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141.
Moll RG 《Journal of bioenergetics and biomembranes》2004,36(1):47-53
Signal recognition particles and their receptors target ribosome nascent chain complexes of preproteins toward the protein translocation apparatus of the cell. The discovery of essential SRP components in the third urkingdom of the phylogenetic tree, the archaea (Woese, C. R., and Fox, G. E. (1977). Proc. Natl. Acad. Sci. U.S.A. 74, 5088-5090) raises questions concerning the structure and composition of the archaeal signal recognition particle as well as the functions that route nascent prepoly peptide chains to the membrane. Investigations of the archaeal SRP pathway could therefore identify novel aspects of this process not previously reported or unique to archaea when compared with the respective eukaryal and bacterial systems. 相似文献
142.
Motohiko?HikumaEmail author Masanori?Nakajima Toshiaki?Hirai Hiroshi?Matsuoka 《Biotechnology and Bioprocess Engineering》2002,7(5):323-326
To detect whole ammonia-oxidizing bacteria in the activated sludge, group-specific primers targeting the 16S-rRNA gene of
ammonia-oxidizing bacteria were used. The electrophoresis pattern of the PCR products seemed to produce a single band of approximately
1.0 k bp for the bacteria in activated sludge andNitrosomonas europaea. No band was observed for nitrite-oxidizerNitrobacter winogradskyi and heterotrophs such asPseudomonas putida. Then direct measurement of the PCR product was made by fluorometry using the reagent Hoechist 33258, so that the fluorescent
intensity was in proportional to the cell number of the sample up to 240. Total time required for the test was about 4 h including
DNA extraction. The DNA fragments produced were cloned and their sequences showed high similarity to those ofNitrosomonas spp. This study showed the feasibility to detect ammonia-oxidizing bacteria and to estimate their population rapidly for
the control of the nitrogen elimination process. 相似文献
143.
Microorganisms are associated with a variety of ancient geological materials. However, conclusive proof that these organisms
are as old as the geological material and not more recent introductions has generally been lacking. Over the years, numerous
reports of the isolation of ancient bacteria from geological materials have appeared. Most of these have suffered from the
fact that the protocol for the surface sterilization of the sample was either poorly defined, inadequate or rarely included
data to validate the overall effectiveness of the sterilization protocol. With proper sterility validation and isolation protocol,
a legitimate claim for the isolation of an ancient microbe can be made. Biochemical, physiological, or morphological data
indicate that these ancient microbes are not significantly different from modern isolates. As the role (decomposition) of
modern and ancient microbes has not changed over time, it is probably unreasonable to expect these organisms to be vastly
different. A discussion on the reasons for the homogeneity of ancient and modern microbes is presented. Journal of Industrial Microbiology & Biotechnology (2002) 28, 32–41 DOI: 10.1038/sj/jim/7000174
Received 20 May 2001/ Accepted in revised form 16 June 2001 相似文献
144.
Seigo Shima David A. Hérault Albrecht Berkessel R. K. Thauer 《Archives of microbiology》1998,170(6):469-472
Enzymes involved in methane formation from carbon dioxide and dihydrogen in Methanopyrus kandleri require high concentrations (> 1 M) of lyotropic salts such as K2HPO4/KH2PO4 or (NH4)2SO4 for activity and for thermostability. The requirement correlates with high intracellular concentrations of cyclic 2,3-diphosphoglycerate
(cDPG; ≈ 1 M) in this hyperthermophilic organism. We report here on the effects of potassium cDPG on the activity and thermostability
of the two methanogenic enzymes cyclohydrolase and formyltransferase and show that at cDPG concentrations prevailing in the
cells the investigated enzymes are highly active and completely thermostable. At molar concentrations also the potassium salts
of phosphate and of 2,3-bisphosphoglycerate, the biosynthetic precursor of cDPG, were found to confer activity and thermostability
to the enzymes. Thermodynamic arguments are discussed as to why cDPG, rather than these salts, is present in high concentrations
in the cells of Mp. kandleri.
Received: 18 June 1998 / Accepted: 24 August 1998 相似文献
145.
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148.
Our understanding of microbial diversity and its evolutionary relationships has increased substantially over the last decade. Such an understanding has been greatly fueled by culture-independent metagenomics analyses. However, the outcome of some of these studies and their biological and evolutionary implications, such as the origin of the eukaryotic lineage from the recently discovered archaeal Asgard superphylum, is debated. The sequences of the ribosomal constituents are amongst the most used phylogenetic markers. However, the functional consequences underlying the analysed sequence diversity and their putative evolutionary implications are essentially not taken into consideration. Here, we propose to exploit additional functional hallmarks of ribosome biogenesis to help disentangle competing evolutionary hypotheses. Using selected examples, such as the multiple origins of halophily in archaea or the evolutionary relationship between the Asgard archaea and Eukaryotes, we illustrate and discuss how function-aware phylogenetic framework can contribute to refining our understanding of archaeal phylogeny and the origin of eukaryotic cells. 相似文献
149.
ADP-forming acetyl-CoA synthetase (ACD), the novel enzyme of acetate formation and energy conservation in archaea (
), has been studied only in few hyperthermophilic euryarchaea. Here, we report the characterization of two ACDs with unique molecular and catalytic features, from the mesophilic euryarchaeon Haloarcula marismortui and from the hyperthermophilic crenarchaeon Pyrobaculum aerophilum. ACD from H. marismortui was purified and characterized as a salt-dependent, mesophilic ACD of homodimeric structure (166 kDa). The encoding gene was identified in the partially sequenced genome of H. marismortui and functionally expressed in Escherichia coli. The recombinant enzyme was reactivated from inclusion bodies following solubilization and refolding in the presence of salts. The ACD catalyzed the reversible ADP- and Pi-dependent conversion of acetyl-CoA to acetate. In addition to acetate, propionate, butyrate, and branched-chain acids (isobutyrate, isovalerate) were accepted as substrates, rather than the aromatic acids, phenylacetate and indol-3-acetate. In the genome of P. aerophilum, the ORFs PAE3250 and PAE 3249, which code for and subunits of an ACD, overlap each other by 1 bp, indicating a novel gene organization among identified ACDs. The two ORFs were separately expressed in E. coli and the recombinant subunits (50 kDa) and (28 kDa) were in-vitro reconstituted to an active heterooligomeric protein of high thermostability. The first crenarchaeal ACD showed the broadest substrate spectrum of all known ACDs, catalyzing the conversion of acetyl-CoA, isobutyryl-CoA, and phenylacetyl-CoA at high rates. In contrast, the conversion of phenylacetyl-CoA in euryarchaeota is catalyzed by specific ACD isoenzymes.Dedicated to Prof. Dr. Dr. h.c. mult. Hans Günter Schlegel on the occasion of his 80th birthday. 相似文献
150.
Shuttleworth G Fogg MJ Kurpiewski MR Jen-Jacobson L Connolly BA 《Journal of molecular biology》2004,337(3):621-634
Archaeal family B DNA polymerases contain a specialised pocket that binds tightly to template-strand uracil, causing the stalling of DNA replication. The mechanism of this unique "template-strand proof-reading" has been studied using equilibrium binding measurements, DNA footprinting, van't Hoff analysis and calorimetry. Binding assays have shown that the polymerase preferentially binds to uracil in single as opposed to double-stranded DNA. Tightest binding is observed using primer-templates that contain uracil four bases in front of the primer-template junction, corresponding to the observed stalling position. Ethylation interference analysis of primer-templates shows that the two phosphates, immediately flanking the uracil (NpUpN), are important for binding; contacts are also made to phosphates in the primer-strand. Microcalorimetry and van't Hoff analysis have given a fuller understanding of the thermodynamic parameters involved in uracil recognition. All the results are consistent with a "read-ahead" mechanism, in which the replicating polymerase scans the template, ahead of the replication fork, for the presence of uracil and halts polymerisation on detecting this base. Post-stalling events, serving to eliminate uracil, await full elucidation. 相似文献