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91.
Bacterial double-stranded RNA-specific RNase III recognizes the A-form of an RNA helix with little sequence specificity. In contrast, baker yeast RNase III (Rnt1p) selectively recognizes NGNN tetraloops even when they are attached to a B-form DNA helix. To comprehend the general mechanism of RNase III substrate recognition, we mapped the Rnt1p binding signal and directly compared its substrate specificity to that of both Escherichia coli RNase III and fission yeast RNase III (PacI). Rnt1p bound but did not cleave long RNA duplexes without NGNN tetraloops, whereas RNase III indiscriminately cleaved all RNA duplexes. PacI cleaved RNA duplexes with some preferences for NGNN-capped RNA stems under physiological conditions. Hydroxyl radical footprints indicate that Rnt1p specifically interacts with the NGNN tetraloop and its surrounding nucleotides. In contrast, Rnt1p interaction with GAAA-capped hairpins was weak and largely unspecific. Certain duality of substrate recognition was exhibited by PacI but not by bacterial RNase III. E. coli RNase III recognized RNA duplexes longer than 11 bp with little specificity, and no specific features were required for cleavage. On the other hand, PacI cleaved long, but not short, RNA duplexes with little sequence specificity. PacI cleavage of RNA stems shorter than 27 bp was dependent on the presence of an UU-UC internal loop two nucleotides upstream of the cleavage site. These observations suggest that yeast RNase IIIs have two recognition mechanisms, one that uses specific structural features and another that recognizes general features of the A-form RNA helix. 相似文献
92.
Ghannam G Takeda A Camarata T Moore MA Viale A Yaseen NR 《The Journal of biological chemistry》2004,279(2):866-875
93.
Anti-genotoxic and free-radical scavenging activities of extracts from (Tunisian) Myrtus communis 总被引:2,自引:0,他引:2
Hayder N Abdelwahed A Kilani S Ammar RB Mahmoud A Ghedira K Chekir-Ghedira L 《Mutation research》2004,564(1):89-95
The effect of extracts from leaves of Myrtus communis on the SOS reponse induced by Aflatoxin B1 (AFB1) and Nifuroxazide was investigated in a bacterial assay system, i.e. the SOS chromotest with Escherichia coli PQ37. Aqueous extract, the total flavonoids oligomer fraction (TOF), hexane, chloroform, ethyl acetate and methanol extracts and essential oil obtained from M. communis significantly decreased the SOS response induced by AFB1 (10 microg/assay) and Nifuroxazide (20 microg/assay). Ethyl acetate and methanol extracts showed the strongest inhibition of the induction of the SOS response by the indirectly genotoxic AFB1. The methanol and aqueous extracts exhibited the highest level of protection towards the SOS-induced response by the directly genotoxic Nifuroxazide. In addition to anti-genotoxic activity, the aqueous extract, the TOF, and the ethyl acetate and methanol extracts showed an important free-radical scavenging activity towards the 1,1-diphenyl-2-picrylhydrazyl (DPPH) radical. These results suggest the future utilization of these extracts as additives in chemoprevention studies. 相似文献
94.
Andrew P Collins Chenan Andy Huang Megan Ann Bernier Naser Mubarak Sami Hemaidan Hadi Hemaidan Ammar Hemaidan 《Bioinformation》2021,17(1):1
Our knowledge of the disease burden and symptoms with age in COVID-19 patients is limited. Therefore, it is of interest to document the clinical aspect of this association with respect to the disease. We used the data of 3363 patients enrolled with an urgent care clinic in Volusia county, Florida for this study. Data shows difference in age among COVID-19 antibody (Ab) - positive patients (48.3 years, 95% CI = 46.9,49.7 years) and Ab-negative patients (46.1 years, 95% CI = 45.4, 46.8 years). However, disease burden by age is not significant on average. Nonetheless, COVID-19 positive patients between 40-69-years of age experienced the highest burden of disease and highest average number of symptoms. Thus, COVID-19 disease burden and number of symptoms experienced were highest among the 40-69-year-old patients. Those above the populations mean age of 46.4 years old were more likely to test positive for COVID-19. 相似文献
95.
M. Abou Hachem S. Bozonnet M. Willemoë s B. Kramh ft K. Fukuda B. C. B nsager M. T. Jensen J. N hr S. Tranier N. Juge X. Robert R. Haser N. Aghajari B. Svensson 《Biocatalysis and Biotransformation》2006,24(1):83-93
-Amylases are endo-acting retaining enzymes of glycoside hydrolase family 13 with a catalytic (β/)8-domain containing an inserted loop referred to as domain B and a C-terminal anti-parallel β-sheet termed domain C. New insights integrate the roles of Ca2 + , different substrates, and proteinaceous inhibitors for -amylases. Isozyme specific effects of Ca2 + on the 80% sequence identical barley -amylases AMY1 and AMY2 are not obvious from the two crystal structures, containing three superimposable Ca2 + with identical ligands. A fully hydrated fourth Ca2 + at the interface of the AMY2/barley -amylase/subtilisin inhibitor (BASI) complex interacts with catalytic groups in AMY2, and Ca2 + occupies an identical position in AMY1 with thiomaltotetraose bound at two surface sites. EDTA-treatment, DSC, and activity assays indicate that AMY1 has the highest affinity for Ca2 + . Subsite mapping has revealed that AMY1 has ten functional subsites which can be modified by means protein engineering to modulate the substrate specificity. Other mutational analyses show that surface carbohydrate binding sites are critical for interaction with polysaccharides. The conserved Tyr380 in the newly discovered 'sugar tongs' site in domain C of AMY1 is thus critical for binding to starch granules. Furthermore, mutations of binding sites mostly reduced the degree of multiple attack in amylose hydrolysis. AMY1 has higher substrate affinity than AMY2, but isozyme chimeras with AMY2 domain C and other regions from AMY1 have higher substrate affinity than both parent isozymes. The latest revelations addressing various structural and functional aspects that govern the mode of action of barley -amylases are reported in this review. 相似文献
96.
A soluble carotenoid protein involved in phycobilisome-related energy dissipation in cyanobacteria 总被引:9,自引:0,他引:9
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Photosynthetic organisms have developed multiple protective mechanisms to survive under high-light conditions. In plants, one of these mechanisms is the thermal dissipation of excitation energy in the membrane-bound chlorophyll antenna of photosystem II. The question of whether or not cyanobacteria, the progenitor of the chloroplast, have an equivalent photoprotective mechanism has long been unanswered. Recently, however, evidence was presented for the possible existence of a mechanism dissipating excess absorbed energy in the phycobilisome, the extramembrane antenna of cyanobacteria. Here, we demonstrate that this photoprotective mechanism, characterized by blue light-induced fluorescence quenching, is indeed phycobilisome-related and that a soluble carotenoid binding protein, ORANGE CAROTENOID PROTEIN (OCP), encoded by the slr1963 gene in Synechocystis PCC 6803, plays an essential role in this process. Blue light is unable to quench fluorescence in the absence of phycobilisomes or OCP. The fluorescence quenching is not DeltapH-dependent, and it can be induced in the absence of the reaction center II or the chlorophyll antenna, CP43 and CP47. Our data suggest that OCP, which strongly interacts with the thylakoids, acts as both the photoreceptor and the mediator of the reduction of the amount of energy transferred from the phycobilisomes to the photosystems. These are novel roles for a soluble carotenoid protein. 相似文献
97.
Houda Baati Ridha Amdouni Neji Gharsallah Abdelghani Sghir Emna Ammar 《Current microbiology》2010,60(3):157-161
Bacterial screenings from solar saltern in Sfax (Tunisia) lead to the isolation of 40 moderately halophilic bacteria which were able to grow optimally in media with 5–15% of salt. These isolates were phylogenetically characterized using 16S rRNA gene sequencing. Two groups were identified including 36 strains of Gamma-Proteobacteria (90%) and 4 strains of Firmicutes (10%). The Gamma-Proteobacteria group consisted of several subgroups of the Halomonadaceae (52.5%), the Vibrionaceae (15%), the Alteromonadaceae (10%), the Idiomarinaceae (7.5%), and the Alcanivoracaceae (5%). Moreover, three novel species: 183ZD08, 191ZA02, and 191ZA09 were found, show <97% sequence similarity of the 16S rRNA sequences while compared to previously published cultivated species. Most of these strains (70%) were able to produce hydrolases: amylases, proteases, phosphatases, and DNAases. Over the isolates, 60% produced phosphatases, 15.0% proteases, 12.5% amylases and DNAases equally. This study showed that the solar saltern of Sfax is an optimal environment for halophilic bacterial growth, where diverse viable bacterial communities are available and may have many industrial applications. 相似文献
98.
Regulation of mTOR Complex 1 (mTORC1) by Raptor Ser863 and Multisite Phosphorylation 总被引:1,自引:0,他引:1
Kathryn G. Foster Hugo A. Acosta-Jaquez Yves Romeo Bilgen Ekim Ghada A. Soliman Audrey Carriere Philippe P. Roux Bryan A. Ballif Diane C. Fingar 《The Journal of biological chemistry》2010,285(1):80-94
The rapamycin-sensitive mTOR complex 1 (mTORC1) promotes protein synthesis, cell growth, and cell proliferation in response to growth factors and nutritional cues. To elucidate the poorly defined mechanisms underlying mTORC1 regulation, we have studied the phosphorylation of raptor, an mTOR-interacting partner. We have identified six raptor phosphorylation sites that lie in two centrally localized clusters (cluster 1, Ser696/Thr706 and cluster 2, Ser855/Ser859/Ser863/Ser877) using tandem mass spectrometry and generated phosphospecific antibodies for each of these sites. Here we focus primarily although not exclusively on raptor Ser863 phosphorylation. We report that insulin promotes mTORC1-associated phosphorylation of raptor Ser863 via the canonical PI3K/TSC/Rheb pathway in a rapamycin-sensitive manner. mTORC1 activation by other stimuli (e.g. amino acids, epidermal growth factor/MAPK signaling, and cellular energy) also promote raptor Ser863 phosphorylation. Rheb overexpression increases phosphorylation on raptor Ser863 as well as on the five other identified sites (e.g. Ser859, Ser855, Ser877, Ser696, and Thr706). Strikingly, raptor Ser863 phosphorylation is absolutely required for raptor Ser859 and Ser855 phosphorylation. These data suggest that mTORC1 activation leads to raptor multisite phosphorylation and that raptor Ser863 phosphorylation functions as a master biochemical switch that modulates hierarchical raptor phosphorylation (e.g. on Ser859 and Ser855). Importantly, mTORC1 containing phosphorylation site-defective raptor exhibits reduced in vitro kinase activity toward the substrate 4EBP1, with a multisite raptor 6A mutant more strongly defective that single-site raptor S863A. Taken together, these data suggest that complex raptor phosphorylation functions as a biochemical rheostat that modulates mTORC1 signaling in accordance with environmental cues. 相似文献
99.
Characterization of the reactivity determinants of a novel hairpin substrate of yeast RNase III 总被引:1,自引:0,他引:1
RNase III enzymes form a conserved family of proteins that specifically cleave double-stranded (dsRNA). These proteins are involved in a variety of cellular functions, including the processing of many non-coding RNAs, mRNA decay, and RNA interference. Yeast RNase III (Rnt1p) selects its substrate by recognizing the structure generated by a conserved NGNN tetraloop (G2-loop). Mutations of the invariant guanosine stringently inhibit binding and cleavage of all known Rnt1p substrates. Surprisingly, we have found that the 5' end of small nucleolar RNA 48 is processed by Rnt1p in the absence of a G2-loop. Instead, biochemical and structural analyses revealed that cleavage, in this case, is directed by a hairpin capped with an AAGU tetraloop, with a preferred adenosine in the first position (A1-loop). Chemical probing indicated that A1-loops adopt a distinct structure that varies at the 3' end where Rnt1p interacts with G2-loops. Consistently, chemical footprinting and chemical interference assays indicate that Rnt1p binds to G2 and A1-loops using different sets of nucleotides. Also, cleavage and binding assays showed that the N-terminal domain of Rnt1p aids selection of A1-capped hairpins. Together, the results suggest that Rnt1p recognizes at least two distinct classes of tetraloops using flexible protein RNA interactions. This underscores the capacity of double-stranded RNA binding proteins to use several recognition motifs for substrate identification. 相似文献
100.
Sarcolectin (SCL) is a tissue growth factor found in various human or animal tissues, functioning in balance with interferons (IFNs) that can inhibit growth and affect cell differentiation. Like somatotropin, SCL is found in the pituitary gland. In humans, the SCL gene is located on chromosome 12 (q12-q13) and expressed as a 55 kDa protein consisting of 469 amino-acids. After a single activation of peripheral blood mononuclear cells (PBMC) obtained from more than 30 individuals, highly significant cell proliferation was found to peak after 7 days in culture. The presence of adherent cells was necessary for cell proliferation. SCL induced over-expression of alpha-IL-2 receptor (CD25) leading to proliferation of CD3+/CD4+/CD45RO+ T cells. Thus in PBMC, SCL induced CD4+ T cell growth and expression of inflammatory cytokine genes, including TNF-alpha, IL-1beta, IL-6 and IL-8. IFNs are also produced following activation as a feedback response which is maintained for about 20 days. 相似文献