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1.
Carboxy Mb at pH 3. Time-resolved resonance Raman study at cryogenic temperatures. 总被引:1,自引:1,他引:0 下载免费PDF全文
Cryogenic samples of MbCO at pH3 are studied using nanosecond and picosecond time-resolved resonance Raman spectroscopy. It is observed that under excitation conditions sufficient to completely photodissociate MbCO at pH7, the pH3 sample at 10 ns remains substantially unphotolyzed even at 15 K. The similarity in the optical and resonance Raman spectra of MbCO at pH3 with that of pH7 indicates that at pH3 the iron remains six-coordinate and low-spin. The Fe-CO stretch frequency is consistent with a more upright CO orientation. The absence of the v(Fe-His) band in the 30 ps photoproduct Raman spectrum suggests that the Fe-His(F8) bond is broken within 30 ps of photodissociation. Other Raman bands, though, are not consistent with a normal four-coordinate heme for the photoproduct, Mb*. Suggested possible interpretations include a four-coordinate heme highly perturbed by the close lying protonated proximal histidine or a five-coordinate heme with the Fe-His bond significantly weakened. The partial photolysis monitored at 30 ps and 100 K indicates either a significant amount of geminate recombination within 30 ps or low quantum yield or photolysis. The time course for CO recombination is monitored via the Raman spectra from 30 ps to 3 ns at 100 K and 160 K. Of the fraction of protein-ligand pairs that remain photodissociated at 30 ps, 50% recombine by approximately 250 ps at 100 K and 160 K, supporting the flash photolysis rebinding data of Cowen et al. (Cowen, B. R. 1990. Ph. D. thesis. University of Illinois at Urbana-Champaign; Cowen, B. R., D. Braunstein, H. Frauenfelder, P. J. Steinbach, and R. D. Young. 1989. Biophys. J. 55:55a. [Abstr.].) The conclusions from these resonance Raman studies are extended to solution phase studies at ambient temperatures. 相似文献
2.
Iben B. Bentsen Ida Nielsen Michael Lisby Helena B. Nielsen Souvik Sen Gupta Kamilla Mundbjerg Anni H. Andersen Lotte Bjergbaek 《Nucleic acids research》2013,41(5):3173-3189
To address how eukaryotic replication forks respond to fork stalling caused by strong non-covalent protein–DNA barriers, we engineered the controllable Fob-block system in Saccharomyces cerevisiae. This system allows us to strongly induce and control replication fork barriers (RFB) at their natural location within the rDNA. We discover a pivotal role for the MRX (Mre11, Rad50, Xrs2) complex for fork integrity at RFBs, which differs from its acknowledged function in double-strand break processing. Consequently, in the absence of the MRX complex, single-stranded DNA (ssDNA) accumulates at the rDNA. Based on this, we propose a model where the MRX complex specifically protects stalled forks at protein–DNA barriers, and its absence leads to processing resulting in ssDNA. To our surprise, this ssDNA does not trigger a checkpoint response. Intriguingly, however, placing RFBs ectopically on chromosome VI provokes a strong Rad53 checkpoint activation in the absence of Mre11. We demonstrate that proper checkpoint signalling within the rDNA is restored on deletion of SIR2. This suggests the surprising and novel concept that chromatin is an important player in checkpoint signalling. 相似文献
3.
John P. Moore Eric E. Nguema-Ona Mäite Vicré-Gibouin Iben Sørensen William G.T. Willats Azeddine Driouich Jill M. Farrant 《Planta》2013,237(3):739-754
A variety of Southern African resurrection plants were surveyed using high-throughput cell wall profiling tools. Species evaluated were the dicotyledons, Myrothamnus flabellifolia and Craterostigma plantagineum; the monocotyledons, Xerophyta viscosa, Xerophyta schlecterii, Xerophyta humilis and the resurrection grass Eragrostis nindensis, as well as a pteridophyte, the resurrection fern, Mohria caffrorum. Comparisons were made between hydrated and desiccated leaf and frond material, with respect to cell wall composition and polymer abundance, using monosaccharide composition analysis, FT-IR spectroscopy and comprehensive microarray polymer profiling in combination with multivariate data analysis. The data obtained suggest that three main functional strategies appear to have evolved to prepare plant cell walls for desiccation. Arabinan-rich pectin and arabinogalactan proteins are found in the resurrection fern M. caffrorum and the basal angiosperm M. flabellifolia where they appear to act as ‘pectic plasticizers’. Dicotyledons with pectin-rich walls, such as C. plantagineum, seem to use inducible mechanisms which consist of up-regulating wall proteins and osmoprotectants. The hemicellulose-rich walls of the grass-like Xerophyta spp. and the resurrection grass E. nindensis were found to contain highly arabinosylated xylans and arabinogalactan proteins. These data support a general mechanism of ‘plasticising’ the cell walls of resurrection plants to desiccation and implicate arabinose-rich polymers (pectin-arabinans, arabinogalactan proteins and arabinoxylans) as the major contributors in ensuring flexibility is maintained and rehydration is facilitated in these plants. 相似文献
4.
Karageorge GN Bertenshaw S Iben L Xu C Sarbin N Gentile A Dubowchik GM 《Bioorganic & medicinal chemistry letters》2004,14(23):5881-5884
A series of tetrahydroisoquinolines has yielded potent MT(2) receptor antagonists, which are selective versus the MT(1) receptor. 相似文献
5.
TFIIH plays an essential role in RNA polymerase I transcription 总被引:7,自引:0,他引:7
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7.
Pore formation and uncoupling initiate a Ca2+-independent degradation of mitochondrial phospholipids
Mitochondria contain a type IIA secretory phospholipase A(2) that has been thought to hydrolyze phospholipids following Ca(2+) accumulation and induction of the permeability transition. These enzymes normally require millimolar Ca(2+) for optimal activity; however, no dependence of the mitochondrial activity on Ca(2+) can be demonstrated upon equilibrating the matrix space with extramitochondrial Ca(2+) buffers. Ca(2+)-independent activity is seen following protonophore-mediated uncoupling, when uncoupling arises through alamethicin-mediated pore formation, or upon opening the permeability transition pore. Under the latter conditions, activity continues in the presence of excess EGTA but is somewhat enhanced by exogenous Ca(2+). The Ca(2+)-independent activity is best seen in media of high ionic strength and displays a broad pH optimum located between pH 8 and pH 8.5. It is strongly inhibited by bromoenol lactone but not by arachidonyl trifluoromethyl ketone, dithiothreitol, and other inhibitors of particular phospholipase A(2) classes. Immunoanalysis of mitochondria and mitochondrial subfractions shows that a membrane-bound protein is present that is recognized by antibody against an authentic iPLA(2) that was first found in P388D(1) cells. It is concluded that mitochondria contain a distinct Ca(2+)-independent phospholipase A(2) that is regulated by bioenergetic parameters. It is proposed that this enzyme, rather than the Ca(2+)-dependent type IIA phospholipase A(2), initiates the removal of poorly functioning mitochondria by processes involving autolysis. 相似文献
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9.
Kamilla Mundbjerg Signe W. J?rgensen Jacob Freds?e Ida Nielsen Jakob Madsen Pedersen Iben Bach Bentsen Michael Lisby Lotte Bjergbaek Anni H Andersen 《PLoS genetics》2015,11(12)
Faithful DNA replication with correct termination is essential for genome stability and transmission of genetic information. Here we have investigated the potential roles of Topoisomerase II (Top2) and the RecQ helicase Sgs1 during late stages of replication. We find that cells lacking Top2 and Sgs1 (or Top3) display two different characteristics during late S/G2 phase, checkpoint activation and accumulation of asymmetric X-structures, which are both independent of homologous recombination. Our data demonstrate that checkpoint activation is caused by a DNA structure formed at the strongest rDNA replication fork barrier (RFB) during replication termination, and consistently, checkpoint activation is dependent on the RFB binding protein, Fob1. In contrast, asymmetric X-structures are formed independent of Fob1 at less strong rDNA replication fork barriers. However, both checkpoint activation and formation of asymmetric X-structures are sensitive to conditions, which facilitate fork merging and progression of replication forks through replication fork barriers. Our data are consistent with a redundant role of Top2 and Sgs1 together with Top3 (Sgs1-Top3) in replication fork merging at rDNA barriers. At RFB either Top2 or Sgs1-Top3 is essential to prevent formation of a checkpoint activating DNA structure during termination, but at less strong rDNA barriers absence of the enzymes merely delays replication fork merging, causing an accumulation of asymmetric termination structures, which are solved over time. 相似文献