PROJECT #14219 RESEARCH FOR G-PROTEINS
FOLDING PERFORMANCE PROFILE

PROJECT SUMMARY

G-proteins play central role in various signalling pathways involved in vision, taste, oflaction, muscle contraction and neurotransmission. G-proteins regulate these signalling pathways by switching between 'active' and 'inactive' states, dictated by the type nucleotide bound to their active site. When bound to gaunosine dinucleotide (GDP), G-proteins adopt inactive state. Dissociation of GDP and subsequent binding of gaunosine trinucleotide (GTP) activates G-proteins, which in turn activate downstream signalling pathways. GDP dissociation is the rate limiting step in activation of G-proteins and misregulation of this process can often lead to disease conditions. in this project, we are studying the mechanism of GDP dissociation process.

PROJECT INFO

Manager(s): Neha Vithani

Institution: Washington University in St. Louis

PROJECT WORK UNIT SUMMARY

Atoms: 52,276

Core: GRO_A7

Status: Public

PROJECT FOLDING PPD AVERAGES BY GPU

PPDDB data as of Wednesday, 04 August 2021 19:04:09

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Project
Model Name
Folding@Home Identifier
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GPU
Model
PPD
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PROJECT FOLDING PPD AVERAGES BY CPU BETA

PPDDB data as of Wednesday, 04 August 2021 19:04:09

Rank
Project
CPU Model Logical
Processors (LP)
PPD-PLP
AVG PPD per 1 LP
ALL LP-PPD
(Estimated)
Make
1 RYZEN THREADRIPPER 1920X 12-CORE 24 5,842 140,208 AMD