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Purified Escherichia coli tRNAAla and tRNALys were each converted to modified species terminating in 2'- and 3'-deoxyadenosine. The modified species were tested as substrates for activation by their cognate aminoacyl-tRNA synthetases and for misacylation with phenylalanine by yeast phenylalanyl-tRNA synthetase. E. coli alanyl- and lysyl-tRNA synthetases normally aminoacylate their cognate tRNA's exclusively on the 3'-OH group, while yeast phenylalanyl-tRNA synthetase utilizes only the 2' position on its own tRNA. Therefore, the finding that the phenylalanyl-tRNA synthetase activated only those modified tRNAAla and tRNALys species terminating in 3'-deoxyadenosine indicated that the position of aminoacylation in this case was specified entirely by the enzyme, an observation relevant to the more general problem of the reason(s) for using a particular site for aminoacylation and maintaining positional specificity during evolution. Initial velocity studies were carried out using E. coli tRNAAla and both alanyl- and phenylalanyl-tRNA synthetases. As noted in other cases, activation of the modified and unmodified tRNA's had essentially the same associated Km values, but in each case the Vmax determined for the modified tRNA was smaller. 相似文献
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Evelien Wynendaele Frederick Verbeke Sofie Stalmans Bert Gevaert Yorick Janssens Christophe Van De Wiele Kathelijne Peremans Christian Burvenich Bart De Spiegeleer 《PloS one》2015,10(11)
Bacteria communicate with each other by the use of signaling molecules, a process called ‘quorum sensing’. One group of quorum sensing molecules includes the oligopeptides, which are mainly produced by Gram-positive bacteria. Recently, these quorum sensing peptides were found to biologically influence mammalian cells, promoting i.a. metastasis of cancer cells. Moreover, it was found that bacteria can influence different central nervous system related disorders as well, e.g. anxiety, depression and autism. Research currently focuses on the role of bacterial metabolites in this bacteria-brain interaction, with the role of the quorum sensing peptides not yet known. Here, three chemically diverse quorum sensing peptides were investigated for their brain influx (multiple time regression technique) and efflux properties in an in vivo mouse model (ICR-CD-1) to determine blood-brain transfer properties: PhrCACET1 demonstrated comparatively a very high initial influx into the mouse brain (Kin = 20.87 μl/(g×min)), while brain penetrabilities of BIP-2 and PhrANTH2 were found to be low (Kin = 2.68 μl/(g×min)) and very low (Kin = 0.18 μl/(g×min)), respectively. All three quorum sensing peptides were metabolically stable in plasma (in vitro) during the experimental time frame and no significant brain efflux was observed. Initial tissue distribution data showed remarkably high liver accumulation of BIP-2 as well. Our results thus support the potential role of some quorum sensing peptides in different neurological disorders, thereby enlarging our knowledge about the microbiome-brain axis. 相似文献
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In order to model the interaction of hemin with DNA and other polynucleotides, we have studied the degradation of DNA, RNA, and polynucleotides of defined structure by [meso-tetrakis(N-methyl-4-pyridyl)porphinato]manganese(III) (MnTMPP) + KHSO5. The activated porphyrin was shown to release adenine, thymine, and cytosine from DNA; RNA degradation afforded adenine, uracil, and cytosine. The same products were obtained from single- and double-stranded DNA oligonucleotides of defined sequence, and also from single-stranded DNA and RNA homopolymers. The overall yield of bases from the dode-canucleotide d(CGCT3A3GCG) was equal to 14% of the nucleotides present initially, indicating that each porphyrin catalyzed the release of approximately 4 bases. Although no guanine was detected as a product from any of the substrates studied, the ability of MnTMPP + KHSO5 to degrade guanine nucleotides was verified by the destruction of pGp, and by the appearance of bands corresponding to guanosine cleavage following treatment of 32P end labeled DNA restriction fragments with activated MnTMPP. Inspection of a number of sites of MnTMPP-promoted cleavage indicated that the process was sequence-selective, occurring primarily at G residues that were part of 5'-TG-3' or 5'-AG-3' sequences, or at T residues. Also formed in much greater abundance were alkali-labile lesions; these were formed largely at guanosine residues. Also studied was the degradation of a 47-nucleotide RNA molecule containing two hairpins. Degradation of the 5'-32P end labeled RNA substrate afforded no distinct, individual bands, suggesting that multiple modes of degradation may be operative.(ABSTRACT TRUNCATED AT 250 WORDS) 相似文献
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