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

1. The W-Acidic Motif of Histidine Kinase WalK Is Required for Signaling and Transcriptional Regulation in Streptococcus mutans

Author

Lingyuan Kong, Mingyang Su, Jiayan Sang, Shanshan Huang, Min Wang, Yongfei Cai, Mingquan Xie, Jun Wu, Shida Wang, Simon J. Foster, Jiaqin Zhang, and Aidong Han

Subjects

signal transduction, two-component system, histidine kinase, transcriptional regulation, WalR, WalK, Microbiology, QR1-502

Abstract

In Streptococcus mutans, we find that the histidine kinase WalK possesses the longest C-terminal tail (CTT) among all 14 TCSs, and this tail plays a key role in the interaction of WalK with its response regulator WalR. We demonstrate that the intrinsically disordered CTT is characterized by a conserved tryptophan residue surrounded by acidic amino acids. Mutation in the tryptophan not only disrupts the stable interaction, but also impairs the efficient phosphotransferase and phosphatase activities of WalRK. In addition, the tryptophan is important for WalK to compete with DNA containing a WalR binding motif for the WalR interaction. We further show that the tryptophan is important for in vivo transcriptional regulation and bacterial biofilm formation by S. mutans. Moreover, Staphylococcus aureus WalK also has a characteristic CTT, albeit relatively shorter, with a conserved W-acidic motif, that is required for the WalRK interaction in vitro. Together, these data reveal that the W-acidic motif of WalK is indispensable for its interaction with WalR, thereby playing a key role in the WalRK-dependent signal transduction, transcriptional regulation and biofilm formation.

Published

2022

2. Structural basis of transmembrane coupling of the HIV-1 envelope glycoprotein

Author

Alessandro Piai, Qingshan Fu, Yongfei Cai, Fadi Ghantous, Tianshu Xiao, Md Munan Shaik, Hanqin Peng, Sophia Rits-Volloch, Wen Chen, Michael S. Seaman, Bing Chen, and James J. Chou

Subjects

Science

Abstract

HIV-1 envelope glycoprotein (Env) mediates the fusion of viral and target cell membranes and is a major target for HIV vaccine development. Here, the authors determine the NMR structure of a bicelle incorporated Env segment comprising the transmembrane domain (TMD) and a portion of the cytoplasmic tail (CT), and show that the CT folds into membrane attached amphipathic helices that wrap around the TMD thereby forming a support baseplate for the rest of Env, and they also provide insights into the dynamic coupling across the TMD between the ectodomain and CT.

Published

2020

3. HIV-1 Entry and Membrane Fusion Inhibitors

Author

Tianshu Xiao, Yongfei Cai, and Bing Chen

Subjects

HIV, envelope glycoprotein, viral entry, membrane fusion, fusion inhibitor, Microbiology, QR1-502

Abstract

HIV-1 (human immunodeficiency virus type 1) infection begins with the attachment of the virion to a host cell by its envelope glycoprotein (Env), which subsequently induces fusion of viral and cell membranes to allow viral entry. Upon binding to primary receptor CD4 and coreceptor (e.g., chemokine receptor CCR5 or CXCR4), Env undergoes large conformational changes and unleashes its fusogenic potential to drive the membrane fusion. The structural biology of HIV-1 Env and its complexes with the cellular receptors not only has advanced our knowledge of the molecular mechanism of how HIV-1 enters the host cells but also provided a structural basis for the rational design of fusion inhibitors as potential antiviral therapeutics. In this review, we summarize our latest understanding of the HIV-1 membrane fusion process and discuss related therapeutic strategies to block viral entry.

Published

2021

4. Conformational Dynamics of Response Regulator RegX3 from Mycobacterium tuberculosis.

Author

Ashfaq Ahmad, Yongfei Cai, Xingqiang Chen, Jianwei Shuai, and Aidong Han

Subjects

Medicine, Science

Abstract

Two-component signal transduction systems (TCS) are vital for adaptive responses to various environmental stresses in bacteria, fungi and even plants. A TCS typically comprises of a sensor histidine kinase (SK) with its cognate response regulator (RR), which often has two domains-N terminal receiver domain (RD) and C terminal effector domain (ED). The histidine kinase phosphorylates the RD to activate the ED by promoting dimerization. However, despite significant progress on structural studies, how RR transmits activation signal from RD to ED remains elusive. Here we analyzed active to inactive transition process of OmpR/PhoB family using an active conformation of RegX3 from Mycobacterium tuberculosis as a model system by computational approaches. An inactive state of RegX3 generated from 150 ns molecular dynamic simulation has rotameric conformations of Thr79 and Tyr98 that are generally conserved in inactive RRs. Arg81 in loop β4α4 acts synergistically with loop β1α1 to change its interaction partners during active to inactive transition, potentially leading to the N-terminal movement of RegX3 helix α1. Global conformational dynamics of RegX3 is mainly dependent on α4β5 region, in particular seven 'hot-spot' residues (Tyr98 to Ser104), adjacent to which several coevolved residues at dimeric interface, including Ile76-Asp96, Asp97-Arg111 and Glu24-Arg113 pairs, are critical for signal transduction. Taken together, our computational analyses suggest a molecular linkage between Asp phosphorylation, proximal loops and α4β5α5 dimeric interface during RR active to inactive state transition, which is not often evidently defined from static crystal structures.

Published

2015

5. Mechanistic insights revealed by the crystal structure of a histidine kinase with signal transducer and sensor domains.

Author

Chen Wang, Jiayan Sang, Jiawei Wang, Mingyan Su, Jennifer S Downey, Qinggan Wu, Shida Wang, Yongfei Cai, Xiaozheng Xu, Jun Wu, Dilani B Senadheera, Dennis G Cvitkovitch, Lin Chen, Steven D Goodman, and Aidong Han

Subjects

Biology (General), QH301-705.5

Abstract

Two-component systems (TCSs) are important for the adaptation and survival of bacteria and fungi under stress conditions. A TCS is often composed of a membrane-bound sensor histidine kinase (SK) and a response regulator (RR), which are relayed through sequential phosphorylation steps. However, the mechanism for how an SK is switched on in response to environmental stimuli remains obscure. Here, we report the crystal structure of a complete cytoplasmic portion of an SK, VicK from Streptococcus mutans. The overall structure of VicK is a long-rod dimer that anchors four connected domains: HAMP, Per-ARNT-SIM (PAS), DHp, and catalytic and ATP binding domain (CA). The HAMP, a signal transducer, and the PAS domain, major sensor, adopt canonical folds with dyad symmetry. In contrast, the dimer of the DHp and CA domains is asymmetric because of different helical bends in the DHp domain and spatial positions of the CA domains. Moreover, a conserved proline, which is adjacent to the phosphoryl acceptor histidine, contributes to helical bending, which is essential for the autokinase and phosphatase activities. Together, the elegant architecture of VicK with a signal transducer and sensor domain suggests a model where DHp helical bending and a CA swing movement are likely coordinated for autokinase activation.

Published

2013

6. Antigenicity-defined conformations of an extremely neutralization-resistant HIV-1 envelope spike.

Author

Yongfei Cai, Karaca-Griffin, Selen, Jia Chen, Tian, Sai, Fredette, Nicholas, Linton, Christine E., Rits-Volloch, Sophia, Jianming Lu, Kshitij Wagh, Theiler, James, Korber, Bette, Seaman, Michael S., Harrison, Stephen C., Carfi, Andrea, and Bing Chen

Subjects

*HIV-1 glycoprotein 120, *EPITOPES, *NEUTRALIZATION (Chemistry), *VIRAL envelope protein structure, *MONOCLONAL antibodies

Abstract

The extraordinary genetic diversity of the HIV-1 envelope spike [Env; trimeric (gp160)3, cleaved to (gp120/gp41)3] poses challenges for vaccine development. Envs of different clinical isolates exhibit different sensitivities to antibody-mediated neutralization. Envs of difficult-to-neutralize viruses are thought to be more stable and conformationally homogeneous trimers than those of easyto- neutralize viruses, thereby providing more effective concealment of conserved, functionally critical sites. In this study we have characterized the antigenic properties of an Env derived from one of the most neutralization-resistant HIV-1 isolates, CH120.6. Sequence variation at neutralizing epitopes does not fully account for its exceptional resistance to antibodies. The full-length,membrane-bound CH120.6 Env is indeed stable and conformationally homogeneous. Its antigenicity correlates closely with its neutralization sensitivity, and major changes in antigenicity upon CD4 engagement appear to be restricted to the coreceptor site. The CH120.6 gp140 trimer, the soluble and uncleaved ectodomain of (gp160)3, retains many antigenic properties of the intact Env, consistent with a conformation close to that of Env spikes on a virion, whereas its monomeric gp120 exposes many nonneutralizing or strain-specific epitopes. Thus, trimer organization and stability are important determinants not only for occluding many epitopes but also for conferring resistance to neutralization by all but a small set of antibodies. Env preparations derived from neutralization-resistant viruses may induce irrelevant antibody responses less frequently than do other Envs and may be excellent templates for developing soluble immunogens. [ABSTRACT FROM AUTHOR]

Published

2017

7. Dimeric structure of p300/CBP associated factor.

Author

Shasha Shi, Juanyu Lin, Yongfei Cai, Jiao Yu, Haiyan Hong, Kunmei Ji, Downey, Jennifer S., Xiaodong Lu, Ruichuan Chen, and Jiahuai Han

Subjects

ACETYLTRANSFERASES, ACETYLATION, HISTONES, MALTOSE binding proteins, SITE-specific mutagenesis, IMMUNOPRECIPITATION

Abstract

Background p300/CBP associating factor (PCAF, also known as KAT2B for lysine acetyltransferase 2B) is a catalytic subunit of megadalton metazoan complex ATAC (Ada-Two-A containing complex) for acetylation of histones. However, relatively little is known about the regulation of the enzymatic activity of PCAF. Results Here we present two dimeric structures of the PCAF acetyltransferase (HAT) domain. These dimerizations are mediated by either four-helical hydrophobic interactions or a ß-sheet extension. Our chemical cross-linking experiments in combined with site-directed mutagenesis demonstrated that the PCAF HAT domain mainly forms a dimer in solution through one of the observed interfaces. The results of maltose binding protein (MBP)- pulldown, co-immunoprecipitation and multiangle static light scattering experiments further indicated that PCAF dimeric state is detectable and may possibly exist in vivo. Conclusions Taken together, our structural and biochemical studies indicate that PCAF appears to be a dimer in its functional ATAC complex. [ABSTRACT FROM AUTHOR]

Published

2014

8. Conformational States of a Soluble, Uncleaved HIV-1 Envelope Trimer.

Author

Yuhang Liu, Junhua Pan, Yongfei Cai, Grigorieff, Nikolaus, Harrison, Stephen C., and Bing Chen

Subjects

*HIV-1 glycoprotein 120, *AIDS vaccines, *VIRAL envelope proteins, *CRYOMICROSCOPY, *IMMUNOGENETICS

Abstract

The HIV-1 envelope spike [Env; trimeric (gp160)3 cleaved to (gp120/gp41)3] induces membrane fusion, leading to viral entry. It is also the viral component targeted by neutralizing antibodies. Vaccine development requires production, in quantities suitable for clinical studies, of a recombinant form that resembles functional Env. HIV-1 gp140 trimers--the uncleaved ectodomains of (gp160)3--from a few selected viral isolates adopt a compact conformation with many antigenic properties of native Env spikes. One is currently being evaluated in a clinical trial. We report here low-resolution (20 Å) electron cryomicroscopy (cryoEM) structures of this gp140 trimer, which adopts two principal conformations, one closed and the other slightly open. The former is indistinguishable at this resolution from those adopted by a stabilized, cleaved trimer (SOSIP) or by a membrane-bound Env trimer with a truncated cytoplasmic tail (EnvΔCT). The latter conformation is closer to a partially open Env trimer than to the fully open conformation induced by CD4. These results show that a stable, uncleaved HIV-1 gp140 trimer has a compact structure close to that of native Env. [ABSTRACT FROM AUTHOR]

Published

2017