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Biochemistry, Biophysics, and Structural Biology Commons™
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- ATPase (1)
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- Adenosine Triphosphatases (1)
- Adenosine Triphosphate (1)
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- Arginine finger (1)
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- Binding Sites (1)
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Articles 1 - 2 of 2
Full-Text Articles in Biochemistry, Biophysics, and Structural Biology
Discovery Of A Diaminopyrimidine Flt3 Inhibitor Active Against Acute Myeloid Leukemia, Jamie A. Jarusiewicz, Jae Yoon Jeon, Michele C. Connelly, Yizhe Chen, Lei Yang, Sharyn D. Baker, R. Kiplin Guy
Discovery Of A Diaminopyrimidine Flt3 Inhibitor Active Against Acute Myeloid Leukemia, Jamie A. Jarusiewicz, Jae Yoon Jeon, Michele C. Connelly, Yizhe Chen, Lei Yang, Sharyn D. Baker, R. Kiplin Guy
Pharmaceutical Sciences Faculty Publications
Profiling of the kinase-binding capabilities of an aminopyrimidine analogue detected in a cellular screen of the St. Jude small-molecule collection led to the identification of a novel series of FMS-like tyrosine kinase 3 (FLT3) inhibitors. Structure–activity relationship studies led to the development of compounds exhibiting good potency against MV4-11 and MOLM13 acute myelogenous leukemia cells driven by FLT3, regardless of their FLT3 mutation status. In vitro pharmacological profiling demonstrated that compound 5e shows characteristics suitable for further preclinical development.
An Arginine Finger Regulates The Sequential Action Of Asymmetrical Hexameric Atpase In The Double-Stranded Dna Translocation Motor, Zhengyi Zhao, Gian Marco De-Donatis, Chad T. Schwartz, Huaming Fang, Jingyuan Li, Peixuan Guo
An Arginine Finger Regulates The Sequential Action Of Asymmetrical Hexameric Atpase In The Double-Stranded Dna Translocation Motor, Zhengyi Zhao, Gian Marco De-Donatis, Chad T. Schwartz, Huaming Fang, Jingyuan Li, Peixuan Guo
Pharmaceutical Sciences Faculty Publications
Biological motors are ubiquitous in living systems. Currently, how the motor components coordinate the unidirectional motion is elusive in most cases. Here, we report that the sequential action of the ATPase ring in the DNA packaging motor of bacteriophage ϕ29 is regulated by an arginine finger that extends from one ATPase subunit to the adjacent unit to promote noncovalent dimer formation. Mutation of the arginine finger resulted in the interruption of ATPase oligomerization, ATP binding/hydrolysis, and DNA translocation. Dimer formation reappeared when arginine mutants were mixed with other ATPase subunits that can offer the arginine to promote their interaction. Ultracentrifugation …