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C-terminal Portion (c-terminal + portion)
Selected AbstractsPro-VGF-derived peptides induce penile erection in male rats: possible involvement of oxytocinEUROPEAN JOURNAL OF NEUROSCIENCE, Issue 11 2004Salvatora Succu Abstract The effect of five peptides derived from the C-terminal portion of rat pro-VGF (VGF577-617, VGF588-617, VGF599-617, VGF556-576 and VGF588-597) on penile erection was studied after injection into the hypothalamic paraventricular nucleus of male rats. VGF577-617, VGF588-617, VGF599-617 and, to a lower extent, VGF588-597 (0.1,2 µg) induced penile erection episodes in a dose-dependent manner when injected into the paraventricular nucleus, while VGF556-576 was ineffective. VGF588-617 -induced penile erection was reduced by nitro, - l -arginine methylester (L-NAME; 20 µg), by morphine (5 µg) and by muscimol (1 µg), but not by dizocilpine [(+)MK-801; 1 µg], nor by cis -flupenthixol (10 µg) given into the paraventricular nucleus 10 min before the VGF peptide. d(CH2)5Tyr(Me)-Orn8 -vasotocin (1 µg) effectively reduced VGF588-617 -induced penile erection when given into the lateral ventricles but not when injected into the paraventricular nucleus. Immunocytochemistry with antibodies specific for the C-terminal nonapeptide sequence of pro-VGF (VGF609-617) revealed numerous neuronal fibres and terminals within the paraventricular nucleus, including its parvocellular components. Here, many immunostained neuronal terminals impinged on parvocellular oxytocinergic neurons. The present results show for the first time that certain pro-VGF C-terminus-derived peptides promote penile erection when injected into the paraventricular nucleus and suggest that, within this nucleus, these or closely related pro-VGF-derived peptides may be released to influence sexual function by activating paraventricular oxytocinergic neurons mediating penile erection. [source] Structural features in the C-terminal region of the Sinorhizobium meliloti RmInt1 group II intron-encoded protein contribute to its maturase and intron DNA-insertion functionFEBS JOURNAL, Issue 1 2010María D. Molina-Sánchez Group II introns are both catalytic RNAs and mobile retroelements that move through a process catalyzed by a RNP complex consisting of an intron-encoded protein and the spliced intron lariat RNA. Group II intron-encoded proteins are multifunctional and contain an N-terminal reverse transcriptase domain, followed by a putative RNA-binding domain (domain X) associated with RNA splicing or maturase activity and a C-terminal DNA binding/DNA endonuclease region. The intron-encoded protein encoded by the mobile group II intron RmInt1, which lacks the DNA binding/DNA endonuclease region, has only a short C-terminal extension (C-tail) after a typical domain X, apparently unrelated to the C-terminal regions of other group II intron-encoded proteins. Multiple sequence alignments identified features of the C-terminal portion of the RmInt1 intron-encoded protein that are conserved throughout evolution in the bacterial ORF class D, suggesting a group-specific functionally important protein region. The functional importance of these features was demonstrated by analyses of deletions and mutations affecting conserved amino acid residues. We found that the C-tail of the RmInt1 intron-encoded protein contributes to the maturase function of this reverse transcriptase protein. Furthermore, within the C-terminal region, we identified, in a predicted ,-helical region and downstream, conserved residues that are specifically required for the insertion of the intron into DNA targets in the orientation that would make it possible to use the nascent leading strand as a primer. These findings suggest that these group II intron intron-encoded proteins may have adapted to function in mobility by different mechanisms to make use of either leading or lagging-oriented targets in the absence of an endonuclease domain. [source] Solution structure of the matrix attachment region-binding domain of chicken MeCP2FEBS JOURNAL, Issue 15 2003Björn Heitmann Methyl-CpG-binding protein 2 (MeCP2) is a multifunctional protein involved in chromatin organization and silencing of methylated DNA. MAR-BD, a 125-amino-acid residue domain of chicken MeCP2 (cMeCP2, originally named ARBP), is the minimal protein fragment required to recognize MAR elements and mouse satellite DNA. Here we report the solution structure of MAR-BD as determined by multidimensional heteronuclear NMR spectroscopy. The global fold of this domain is very similar to that of rat MeCP2 MBD and MBD1 MBD (the methyl-CpG-binding domains of rat MeCP2 and methyl-CpG-binding domain protein 1, respectively), exhibiting a three-stranded antiparallel ,-sheet and an ,-helix ,1. We show that the C-terminal portion of MAR-BD also contains an amphipathic helical coil, ,2/,3. The hydrophilic residues of this coil form a surface opposite the DNA interface, available for interactions with other domains of MeCP2 or other proteins. Spectroscopic studies of the complex formed by MAR-BD and a 15-bp fragment of a high-affinity binding site from mouse satellite DNA indicates that the coil is also involved in protein·DNA interactions. These studies provide a basis for discussion of the consequences of six missense mutations within the helical coil found in Rett syndrome cases. [source] Group IID heparin-binding secretory phospholipase A2 is expressed in human colon carcinoma cells and human mast cells and up-regulated in mouse inflammatory tissuesFEBS JOURNAL, Issue 11 2002Makoto Murakami Group IID secretory phospholipase A2 (sPLA2 -IID), a heparin-binding sPLA2 that is closely related to sPLA2 -IIA, augments stimulus-induced cellular arachidonate release in a manner similar to sPLA2 -IIA. Here we identified the residues of sPLA2 -IID that are responsible for heparanoid binding, are and therefore essential for cellular function. Mutating four cationic residues in the C-terminal portion of sPLA2 -IID resulted in abolition of its ability to associate with cell surface heparan sulfate and to enhance stimulus-induced delayed arachidonate release, cyclooxygenase-2 induction, and prostaglandin generation in 293 cell transfectants. As compared with several other group II subfamily sPLA2s, which were equally active on A23187- and IL-1-primed cellular membranes, sPLA2 -IID showed apparent preference for A23187-primed membranes. Several human colon carcinoma cell lines expressed sPLA2 -IID and sPLA2 -X constitutively, the former of which was negatively regulated by IL-1. sPLA2 -IID, but not other sPLA2 isozymes, was expressed in human cord blood-derived mast cells. The expression of sPLA2 -IID was significantly altered in several tissues of mice with experimental inflammation. These results indicate that sPLA2 -IID may be involved in inflammation in cell- and tissue-specific manners under particular conditions. [source] Selenium metabolism in zebrafish: multiplicity of selenoprotein genes and expression of a protein containing 17 selenocysteine residuesGENES TO CELLS, Issue 12 2000Gregory V. Kryukov Fish are an important source of selenium in human nutrition and the zebrafish is a potentially useful model organism for the study of selenium metabolism and its role in biology and medicine. Selenium is present in vertebrate proteins in the form of selenocysteine (Sec), the 21st natural amino acid in protein which is encoded by UGA. We report here the detection of 18 zebrafish genes for Sec-containing proteins. We found two zebrafish orthologs of human SelT, glutathione peroxidase 1 and glutathione peroxidase 4, and single orthologs of several other selenoproteins. In addition, new zebrafish selenoproteins were identified that were distant homologues of SelP, SelT and SelW, but their direct orthologs in other species are not known. This multiplicity of selenoprotein genes appeared to result from gene and genome duplications, followed by the retention of new selenoprotein genes. We found a zebrafish selenoprotein P gene (designated zSelPa) that contained two Sec insertion sequence (SECIS) elements and encoded a protein containing 17 Sec residues, the largest number of Sec residues found in any known protein. In contrast, a second SelP gene (designated zSelPb) was also identified that contained one SECIS element and encoded a protein with a single Sec. We found that zSelPa could be expressed and secreted by mammalian cells. The occurrence of zSelPa and zSelPb suggested that the function of the N-terminal domain of mammalian SelP proteins may be separated from that of the C-terminal Sec-rich sequence: the N-terminal domain containing the UxxC motif is likely involved in oxidoreduction, whereas the C-terminal portion of the protein may function in selenium transport or storage. Our data also suggest that the utilization of Sec is more common in zebrafish than in previously characterized species, including mammals. [source] Overexpression of the Wounding-Responsive Gene AtMYB15 Activates the Shikimate Pathway in ArabidopsisJOURNAL OF INTEGRATIVE PLANT BIOLOGY, Issue 9 2006Yanhui Chen Abstract The MYB transcription factor genes play important roles in many developmental processes and various defense responses of plants. The shikimate pathway is a major biosynthetic pathway for the production of three aromatic amino acids and other aromatic compounds that are involved in multiple responses of plants, including protection against UV and defense. Herein, we describe the characterization of the R2R3-MYB gene AtMYB15 as an activator of the shikimate pathway in Arabidopsis. The AtMYB15 protein is nuclear localized and a transcriptional activation domain is found in its C-terminal portion. Northern blots showed that AtMYB15 is an early wounding-inducible gene. Resutls of microarray analysis, confirmed using quantitative real-time polymerase chain reaction, showed that overexpression of AtMYB15 in transgenic plants resulted in elevated expression of almost all the genes involved in the shikimate pathway. Bioinformatics analysis showed that one or more AtMYB15-binding AC elements were detected in the promoters of these upregulated genes. Furthermore, these genes in the shikimate pathway were also found to be induced by wounding. These data suggest an important role of AtMYB15 as a possible direct regulator of the Arabidopsis shikimate pathway in response to wounding. (Managing editor: Ya-Qin Han) [source] The changing faces of Streptococcus antigen I/II polypeptide family adhesinsMOLECULAR MICROBIOLOGY, Issue 2 2010L. Jeannine Brady Summary Streptococcus mutans antigen I/II (AgI/II) protein was one of the first cell wall-anchored adhesins identified in Gram-positive bacteria. It mediates attachment of S. mutans to tooth surfaces and has been a focus for immunization studies against dental caries. The AgI/II family polypeptides recognize salivary glycoproteins, and are also involved in biofilm formation, platelet aggregation, tissue invasion and immune modulation. The genes encoding AgI/II family polypeptides are found among Streptococcus species indigenous to the human mouth, as well as in Streptococcus pyogenes, S. agalactiae and S. suis. Evidence of functionalities for different regions of the AgI/II proteins has emerged. A sequence motif within the C-terminal portion of Streptococcus gordonii SspB (AgI/II) is bound by Porphyromonas gingivalis, thus promoting oral colonization by this anaerobic pathogen. The significance of other epitopes is now clearer following resolution of regional crystal structures. A new picture emerges of the central V (variable) region, predicted to contain a carbohydrate-binding trench, being projected from the cell surface by a stalk formed by an unusual association between an N-terminal ,-helix and a C-terminal polyproline helix. This presentation mode might be important in determining functional conformations of other Gram-positive surface proteins that have adhesin domains flanked by ,-helical and proline-rich regions. [source] Molecular mechanism of monocyte predominant infiltration in chronic inflammation: Mediation by a novel monocyte chemotactic factor, S19 ribosomal protein dimerPATHOLOGY INTERNATIONAL, Issue 11 2000Tetsuro Yamamoto A novel monocyte chemotactic factor, a cross-linked homodimer of S19 ribosomal protein (RP S19) was initially isolated from a rheumatoid arthritis synovial lesion. The RP S19 dimer causes the monocyte specific chemotaxis in vitro and the monocyte predominant infiltration in vivo, via its agonistic and antagonistic effects on the C5a receptors of monocytes and polymorphonuclear leukocytes, respectively. The agonistic effect is attributed to the similarity of regional structures between RP S19 and C5a, the complement C5-derived leukocyte chemotactic factor, although overall homology of the amino acid sequence between these molecules is only 4%. The antagonistic effect depends upon the C-terminal portion of RP S19. The RP S19 dimer is produced and released by apoptotic cells, and this dimer recruits monocytes from the circulation to the apoptotic lesion. The infiltrated monocytes/macrophages engulf the apoptotic cells, translocate to regional lymph nodes via lymphatics and present the antigenic information of the apoptotic cells to the T cell repertoire. In this manner, the apoptotic cell clearance system connects to the acquired immune system. The innate and acquired immune mechanisms, mediated by the RP S19 dimer, participate in the pathology of inveterate chronic inflammation such as rheumatoid arthritis. [source] Anaplasma phagocytophilum AnkA is tyrosine-phosphorylated at EPIYA motifs and recruits SHP-1 during early infectionCELLULAR MICROBIOLOGY, Issue 5 2007Jacob W. IJdo Summary Anaplasma phagocytophilum is an intracellular pathogen that infects and survives in neutrophilic granulocytes. The A. phagocytophilum genome encodes a type four secretion system (T4SS) that may facilitate intracellular survival by translocation of virulence factors, but to date, no such factors have been identified. Because T4SS-translocated proteins of several intracellular organisms undergo tyrosine phosphorylation by host cell kinases, we investigated tyrosine phosphorylation of A. phagocytophilum proteins during infection. Within minutes after incubation of A. phagocytophilum with HL-60 cells or PMN, a 190 kDa bacterial protein, AnkA, was increasingly tyrosine-phosphorylated. A. phagocytophilum binding to host cells without entry was sufficient for AnkA tyrosine phosphorylation. An in vitro Src kinase assay demonstrated that purified AnkA expressed in Escherichia coli was phosphorylated at tyrosines located at the C-terminal portion of AnkA. Similarly, AnkA expressed in COS-7 cells underwent tyrosine phosphorylation by Src at the C-terminus. The phosphorylated tyrosines were located in EPIYA motifs that display the consensus sequence for binding to SH2 domains. Immunoprecipitation studies demonstrated AnkA binding to the host cell phosphatase SHP-1 during early infection. Phosphorylation of the EPIYA motifs and the presence of the SH2 domains were necessary for AnkA,SHP-1 interaction. We conclude that AnkA is a translocated virulence factor that is tyrosine-phosphorylated by host cell kinases upon translocation into the host cell early during infection. A. phagocytophilum may manipulate the host cell through SHP-1 recruitment. [source] Expression of hck-tr, a truncated form of the src-related tyrosine kinase hck, in bovine spermatozoa and testisMOLECULAR REPRODUCTION & DEVELOPMENT, Issue 5 2008Louis-Jean Bordeleau Abstract In bull testicular haploid germ cells, an mRNA encoding for hck was detected in addition to another one encoding for hck-tr, a truncated form of the tyrosine kinase hck. As the transcripts were expressed in spermatids, we tried to determine whether hck-tr is present in mature bovine spermatozoa. Two polyclonal antibodies were produced against peptides specific to the N- and C-terminal portions of the truncated protein. Western blot analyses confirmed the presence of hck-tr in total protein extracts of ejaculated bull spermatozoa, and sub-cellular fractionation experiments suggest its presence in both head and flagellum. The truncated protein appears tightly associated with cytoskeletal elements as it could be extracted only with SDS under reducing conditions. When assessed by indirect immunofluorescence, hck-tr was mostly localized at the acrosomal area of the sperm cell and a similar localization was observed on demembranated spermatozoa. Immunohistochemical studies on testis sections revealed protein expression in spermatocytes as well as in round and elongating spermatids. The results presented in this study clearly show the presence of mRNAs encoding for hck and hck-tr in testicular germ cells; hck-tr being translated during spermatogenesis and expressed on mature ejaculated bull spermatozoa. Mol. Reprod. Dev. 75: 828,837, 2008. © 2007 Wiley-Liss, Inc. [source] | ||||||||||