@TimothyDuignan Another way to connect it is by using statistical inference of generalized Ising models. The inference is performed by maximizing the likelihood based on the observations of states. Here is an example of an application in protein structure prediction: https://t.co/A7tOcknio5
Calling all potential grad students! Join us for our Ph.D. Possibilities Workshop on Aug. 1: interact with current students & faculty, get tips & tricks for grad applications & more. Nothing to lose, only knowledge to gain! Register: https://t.co/xhoHm4KZpT #gradschoolapps#phd
Excellent experience for undergrads to present their research and network! Travel awards are available. Highly recommend this experience to any undergraduate researcher!
It's here, it's finally here! Applications for GCURS 2023 are now open! We hope you'll apply to join us this October in Houston for a day of #science, fellowship and fun! Visit https://t.co/igW50E3LYJ to get started.
@RiceGradSchool wrote a spotlight article about me and my grad school experience. Check it out here: https://t.co/5cNpqhg4LT
Very happy to be part of this community 🫶🏽 feel free to contact me if you have any questions!
Voy a hacer una sesión informativa acerca del GCURS (https://t.co/3R47hGjzkZ) y estudios de posgrado en Rice University el 3 de junio en la UCR. Es abierto al público, quedan cordialmente invitados. Les agradecería si lo comparten para hacerlo llegar a la gente interesada💗
DNA twisting and the associated torque can mediate interaction between DNA-bound proteins that are far apart in 3D space. This work highlights DNA twist-mediated coupling between RNA polymerases.
A structural model of the SARS-CoV-2 spike protein as the virus fuses with host human cells reveals an opportunity to disrupt dynamics and halt transmission https://t.co/hsgcXGasBD
Here we look at the membrane fusion process performed by the S2 subunit of the Spike Protein.
We observed that the glycosylation state of this subunit is highly important for the virus capture.
https://t.co/CU1vEpnAg7