Hiro Furukawa Lab

@Lab_FURUKAWA

Cryo-EM, X-ray crystallography, Electrophysiology, Membrane protein biochemistry, Molecular neuroscience since 2007. Strictly on science-related topics.

Cold Spring Harbor, New York
Vrijeme pridruživanja: prosinac 2018.

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  1. 31. sij

    An exclusive interview with our on her CALHM story. She describes CALHM1 and CALHM2 as CALHM was originally discovered by Philippe Marambaud here on Long Island, NY.

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    29. sij

    Hereby the link to the NSMB article 'Structure and assembly of calcium homeostasis modulator proteins' by Hiro Furukawa & colleagues. If interested, take a look also at the related study out in .

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    29. sij

    There are 214 new entries in the PDB this week, including this structure of CALHM2 (6vai), published . Find all the latest entries at

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    29. sij

    Exciting new collaborative paper from David Jane’s lab on NMDA receptor subunit specific antagonists in Nature Comms () with accompanying discussion here () including a cool YouTube video from collaborating

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  5. 28. sij

    It was fun to work with true scientists from the groups of and The core of the current work was posted on last year. We will submit the raw images, soon.

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  6. 28. sij

    Our work on CALHM1 and 2 is now officially out Voltage sensitive CALHM1 is 8-meric whereas insensitive CALHM2 is 11-meric. Substituting the cytoplasmic domain of CALHM1 with that of CALHM2 converts CALHM1 to an 11-meric channel. 1/2)

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    Structural basis of subtype-selective competitive antagonism for GluN2C/2D-containing NMDA receptors

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  8. 22. sij

    Our quest for 2C/2D subtype targeting of NMDARs by a great collaboration with the group of and others. xray xtallography on a fragment of NMDARs, and electrophysiology to define subtype-selective elements.

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  9. 15. sij

    A former member of our lab, published his first paper as an independent investigator A beautiful structure and an intriguing insight into an auto-inhibitory mechanism of IP3Rs! We are all very proud of him!

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  10. 30. pro 2019.

    A fun collaboration with . Our pannexin channel structure by is out on . Panx1 forms a 7-mer channel with a narrow extracellular gate involved in channel regulation and ion selectivity. Happy 'Hole'-idays.

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  11. 19. pro 2019.

    Another PHD is made! Jue (Dr. Wang) will be consulting starting from January 2020. We’ll miss her a lot but are excited to see her take the next career step. Best of luck with your next endeavor Jue!

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  12. 27. stu 2019.

    Our work on CALHM1 and 2 structures is now out on These two CALHM channels have distinct oligomeric states (8-mer and 11-mer). A great collaboration with and

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    19. stu 2019.

    The Smith Lab has an opening for an NIH-funded postdoctoral position in membrane transport! Candidates trained in chemistry, biochemistry, biophysics or related fields are welcome to apply. Please RT widely!

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  14. 5. stu 2019.

    What a beautiful and heartwarming way to use a 3D printer! Thanks Andrew for sharing this with us. Be careful not to drop it. You can easily break (deglycosylate) the N-linked sugar chains.

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  15. 31. lis 2019.

    She nailed it! Jue successfully defended her thesis. Many thanks to the thesis committee members and and our external examiner

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  17. 7. lis 2019.

    Join us! We now have two new postdoc positions available in our group to conduct studies on receptor/ion channel/membrane protein structure, function, engineering, and reagent development by a multidisciplinary approach

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    Excited to announce you can now submit directly from bioRxiv to journals that use the ScholarOne submission system - first up is Royal Society’s Open Biology - hopefully many more to come :-)

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    Spatial coupling tunes NMDA receptor responses via Ca2+ diffusion

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    Structure of a temperature-sensitive TRP channel TRP1 from the alga Chlamydomonas reinhardtii that has a unique architecture and 2-fold symmetry. Details @

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