor lab reunion. A BPS highlight every year 😄🙏
February 17, 2025 at 5:59 AM
Minor lab reunion. A BPS highlight every year 😄🙏
Great talk by Dr Sandra
Zakrzewska
From our lab about her work on toxin binding proteins from frogs 🐸. Check out her poster tomorrow.
/ B409 - STRUCTURAL BASIS FOR SAXITOXIN CONGENER BINDING AND NEUTRALIZATION BY ANURAN SAXIPHILINS
Zakrzewska
From our lab about her work on toxin binding proteins from frogs 🐸. Check out her poster tomorrow.
/ B409 - STRUCTURAL BASIS FOR SAXITOXIN CONGENER BINDING AND NEUTRALIZATION BY ANURAN SAXIPHILINS
February 16, 2025 at 7:32 PM
Great talk by Dr Sandra
Zakrzewska
From our lab about her work on toxin binding proteins from frogs 🐸. Check out her poster tomorrow.
/ B409 - STRUCTURAL BASIS FOR SAXITOXIN CONGENER BINDING AND NEUTRALIZATION BY ANURAN SAXIPHILINS
Zakrzewska
From our lab about her work on toxin binding proteins from frogs 🐸. Check out her poster tomorrow.
/ B409 - STRUCTURAL BASIS FOR SAXITOXIN CONGENER BINDING AND NEUTRALIZATION BY ANURAN SAXIPHILINS
Glad to share a new minireview with Zhou Chen summarizing our current thoughts on how cells make electrosomes (aka ion channels).
portlandpress.com/biochemsoctr...
portlandpress.com/biochemsoctr...
Electrosome assembly: Structural insights from high voltage-activated calcium channel (CaV)–chaperone interactions
Ion channels are multicomponent complexes (termed here as“electrosomes”) that conduct the bioelectrical signals required for life. It has been appreciated for decades that assembly is critical for pro...
portlandpress.com
February 7, 2025 at 1:13 PM
Glad to share a new minireview with Zhou Chen summarizing our current thoughts on how cells make electrosomes (aka ion channels).
portlandpress.com/biochemsoctr...
portlandpress.com/biochemsoctr...