Home  About us  Contact
 

Transient Protein (transient + protein)

Distribution by Scientific Domains
Chemistry80%

Selected Abstracts

Multivalent Drug Design and Inhibition of Cholera Toxin by Specific and Transient Protein,Ligand Interactions

CHEMICAL BIOLOGY & DRUG DESIGN, Issue 5 2008
Jiyun Liu
Multivalent inhibitors of the cholera toxin B pentamer are potential therapeutic drugs for treating cholera and serve as models for demonstrating multivalent ligand effects through a structure-based approach. A crucial yet often overlooked aspect of multivalent drug design is the length, rigidity and chemical composition of the linker used to connect multiple binding moieties. To specifically study the role of chemical linkers in multivalent ligand design, we have synthesized a series of compounds with one and two binding motifs connected by several different linkers. These compounds have affinity for and potency against the cholera toxin B pentamer despite the fact that none can simultaneously bind two toxin receptor sites. Results from saturation transfer difference NMR reveal transient, non-specific interactions between the cholera toxin and linker groups contribute significantly to overall binding affinity of monovalent compounds. However, the same random protein,ligand interactions do not appear to affect binding of bivalent molecules. Moreover, the binding affinities and potencies of these ,non-spanning' bivalent ligands appear to be wholly independent of linker length. Our detailed analysis identifies multiple effects that account for the improved inhibitory potencies of bivalent ligands and suggest approaches to further improve the activity of this class of compounds. [source]

Mechanism of activation of the double-stranded-RNA-dependent protein kinase, PKR

FEBS JOURNAL, Issue 13 2001
Role of dimerization, cellular localization in the stimulation of PKR phosphorylation of eukaryotic initiation factor-2 (eIF2)
An important defense against viral infection involves inhibition of translation by PKR phosphorylation of the , subunit of eIF2. Binding of viral dsRNAs to two dsRNA-binding domains (dsRBDs) in PKR leads to relief of an inhibitory region and activation of eIF2 kinase activity. Interestingly, while deletion of the regulatory region of PKR significantly induces activity in vitro, the truncated kinase does not inhibit translation in vivo, suggesting that these sequences carry out additional functions required for PKR control. To delineate these functions and determine the order of events leading to activation of PKR, we fused truncated PKR to domains of known function and assayed the chimeras for in vivo activity. We found that fusion of a heterologous dimerization domain with the PKR catalytic domain enhanced autophosphorylation and eIF2 kinase function in vivo. The dsRBDs also mediate ribosome association and we proposed that such targeting increases the localized concentration of PKR, enhancing interaction between PKR molecules. We addressed this premise by linking the truncated PKR to RAS sequences mediating farnesylation and membrane localization and found that the fusion protein was functional in vivo. These results indicate that cellular localization along with oligomerization enhances interaction between PKR molecules. Alanine substitution for the phosphorylation site, threonine 446, impeded in vivo and in vitro activity of the PKR fusion proteins, while aspartate or glutamate substitutions partially restored the function of the truncated kinase. These results indicate that both dimerization and cellular localization play a role in transient protein,protein interactions and that trans -autophosphorylation is the final step in the mechanism of activation of PKR. [source]

4-Fluoroproline derivative peptides: effect on PPII conformation and SH3 affinity

JOURNAL OF PEPTIDE SCIENCE, Issue 7 2006
Paolo Ruzza
Abstract Eukaryotic signal transduction involves the assembly of transient protein,protein complexes mediated by modular interaction domains. Specific Pro-rich sequences with the consensus core motif PxxP adopt the PPII helix conformation upon binding to SH3 domains. For short Pro-rich peptides, little or no ordered secondary structure is usually observed before binding interactions. The association of a Pro-rich peptide with the SH3 domain involves unfavorable binding entropy due to the loss of rotational freedom on forming the PPII helix. With the aim of stabilizing the PPII helix conformation in the Pro-rich HPK1 decapeptide PPPLPPKPKF (P2), a series of P2 analogues was prepared, in which specific Pro positions were alternatively occupied by 4(S)- or 4(R)-4-fluoro- L -proline. The interactions of these peptides with the SH3 domain of the HPK1-binding partner HS1 were quantitatively analyzed by the NILIA-CD approach. A CD thermal analysis of the P2 analogues was performed to assess their propensity to adopt the PPII helix conformation. Contrary to our expectations, the Kd values of the analogues were lower than that of the parent peptide P2. These results clearly show that the induction of a stable PPII helix conformation in short Pro-rich peptides is not sufficient to increase their affinity toward the SH3 domain and that the effect of 4-fluoroproline strongly depends on the position of this residue in the sequence and the chirality of the substituent in the pyrrolidine ring. Copyright © 2006 European Peptide Society and John Wiley & Sons, Ltd. [source]

Detection of transient protein,protein interactions by bimolecular fluorescence complementation: The Abl-SH3 case

PROTEINS: STRUCTURE, FUNCTION AND BIOINFORMATICS, Issue 7 2007
Montse Morell
Abstract Protein,protein interactions are essential in most biological processes. Many proteomic approaches have succeeded in the identification of strong and obligatory interactions but the study of weak and transient protein,protein interactions is still a challenge. The aim of the present study was to test the ability of bimolecular fluorescence complementation to detect and discriminate in vivo weak intracellular protein interactions. As a test case, the interaction of the SH3 domain from the c-Abl tyrosine kinase with both natural and designed targets has been chosen. The reassociation of functional yellow fluorescent protein (YFP) from its fragments requires previous binding between the SH3 domain and its partners; but once this occurs, the complex is trapped, turning transient SH3 interactions into stable, easily detectable ones. The method is very sensitive and can be implemented for proteomic analysis of weak protein interactions using flow cytometry. The fluorescence emission is dependent on the strength of the interaction, in such a way that it can be used, at least qualitatively, to screen for best binding candidates among similar proline-rich peptides. In addition, it is illustrated how this method can be used to gain structural insights into particular c-Abl SH3 interactions. [source]