RT @basktastic: Truly awesome story, 25 years in the making @stonybrooku: the structural characterization of human phospholipase D, a key l…
Read about their beautiful structural work on the lipin phosphatase here: https://t.co/Af7vhYzC6E & on phospholipase D here: https://t.co/GDVTRDp5WY
Crystal structure of human PLD1 provides insight into activation by PIP2 and RhoA https://t.co/IJChUsnjii (@nchembio)
RT @nchembio: @airola_lab, @BiochemForrest and colleagues report a crystal structure of human PLD1 that helps define features of the cataly…
RT @nchembio: @airola_lab, @BiochemForrest and colleagues report a crystal structure of human PLD1 that helps define features of the cataly…
Congrats @BiochemForrest on your published research in Nature on PLD1, a human protein which is a promising cancer therapy target. https://t.co/PdESgjCGwH
The PLD1 structure has been a long time coming. Cool to see confirmation of PIP2 as a co-factor as well. #lipids #structuralbiology
RT @GuangweiD: The long-waited structures of human PLD1 & PLD2 were solved by the Airola & Chodaparambil groups. See our News and Views and…
RT @BiochemForrest: I am now a published scientist! Big thanks to friends, family and everyone in the lab to helping me get to this point.
RT @nchembio: @airola_lab, @BiochemForrest and colleagues report a crystal structure of human PLD1 that helps define features of the cataly…
RT @GuangweiD: The long-waited structures of human PLD1 & PLD2 were solved by the Airola & Chodaparambil groups. See our News and Views and…
RT @GuangweiD: The long-waited structures of human PLD1 & PLD2 were solved by the Airola & Chodaparambil groups. See our News and Views and…
Very exciting to see this structure of the critically important human enzyme phospholipase D (PLD1). @airola_lab https://t.co/H1spuHmR4i
Great work on #PLD from @airola_lab --> I'm staying at home, so I can read and re-read these structural papers at @nchembio and think about new experiments
RT @basktastic: Truly awesome story, 25 years in the making @stonybrooku: the structural characterization of human phospholipase D, a key l…
RT @GuangweiD: The long-waited structures of human PLD1 & PLD2 were solved by the Airola & Chodaparambil groups. See our News and Views and…
RT @GuangweiD: The long-waited structures of human PLD1 & PLD2 were solved by the Airola & Chodaparambil groups. See our News and Views and…
RT @GuangweiD: The long-waited structures of human PLD1 & PLD2 were solved by the Airola & Chodaparambil groups. See our News and Views and…
RT @nchembio: @airola_lab, @BiochemForrest and colleagues report a crystal structure of human PLD1 that helps define features of the cataly…
Truly awesome story, 25 years in the making @stonybrooku: the structural characterization of human phospholipase D, a key lipid signaling enzyme near and dear to our hearts. Beautiful work from @airola_lab & complementary work from @biogen in @nchembio
RT @nchembio: @airola_lab, @BiochemForrest and colleagues report a crystal structure of human PLD1 that helps define features of the cataly…
I am now a published scientist! Big thanks to friends, family and everyone in the lab to helping me get to this point.
Latest from the lab, by @BiochemForrest on the structure of human phospholipase D1, on the 25th anniversary of it being cloned by our collaborators in the Frohman lab
@airola_lab, @BiochemForrest and colleagues report a crystal structure of human PLD1 that helps define features of the catalytic mechanism and regulation by PIP2 and RhoA. Readable link at https://t.co/Gl6fXC4DoA. https://t.co/tDkWUokC8E
Crystal structure of human PLD1 provides insight into activation by PI(4,5)P 2 and RhoA | Nature Chemical Biology https://t.co/otMScMso8t
The long-waited structures of human PLD1 & PLD2 were solved by the Airola & Chodaparambil groups. See our News and Views and their papers in Nat Chem Biol (https://t.co/eFCFPhb8Hr or https://t.co/L9tefkwHSB, https://t.co/LG2be6HeYg, & https://t