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Alkyl Moiety (alkyl + moiety)
Selected AbstractsStructure,fungitoxicity relationships of some volatile flavour constituents of the edible mushrooms Agaricus bisporus and Pleurotus floridaFLAVOUR AND FRAGRANCE JOURNAL, Issue 4 2001Eugene Sebastian J. Nidiry Abstract The fungitoxicity of the diethyl ether extracts of two basidiomycete mushrooms, Agaricus bisporus and Pleurotus florida, and 14 flavour constituents present in these mushrooms is being reported. Median effective molar concentrations (EC50) of the compounds for the mycelial growth inhibition of Colletotrichum gloeosporioides on potato,dextrose,agar (PDA) medium were computed and compared. Among the constituents tested for fungitoxicity, 1-octanol exhibited the highest activity. Structure,activity relationship studies of the constituents revealed that high hydrophobicity of the alkyl moiety, the presence of the primary alcoholic group and the absence of branching of the alkyl group are responsible for the high activity of 1-octanol. Copyright © 2001 John Wiley & Sons, Ltd. [source] The significance of platelet-activating factor and fertility in the male primate: a reviewJOURNAL OF MEDICAL PRIMATOLOGY, Issue 1 2005William E. Roudebush Abstract:, Since its discovery nearly 30 years ago platelet-activating factor (PAF) has emerged as one of the more important lipid mediators known. PAF (1- O -alkyl-2- O -acetyl- sn -glycero-3-phosphorylcholine) exists endogenously as a mixture of molecular species with structural variants of the alkyl moiety. PAF is a novel potent signaling phospholipid that has unique pleiotropic biological properties in addition to platelet activation. PAF also plays a significant role in reproduction and is present in the sperm of a number of primate species. PAF content in squirrel monkey sperm is significantly higher during the breeding season than the non-breeding season. PAF content in rhesus sperm has a significant relationship with sperm motility. PAF content in human sperm has a positive correlation with seminal parameters and pregnancy outcomes. The enzymes (lyso-PAF-acetyltransferase and PAF-acetylhydrolase) necessary for PAF activation and deactivation are present in primate sperm. PAF-acetylhydrolase may act as a ,decapacitation factor'. Removal of this enzyme during capacitation promotes PAF synthesis increasing primate motility and fertilization. PAF also plays a significant role in the fertilization process, enhancing the fertilization rates of oocytes. Enhanced embryo development has also been reported in oocytes fertilized with PAF-treated sperm. Exogenous PAF will also significantly improve primate artificial insemination pregnancy outcomes. PAF antagonists inhibit sperm motility, acrosome reaction, and fertilization thus suggesting the presence of receptors for PAF. The PAF-receptor is present on primate sperm, with altered transcript levels and distribution patterns on abnormal cells. Whereas, the exact mechanism of PAF in sperm function and reproduction is uncertain, its importance in normal primate fertility is substantial. [source] Polymer-bound alkyltriazenes for mild racemization-free esterification of amino acid and peptide derivativesJOURNAL OF PEPTIDE SCIENCE, Issue 10 2004Joachim Smerdka Abstract A novel tool for polymer-assisted solution phase (PASP) esterification of amino acid and peptide derivatives has been developed. When treated with carboxylic acids, polymer-bound alkyltriazenes react with a loss of nitrogen and transfer of the alkyl moiety to the carboxylate anion to form the corresponding alkyl esters. There are no limitations with regard to either the protecting groups or the nature of the amino acid. Furthermore no racemization occurs at the chiral centers of the amino acids as demonstrated by chiral GC-MS analyses. Alkyltriazene-resins were also applied successfully to the esterification of peptide acids and other peptidic structures, such as tripalmitoyl- S -glyceryl-cysteine (Pam3Cys). The triazene-mediated esterification reaction is exceptionally mild, and there is no need for prior activation of the carboxy groups. This method is therefore particularly suitable for the alkylation of complex peptidomimetic structures prone to racemization and for acid-sensitive structures. Copyright © 2004 European Peptide Society and John Wiley & Sons, Ltd. [source] Characterization of site I of human serum albumin using spectroscopic analyses: Locational relations between regions Ib and Ic of site IJOURNAL OF PHARMACEUTICAL SCIENCES, Issue 12 2004Keishi Yamasaki Abstract Site I of human serum albumin is an important and complex region for high-affinity binding of drugs. Equilibrium dialysis showed independent binding of dansyl- L -asparagine (DNSA) and n -alkyl p -aminobenzoates (p -ABEs) to regions Ib and Ic, respectively, in the pH range 6.0,9.0. However, individual binding of DNSA increased with pH in the same range. Binding of the four n -alkyl p -ABEs strongly perturbed the circular dichroism spectrum of bound DNSA, and the effect increased with concentration and the number of carbon atoms in the alkyl moiety. A similar effect was observed by increasing pH from 6.0 to 9.0, a pH range in which human serum albumin is known to undergo the neutral-to-base transition. The spectral changes propose spatial orientation changes of DNSA at region Ib. This proposal was supported by increased fluorescence anisotropy values: n -alkyl p -ABEs binding and the pH-dependent conformational change each restricted the mobility of the naphthalene ring of bound DNSA. Despite the similar effects on the spatial orientation of DNSA, clear differences were observed between the effects of n -alkyl p -ABEs and neutral-to-base transition. The former hardly changed the affinity and maximum fluorescence emission wavelength of bound DNSA; in contrast, the latter significantly affected them. The results give new information about site I and, according to our knowledge, represent a new type of ligand interaction, because the binding site of DNSA could be changed by simultaneous binding of the n -alkyl p -ABEs without affecting the binding constant. © 2004 Wiley-Liss, Inc. and the American Pharmacists Association J Pharm Sci 93:3004,3012, 2004 [source] One-Step, Painting-Like Coating Procedures To Make Surfaces Highly and Permanently BactericidalBIOTECHNOLOGY PROGRESS, Issue 2 2006Daewon Park Previously we found that covalent attachment of long-chained, moderately hydrophobic polycations to surfaces of solid objects renders the latter permanently bactericidal. Herein we replaced such surface-specific, multistep immobilization techniques with a single-step, general procedure akin to common painting. Glass or polyethylene slides were briefly dipped into organic solutions of certain optimally hydrophobic N -alkyl-PEI (where PEI stands for branched 750-kDa polyethylenimine) polycations, followed by solvent evaporation. The resultant polycation-coated slides were able to kill on contact all of the encountered bacterial cells, whether the Gram-positive human pathogen Staphylococcus aureus or its Gram-negative brethren Escherichia coli. This biocidal effect was found not to be caused by N -alkyl-PEI molecules leached from the surface. Further examination of the mechanism of this bactericidal action suggested that the surface-deposited N -alkyl-PEI kills bacteria by rupturing their cellular membranes. This conclusion was further supported by studies in which the molecular weight of PEI and the hydrophobicity of the alkyl moiety were varied. 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