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Chey Jones, Ph.D.
@CheyMJones
Professional Model(er) @ Merck | Stanford University, Ph.D. | Temple University, B.S.
Rahway, NJ
Joined March 2020
329 Following
274 Followers
152 Posts
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Hot off the press 🔥: “Emergence of a distinct mechanism of C-N bond formation in photoenzymes”
Check out @Nature to see the exciting results of a collaboration with the @HysterLab , where we report a unique mechanism for stereoselective hydroaminations
https://t.co/wTXIG4aeSV
We’re hiring a Senior Scientist in Chemical Biotechnologies!
Join us in pushing the boundaries of biocatalysis, protein engineering, enzyme evolution, and microfluidics to solve challenging chemistry problems with biology
Apply here:
https://t.co/6Vml3gLXxA
Hot off the press 🔥: “Initial Conditions for Excited-State Dynamics in Solvated Systems: A Case Study”
Check out JPCB to see our (@mtzlab) suggested methodology for generating initial conditions for nonadiabatic QM/MM simulations in condensed phases.
https://t.co/y6jb26MY4o
Special shout out to @felix_raps and @arivassouchet , whose experiments and discussions paved the way for the computational modeling and molecular dynamics simulations used to investigate this interesting mechanism!
Who to follow
Catherine
@whitequark
this account is no longer monitored
i primarily post on whitequark at mastodon dot social, or elsewhere under the same username
2010-2024 bye!
Drought Center
@DroughtCenter
The National Drought Mitigation Center at the University of Nebraska-Lincoln helps people everywhere reduce vulnerability to drought.
Diptarka Hait
@fullCIalchemist
Theoretically, chemist. Asst. Prof. @Columbia & ARS @FlatironInst ICC.
Formerly @StanfordFellows @mtzlab. @UCB_Chemistry PhD @mhg_group. @ChemistryMIT SB.
Hot off the press 🔥: “Emergence of a distinct mechanism of C-N bond formation in photoenzymes”
Check out @Nature to see the exciting results of a collaboration with the @HysterLab , where we report a unique mechanism for stereoselective hydroaminations
https://t.co/wTXIG4aeSV
BREAKING NEWS
The Royal Swedish Academy of Sciences has decided to award the 2024 #NobelPrize in Chemistry with one half to David Baker “for computational protein design” and the other half jointly to Demis Hassabis and John M. Jumper “for protein structure prediction.”
The 2024 #NobelPrize laureates in chemistry Demis Hassabis and John Jumper have successfully utilised artificial intelligence to predict the structure of almost all known proteins.
In 2020, Hassabis and Jumper presented an AI model called AlphaFold2. With its help, they have been able to predict the structure of virtually all the 200 million proteins that researchers have identified. Since their breakthrough, AlphaFold2 has been used by more than two million people from 190 countries. Among a myriad of scientific applications, researchers can now better understand antibiotic resistance and create images of enzymes that can decompose plastic.
Read more about their story: https://t.co/nWxcZs6wqC
Emergence of a distinct mechanism of C–N bond formation in #photoenzymes by Felix C. Raps @felix_raps, Ariadna Rivas-Souchet, Chey M. Jones @CheyMJones, and Todd K. Hyster @HysterLab at @PrincetonChem https://t.co/z5lOfovJrF
Very happy to share this work on stereoselective hydroaminations by photoenzymes!
Big shout out to Ari @arivassouchet who did an amazing job working on this project and thank you to Chey @CheyMJones @Merck for great molecular dynamics simulations!
https://t.co/W1cJeI8hxO
Congratulations to the newest #Merck Underrepresented Chemists of Color Cohort! It is such a pleasure to meet and mentor these outstanding scientists each year, and I’m looking forward to another great year in 2024!
🎉 Congratulations to the winners of the 2024 Merck Underrepresented Chemists of Color Research Award! 🥇👏 Get ready for a great year of mentorship and networking with @Merck chemists! 🌟#MerckChemistry
Critical Evaluation of Polarizable and Nonpolarizable Force Fields for Proteins Using Experimentally Derived Nitrile Electric Fields | Journal of the American Chemical Society https://t.co/DxDTytZlTV
Congrats @KirshJacob ! Great work and amazing to see this one out in @acsJACS
Please RT!
We are looking to hire a #PhD student (four years, fully funded) at @KTHuniversity to work on theory/simulations for light-induced molecular processes.
For more information and apply by March 15 at
https://t.co/jT0Q73Lran
Check out our recent @CommsChem work by @ListNanna and @CheyMJones on controlling the excited-state GFP reactivity ⏬ ⏬ ⏬
Interested in controlling the excited-state reactivity/selectivity of chromophores via electronic tuning? Check out our (@ListNanna , @toddjmartinez) @CommsChem paper where we use QM to reveal how P-ring engineering can impact GFP photoisomerization yields
https://t.co/HYP9Jcub9w
Please RT - we're looking to hire a #postdoc at @KTHuniversity
to work on simulation of photoactive proteins as part of an exciting new DDLS/WASP joint grant.
More information in the link:
https://t.co/Qf7GlWJHuM
Engineering Hydroxylase Activity, Selectivity, and Stability for a Scalable Concise Synthesis of a Key Intermediate to Belzutifan - Cheung-Lee - Angewandte Chemie International Edition - Wiley Online Library https://t.co/yemn0NobGq
Happy to share our newest preprint, testing MD electric fields against experimental values:
Comprehensive analysis of nitrile probe IR shifts and intensities in proteins: experiment and critical evaluation of simulations | ChemRxiv - https://t.co/XyGtjlsgn1
Check our new paper in @NatureComms by @CheyMJones and @arwalker_on_gpu on GFP engineering in collaboration with Boxer Lab @StanfordUChem
Hot off the press: More GFP engineering! Check out our latest article in @NatureComms to see how we (Yasmin Shamsudin , @arwalker_on_gpu , @toddjmartinez , Boxer Lab at Stanford) used QM/MM and MD simulations to engineer a more efficient split GFP!
https://t.co/lruvtgjEer
Stanford Theoretical Chemistry Virtual Preview Day is Monday, October 30th!!! We especially encourage students belonging to groups historically underrepresented in STEM to apply and find out what a PhD in theoretical chemistry at Stanford looks like! https://t.co/uBRoC5yUn1
Excited that our collaboration with Thomas A. Wolf, Elio G. Champenois and @mtzlab is now out.
Phys. Rev. Lett. 131, 143001 (2023) - Femtosecond Electronic and Hydrogen Structural Dynamics in Ammonia Imaged with Ultrafast Electron Diffraction https://t.co/fZEDY4Httr
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