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111.
K. Karthik Kumar S. Prabu Seenivasan Vanaja Kumar T. Mohan Das 《Carbohydrate research》2011,346(14):2084
A series of quinoline coupled 1,2,3-triazoles compounds have been synthesized by ‘click chemistry’ from azidomethyl quinoline with different alkynes. The efficiency and fidelity of the Cu(I)-catalyzed azide–alkyne reaction are substantiated by good yields and exclusive formation of the expected 1,4-disubstituted triazole product. All the synthesized compounds were screened for anti-tubercular activity against Mycobacterium tuberculosis H37Rv by luciferase reporter phage (LRP) assay. Quinoline coupled triazole sugar hybrid, 20 is the most potent compound in the series with 76.41% and 78.37% reduction calculated based on percentage reduction in Relative Light Units at 5 and 25 μg/mL, respectively. 相似文献
112.
Li Min Shi Donglin Li Yanxiu Xiao Yuyi Chen Mianmian Chen Liang Du Hong Zhang Wei 《中国病毒学》2020,35(5):651-661
Virologica Sinica - The increasing emergence of multi-drug resistant Escherichia coli (E. coli) has become a global concern, primarily due to the limitation of antimicrobial treatment options.... 相似文献
113.
Manvar A Bavishi A Radadiya A Patel J Vora V Dodia N Rawal K Shah A 《Bioorganic & medicinal chemistry letters》2011,21(16):4728-4731
Control and prevention of tuberculosis is a major challenge, as one-third of the world’s population is infected with Mycobacterium tuberculosis. The resurgence of tuberculosis and the emergence of multidrug-resistance strains of mycobacteria, necessitate the search for new class of antimycobacterial agents. As a part of investigation of new antitubercular agents in this laboratory, we describe the syntheses of various hydrazides of comarins, quinolones and pyrroles and screening against M. tuberculosis (Mtb) H37Rv by using rifampin as a standard drug. Among the designed molecules, the most prominent compounds 2a-g, 4a and 9a showed >90% GI at MIC <6.25 μg/mL. Finally, these studies suggests that compounds 2a-g, 4a and 9a may serve as promising lead scaffolds for further generation of new anti-TB agents. 相似文献
114.
The characterization of microsecond dynamics in the folding of multisubdomain proteins has been a major challenge in understanding their often complex folding mechanisms. Using a continuous-flow mixing device coupled with fluorescence lifetime detection, we report the microsecond folding dynamics of dihydrofolate reductase (DHFR), a two-subdomain α/β/α sandwich protein known to begin folding in this time range. The global dimensions of early intermediates were monitored by Förster resonance energy transfer, and the dynamic properties of the local Trp environments were monitored by fluorescence lifetime detection. We found that substantial collapse occurs in both the locally connected adenosine binding subdomain and the discontinuous loop subdomain within 35 μs of initiation of folding from the urea unfolded state. During the fastest observable ∼ 550 μs phase, the discontinuous loop subdomain further contracts, concomitant with the burial of Trp residue(s), as both subdomains achieve a similar degree of compactness. Taken together with previous studies in the millisecond time range, a hierarchical assembly of DHFR—in which each subdomain independently folds, subsequently docks, and then anneals into the native conformation after an initial heterogeneous global collapse—emerges. The progressive acquisition of structure, beginning with a continuously connected subdomain and spreading to distal regions, shows that chain entropy is a significant organizing principle in the folding of multisubdomain proteins and single-domain proteins. Subdomain folding also provides a rationale for the complex kinetics often observed. 相似文献
115.
How stabilising non-native interactions influence protein folding energy landscapes is currently not well understood: such interactions could speed folding by reducing the conformational search to the native state, or could slow folding by increasing ruggedness. Here, we examine the influence of non-native interactions in the folding process of the bacterial immunity protein Im9, by exploiting our ability to manipulate the stability of the intermediate and rate-limiting transition state (TS) in the folding of this protein by minor alteration of its sequence or changes in solvent conditions. By analysing the properties of these species using Phi-value analysis, and exploration of the structural properties of the TS ensemble using molecular dynamics simulations, we demonstrate the importance of non-native interactions in immunity protein folding and demonstrate that the rate-limiting step involves partial reorganisation of these interactions as the TS ensemble is traversed. Moreover, we show that increasing the contribution to stability made by non-native interactions results in an increase in Phi-values of the TS ensemble without altering its structural properties or solvent-accessible surface area. The data suggest that the immunity proteins fold on multiple, but closely related, micropathways, resulting in a heterogeneous TS ensemble that responds subtly to mutation or changes in the solvent conditions. Thus, altering the relative strength of native and non-native interactions influences the search to the native state by restricting the pathways through the folding energy landscape. 相似文献
116.
pK(a) values for side-chain carboxyl groups of a PGB1 variant explain salt and pH-dependent stability 下载免费PDF全文
Determination of pK(a) values of titrating residues in proteins provides a direct means of studying electrostatic coupling as well as pH-dependent stability. The B1 domain of protein G provides an excellent model system for such investigations. In this work, we analyze the observed pK(a) values of all carboxyl groups in a variant of PGB1 (T2Q, N8D, N37D) at low and high ionic strength as determined using (1)H-(13)C heteronuclear NMR in a structural context. The pK(a) values are used to calculate the pH-dependent stability in low and high salt and to investigate electrostatic coupling in the system. The observed pK(a) values can explain the pH dependence of protein stability but require pK(a) shifts relative to model values in the unfolded state, consistent with persistent residual structure in the denatured state. In particular, we find that most of the deviations from the expected random coil values can be explained by a significantly upshifted pK(a) value. We show also that (13)C backbone carbonyl data can be used to study electrostatic coupling in proteins and provide specific information on hydrogen bonding and electrostatic potential at nontitrating sites. 相似文献
117.
118.
Mitochondrial quality control is an essential process required to maintain cellular homeostasis and functions. Mutations of PINK1 and PRKN/PARK2 contribute to the risk of Parkinson disease. Our recent findings indicate that depletion of Pink1 and Prkn promotes pancreatic tumorigenesis in KRAS-driven engineered mouse models. Mechanistically, PINK1- and PRKN-mediated autophagic degradation of mitochondrial iron importers (e.g., SLC25A37 and SLC25A28) suppresses pancreatic tumor growth by attenuating mitochondrial iron accumulation, inflammasome activation, HMGB1 release, and subsequent immune checkpoint expression. Consequently, pharmacological or genetic inhibition of mitochondrial iron-dependent signals prolongs animal survival and reverses pancreatic tumor phenotype in vivo. Thus, PINK1- and PRKN-mediated immunometabolism provides new insights into the tumor microenvironment and could be a suitable target for new pancreatic cancer treatments. 相似文献
119.
CASPR2 forms a complex with GPR37 via MUPP1 but not with GPR37(R558Q), an autism spectrum disorder‐related mutation 下载免费PDF全文
Yuko Tanabe Eriko Fujita‐Jimbo Mariko Y. Momoi Takashi Momoi 《Journal of neurochemistry》2015,134(4):783-793
Autism spectrum disorder (ASD) is a developmental brain disorder. Mutations in synaptic components including synaptic adhesion molecules have been found in ASD patients. Contactin‐associated protein‐like 2 (CASPR2) is one of the synaptic adhesion molecules associated with ASD. CASPR2 forms a complex with receptors via interaction with multiple PDZ domain protein 1 (MUPP1). Little is known about the relationship between impaired CASPR2‐MUPP1‐receptor complex and the pathogenesis of ASD. GPR37 is a receptor for survival factors. We recently identified mutations including R558Q in the G‐protein‐coupled receptor 37 (GPR37) gene in ASD patients. The mutated GPR37s accumulate in the endoplasmic reticulum. In this study, we show that GPR37 is a component of the CASPR2‐MUPP1 receptor complex in the mouse brain. CASPR2 and GPR37 mainly interacted with the PDZ3 and PDZ11 domains of MUPP1, respectively. Compared to GPR37, GPR37(R558Q) slightly interacted with MUPP1 and caused dendritic alteration. GPR37, but not GPR37(R558Q) nor GPR37‐deltaC which lacks its PDZ binding domain, was transported to the cell surface by MUPP1. In primary hippocampal neurons, GPR37 co‐localized with MUPP1 and CASPR2 at the synapse, but not GPR37(R558Q). Thus, ASD‐related mutation of GPR37 may cause the impaired CASPR2‐MUPP1‐GPR37 complex on the dendrites associated with one of the pathogenesis of ASD.
120.