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141.
McVeigh P Leech S Mair GR Marks NJ Geary TG Maule AG 《International journal for parasitology》2005,35(10):1043-1060
This study reports a series of systematic BLAST searches of nematode ESTs on the Genbank database, using search strings derived from known nematode FLPs (those encoded by Caenorhabditis elegans flp genes as well as those isolated from other nematodes including Ascaris suum), as well as query sequences representative of theoretical FLPs. Over 1000 putative FLP-encoding ESTs were identified from multiple nematode species. A total of 969 ESTs representing sequelogs of the 23 known C. elegans flp genes were identified in 32 species, from clades I, III, IV and V. Numerical analysis of EST numbers suggests that flp-1, flp-11 and flp-14 are amongst the most highly expressed flp genes. Speculative BLAST searches were performed using theoretical FLP C-termini as queries, in an attempt to identify putative novel FLP sequences in the EST database. These searches yielded eight multi-species sequelogs encoding FLPs with novel signatures that are believed to identify distinct flp genes. These novel genes encode 25 distinct previously unidentified FLPs, and raise the current total of known nematode flp genes to 31. Additionally, software-based analyses of the presence of signal peptides were performed, with signal peptides being identified on at least one member of each group of flp ESTs, further confirming their status as secreted peptides. The data reveal that nematode FLPs encompass the most complex neuropeptide family known within the metazoa. Moreover, individual FLPs and FLP motifs are highly conserved across the nematodes with little evidence for inter-clade or inter-lifestyle variation, supporting their fundamental role in free-living and parasitic species. 相似文献
142.
Gallegos-Pérez JL Rangel-Ordóñez L Bowman SR Ngowe CO Watson JT 《Analytical biochemistry》2005,346(2):311-319
In a study of primary (methyl to butyl) amines as nucleophiles for cyano-induced cleavage of cysteinyl proteins, methylamine was found to be superior to ammonia for cyanylation (CN)-based disulfide mass mapping methodology. Reaction conditions such as nucleophile concentration, temperature, and reaction time were systematically studied using ribonuclease A as a model protein. The CN-induced cleavage products were monitored using reverse-phase chromatography and matrix-assisted laser desorption ionization mass spectrometry. Results showed that low temperature, short reaction time, and high nucleophile concentration optimize the cleavage reaction and minimize side reactions. These conditions shorten the analysis time and substantially improve the yield of cleavage products. Further, the concurrent use of homologous nucleophiles (e.g., ammonia and methylamine) facilitates recognition and identification of cleavage products. 相似文献
143.
Recently developed DNA-modified diamond surfaces exhibit excellent chemical stability to high-temperature incubations in biological buffers. The stability of these surfaces is substantially greater than that of gold or silicon surfaces, using similar surface attachment chemistry. The DNA molecules attached to the diamond surfaces are accessible to enzymes and can be modified in surface enzymatic reactions. An important application of these surfaces is for surface invasive cleavage reactions, in which target DNA strands added to the solution may result in specific cleavage of surface-bound probe oligonucleotides, permitting analysis of single nucleotide polymorphisms (SNPs). Our previous work demonstrated the feasibility of performing such cleavage reactions on planar gold surfaces using PCR-amplified human genomic DNA as target. The sensitivity of detection in this earlier work was substantially limited by a lack of stability of the gold surface employed. In the present work, detection sensitivity is improved by a factor of approximately 100 (100 amole of DNA target compared with 10 fmole in the earlier work) by replacing the DNA-modified gold surface with a more stable DNA-modified diamond surface. 相似文献
144.
145.
A new sulfur-ligated Zn-peptide 1:2 complex, [Zn(II)(Boc-NH-Cys-Gly-Cys-OMe)2]2- (2), was prepared, characterized, and tested for its DNA-binding and -cleavage properties. Complex 2 was found to cleave DNA hydrolytically. The negative charge in 2 reduces the affinity of the complex for DNA, and enhances its binding specificity. 相似文献
146.
Hepatitis C virus (HCV) internal non-structural protein 3 (NS3) cleavage can occur in trans in the presence of NS4A. In this study, we have further demonstrated a critical role of the helicase domain in the internal NS3 cleavage, different from HCV polyprotein processing which requires only the serine protease domain. The NTPase domain of NS3 helicase interacts with the RNA binding domain to facilitate internal NS3 cleavage. In addition, NS3 protease activity contributes to the transforming ability of the major internal cleavage product NS3(1-402). These findings imply important roles of the internal cleavage and protease activity of the NS3 protein in the pathogenesis of HCV.
Structured summary
MINT-7306465: NS3 (uniprotkb:P29846) physically interacts (MI:0915) with NS3 (uniprotkb:P29846) by anti tag coimmunoprecipitation (MI:0007). 相似文献147.
Masaki Yoshida Nagakatsu Harada Tadahiko Nakagawa Kazuaki Mawatari Hiroshi Sakaue 《FEBS letters》2010,584(6):1217-1222
A link between cellular uptake of high density lipoprotein (HDL) and regulation of sterol regulatory element-binding protein-1 (SREBP-1) was investigated in vitro. HDL decreased nuclear SREBP-1 levels as well as SREBP-1 target gene expression in HepG2 and HEK293 cells. However, HDL did not repress an exogenously expressed, constitutively active form of SREBP-1. HDL increased cellular cholesterol levels, and cellular cholesterol depletion by methyl-β-cyclodextrin abolished the effects of HDL. These results suggest that HDL inhibits the activation of SREBP-1 through a cholesterol-dependent mechanism, which may play an important role in regulating lipid synthetic pathways mediated by SREBP-1. 相似文献
148.
An aerobic microorganism with an ability to utilize phenol as carbon and energy source was isolated from a hydrocarbon contamination
site by employing selective enrichment culture technique. The isolate was identified as Arthrobacter citreus based on morphological, physiological and biochemical tests. This mesophilic organism showed optimal growth at 25°C and at
pH of 7.0. The phenol utilization studies with Arthrobacter citreus showed that the complete assimilation occurred in 24 hours. The organism metabolized phenol up to 22 mM concentrations whereas
higher levels were inhibitory. Thin layer chromatography, UV spectral and enzyme analysis were suggestive of catechol, as
a key intermediate of phenol metabolism. The enzyme activities of phenol hydroxylase and catechol 2,3-dioxygenase in cell
free extracts of Arthrobacter citreus were indicative of operation of a meta-cleavage pathway for phenol degradation. The organism had additional ability to degrade catechol, cresols and naphthol. The
degradation rates of phenol by alginate and agar immobilized cells in batch fermentations showed continuous phenol metabolism
for a period of eight days. 相似文献
149.
Wei Jiang Tao Shen Yingchun Han Qunhui Pan Changlin Liu 《Journal of biological inorganic chemistry》2006,11(7):835-848
The known action of Cu, Zn superoxide dismutase (holo SOD) that converts O2
− to O2 and H2O2 plays a crucial role in protecting cells from toxicity of oxidative stress. However, the overproduction of holo SOD does not result in increased protection but rather creates a variety of unfavorable effects, suggesting that too much holo SOD may be injurious to the cells. In the in vitro study, we report a finding that the holo SOD from bovine erythrocytes and its apo form possess a divalent-metal-dependent nucleolytic activity, which was confirmed by UV–vis absorption titration of calf thymus DNA (ctDNA) with the holo SOD, quenching of holo SOD intrinsic fluorescence by ctDNA, and by gel electrophoresis monitoring conversion of DNA from the supercoiled DNA to nicked and linear forms, and fragmentation of a linear λDNA. Moreover, the DNA cleavage activity was examined in detail under certain reaction conditions. The steady-state study indicates that DNA cleavage supported by both forms of SOD obeys Michaelis–Menten kinetics. On the other hand, the assays with some other proteins indicate that this new function is specific to some proteins including the holo SOD. Therefore, this study reveals that the divalent-metal-dependent DNA cleavage activity is an intrinsic property of the holo SOD, which is independent of its natural metal (copper and zinc) sites, and may provide an alternative insight into the link between SOD enzymes and neurodegenerative disorders. 相似文献
150.