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51.
Vanessa Parmenopoulou Demetra S.M. Chatzileontiadou Stella Manta Stamatina Bougiatioti Panagiotis Maragozidis Dimitra-Niki Gkaragkouni Eleni Kaffesaki Anastassia L. Kantsadi Vassiliki T. Skamnaki Spyridon E. Zographos Panagiotis Zounpoulakis Nikolaos A.A. Balatsos Dimitris Komiotis Demetres D. Leonidas 《Bioorganic & medicinal chemistry》2012,20(24):7184-7193
Five ribofuranosyl pyrimidine nucleosides and their corresponding 1,2,3-triazole derivatives have been synthesized and characterized. Their inhibitory action to Ribonuclease A has been studied by biochemical analysis and X-ray crystallography. These compounds are potent competitive inhibitors of RNase A with low μM inhibition constant (Ki) values with the ones having a triazolo linker being more potent than the ones without. The most potent of these is 1-[(β-d-ribofuranosyl)-1,2,3-triazol-4-yl]uracil being with Ki = 1.6 μM. The high resolution X-ray crystal structures of the RNase A in complex with three most potent inhibitors of these inhibitors have shown that they bind at the enzyme catalytic cleft with the pyrimidine nucleobase at the B1 subsite while the triazole moiety binds at the main subsite P1, where P-O5′ bond cleavage occurs, and the ribose at the interface between subsites P1 and P0 exploiting interactions with residues from both subsites. The effect of a susbsituent group at the 5-pyrimidine position at the inhibitory potency has been also examined and results show that any addition at this position leads to a less efficient inhibitor. Comparative structural analysis of these RNase A complexes with other similar RNase A—ligand complexes reveals that the triazole moiety interactions with the protein form the structural basis of their increased potency. The insertion of a triazole linker between the pyrimidine base and the ribose forms the starting point for further improvement of these inhibitors in the quest for potent ribonucleolytic inhibitors with pharmaceutical potential. 相似文献
52.
Khrouchtchova A Hansson M Paakkarinen V Vainonen JP Zhang S Jensen PE Scheller HV Vener AV Aro EM Haldrup A 《FEBS letters》2005,579(21):4808-4812
We show that the thylakoid membrane phosphoprotein TMP14 is a novel subunit of plant photosystem I (PSI). Blue native/SDS-PAGE and sucrose gradient fractionation demonstrated the association of the protein exclusively with PSI. We designate the protein PSI-P. The presence of PSI-P subunit in Arabidopsis mutants lacking other PSI subunits was analyzed and suggested a location in the proximity of PSI-L, -H and -O subunits. The PSI-P protein was not differentially phosphorylated in state 1 and state 2. 相似文献
53.
54.
Anastassia Kanavarioti David H. White 《Origins of life and evolution of the biosphere》1987,17(3-4):333-349
We have undertaken a complete kinetic analysis of the template-directed oligoguanylate synthesis originated in Orgel's laboratory
(Inoue and Orgel, 1982). The reaction of guanosine 5′-phospho-2-methylimidazolide, 2-MelmpG, with ribooligoguanylates all
3′–5′ linked, designatedn
3 withn=7−12, was studied in the presence/absence of the complementary template polycytidylic acid, poly(C). Conditions were chosen
where poly(C) and 2-MelmpG are in large excess over the oligoguanylate. In the absence of the template at 37 °C the reaction
leads to three isomeric oligomers that are elongated by one monomer unit. They are the 3′–5′ linked, (n+1)3, the 2′–5′ linked, (n+1)2, and the pyrophosphate product, (n+1)
p
, formed in an approximate ratio 1:2:5. In the presence of the template the reaction is 20-fold faster and yields productsn+1,n+2,n+3 etc. as long as 2-MelmpG is available. Most importantly the formation of the natural, 3′–5′ linked isomer, is enhanced
selectively by 140-fold at 37 °C. Qualitative observations allow the conclusion that this enhancement is temperature dependent
and increases with decreasing temperature. For example, at 1 °C only the 3′–5′ linked isomers were detected. Initial rates
for the disappearance of then
3 oligoguanylate were determined at 1, 23, and 37 °C. It was found that the pseudo-first order rate constant for oligoguanylate
elongation was linearly proportional to the 2-MelmpG concentration. This implies that the reaction complex poly(C)·n
3·2-MelmpG does not accumulate under the reaction conditions, a conclusion which is also supported by infrared data (Miles
and Frazier, 1982). The implication of the above results with respect to chemical evolution is that lower temperatures, i.e.,
close to freezing, enhance the regioselectivity of these template-directed reactions and that one way to improve replication
models may be sought in finding conditions that favor stable reaction complexes.
NASA — National Research Council Research Fellow. 相似文献
55.
56.
Makarieva AM Gorshkov VG Li BL 《Proceedings. Biological sciences / The Royal Society》2005,272(1578):2325-2328
The mechanisms dictating upper limits to animal body size are not well understood. We have analysed body length data for the largest representatives of 24 taxa of terrestrial poikilotherms from tropical, temperate and polar environments. We find that poikilothermic giants on land become two-three times shorter per each 10 degrees of decrease in ambient temperature. We quantify that this diminution of maximum body size accurately compensates the drop of metabolic rate dictated by lower temperature. This supports the idea that the upper limit to body size within each taxon can be set by a temperature-independent critical minimum value of mass-specific metabolic rate, a fall below which is not compatible with successful biological performance. 相似文献
57.
High‐resolution definition of humoral immune response correlates of effective immunity against HIV 下载免费PDF全文
Galit Alter Karen G Dowell Eric P Brown Todd J Suscovich Anastassia Mikhailova Alison E Mahan Bruce D Walker Falk Nimmerjahn Chris Bailey‐Kellogg Margaret E Ackerman 《Molecular systems biology》2018,14(3)
Defining correlates of immunity by comprehensively interrogating the extensive biological diversity in naturally or experimentally protected subjects may provide insights critical for guiding the development of effective vaccines and antibody‐based therapies. We report advances in a humoral immunoprofiling approach and its application to elucidate hallmarks of effective HIV‐1 viral control. Systematic serological analysis for a cohort of HIV‐infected subjects with varying viral control was conducted using both a high‐resolution, high‐throughput biophysical antibody profiling approach, providing unbiased dissection of the humoral response, along with functional antibody assays, characterizing antibody‐directed effector functions such as complement fixation and phagocytosis that are central to protective immunity. Profiles of subjects with varying viral control were computationally analyzed and modeled in order to deconvolute relationships among IgG Fab properties, Fc characteristics, and effector functions and to identify humoral correlates of potent antiviral antibody‐directed effector activity and effective viral suppression. The resulting models reveal multifaceted and coordinated contributions of polyclonal antibodies to diverse antiviral responses, and suggest key biophysical features predictive of viral control. 相似文献
58.
59.
Summary A computer simulation (KINSIM) modeling up to 33 competing reactions was used in order to investigate the product distribution in a template-directed oligonucleotide synthesis as a function of time and concentration of the reactants. The study is focused on the poly(C)-directed elongation reaction of an oligoguanylate (a 7-mer is chosen) with guanosine 5-monophosphate-2-methylimidazolide (2-MeImpG), the activated monomer. It is known that theelongation of oligoguanylates to form oligomeric products such as 8-mer, 9-mer, 10-mer, etc., is in competition with (1) thedimerization and further oligomerization reaction of 2-MeImpG that leads to the formation of dimers and short oligomers, and (2) thehydrolysis of 2-MeImpG that forms inactive guanosine 5-monophosphate, 5-GMP. Experimentally determined rate constants for the above three processes at 37°C and pH 7.95 were used in the simulation; the initial concentrations of 2-MeImpG, [M]o, and of the oligoguanylate primer, [7-mer]o, were varied, and KINSIM calculated the distribution of products as a function of time until equilibration was reached, i.e., when all the activated monomer has been consumed. In order to sort out how strongly the elongation reaction may be affected by the competing hydrolysis and dimerization, we also simulated the idealized situation in which these competing reactions do not occur. Simulation of the idealized system suggests that (1) the fraction of [7-mer]o that has reacted as well as the product distribution after equilibration do not depend on the absolute concentrations of the reactants, but only on their ratio, [M]o/[7-mer]o; (2) the rate of elongation is proportional to [7-mer]o and not to [M]o; and (3) as the [M]o/[7-mer]o ratio increases longer oligomers are formed. The results of the computer simulation with the experimental system, i.e., elongation in the presence of both hydrolysis and dimerization, are similar to the ones obtained with the idealized system as long as dimerization and hydrolysis are not responsible for consuming a substantial fraction of 2-MeImpG. 相似文献
60.
Conservation of water cycle on land via restoration of natural closed-canopy forests: implications for regional landscape planning 总被引:1,自引:0,他引:1
Investigating the role of forests for maintenance of the water cycle on land is critically important in the current situation
of rapid global elimination of the natural vegetation cover. In this paper we contribute to the on-going discussion of the
issue with two aspects. (1) Theoretical consideration of the water cycle on land reveals the importance of correct identification
of independent and dependent terms in the water budget with respect to changing vegetation cover for understanding possible
scenarios of water cycle change under anthropogenic impact. An important controlling influence of the vegetation cover is
imposed on the outgoing fluxes of atmospheric moisture A
−
from land to the ocean, which is maximized in deserts and minimized in forested areas, while the dependencies for runoff
and precipitation are the reverse. (2) Physical mechanisms allowing for efficient water retention and minimization of A
−
in forest ecosystems are investigated. Atmospheric water vapor is in aerostatic equilibrium when the temperature lapse rate
is less than G = 1.9 K km−1 and out of aerostatic equilibrium when G > 1.9 K km−1. In the former case there are no vertical upward fluxes of the evaporated water. It is shown that the temperature profiles
developed under the closed canopies of natural forests keep water vapor in aerostatic equilibrium preventing soil moisture
loss to A
−
, in contrast to the situation in open ecosystems like grasslands. The analyzed evidence allows one to conclude that an intensive
water cycle on land can be restored after recovery of natural, self-sustained closed canopy ecosystems on continent-wide areas. 相似文献