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691.
To determine how much information can be transferred from folding and unfolding studies of one protein to another member of the same family or between the mesophilic and thermophilic homologues of a protein, we have characterized the equilibrium unfolding process of the dimeric enzyme serine hydroxymethyltransferase (SHMT) from two sources, Bacillus subtilis (bsSHMT) and Bacillus stearothermophilus (bstSHMT). Although the sequences of the two enzymes are highly identical ( approximately 77%) and homologous (89%), bstSHMT shows a significantly higher stability against both thermal and urea denaturation than bsSHMT. The GdmCl-induced unfolding of bsSHMT was found to be a two-step process with dissociation of the native dimer, resulting in stabilization of a monomeric species, followed by the unfolding of the monomeric species. A similar unfolding pathway has been reported for Escherichia coli aspartate aminotransferase, a member of the type I fold family of PLP binding enzymes such as SHMT, the sequence of which is only slightly identical ( approximately 14%) with that of SHMT. In contrast, for bstSHMT, a highly cooperative unfolding without stabilization of any monomeric intermediate was observed. These studies suggest that mesophilic proteins of the same structural family even sharing a low level of sequence identity may follow a common unfolding mechanism, whereas the mesophilic and thermophilic homologues of the same protein despite having a high degree of sequence identity may follow significantly different unfolding mechanisms. 相似文献
692.
Olga Bocharova Narayan P. Pandit Kara Molesworth Aidan Fisher Olga Mychko Natallia Makarava Ilia V. Baskakov 《The Journal of biological chemistry》2021,297(1)
Alzheimer’s disease (AD) is a devastating fatal neurodegenerative disease. An alternative to the amyloid cascade hypothesis is that a viral infection is key to the etiology of late-onset AD, with β-amyloid (Aβ) peptides playing a protective role. In the current study, young 5XFAD mice that overexpress mutant human amyloid precursor protein with the Swedish, Florida, and London familial AD mutations were infected with one of two strains of herpes simplex virus 1 (HSV-1), 17syn+ and McKrae, at three different doses. Contrary to previous work, 5XFAD genotype failed to protect mice against HSV-1 infection. The region- and cell-specific tropisms of HSV-1 were not affected by the 5XFAD genotype, indicating that host–pathogen interactions were not altered. Seven- to ten-month-old 5XFAD animals in which extracellular Aβ aggregates were abundant showed slightly better survival rate relative to their wild-type (WT) littermates, although the difference was not statistically significant. In these 5XFAD mice, HSV-1 replication centers were partially excluded from the brain areas with high densities of Aβ aggregates. Aβ aggregates were free of HSV-1 viral particles, and the limited viral invasion to areas with a high density of Aβ aggregates was attributed to phagocytic activity of reactive microglia. In the oldest mice (12–15 months old), the survival rate did not differ between 5XFAD and WT littermates. While the current study questions the antiviral role of Aβ, it neither supports nor refutes the viral etiology hypothesis of late-onset AD. 相似文献
693.
Amartya Chakrabarti Jun Lu Lauren M. Kuta Zhili Xiao Narayan S. Hosmane 《Inorganica chimica acta》2011,374(1):627-631
Nanocrystalline tin(IV) sulfide (SnS2) with diverse morphologies were controllably synthesized using organic additives, such as cetyltrimethylammonium bromide (C16TAB), sodium dodecyl sulfate (SDS), p-benzenedicarboxylic acid in ethanol solution under mild reaction conditions. By adjusting the type and concentration of the organic additives, different nanostructured SnS2 were prepared including flower-like, fiber-, layer-rolled and sheet-like forms. Some other factors on the morphology, size and crystallization of the prepared SnS2 nanostructures were also investigated, including reaction time and temperature. Various techniques were applied to characterize the prepared SnS2 nanostructures including X-ray diffraction, Transmission Electron Microscopy and UV-Vis spectroscopy. The trace water or hydration water of SnCl4·5H2O brings no impurities in ethanol solution despite tin(IV) ions are easy to hydrolyze, and the pure-phase SnS2 can be synthesized successfully. Thermogravimetric analysis (TGA) shows that the amount of the passivated additive C16TAB molecule within SnS2 is about 6.4 wt.% when the initial molar ratio of C16TAB to Sn4+ is 1:1. This method avoids hydrolyzing and expands the application range of tin salts containing hydration water in synthesizing pure-phase nanocrystalline tin(IV) sulfide. 相似文献
694.
Narayan Ankita Hunkele Amanda Xu Jin Bassoni Daniel L. Pasternak Gavril W. Pan Ying-Xian 《Cellular and molecular neurobiology》2021,41(5):1059-1074
Cellular and Molecular Neurobiology - The biased signaling has been extensively studied in the original mu opioid receptor (MOR-1), particularly through G protein and β-arrestin2 signaling... 相似文献
695.
696.
NADP-Glutamate dehydrogenase from Aspergillus niger (AnGDH) exhibits sigmoid 2-oxoglutarate saturation. Incubation with 2-hydroxyethyl disulfide (2-HED, the disulfide of 2-mercaptoethanol) resulted in preferential attenuation of AnGDH reductive amination (forward) activity but with a negligible effect on oxidative deamination (reverse) activity, when monitored in the described standard assay. Such a disulfide modified AnGDH displaying less than 1.0% forward reaction rate could be isolated after 2-HED treatment. This unique forward inhibited GDH form (FIGDH), resembling a hypothetical ‘one-way’ active enzyme, was characterized. Kinetics of 2-HED mediated inhibition and protein thiol titrations suggested that a single thiol group is modified in FIGDH. Two site-directed cysteine mutants, C141S and C415S, were constructed to identify the relevant thiol in FIGDH. The forward activity of C141S alone was insensitive to 2-HED, implicating Cys141 in FIGDH formation. It was observed that FIGDH displayed maximal reaction rate only after a pre-incubation with 2-oxoglutarate and NADPH. In addition, compared to the native enzyme, FIGDH showed a four fold increase in K0.5 for 2-oxoglutarate and a two fold increase in the Michaelis constants for ammonium and NADPH. With no change in the GDH reaction equilibrium constant, the FIGDH catalyzed rate of approach to equilibrium from reductive amination side was sluggish. Altered kinetic properties of FIGDH at least partly account for the observed apparent loss of forward activity when monitored under defined assay conditions. In sum, although Cys141 is catalytically not essential, its covalent modification provides a striking example of converting the biosynthetic AnGDH into a catabolic enzyme. 相似文献
697.
Protein-protein interactions forming dominant signalling events are providing ever-growing platforms for the development of novel Biologic tools for controlling cell growth. Casein Kinase 1 α (CK1α) forms a genetic and physical interaction with the murine double minute chromosome 2 (MDM2) oncoprotein resulting in degradation of the p53 tumour suppressor. Pharmacological inhibition of CK1 increases p53 protein level and induces cell death, whilst small interfering RNA-mediated depletion of CK1α stabilizes p53 and induces growth arrest. We mapped the dominant protein-protein interface that stabilizes the MDM2 and CK1α complex in order to determine whether a peptide derived from the core CK1α-MDM2 interface form novel Biologics that can be used to probe the contribution of the CK1-MDM2 protein-protein interaction to p53 activation and cell viability. Overlapping peptides derived from CK1α were screened for dominant MDM2 binding sites using (i) ELISA with recombinant MDM2; (ii) cell lysate pull-down towards endogenous MDM2; (iii) MDM2-CK1α complex-based competition ELISA; and (iv) MDM2-mediated ubiquitination. One dominant peptide, peptide 35 was bioactive in all four assays and its transfection induced cell death/growth arrest in a p53-independent manner. Ectopic expression of flag-tagged peptide 35 induced a novel ubiquitin and NEDD8 modification of CK1α, providing one of the first examples whereby NEDDylation of a protein kinase can be induced. These data identify an MDM2 binding motif in CK1α which when isolated as a small peptide can (i) function as a dominant negative inhibitor of the CK1α-MDM2 interface, (ii) be used as a tool to study NEDDylation of CK1α, and (iii) reduce cell growth. Further, this approach provides a technological blueprint, complementing siRNA and chemical biology approaches, by exploiting protein-protein interactions in order to develop Biologics to manipulate novel types of signalling pathways such as cross-talk between NEDDylation, protein kinase signalling, and cell survival. 相似文献
698.
Keratinophilic fungi were isolated from corridor dust of 11 hospitals and soils of 21 public places using a hair baiting technique. A total of 41 species belonging to 24 genera were recovered. Among the dermatophytes and related species, Microsporum gypseum was predominant, followed by Chrysosporium keratinophilum, Trichophyton mentagrophytes, M. nanum and Ch. tropicum. Other species were represented by 32 species belonging to 21 genera. Most of the species isolated are known to be agents of human and animal infection or have been isolated from human and animal lesions. The fungi observed here are discussed in relation to their global distribution. 相似文献
699.
700.
Christine J. Ye Joshua B. Stevens Guo Liu Steven W. Bremer Aruna S. Jaiswal Karen J. Ye Ming‐Fong Lin Lesley Lawrenson Wayne D. Lancaster Markku Kurkinen Joshua D. Liao C. Gary Gairola Malathy P.V. Shekhar Satya Narayan Fred R. Miller Henry H.Q. Heng 《Journal of cellular physiology》2009,219(2):288-300
Cancer progression represents an evolutionary process where overall genome level changes reflect system instability and serve as a driving force for evolving new systems. To illustrate this principle it must be demonstrated that karyotypic heterogeneity (population diversity) directly contributes to tumorigenicity. Five well characterized in vitro tumor progression models representing various types of cancers were selected for such an analysis. The tumorigenicity of each model has been linked to different molecular pathways, and there is no common molecular mechanism shared among them. According to our hypothesis that genome level heterogeneity is a key to cancer evolution, we expect to reveal that the common link of tumorigenicity between these diverse models is elevated genome diversity. Spectral karyotyping (SKY) was used to compare the degree of karyotypic heterogeneity displayed in various sublines of these five models. The cell population diversity was determined by scoring type and frequencies of clonal and non‐clonal chromosome aberrations (CCAs and NCCAs). The tumorigenicity of these models has been separately analyzed. As expected, the highest level of NCCAs was detected coupled with the strongest tumorigenicity among all models analyzed. The karyotypic heterogeneity of both benign hyperplastic lesions and premalignant dysplastic tissues were further analyzed to support this conclusion. This common link between elevated NCCAs and increased tumorigenicity suggests an evolutionary causative relationship between system instability, population diversity, and cancer evolution. This study reconciles the difference between evolutionary and molecular mechanisms of cancer and suggests that NCCAs can serve as a biomarker to monitor the probability of cancer progression. J. Cell. Physiol. 219: 288–300, 2009. © 2008 Wiley‐Liss, Inc. 相似文献