Anomalous structure transition in undercooled melt regulates polymorphic selection in barium titanate crystallization

Ge, Xuan; Hu, Qiaodan; Yang, Fan; Xu, Jun; Han, Yanfeng; Lai, Pingsheng; Qin, Jingyu; Li, Jianguo

doi:10.1038/s42004-021-00462-w

Cited by 7 publications

(3 citation statements)

References 76 publications

(90 reference statements)

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“…Of note, we cannot exclude that the flexible channel could hold additional cryptic or transient binding residues not observed in the docking. Importantly, these highly flexible and dynamic domains, explain difficulties in crystallization attempts, as transition states are inherently difficult to crystallize 75 . Thus, our collective data demonstrate that functional biochemical assays and extensive mutagenesis are absolutely required to validate structural and mechanistic predictions arising from either structural homology models, X-ray structures or cryo-EM coordinates, especially when resolutions are above 3-4 A.…”

Section: Discussionmentioning

confidence: 99%

The Human ABCG2 Transporter Relies on a Triple-Gated Translocation Channel for Multidrug Efflux

Kuchler,

Khunweeraphong

2024

Preprint

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The human ABCG2 drug transporter plays essential roles in physiological detoxification across barrier tissues and in anticancer multidrug resistance. However, the routes for drug extrusion and gating mechanisms remain elusive. Here, we demonstrate that the inner core of the ABCG2 structure holds two cavities that are delimited by three gates, revealing a possible substrate translocation channel within the transporter core. Drugs can enter via an intracellular entry gate to become trapped in the voluminous central cavity. The cavity is surrounded by a cluster of three conserved phenylalanines providing aromatic rings for a “clamp-push-seal” motion to ensure unidirectional substrate movement towards the upper cavity. Two ABCG2-unique residues, T435 and N436, are the critical discriminators for substrate selectivity prior moving through the valve gate. The dynamic outer cavity is covered by the extracellular lid architecture functioning as the final gate to mediate drug extrusion. This work unravels unprecedented mechanistic details about critical gating steps, including the order of events that drive ABCG2-mediated drug efflux.

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Section: Discussionmentioning

confidence: 99%

The Human ABCG2 Transporter Relies on a Triple-Gated Translocation Channel for Multidrug Efflux

Kuchler,

Khunweeraphong

2024

Preprint

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“…Complex crystallization pathways have also been reported to be beneficial to GFA [19,33]. Compared with the homogeneous Z0 BMG, the crystallization process and products of Z2 BMGs are more complex due to the addition of Fe element, and its supercooled liquids may be confused to avoid crystallization due to the difficulties in phase selectivity, leading to more stable supercooled liquid states [21,[58][59][60]. The complex big-cube Zr 2 Cu-type crystalline product in the Zr-Cu-Fe-Al BMG has a large lattice constant ~ 12 Å, which has a diffused interface as revealed by SAXS measurements in Fig.…”

Section: Discussionmentioning

confidence: 99%

In Situ Scattering Studies of Crystallization Kinetics in a Phase-Separated Zr–Cu–Fe–Al Bulk Metallic Glass

Liu

Ying

et al. 2021

Acta Metall. Sin. (Engl. Lett.)

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Thermal stability and the crystallization kinetics of a phase-separated Zr-Cu-Fe-Al bulk metallic glass were investigated using in situ high-energy synchrotron X-ray and neutron diffraction, as well as small-angle synchrotron X-ray scattering. It was revealed that this glass with excellent glass-forming ability possesses a two-step crystallization behavior. The crystalline products and their evolution sequence are more complicated than a homogeneous Zr-Cu-Al glass with average glass-forming ability. The experimental results indicate that a finely distributed nanometer-sized cubic Zr 2 Cu phase forms first and then transforms to a tetragonal Zr 2 Cu phase, while the matrix transforms to an orthorhombic Zr 3 Fe phase. The strength of the Zr-Cu-Fe-Al composite containing cubic Zr 2 Cu phase and glass matrix increases, and the plasticity also improves compared to the as-cast Zr-Cu-Fe-Al bulk metallic glass. Our results suggest that the formation of multiple and complex crystalline products would be the characteristics of the Zr-Cu-Fe-Al glass with better glass-forming ability. Our study may shed light on the synthesis of bulk-sized glass-nanocrystals composites of high strength and good plasticity.

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“…However, at present, the understanding of the formation mechanism of LLPT is still not sufficient. On the one hand, the small heat flow related to LLPT is difficult to detect by the traditional differential scanning calorimetry (DSC), and on the other hand, the evidence of LLPT may be obscured by the nucleation in the undercooled liquid [ 21 ].…”

Section: Introductionmentioning

confidence: 99%

High-Temperature Liquid–Liquid Phase Transition in Glass-Forming Liquid Pd43Ni20Cu27P10

Zhou

Miao

et al. 2023

Materials

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Liquid–liquid phase transition (LLPT) is a transition from one liquid state to another with the same composition but distinct structural change, which provides an opportunity to explore the relationships between structural transformation and thermodynamic/kinetic anomalies. Herein the abnormal endothermic LLPT in Pd43Ni20Cu27P10 glass-forming liquid was verified and studied by flash differential scanning calorimetry (FDSC) and ab initio molecular dynamics (AIMD) simulations. The results show that the change of the atomic local structure of the atoms around the Cu-P bond leads to the change in the number of specific clusters <0 2 8 0> and <1 2 5 3>, which leads to the change in the liquid structure. Our findings reveal the structural mechanisms that induce unusual heat-trapping phenomena in liquids and advance the understanding of LLPT.

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Anomalous structure transition in undercooled melt regulates polymorphic selection in barium titanate crystallization

Cited by 7 publications

References 76 publications

The Human ABCG2 Transporter Relies on a Triple-Gated Translocation Channel for Multidrug Efflux

The Human ABCG2 Transporter Relies on a Triple-Gated Translocation Channel for Multidrug Efflux

In Situ Scattering Studies of Crystallization Kinetics in a Phase-Separated Zr–Cu–Fe–Al Bulk Metallic Glass

High-Temperature Liquid–Liquid Phase Transition in Glass-Forming Liquid Pd43Ni20Cu27P10

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