24 results on '"Liu, Maili"'
Search Results
2. An auxiliary binding interface of SHIP2-SH2 for Y292-phosphorylated FcγRIIB reveals diverse recognition mechanisms for tyrosine-phosphorylated receptors involved in different cell signaling pathways
- Author
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Wang, Zi, Zhou, Heng, Yue, Xiali, Zhu, Jiang, Yang, Yunhuang, and Liu, Maili
- Published
- 2022
- Full Text
- View/download PDF
3. Enhancing protein dynamics analysis with hydrophilic polyethylene glycol cross-linkers.
- Author
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Sun, Min, Chen, Jing, Zhao, Chang, Zhang, Lihua, Liu, Maili, Zhang, Yukui, Zhao, Qun, and Gong, Zhou
- Subjects
POLYETHYLENE glycol ,PROTEIN analysis ,MASS spectrometry ,MITOGEN-activated protein kinase phosphatases ,NUCLEAR magnetic resonance ,THERMODYNAMICS ,CALMODULIN - Abstract
Cross-linkers play a critical role in capturing protein dynamics in chemical cross-linking mass spectrometry techniques. Various types of cross-linkers with different backbone features are widely used in the study of proteins. However, it is still not clear how the cross-linkers' backbone affect their own structure and their interactions with proteins. In this study, we systematically characterized and compared methylene backbone and polyethylene glycol (PEG) backbone cross-linkers in terms of capturing protein structure and dynamics. The results indicate the cross-linker with PEG backbone have a better ability to capture the inter-domain dynamics of calmodulin, adenylate kinase, maltodextrin binding protein and dual-specificity protein phosphatase. We further conducted quantum chemical calculations and all-atom molecular dynamics simulations to analyze thermodynamic and kinetic properties of PEG backbone and methylene backbone cross-linkers. Solution nuclear magnetic resonance was employed to validate the interaction interface between proteins and cross-linkers. Our findings suggest that the polarity distribution of PEG backbone enhances the accessibility of the cross-linker to the protein surface, facilitating the capture of sites located in dynamic regions. By comprehensively benchmarking with disuccinimidyl suberate (DSS)/bis-sulfosuccinimidyl-suberate(BS3), bis-succinimidyl-(PEG)
2 revealed superior advantages in protein dynamic conformation analysis in vitro and in vivo , enabling the capture of a greater number of cross-linking sites and better modeling of protein dynamics. Furthermore, our study provides valuable guidance for the development and application of PEG backbone cross-linkers. [ABSTRACT FROM AUTHOR]- Published
- 2024
- Full Text
- View/download PDF
4. Chemical shift assignments of the catalytic and ATP-binding domain of HK853 from Thermotoga maritime
- Author
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Zhou, Yuan, Liu, Xinghong, Li, Conggang, Liu, Maili, Jiang, Ling, and Liu, Yixiang
- Published
- 2019
- Full Text
- View/download PDF
5. Backbone resonance assignment of the response regulator protein PhoBNF20D from Escherichia coli
- Author
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Kou, Xinhui, Liu, Xinghong, Liu, Yixiang, Li, Conggang, Liu, Maili, and Jiang, Ling
- Published
- 2018
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- View/download PDF
6. Quantification of size effect on protein rotational mobility in cells by 19F NMR spectroscopy
- Author
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Ye, Yansheng, Wu, Qiong, Zheng, Wenwen, Jiang, Bin, Pielak, Gary J., Liu, Maili, and Li, Conggang
- Published
- 2017
- Full Text
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7. Structural Insights into the Binding Propensity of Human SHIP2 SH2 to Oncogenic CagA Isoforms from Helicobacter pylori.
- Author
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Wang, Zi, Shan, Yubao, Wang, Ru, Zhou, Heng, Hu, Rui, Li, Ying, Zhu, Jiang, Yang, Yunhuang, and Liu, Maili
- Subjects
HELICOBACTER pylori ,PEPTIDES ,NUCLEAR magnetic resonance spectroscopy ,CELL communication ,CELL membranes ,PHOSPHOTYROSINE - Abstract
SHIP2 is a multi-domain inositol 5-phosphatase binding to a variety of phosphotyrosine (pY)-containing proteins through its SH2 domain, so as to regulate various cell signaling pathways by modulating the phosphatidylinositol level in the plasma membrane. Unfavorably, Helicobacter pylori can hijack SHIP2 through the CagA protein to induce gastric cell carcinogenesis. To date, the interaction between SHIP2 and CagA was not analyzed from a structural point of view. Here, the binding of SHIP2-SH2 with Tyr-phosphorylated peptides from four EPIYA motifs (A/B/C/D) in CagA was studied using NMR spectroscopy. The results showed that EPIYA-C and -D bind to a similar interface of SHIP2-SH2, including a pY-binding pocket and a hydrophobic pocket, to achieve high affinity, while EPIYA-A and -B bind to a smaller interface of SHIP2-SH2 with weak affinity. By summarizing the interface and affinity of SHIP2-SH2 for CagA EPIYA-A/B/C/D, c-MET and FcgR2B ITIM, it was proposed that, potentially, SHIP2-SH2 has a selective preference for L > I > V for the aliphatic residues at the pY+3 position in its ligand. This study reveals the rule of the ligand sequence bound by SHIP2-SH2 and the mechanism by which CagA protein hijacks SHIP2, which will help design a peptide inhibitor against SHIP2-SH2. [ABSTRACT FROM AUTHOR]
- Published
- 2022
- Full Text
- View/download PDF
8. Biomolecular ligands screening using radiation damping difference WaterLOGSY spectroscopy
- Author
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Sun, Peng, Jiang, Xianwang, Jiang, Bin, Zhang, Xu, and Liu, Maili
- Published
- 2013
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9. Mechanisms of Chaperones as Active Assistant/Protector for Proteins: Insights from NMR Studies.
- Author
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Hu, Yunfei, Li, Conggang, He, Lichun, Jin, Changwen, and Liu, Maili
- Subjects
MOLECULAR chaperones ,PROTEIN folding ,PROTEINS ,PROTEIN structure ,NUMBER systems - Abstract
Molecular chaperones are diverse families of proteins that play key roles in protein homeostasis. They assist the folding of client proteins or prevent them from irreversible aggregation under stress conditions. Diverse chaperone families contribute to different aspects of protein homeostasis by interacting with a wide range of client proteins. Despite the vital roles of chaperones in cell survival, the molecular mechanisms underlying chaperone functions remain elusive, due to the non‐specificity of chaperone‐client interactions and the intrinsic flexibility of the clients. Our understanding of the chaperone functional mechanisms, especially regarding chaperone‐client interactions, has greatly expanded in recent years, thanks to the significant contribution from various NMR studies. Solution NMR methods have unique advantages in characterizing disordered protein structures, detecting weak and non‐specific interactions, and probing conformational dynamics of proteins and protein complexes, etc., and therefore are especially powerful in the studies of chaperone structure‐function relationships. In this review, we summarize some of the current knowledge of molecular chaperones, with emphasis on common features of chaperone‐client interactions and examples on a number of specific systems in which solution NMR methods were used to provide essential insights into their functional mechanisms. [ABSTRACT FROM AUTHOR]
- Published
- 2020
- Full Text
- View/download PDF
10. Backbone resonance assignment of the response regulator protein PhoBNF20D from <italic>Escherichia coli</italic>.
- Author
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Kou, Xinhui, Liu, Xinghong, Liu, Yixiang, Li, Conggang, Liu, Maili, and Jiang, Ling
- Abstract
PhoB is a response regulator of the PhoR/PhoB two-component signal transduction system that is involved in the regulation of the phosphate (Pho) regulon of
Escherichia coli . PhoB has two domains, receiver domain and effector domain. The receiver domain can be phosphorylated by its cognate histidine kinase PhoR and the phosphorylation induces conformational changes of the full length protein of PhoB that promote the DNA binding and transcription. Three-dimensional crystal structures of PhoB receiver domain (PhoBN ) have been solved underapo or BeF3 − (a phosphoryl analog) binding forms and it has been found that PhoBN is dimerized in both situations. However, we have found that theapo form of PhoBN has multiple conformational changes in solution that is hard to be distinguished by using NMR spectroscopy, while the mutagenesis of F20D PhoBN gives homogeneous dispersed signals in HSQC spectrum indicating a relatively uniform conformation. Meanwhile the F20D mutant has the same phosphorylation activity as the wild type protein. Here we report the backbone assignment of PhoBN F20D mutant. The chemical shift (HN, N, CO, Cα and Cβ ) analysis shows that the predicted regions of secondary structure are in good agreement with those observed in the crystal structure ofapo PhoBN . Therefore, the backbone chemical shifts assignment of PhoBN F20D mutant would be useful for studying the structure and dynamics of PhoB receiver domain and it has significance for explaining the mechanism of phosphorylation in TCSs. [ABSTRACT FROM AUTHOR]- Published
- 2018
- Full Text
- View/download PDF
11. Quantification of size effect on protein rotational mobility in cells by F NMR spectroscopy.
- Author
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Ye, Yansheng, Wu, Qiong, Zheng, Wenwen, Jiang, Bin, Pielak, Gary J., Liu, Maili, and Li, Conggang
- Subjects
CELLS ,ESCHERICHIA coli ,PROTEINS ,FLUORINE ,NUCLEAR magnetic resonance ,GREEN fluorescent protein - Abstract
Protein diffusion in living cells might differ significantly from that measured in vitro. Little is known about the effect of globular protein size on rotational diffusion in cells because each protein has distinct surface properties, which result in different interactions with cellular components. To overcome this problem, the B1 domain of protein G (GB1) and several concatemers of the protein were labeled with 5-fluorotryptophan and studied by F NMR in Escherichia coli cells, Xenopus laevis oocytes, and in aqueous solutions crowded with glycerol, or Ficoll70™ and lysozyme. Relaxation data show that the size dependence of protein rotation in cells is due to weak interactions of the target protein with cellular components, but the effect of these interactions decreases as protein size increases. The results provide valuable information for interpreting protein diffusion data acquired in living cells. [ABSTRACT FROM AUTHOR]
- Published
- 2018
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- View/download PDF
12. Characterization and Comparison of Commercial Chinese Cereal and European Grape Vinegars Using 1H NMR Spectroscopy Combined with Multivariate Analysis.
- Author
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Wang, Xiaohua, Wang, Jie, Kamal, Ghulam Mustafa, Jiang, Bin, Sun, Peng, Zhang, Xu, and Liu, Maili
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BALSAMIC vinegar ,NUCLEAR magnetic resonance spectroscopy ,MULTIVARIATE analysis ,MULTIPLE correspondence analysis (Statistics) ,FRUCTOSE - Abstract
A holistic and comparative quality assessment of vinegars from different countries is needed with international trade of vinegar become frequent. In this study, compounds characterization and comparison of commercial-grade Chinese cereal and European grape vinegars were performed using
1 H NMR spectroscopy coupled with principal component analysis (PCA) and orthogonal projection to latent structures discriminate analysis (OPLS-DA). The results showed that Balsamic vinegars of Modena were clearly discriminated by higher amount of fructose and glucose, while Chinese aromatic vinegar and aged vinegars were characterized by higher amount of amino acids, volatile compounds, succinate and betaine. On the other hand, flavoring compounds in Chinese rice vinegar and European wine vinegars are less than the others. These characteristic components are associated with the special raw materials and producing process of each types of vinegar and endow them special flavor. The results obtained in this study provide a global insight into vinegar through a1 H NMR based compounds analysis that allows a holistic quality assessment and comparison of vinegars from different manufacture origins. [ABSTRACT FROM AUTHOR]- Published
- 2016
- Full Text
- View/download PDF
13. NMR structures of fusion peptide from influenza hemagglutinin H3 subtype and its mutants.
- Author
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Du, Tianpeng, Jiang, Ling, and Liu, Maili
- Abstract
The influenza fusion peptide located at the N-terminus of the hemagglutinin HA2 subunit initiates the fusing process of the viral membrane with the host cell endosomal membrane. It had been reported that the structure of a 20-residue H3 subtype fusion peptide (H3-HAfp20) was significantly different with that of a H1 subtype 23-residue one (H1-HAfp23). The sequential difference between the 12th and 15th residues of H1 and H3 subtypes could not fully explain the conformational variation. The first and last three amino acids of H3-HAfp23 involved in formation of hydrogen bonds may play an important role in fusion process. To confirm this hypothesis, we investigate the structures of H3-HAfp23 peptide and its mutants, G1S and G1V, in dodecylphosphatidyl choline micelles by using heteronuclear NMR technology. The results demonstrate that, similar to H1-HAfp23 but significantly different with H3-HAfp20, H3-HAfp23 also has tight helical hairpin structure with the N- and C-terminuses linked together because of the hydrogen bonds between Gly
1 and the last three amino acids, Trp21 -Tyr22 -Gly23 . Although the 'hemifusion' G1S and lethal G1V mutants have hairpin-like helical structures, the distances between the N- and C-terminuses are increased as shortage of the hydrogen bonds and the larger kink angle between the antiparallel helices. The paramagnetic ion titration experiments show that the terminuses are inserted into the dodecylphosphatidyl choline micelles used as solving media. These may imply that the tight helical hairpin structure, especially the closed conformation at terminus, plays an important role in fusion activity. Copyright © 2014 European Peptide Society and John Wiley & Sons, Ltd. [ABSTRACT FROM AUTHOR]- Published
- 2014
- Full Text
- View/download PDF
14. NMR Reveals the Conformational Changes of Cytochrome C upon Interaction with Cardiolipin.
- Author
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Zhan, Jianhua, Zhang, Guangqing, Chai, Xin, Zhu, Qinjun, Sun, Peng, Jiang, Bin, Zhou, Xin, Zhang, Xu, and Liu, Maili
- Subjects
CARDIOLIPIN ,CYTOCHROME c ,NUCLEAR magnetic resonance spectroscopy ,PEROXIDASE ,HEME ,PROTEINS - Abstract
Conformational change of cytochrome c (cyt c) caused by interaction with cardiolipin (CL) is an important step during apoptosis, but the underlying mechanism is controversial. To comprehensively clarify the structural transformations of cyt c upon interaction with CL and avoid the unpredictable alias that might come from protein labeling or mutations, the conformation of purified yeast iso–1 cyt c with natural isotopic abundance in different contents of CL was measured by using NMR spectroscopy, in which the trimethylated group of the protein was used as a natural probe. The data demonstrate that cyt c has two partially unfolded conformations when interacted with CL: one with Fe–His33 coordination and the other with a penta–coordination heme. The Fe–His33 coordination conformation can be converted into a penta–coordination heme conformation in high content of CL. The structure of cyt c becomes partially unfolded with more exposed heme upon interaction with CL, suggesting that cyt c prefers a high peroxidase activity state in the mitochondria, which, in turn, makes CL easy to be oxidized, and causes the release of cyt c into the cytoplasm as a trigger in apoptosis. [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
- View/download PDF
15. Structural Basis for the Inhibition of the Autophosphorylation Activity of HK853 by Luteolin.
- Author
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Zhou, Yuan, Huang, Liqun, Ji, Shixia, Hou, Shi, Luo, Liang, Li, Conggang, Liu, Maili, Liu, Yixiang, and Jiang, Ling
- Subjects
AUTOPHOSPHORYLATION ,LUTEOLIN ,CELLULAR signal transduction ,HISTIDINE kinases ,NUCLEAR magnetic resonance ,ADENOSINE diphosphate - Abstract
The two-component system (TCS) is a significant signal transduction system for bacteria to adapt to complicated and variable environments, and thus has recently been regarded as a novel target for developing antibacterial agents. The natural product luteolin (Lut) can inhibit the autophosphorylation activity of the typical histidine kinase (HK) HK853 from Thermotoga maritime, but the inhibition mechanism is not known. Herein, we report on the binding mechanism of a typical flavone with HK853 by using solution NMR spectroscopy, isothermal titration calorimetry (ITC), and molecular docking. We show that luteolin inhibits the activity of HK853 by occupying the binding pocket of adenosine diphosphate (ADP) through hydrogen bonds and π-π stacking interaction structurally. Our results reveal a detailed mechanism for the inhibition of flavones and observe the conformational and dynamics changes of HK. These results should provide a feasible approach for antibacterial agent design from the view of the histidine kinases. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
16. Double quantum CRAZED NMR signal in inhomogeneous fields
- Author
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Jiang, Bin, Liu, Huili, Liu, Maili, Ye, Chaohui, and Mao, Xian
- Subjects
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SPECTRUM analysis , *NUCLEAR magnetic resonance , *QUANTUM theory , *THERMODYNAMICS - Abstract
Abstract: It has been well accepted that the double quantum (DQ) correlated-spectroscopy revamped by asymmetric z-gradient echo detection (CRAZED) signal is enveloped in the profile function t 2 exp[−(t 2 +2t 1)/T 2], but this function is too simple to describe the spin echo characteristics of the CRAZED free induction decay signal. In this paper the DQ CRAZED experiment is analyzed by including the homogeneous and inhomogeneous broadening effects, and a formula for the time domain DQ CRAZED signal is obtained. This formula includes the chemical shift echo and the inhomogeneous echo, both appearing at t 2 =2t 1. Experiments have confirmed the theory. [Copyright &y& Elsevier]
- Published
- 2008
- Full Text
- View/download PDF
17. 1H-NMR study of the effect of acetonitrile on the interaction of ibuprofen with human serum albumin
- Author
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Ji, Zhusheng, Yuan, Hanzhen, Liu, Maili, and Hu, Jiming
- Subjects
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IBUPROFEN , *SERUM albumin , *ACETONITRILE , *NUCLEAR magnetic resonance , *DIFFUSION - Abstract
The effect of acetonitrile (ACN) on the low-affinity interaction between human serum albumin (HSA) and ibuprofen (IBP) was studied using 1H-NMR techniques. Both chemical shift and relaxation measurements showed the addition of ACN to the solutions decreased the binding affinity of IBP to HSA and reduced the hydrophobic interaction between them. The self-diffusion coefficients of IBP were measured as a function of the drug concentration at different ACN concentrations. The association constant, Ka, for ligand–HSA complexes and the number of binding sites, n, are evaluated by the application of Langmuir isotherm. The results indicated that the value of n was about 38 without ACN, and about 26 with ACN concentration 12% (v/v%). The decreased binding capacity of IBP to HSA in the presence of ACN was mainly attributed to the competition of ACN with IBP to the low-affinity binding sites of HSA molecule. [Copyright &y& Elsevier]
- Published
- 2002
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18. Combined NMR and MS-based metabonomics and real-time PCR analyses reveal dynamic metabolic changes of Ganoderma lucidum during fruiting body growing.
- Author
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Liu, Caixiang, Chen, Fangfang, Fan, Xinyu, Liu, Biao, Chai, Xin, He, Sipei, Huang, Tao, Wang, Xiaohua, Liu, Laixing, Liu, Huili, Zeng, Danyun, Jiang, Bin, Zhang, Xu, and Liu, Maili
- Subjects
- *
GANODERMA lucidum , *FRUITING bodies (Fungi) , *FRUIT growing , *BUD development , *NUCLEAR magnetic resonance - Abstract
[Display omitted] • Over 40 metabolites were detected in G. lucidum extracts. Notably, we identified previously unreported metabolites. • Most metabolite contents increased rapidly from period I to II. Following this, they decreased until reaching period VII. • The optimal time to harvest G. lucidum is during period IV. • Cytochrome P450 genes GlCYP1 , GlCYP3 , GlCYP5 , GlCYP6 and GlCYP13 may have critical roles in the biosynthesis of GAs. Ganoderma lucidum (G. lucidum) is a rare medicinal fungus with various beneficial properties. One of its main components, ganoderic acids (GAs), are important triterpenoids known for their sedative and analgesic, hepatoprotective, and anti-tumor activities. Understanding the growth and development of the G. lucidum fruiting body is crucial for determining the optimal time to harvest them. In this study, we used nuclear magnetic resonance (NMR) spectroscopy to systematically characterize the metabolites of G. lucidum at seven distinct developmental stages. We also measured the contents of seven kinds of GAs using LC-MS/MS. A total of 49 metabolites were detected in G. lucidum , including amino acids, sugars, organic acids and GAs. During the transition from the bud development period (I) to the budding period (II), we observed a rapid accumulation of glucose, tyrosine, nicotinamide ribotide, inosine and GAs. After the budding period, the contents of most metabolites decreased until the mature period (VII). In addition, the contents of GAs showed an initial raising, followed by a decline during the elongation period, except for GAF, which exhibited a rapid raise during the mature stage. We also detected the expression of several genes involved in GA synthesis, finding that most genes including 16 cytochrome P450 monooxygenase were all down-regulated during periods IV and VII compared to period I. These findings provide valuable insights into the dynamic metabolic profiles of G. lucidum throughout its growth stage, and it is recommended to harvest G. lucidum at period IV. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
19. Mutation of leucine 20 causes a change of local conformation indirectly impairing the DNA binding of SP_0782 from Streptococcus pneumoniae.
- Author
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Gong, Yixuan, Li, Shuangli, Li, Ying, Zhu, Jiang, Yang, Yunhuang, and Liu, Maili
- Subjects
- *
STREPTOCOCCUS pneumoniae , *LEUCINE , *DNA-binding proteins , *DNA , *SINGLE-stranded DNA , *CIRCULAR dichroism - Abstract
SP_0782 from Streptococcus pneumoniae is a dimeric PC4-like protein binding single-stranded DNA (ssDNA), and is potentially involved in maintenance of genome stability and natural transformation. SP_0782 binds with different lengths of ssDNA in various patterns through accommodating nucleotides differently in its two DNA-binding regions (DBRs). Here, we report the characterization of a novel site, leucine 20 (L20), which is not located in the DBRs but impairs the DNA binding when mutated to alanine (L20A). The L20A mutation markedly reduced the DNA-binding affinity of SP_0782 for ssDNA dT19G1, and affected the formation of high-order SP_0782:dT19G1 complexes. The side chain of L20 shows interactions with several residues at the backside of the DBRs in apo SP_0782 structure, and the L20A mutation led to a change of circular dichroism (CD) spectrum and broad chemical shift perturbations (CSPs) in NMR spectrum compared with the wild type. The most affected residues in NMR spectrum included F39 and R49 located in DBR2, as well as K60 in DBR1, which was suggested to be important for cooperative binding of ssDNA by the two subunits in SP_0782 dimer. Thus, the L20A mutation caused a local conformational change of SP_0782, which exerted an indirect effect on the DNA-binding interface and therefore impaired the affinity for ssDNA dT19G1. Interestingly, this L20 site is conserved in bacterial but not eukaryotic PC4-like proteins, suggesting an evolutionary divergence. This study provides an insight into the structure-function relationship of SP_0782, and an amino-acid site probably targeted for inhibiting bacteria selectively. • L20A mutation markedly impairs the binding affinity of SP_0782 for dT19G1. • L20A mutation changes the local conformation of SP_0782. • L20A mutation exerts an indirect effect on the DNA-binding interface of SP_0782. • The L20 site is conserved in bacterial but not eukaryotic PC4-like proteins. [ABSTRACT FROM AUTHOR]
- Published
- 2020
- Full Text
- View/download PDF
20. Combination of peak-picking and binning for NMR-based untargeted metabonomics study.
- Author
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Chai, Xin, Liu, Caixiang, Fan, Xinyu, Huang, Tao, Zhang, Xu, Jiang, Bin, and Liu, Maili
- Subjects
- *
MULTIVARIATE analysis , *LATENT structure analysis , *PRINCIPAL components analysis , *ORTHOGRAPHIC projection , *GANODERMA lucidum , *BIN packing problem - Abstract
[Display omitted] • The method is the combination of peak-picking and binning for NMR based untargeted metabonomics studies. • The method takes peak top as bin center. • The method improves the following PCA and OPLS-DA analysis. In NMR-based untargeted metabolomic studies, 1H NMR spectra are usually divided into equal bins/buckets to diminish the effects of peak shift caused by sample status or instrument instability, and to reduce the number of variables used as input for the multivariate statistical analysis. It was noticed that the peaks near bin boundaries may cause significant changes in integral values of adjacent bins, and the weaker peak may be obscured if it is allocated in the same bin with intense peaks. Several efforts have been taken to improve the performance of binning. Here we propose an alternative method, named P-Bin, based on the combination of the classic peak-picking and binning procedures. The location of each peak defined by peak-picking is used as the center of the individual bin. P-Bin is expected to keep all spectral information associated with the peaks and significantly reduce the data size as the spectral regions without peaks are not considered. In addition, both peak-picking and binning are routine procedures, making P-Bin easy to be implemented. To verify the performance, two sets of experimental data from human plasma and Ganoderma lucidum (G. lucidum) extracts were processed using the conventional binning method and the proposed method, before the principal component analysis (PCA) and the orthogonal projection to latent structures discriminant analysis (OPLS-DA). The results indicate that the proposed method has improved both the clustering performance of PCA score plots and the interpretability of OPLS-DA loading plots, and P-Bin could be an improved version of data preparation for metabonomic study. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
21. Reconstructing diffusion ordered NMR spectroscopy by simultaneous inversion of Laplace transform.
- Author
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Yuan, Bin, Ding, Yiming, Kamal, Ghulam M., Shao, Limin, Zhou, Zhiming, Jiang, Bin, Sun, Peng, Zhang, Xu, and Liu, Maili
- Subjects
- *
NUCLEAR magnetic resonance spectroscopy , *SEMICONDUCTOR diffusion , *LAPLACE transformation , *INTERMOLECULAR interactions , *LOW-rank matrices - Abstract
2D diffusion-ordered NMR spectroscopy (DOSY) has been widely recognized as a powerful tool for analyzing mixtures and probing inter-molecular interactions in situ. But it is difficult to differentiate molecules with similar diffusion coefficients in presence of overlapped spectra. Its performance is susceptible to the number of chemical components, and usually gets worse when the number of components increases. Here, to alleviate the problem, numerical simultaneous inversion of Laplace transform (SILT) of many related variables is proposed for reconstructing DOSY spectrum (SILT-DOSY). The advantage of the proposed method in comparison to other methods is that it is capable of estimating the number of analytes more accurately and deriving corresponding component spectra, which in turn leads to the more reliable identification of the components. [ABSTRACT FROM AUTHOR]
- Published
- 2017
- Full Text
- View/download PDF
22. Metabonomic alterations in hippocampus, temporal and prefrontal cortex with age in rats
- Author
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Zhang, Xianrong, Liu, Huilang, Wu, Junfang, Zhang, Xu, Liu, Maili, and Wang, Yong
- Subjects
- *
METABOLISM , *HIPPOCAMPUS (Brain) , *TEMPORAL lobe , *PREFRONTAL cortex , *ANIMALS , *AGE , *LABORATORY rats , *NUCLEAR magnetic resonance spectroscopy , *LEAST squares - Abstract
Abstract: The metabolic changes in hippocampus, temporal cortex and prefrontal cortex in SD rats along with aging were explored using a metabonomic approach, which based on high resolution “magic angle spinning”1H NMR spectroscopy. The metabolite profiles were analyzed by partial least squares-discriminant analysis, and the results showed that the metabolites of the above three brain regions in old rats were dramatically different from that in the adult and young rats. The old rats showed increased myo-inositol and lactate in all of the three brain regions, and decreased N-acetylaspartate in temporal and frontal cortex, Glutamate–GABA level became imbalance in temporal cortex of old rats. In addition, compared with the adult female rats, male rats had higher levels of N-acetylaspartate, taurine, and creatine in temporal or frontal cortex. The age-related metabolic changes may indicate the early functional alterations of neural cells in these brain regions, especially the temporal cortex. The gender-related metabolic changes suggest the significance of the hormonal regulation in brain metabolism. Our work highlights the potential of metabolic profiling to enhance our understanding of biological mechanisms of brain aging. [Copyright &y& Elsevier]
- Published
- 2009
- Full Text
- View/download PDF
23. Implementation of real-time two-dimensional nuclear magnetic resonance spectroscopy for on-flow high-performance liquid chromatography
- Author
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Zhou, Zhiming, Lan, Wenxian, Zhang, Weinong, Zhang, Xu, Xia, Sheng’an, Zhu, Hang, Ye, Chaohui, and Liu, Maili
- Subjects
- *
MATRICES (Mathematics) , *AMINO acids , *ORGANIC acids , *ACIDS - Abstract
Abstract: Directly coupled HPLC-NMR has become a powerful tool for separation and structural elucidation of unknown compounds. However, there are only a few reports on application of on-flow two-dimensional (2D) NMR in HPLC-NMR. Here we present an alternative method for recording real-time 2D-NMR spectrum (total correlation spectroscopy, TOCSY) on a commercial HPLC-NMR system. The method is based on well-established Hadamard matrix for 2D-NMR frequency encoding. In addition, a modified/improved solvent suppression approach is incorporated. This makes it possible to carry out the experiment with both polar and gradient eluents, the widely used chromatographic conditions. The method is exampled using a synthesized mixture of three amino acids (His, Phe and Try) and a human urine sample. The method demonstrated here may be utilized for high-throughput structural or unknown component identification and fast dynamic study in a variety of applications. [Copyright &y& Elsevier]
- Published
- 2007
- Full Text
- View/download PDF
24. A competitive low-affinity binding model for determining the mutual and specific sites of two ligands on protein
- Author
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Bai, Guoyun, Cui, Yanfang, Yang, Yunhuang, Ye, Chaohui, and Liu, Maili
- Subjects
- *
BINDING sites , *DRUG receptors , *NONSTEROIDAL anti-inflammatory agents , *BLOOD proteins - Abstract
Abstract: A competitive low-affinity binding model was proposed for determining the number of mutual (overlapped) and specific binding sites of two ligands (A, B) on a protein (P). To use the model, one needs to carry out a titration experiment by adding either ligand A or B into a three-component system (A–B–P), and to monitor the spectroscopic parameter changes. Fitting the titration curve to the proposed model, one can get the mutual and specific binding sites of the two ligands on the protein. The model was examined by using human serum albumin (HSA) as a receptor and tolmetin (TOL) and salicylic acid (SAL) as ligands. Proton longitudinal relaxation rates (R 1) were measured on a 500-MHz NMR spectrometer during the titration and used to derive the mutual binding sites. It was found that among the binding sites of 32±4 for SAL and 28±2 for TOL on HSA, there were 17±5 mutual sites for the two ligands. This result indicates that, although HSA has large binding capacities for most ligands, there are still a reasonable amount of the low-affinity binding sites that are structure selective. [Copyright &y& Elsevier]
- Published
- 2005
- Full Text
- View/download PDF
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