Your search keyword '"Mengli Cai"' showing total 8 results

1. Probing transient excited states of the bacterial cell division regulator MinE by relaxation dispersion NMR spectroscopy.

Author

Mengli Cai, Ying Huang, Yang Shen, Min Li, Michiyo Mizuuchi, Ghirlando, Rodolfo, Kiyoshi Mizuuchi, and Clore, G. Marius

Subjects

EXCITED states, NUCLEAR magnetic resonance spectroscopy, CELL division, BACTERIAL cells, STANDING waves

Abstract

Bacterial MinD and MinE form a standing oscillatory wave which positions the cell division inhibitor MinC, that binds MinD, everywhere on the membrane except at the midpoint of the cell, ensuring midcell positioning of the cytokinetic septum. During this process MinE undergoes fold switching as it interacts with different partners. We explore the exchange dynamics between major and excited states of the MinE dimer in 3 forms using 15N relaxation dispersion NMR: the full-length protein (6-stranded β-sheet sandwiched between 4 helices) representing the resting state; a 10-residue N-terminal deletion (Δ10) mimicking the membrane-binding competent state where the N-terminal helix is detached to interact with membrane; and N-terminal deletions of either 30 (Δ30) or 10 residues with an I24N mutation (Δ10/I24N), in which the β1-strands at the dimer interface are extruded and available to bind MinD, leaving behind a 4-stranded β-sheet. Full-length MinE samples 2 "excited" states: The first is similar to a full-length/Δ10 heterodimer; the second, also sampled by Δ10, is either similar to or well along the pathway toward the 4-stranded β-sheet form. Both Δ30 and Δ10/I24N sample 2 excited species: The first may involve destabilization of the β3- and β3'-strands at the dimer interface; changes in the second are more extensive, involving further disruption of secondary structure, possibly representing an ensemble of states on the pathway toward restoration of the resting state. The quantitative information on MinE conformational dynamics involving these excited states is crucial for understanding the oscillation pattern self-organization by MinD-MinE interaction dynamics on the membrane. [ABSTRACT FROM AUTHOR]

Published

2019

2. Structure of the Plasmodium 6-cysteine s48/45 domain.

Author

Arredondo, Silvia A., Mengli Cai, Takayama, Yuki, MacDonald, Nicholas J., Anderson, D. Eric, Aravind, L., Clore, G. Marius, and Miller, Louis H.

Subjects

PLASMODIUM, CYSTEINE, MOLECULAR structure, BLOOD proteins, CELL surface antigens, DISULFIDES

Abstract

The s48/45 domain was first noted in Plasmodium proteins more than 15 y ago. Previously believed to be unique to Plasmodium, the s48/45 domain is present in other aconoidasidans. In Plasmodium, members of the s48/45 family of proteins are localized on the surface of the parasite in different stages, mostly by glycosylphosphatydylinositol-anchoring. Members such as P52 and P36 seem to play a role in invasion of hepatocytes, and Pfs230 and Pfs48/45 are involved in fertilization in the sexual stages and have been consistently studied as targets of transmission-blocking vaccines for years. In this report, we present the molecular structure for the s48/45 domain corresponding to the C-terminal domain of the blood-stage protein Pf 12 from Plasmodium falciparum, obtained by NMR. Our results indicate that this domain is a a-sandwich formed by two sheets with a mixture of parallel and antiparallel strands. Of the six conserved cysteines, two pairs link the 13-sheets by two disulfide bonds, and the third pair forms a bond outside the core. The structure of the s48/45 domain conforms well to the previously defined surface antigen 1 (SAG1)-related-sequence (SRS) fold observed in the SAG family of surface antigens found in Toxoplasma gondii. Despite extreme sequence divergence, remarkable spatial conservation of one of the disulfide bonds is observed, supporting the hypothesis that the domains have evolved from a common ancestor. Furthermore, a homologous domain is present in ephrins, raising the possibility that the precursor of the s48/45 and SRS domains emerged from an ancient transfer to Apicomplexa from metazoan hosts. [ABSTRACT FROM AUTHOR]

Published

2012

3. No Interaction of Barrier-to-Autointegration Factor (BAF) with HIV-1 MA, Cone-Rod Homeobox (Crx) or MAN1-C in Absence of DNA.

Author

Ying Huang, Mengli Cai, Clore, G. Marius, and Craigie, Robert

Subjects

HOMEOBOX genes, HIV, RETROVIRUS diseases, VIRAL genetics, POLYPEPTIDES, DNA-binding proteins, HOMEOBOX proteins

Abstract

Barrier-to-autointegration factor is a cellular protein that protects retroviral DNA from autointegration. Its cellular role is not well understood, but genetic studies show that it is essential and depletion or knockout results in lethal nuclear defects. In addition to binding DNA, BAF interacts with the LEM domain, a domain shared among a family of lamin-associated polypeptides. BAF has also been reported to interact with several other viral and cellular proteins suggesting that these interactions may be functionally relevant. We find that, contrary to previous reports, BAF does not interact with HIV-1 MA, cone-rod homeobox (Crx) or MAN1-C. The reported interactions can be explained by indirect association through DNA binding and are unlikely to be biologically relevant. A mutation that causes a premature aging syndrome lies on the previously reported MAN1-C binding surface of BAF. The absence of direct binding of BAF to MAN1-C eliminates disruption of this interaction as the cause of the premature aging phenotype. [ABSTRACT FROM AUTHOR]

Published

2011

4. Structural Basis of the Association of HIV-1 Matrix Protein with DNA.

Author

Mengli Cai, Ying Huang, Craigie, Robert, and Clore, G. Marius

Subjects

NUCLEIC acids, BIOMOLECULES, ANTISENSE nucleic acids, COMPLEMENTARY DNA, DEOXYRIBOSE, GENES, ANTISENSE DNA, DNA, FOSSIL DNA

Abstract

HIV-1 matrix (MA) is a multifunctional protein that is synthesized as a polyprotein that is cleaved by protease during viral maturation. MA contains a cluster of basic residues whose role is controversial. Proposed functions include membrane anchoring, facilitating viral assembly, and directing nuclear import of the viral DNA. Since MA has been reported to be a component of the preintegration complex (PIC), we have used NMR to probe its interaction with other PIC components. We show that MA interacts with DNA and this is likely sufficient to account for its association with the PIC. [ABSTRACT FROM AUTHOR]

Published

2010

5. Barrier-to-autointegration factor (BAF) condenses DNA by looping.

Author

Skoko, Dunja, Min Li, Ying Huang, Mizuuchi, Michiyo, Mengli Cai, Bradley, Christina M., Pease, Paul J., Botao Xiao, Marko, John F., Craigie, Robert, and Mizuuchi, Kiyoshi

Subjects

DNA, PROTEINS, DISSOCIATION (Chemistry), FLUORESCENCE microscopy, DNA-binding proteins, CONDENSATION

Abstract

Barrier-to-autointegration factor (BAF) is a protein that has been proposed to compact retroviral DNA, making it inaccessible as a target for self-destructive integration into itself (autointegration). BAF also plays an important role in nuclear organization. We studied the mechanism of DNA condensation by BAF using total internal reflection fluorescence microscopy. We found that BAF compacts DNA by a looping mechanism. Dissociation of BAF from DNA occurs with multiphasic kinetics; an initial fast phase is followed by a much slower dissociation phase. The mechanistic basis of the broad timescale of dissociation is discussed. This behavior mimics the dissociation of BAF from retroviral DNA within preintegration complexes as monitored by functional assays. Thus the DNA binding properties of BAF may alone be sufficient to account for its association with the preintegration complex. [ABSTRACT FROM AUTHOR]

Published

2009

6. From Bacterial Genomes to Novel Antibacterial Agents: Discovery, Characterization, and Antibacterial Activity of Compounds that Bind to HI0065 (YjeE) from Haemophilus influenzae.

Author

Lerner, Claude G., Hajduk, Philip J., Wagner, Rolf, Wagenaar, Frank L., Woodall, Charlotte, Yu-Gui Gu, Searle, Xenia B., Florjancic, Alan S., Tianyuan Zhang, Clark, Richard F., Cooper, Curt S., Mack, Jamey C., Liping Yu, Mengli Cai, Betz, Steven F., Chovan, Linda E., McCall, J. Owen, Black-Schaefer, Candace L., Kakavas, Stephan J., and Schurdak, Mark E.

Subjects

ANTIBACTERIAL agents, CARRIER proteins, STAPHYLOCOCCUS aureus infections, NUCLEAR magnetic resonance, MASS spectrometry, GENES

Abstract

As part of a fully integrated and comprehensive strategy to discover novel antibacterial agents, NMR- and mass spectrometry-based affinity selection screens were performed to identify compounds that bind to protein targets uniquely found in bacteria and encoded by genes essential for microbial viability. A biphenyl acid lead series emerged from an NMR-based screen with the Haemophilus influenzae protein HI0065, a member of a family of probable ATP-binding proteins found exclusively in eubacteria. The structure–activity relationships developed around the NMR-derived biphenyl acid lead were consistent with on-target antibacterial activity as the Staphylococcus aureus antibacterial activity of the series correlated extremely well with binding affinity to HI0065, while the correlation of binding affinity with B-cell cytotoxicity was relatively poor. Although further studies are needed to conclusively establish the mode of action of the biphenyl series, these compounds represent novel leads that can serve as the basis for the development of novel antibacterial agents that appear to work via an unprecedented mechanism of action. Overall, these results support the genomics-driven hypothesis that targeting bacterial essential gene products that are not present in eukaryotic cells can identify novel antibacterial agents. [ABSTRACT FROM AUTHOR]

Published

2007

7. NMR structure and mutagenesis of the inhibitor-of-apoptosis protein XIAP.

Author

Chaohong Sun and Mengli Cai

Subjects

APOPTOSIS, AMINO acids, ENZYME inhibitors

Abstract

Describes the nuclear magnetic resonance structure of a region encompassing the second BIR domain of a human inhibitor-of-apoptosis (IAP) family member XIAP. Composition of the BIR domain; Conserved amino acids as critical for inhibiting caspase-3; Differences in caspase inhibition observed for different truncated and full-length IAP.

Published

1999

8. Characteristics of the paramagnetic 1H-NMR spectra of the ferricytochrome <em>c</em>-551 family.

Author

Timkovich, Russell, Mengli Cai, Zhang, Bali, Arciero, David M., and Hooper, Alan B.

Subjects

CYTOCHROMES, NUCLEAR magnetic resonance, PROTON magnetic resonance, BACTERIA, METHIONINE, BIOCHEMISTRY

Abstract

Heme proton resonances have been assigned for ferricytochromes c-551 isolated from four distinct species of bacteria. While the available structure information indicates that the four cytochromes have very similar conformations in solution, including the chirality of the methionine ligand sulfur bond, the chemical shifts of the paramagnetically shifted resonances are surprisingly different, more so than has been previously reported for a homologous series of ferricytochromes. The resonances are contrasted in terms of chemical shift and the temperature dependence of the shift, which gives rise to a very strong anti-Curie effect for some specific protons. Non-methyl heme resonances do display an approximately conserved set of chemical shifts, but the heme methyl groups demonstrate a wide range of values. The 12¹ heme methyl group is always the highest frequency heme methyl, but the relative positions of the other methyl groups may change. The 7¹ heme methyl group always displayed strong anti-Curie behavior, while the 12¹ methyl group displayed normal Curie behavior. The behavior of the other methyl groups was variable. Possible reasons for the range of observations will be discussed. In spite of their NMR differences, all the ferricytochromes c-551 demonstrated comparable electron-transfer rates to a membrane-bound cytochrome reductase system. [ABSTRACT FROM AUTHOR]

Published

1994