Haochen Yu scite author profile

In many eukaryotes, cytokinesis requires the assembly and constriction of an actomyosin-based contractile ring. Despite the central role of this ring in cytokinesis, the mechanism of F-actin assembly and accumulation in the ring is not fully understood. In this paper, we investigate the mechanism of F-actin assembly during cytokinesis in Schizosaccharomyces pombe using lifeact as a probe to monitor actin dynamics. Previous work has shown that F-actin in the actomyosin ring is assembled de novo at the division site. Surprisingly, we find that a significant fraction of F-actin in the ring was recruited from formin-Cdc12p nucleated long actin cables that were generated at multiple nonmedial locations and incorporated into the ring by a combination of myosin II and myosin V activities. Our results, together with findings in animal cells, suggest that de novo F-actin assembly at the division site and directed transport of F-actin cables assembled elsewhere can contribute to ring assembly.

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Identification and Control of a Poliomyelitis Outbreak in Xinjiang, China

Luo

Zhang

Wang

et al. 2013

N Engl J Med

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MXene Ti₃C₂T_x-Derived Nitrogen-Functionalized Heterophase TiO₂ Homojunctions for Room-Temperature Trace Ammonia Gas Sensing

Zhou

Wang

et al. 2021

ACS Appl. Mater. Interfaces

102

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In this work, MXene Ti3C2T x -derived nitrogen-functionalized heterophase TiO2 homojunctions (N-MXene) were prepared via the urea-involved solvothermal treatment with varying reaction time as the sensing layer to detect trace NH3 gas at room temperature (20 °C). Compared with no signal for the pristine MXene counterpart, the 18 h-treated sensors (N-MXene-18) achieved a detection limit of 200 ppb with an inspiring response that was 7.3% better than the existing MXene-involved reports thus far. Also, decent repeatability, stability, and selectivity were demonstrated. It is noteworthy that the N-MXene-18 sensors delivered a stronger response, more sufficient recovery, and quicker response/recovery speeds under a humid environment than those under dry conditions, proving the significance of humidity. Furthermore, to suppress the effect of the fluctuation of humidity on NH3 sensing during the tests, a commercial waterproof polytetrafluoroethylene (PTFE) membrane was anchored onto the sensing layer, eventually bringing about humidity-independent features. Both nitrogen doping and TiO2 homojunctions constituted by mixed anatase and rutile phases were primarily responsible for the performance improvement with respect to pristine MXene. This work showcases the enormous potential of N-MXene materials in trace NH3 detection and offers an alternative strategy to realize both heteroatom doping and partial oxidation of MXene that is applicable in future optoelectronic devices.

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The role of Bi-doping in promoting electron transfer and catalytic performance of Pt/3DOM-Ce1−Bi O2−δ

Lei

Feng

et al. 2018

Journal of Catalysis

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Investigation of Bi-doping effect on catalytic performance of Pt/3DOM-Ce1-xBixO2-δ in the aerobic oxidation of 5-hydroxymethyl-2-furfural allows us to reveal the promoted catalytically active sites: the asymmetrical oxygen vacancies coordinated with one Bi and up to three Ce cations, e.g. Bi-(-Ce)3, which can easily gain oxygen atoms in favor of the CeO2 structure, and, when filled by oxygen, easily release oxygen anions in favor of six coordination for Bi 3+ . The loss of electrons in the reduction of oxygen atoms at these sites would be replenished by electron transfer from Pt nanoparticles, eventually promoting the oxidation potential of the Pt nanoparticles. The present work points out that the promoted catalytic properties in Bi-doped CeO2 is mainly due to the asymmetric structures of the oxygen vacancies, rather than simply to the number of the oxygen vacancies. The newly proposed model of asymmetrical active sites and electron transfer mechanism may shed light on the future investigation of the physico-chemical properties of other solid solution substrate supported metal nanoparticle catalysts.

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Haochen Yu

Nonmedially assembled F-actin cables incorporate into the actomyosin ring in fission yeast

Identification and Control of a Poliomyelitis Outbreak in Xinjiang, China

MXene Ti₃C₂T_x-Derived Nitrogen-Functionalized Heterophase TiO₂ Homojunctions for Room-Temperature Trace Ammonia Gas Sensing

The role of Bi-doping in promoting electron transfer and catalytic performance of Pt/3DOM-Ce1−Bi O2−δ

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Haochen Yu

Nonmedially assembled F-actin cables incorporate into the actomyosin ring in fission yeast

Identification and Control of a Poliomyelitis Outbreak in Xinjiang, China

MXene Ti3C2Tx-Derived Nitrogen-Functionalized Heterophase TiO2 Homojunctions for Room-Temperature Trace Ammonia Gas Sensing

The role of Bi-doping in promoting electron transfer and catalytic performance of Pt/3DOM-Ce1−Bi O2−δ

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Product

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MXene Ti₃C₂T_x-Derived Nitrogen-Functionalized Heterophase TiO₂ Homojunctions for Room-Temperature Trace Ammonia Gas Sensing