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91.
Justo GZ Camargo FA Haun M Faljoni-Alário A Durán N 《Physiological chemistry and physics and medical NMR》2000,32(2):145-154
Xanthine oxidase (XO) has been investigated for its decreased activity in several cancerous tissues and constitutive generation of reactive oxygen species (ROS) in vivo seems to contribute significantly to its inactivation. Singlet oxygen (1O2) production has been suggested to be relevant when considering folic acid metabolism by cancer cells. Thus, the susceptibility of XO to inactivation by 1O2 generated either by the bioenergized systems folic acid/peroxidase/GSH/Mn2+/O2 and malonaldehyde/peroxidase/Mn2+/O2 or by methylene blue (MB) or eosin-sensitized photooxygenation was studied. Our results showed that other ROS were also responsible for XO inactivation when MB was used. In contrast, eosin produced almost exclusively 1O2. Kinetic studies of XO oxidation in the malonaldehyde/peroxidase system showed that histidine (His) is a competitive inhibitor with respect to XO. A similar result was observed in the eosin-photosensitized process, suggesting the involvement of 1O2 in both processes. In addition, an efficient quenching of XO oxidation by guanosine in the folic acid/peroxidase system was observed. Amino acid analysis revealed that cysteine (Cys) is more affected than other XO amino acids also prone to oxidation such as tyrosine (Tyr), methionine (Met) and His. These results indicate that 1O2 may cause oxidative damage to the Cys residues of XO, with loss of enzyme activity. Alteration of the flavin prosthetic site is hypothesized. 相似文献
92.
Human societies are built on collaborative activities. Already from early childhood, human children are skillful and proficient collaborators. They recognize when they need help in solving a problem and actively recruit collaborators [1, 2]. The societies of other primates are also to some degree cooperative. Chimpanzees, for example, engage in a variety of cooperative activities such as border patrols, group hunting, and intra- and intergroup coalitionary behavior [3-5]. Recent studies have shown that chimpanzees possess many of the cognitive prerequisites necessary for human-like collaboration. Chimpanzees have been shown to recognize when they need help in solving a problem and to actively recruit good over bad collaborators [6, 7]. However, cognitive abilities might not be all that differs between chimpanzees and humans when it comes to cooperation. Another factor might be the motivation to engage in a cooperative activity. Here, we hypothesized that a key difference between human and chimpanzee collaboration-and so potentially a key mechanism in the evolution of human cooperation-is a simple preference for collaborating (versus acting alone) to obtain food. Our results supported this hypothesis, finding that whereas children strongly prefer to work together with another to obtain food, chimpanzees show no such preference. 相似文献
93.
Cloning, bacterial expression, purification, and characterization of the cytoplasmic domain of rat LAR, a receptor-like protein tyrosine phosphatase 总被引:11,自引:0,他引:11
D A Pot T A Woodford E Remboutsika R S Haun J E Dixon 《The Journal of biological chemistry》1991,266(29):19688-19696
This report describes the cloning and characterization of rat leukocyte common antigen-related protein (rLAR), a receptor-like protein tyrosine phosphatase (PTPase). The recombinant cytoplasmic PTPase domain was expressed at high levels in bacteria and purified to homogeneity. Kinetic properties of the PTPase were examined along with potential modulators of PTPase activity. Several sulfhydryl-directed reagents were effective inhibitors, and a surprising distinction between iodoacetate and iodoacetamide was observed. The latter compound was an extremely poor inhibitor when compared to iodoacetate, suggesting that iodoacetate may interact selectively with a positive charge at or near the active site of the enzyme. Site-directed mutants were made at 4 highly conserved cysteine residues found at positions 1434, 1522, 1723, and 1813 within the protein. The Cys-1522/Ser mutation resulted in a 99% loss of enzymatic activity of the pure protein. This observation is consistent with greater than 99% of the PTPase activity being found in the first domain of the PTPase and demonstrates the critical importance of this cysteine residue in catalysis. The recombinant C1522S mutant phosphatase could also be phosphorylated in vitro by protein kinase C and p43v-abl tyrosine kinase. When pure recombinant PTPase was mixed with 32P-labeled tyrosine substrate and then rapidly denatured, a 32P-labeled enzyme intermediate could be trapped and visualized by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. The catalytically inactive C1522S mutant did not form the phosphoenzyme intermediate. 相似文献
94.
SV40 large T antigen has been reported to be modified with several
different sugars including N-acetylglucosamine, galactose, and mannose. In
this report we have reexamined the glycosylation of T antigen and found
that while we could detect modification with N-acetylglucosamine, we could
not detect any other sugars on the protein. Surprisingly, even though
[3H]galactose could be metabolically incorporated into the protein,
analysis showed that all of the radioactivity in T antigen had been
converted to other species. The N-acetylglucosamine was demonstrated to be
linked to the protein in the form of O-linked N- acetylglucosamine, the
best characterized form of nuclear and cytoplasmic glycosylation in
mammalian systems. We have localized the major site of glycosylation to the
amino terminal portion of the molecule. Analysis of mutated T antigen where
serines 111/112 were substituted with alanine suggest that these residues
constitute a glycosylation site on the protein. These two serines fall
within a typical O-linked N-acetylglucosamine glycosylation site (PSS) and
are also known to be phosphorylated. Thus, it is likely that competition
between phosphorylation and glycosylation occurs at this site.
相似文献
95.
96.
A biomechanical musculo-skeletal model of functional electrical stimulation (FES)-induced rat ankle motion was implemented and tested in rat experiments. The muscle model is a new Hill-based model which includes established physiological relations of force-velocity and force-length-frequency. However, the series-elastic component and the activation component of previous Hill-based models are replaced by a new component which accounts for dynamic time delays and recruitment that occur in real muscle force generation during limb movements. The skeletal model includes gravity and dynamic forces that occur in real rat ankle motions. In computer simulations, various FES patterns were applied to the tibialis anterior (TA) and soleus (SO) model muscles to produce walk-like ankle motions. In lab experiments, the same stimulation patterns were applied by epimysial electrodes implanted in the TA and SO muscles of live rats cordotomized at level T7. The resulting rat motions were recorded by video camera. Video data was converted to ankle angle-vs-time files for comparison with corresponding model angle-vs-time files. Over a physiologically significant range of ankle motions, model parameters were adjustable to yield model motions that agreed with rat motions to within 2 degrees (root mean square differences of rat and model ankle angles). This is shown in plots of model and rat motions presented here for representative cases of FES. The accuracy of our model in reproducing real ankle motions supports the hypothesis that our new muscle model generates correct muscle forces over a useful range of limb motions. It suggests that the model may be useful in the design of FES neural prostheses. 相似文献
97.
98.
J. R. Haun 《International journal of biometeorology》1976,20(3):261-266
In order to test growth prediction and yield prediction equations on historical weather data for areas where planting dates were not published, or for areas where dates of planting will not be as readily accessible as weather data, there is a need for a model to predict the date of planting. Such a model was developed by regressing reported percentages of the wheat crop planted on various weather variables and their transformations. The model for predicting percentage of wheat acreage planted in North Dakota was tested on data not used in formulating the coefficients of the model. Although the predictions may have errors of several days the model is considered to be an improvement over a system utilizing a constant year-to-year average planting date.The research was supported by funds supplied by the National Aeronautics and Space Administration under contract No. NAS 9-14006.Presented at the Seventh International Biometeorological Congress, 17–23 August 1975, College Park, Maryland, USA. 相似文献
99.
Background
Modeling of transmembrane domains (TMDs) requires correct prediction of interfacial residues for in-silico modeling and membrane insertion studies. This implies the defining of a target sequence long enough to contain interfacial residues. However, too long sequences induce artifactual polymorphism: within tested modeling methods, the longer the target sequence, the more variable the secondary structure, as though the procedure were stopped before the end of the calculation (which may in fact be unreachable). Moreover, delimitation of these TMDs can produce variable results with sequence based two-dimensional prediction methods, especially for sequences showing polymorphism. To solve this problem, we developed a new modeling procedure using the PepLook method. We scanned the sequences by modeling peptides from the target sequence with a window of 19 residues.Results
Using sequences whose NMR-structures are already known (GpA, EphA1 and Erb2-HER2), we first determined that the hydrophobic to hydrophilic accessible surface area ratio (ASAr) was the best criterion for delimiting the TMD sequence. The length of the helical structure and the Impala method further supported the determination of the TMD limits. This method was applied to the IL-2Rβ and IL-2Rγ TMD sequences of Homo sapiens, Rattus norvegicus, Mus musculus and Bos taurus.Conclusions
We succeeded in reducing the variation in the TMD limits to only 2 residues and in gaining structural information. 相似文献100.
Walter RB; Rolig RL; Kozak KA; McEntire B; Morizot DC; Nairn RS 《Molecular biology and evolution》1993,10(6):1227-1238
Fishes represent the stem vertebrate condition and have maintained several
gene arrangements common to mammalian genomes throughout the 450 Myr of
divergence from a common ancestor. One such syntenic arrangement includes
the GPI-PEPD enzyme association on Xiphophorus linkage group IV and human
chromosome 19. Previously we assigned the Xiphophorus homologue of the
human ERCC2 gene to linkage group U5 in tight association with the CKM
locus. CKM is also tightly linked to the ERCC2 locus on human chromosome
19, leading to speculation that human chromosome 19 may have arisen by
fusion of two ancestral linkage groups which have been maintained in
fishes. To investigate this hypothesis further, we isolated and sequenced
Xiphophorus fish genomic regions exhibiting considerable sequence
similarity to the human DNA ligase 1 amino acid sequence. Comparison of the
fish DNA ligase sequence with those of other species suggests several modes
of amino acid conservation in this gene. A 2.2-kb restriction fragment
containing part of an X. maculatus DNA ligase 1 exon was used in backcross
hybrid mapping with 12 enzyme or RFLP loci. Significant linkage was
observed between the nucleoside phosphorylase (NP2) and the DNA ligase
(LIG1) loci on Xiphophorus linkage group VI. This assignment suggests that
the association of four DNA repair-related genes on human chromosome 19 may
be the result of chance chromosomal rearrangements.
相似文献