Caroline Roy scite author profile

The ribonucleoprotein complex between 5-S RNA and its binding protein (5-S RNA . protein complex) of yeast ribosomes was released from 60-S subunits with 25 mM EDTA and the protein component was purified by chromatography on DEAE-cellulose. This protein, designated YL3 (MI = 36000 on dodecylsulfate gels), was relatively insoluble in neutral solutions (pH 4-9) and migrated as one of four acidic 60-S subunit proteins when analyzed by the Kaltschmidt and Wittman two-dimensional gel system. Amino acid analyses indicated lower amounts of lysine and arginine than most ribosomal proteins. Sequence homology was observed in the N terminus of YL3, and two prokaryotic 5-S RNA binding proteins, EL 18 from Escherichia coliand HL 13 from Halobacterium cutirubrum : Ala'-Phe2-Gln3-Lys4-AspS-Ala6-Lys7-Ser8-Ser9-Ala'o-Tyr''-Ser'2-Ser'3-Arg'4-Phe'sGln'6-Tyr'7-Pro's-Phe'9-Arg20-Arg21-Arg22-Arg23-G1~24-Gly2s-Ly~26-Thr27-A~p28-Tyr2 ;of particular interest was homology in the cluster of basic residues (18-23). Since the protein contained one methionine residue it could be split into two fragments, CN1 (MI = 24700) and CN2 ( M , = 11 300) by CNBr treatment; the larger fragment originated from the N terminus. The N-terminal amino acid sequence of CN2 shared a limited sequence homology with an internal portion of a second 5-S RNA binding protein from E. coli, EL5, and, based also on the molecular weights of the proteins and studies on the protein binding sites in 5-S RNAs, a model for the evolution of the eukaryotic 5-S RNA binding protein is suggested in which a fusion of the prokaryotic sequences may have occurred. Unlike the native 5-S RNA . protein complex, a variety of RNAs interacted with the smaller CN2 fragment to form homogeneous ribonucleoprotein complexes; the results suggest that the CN1 fragment may confer specificity on the natural 5-S RNA-protein interaction.

show abstract

Bacterial community dynamics in an anaerobic plug-flow type bioreactor treating swine manure

Roy¹,

Talbot²,

Topp³

et al. 2009

Water Research

View full text Add to dashboard Cite

Pharmacological evidence of bradykinin regeneration from extended sequences that behave as peptidaseâ€“activated B2 receptor agonists

et al. 2014

View full text Add to dashboard Cite

While bradykinin (BK) is known to be degraded by angiotensin converting enzyme (ACE), we have recently discovered that Met-Lys-BK-Ser-Ser is paradoxically activated by ACE. We designed and evaluated additional “prodrug” peptides extended around the BK sequence as potential ligands that could be locally activated by vascular or blood plasma peptidases. BK regeneration was estimated using the contractility of the human umbilical vein as model of vascular functions mediated by endogenous B2 receptors (B2Rs) and the endocytosis of the fusion protein B2R-green fluorescent protein (B2R-GFP) expressed in Human Embryonic Kidney 293 cells. Of three BK sequences extended by a C-terminal dipeptide, BK-His-Leu had the most desirable profile, exhibiting little direct affinity for the receptor but a significant one for ACE (as shown by competition of [3H]BK binding to B2R-GFP or of [3H]enalaprilat to recombinant ACE, respectively). The potency of the contractile effect of this analog on the vein was reduced 18-fold by the ACE inhibitor enalaprilat, pharmacologically evidencing BK regeneration in situ. BK-Arg, a potential substrate of arginine carboxypeptidases, had a low affinity for B2Rs and its potency as a contractile agent was reduced 15-fold by tissue treatment with an inhibitor of these enzymes, Plummer’s inhibitor. B2R-GFP internalization in response to 100 nM of the extended peptides recapitulated these findings, as enalaprilat selectively inhibited the effect of BK-His-Leu and Plummer’s inhibitor, that of BK-Arg. The two peptidase inhibitors did not affect BK-induced effects in either assay. The novel C-terminally extended BKs had no or very little affinity for the kinin B1 receptor (competition of [3H]Lys-des-Arg9-BK binding). The feasibility of peptidase-activated B2R agonists is illustrated by C-terminal extensions of the BK sequence.

show abstract

Prolonged signalling and trafficking of the bradykinin B2 receptor stimulated with the amphibian peptide maximakinin: Insight into the endosomal inactivation of kinins

Bawolak

Roy

Gera

et al. 2012

Pharmacological Research

View full text Add to dashboard Cite

Maximakinin, a 19-residue peptide from the amphibian Bombina maxima, incorporates the full sequence of bradykinin (BK) at its C-terminus with a hydrophilic 10-residue N-terminal Maximakinin is the first known natural kinin sequence that elicits a prolonged cellular signalling, thus suggesting a possible basis for a venomous action and a naturally selected one for the design of B 2 R-transported biotechnological cargoes.

show abstract

scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.

Contact Info

hi@scite.ai

10624 S. Eastern Ave., Ste. A-614

Henderson, NV 89052, USA

Blog Terms and Conditions API Terms Privacy Policy Contact Cookie Preferences Do Not Sell or Share My Personal Information

Made with 💙 for researchers

Part of the Research Solutions Family.

Caroline Roy

Sequences of three genes specifying xylanases in Streptomyces lividans

The 5‐S RNA Binding Protein from Yeast (Saccharomyces cerevisiae) Ribosomes

Bacterial community dynamics in an anaerobic plug-flow type bioreactor treating swine manure

Pharmacological evidence of bradykinin regeneration from extended sequences that behave as peptidaseâ€“activated B2 receptor agonists

Prolonged signalling and trafficking of the bradykinin B2 receptor stimulated with the amphibian peptide maximakinin: Insight into the endosomal inactivation of kinins

Contact Info

Product

Resources

About