Jia Wang scite author profile

Single/pseudo-single atom Pt catalyst was prepared on mesoporous WOx . The large surface area and abundant oxygen vacancies of WOx improve the Pt dispersion and stabilize the Pt isolation. This newly prepared catalyst exhibited outstanding hydrogenolysis activity under 1 MPa H2 pressure with a very high space-time yield towards 1,3-propanediol (3.78 g gPt (-1) h(-1) ) in Pt-W catalysts. The highly isolated Pt structure is thought to contribute to the excellent H2 dissociation capacity over Pt/WOx . The high selectivity towards 1,3-propanediol is attributed to the heterolytic dissociation of H2 at the interface of Pt and WOx (providing specific Brønsted acid sites and the concerted dehydration-hydrogenation reaction) and the bond formation between glycerol and WOx , which favors/stabilizes the formation of a secondary carbocation intermediate as well as triggers the redox cycle of the W species (W(6+) ⇄W(5+) ).

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Disome-seq reveals widespread ribosome collisions that promote cotranslational protein folding

Zhao

Chen

Liu

et al. 2021

Genome Biol

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Background The folding of proteins is challenging in the highly crowded and sticky environment of a cell. Regulation of translation elongation may play a crucial role in ensuring the correct folding of proteins. Much of our knowledge regarding translation elongation comes from the sequencing of mRNA fragments protected by single ribosomes by ribo-seq. However, larger protected mRNA fragments have been observed, suggesting the existence of an alternative and previously hidden layer of regulation. Results In this study, we performed disome-seq to sequence mRNA fragments protected by two stacked ribosomes, a product of translational pauses during which the 5′-elongating ribosome collides with the 3′-paused one. We detected widespread ribosome collisions that are related to slow ribosome release when stop codons are at the A-site, slow peptide bond formation from proline, glycine, asparagine, and cysteine when they are at the P-site, and slow leaving of polylysine from the exit tunnel of ribosomes. The structure of disomes obtained by cryo-electron microscopy suggests a different conformation from the substrate of the ribosome-associated protein quality control pathway. Collisions occurred more frequently in the gap regions between α-helices, where a translational pause can prevent the folding interference from the downstream peptides. Paused or collided ribosomes are associated with specific chaperones, which can aid in the cotranslational folding of the nascent peptides. Conclusions Therefore, cells use regulated ribosome collisions to ensure protein homeostasis.

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The higher, the cooler? Effects of building height on land surface temperatures in residential areas of Beijing

Zheng

Zhou

Yan

et al. 2019

Physics and Chemistry of the Earth, Parts A/B/C

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Significant effects of ecological context on urban trees’ cooling efficiency

Wang

Zhou

Jiao

et al. 2020

ISPRS Journal of Photogrammetry and Remote Sensing

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Sixty-Year Changes in Residential Landscapes in Beijing: A Perspective from Both the Horizontal (2D) and Vertical (3D) Dimensions

et al. 2017

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Landscape changes associated with urbanization can lead to many serious ecological and environmental problems. Quantifying the vertical structure of the urban landscape and its change is important to understand its social and ecological impacts, but previous studies mainly focus on urban horizontal expansion and its impacts on land cover/land use change. This papers focuses on the residential landscape to investigate how the vertical dimension of the urban landscape (i.e., building height) change through time, and how such change is related to changes in the horizontal dimension of the landscape, using Beijing, the capital of China, as a case study. We quantified the expansion of the residential neighborhoods from 1949 to 2009, and changes in vegetation coverage, building density, and building height within these neighborhoods, using 1 m spatial resolution imagery. One-way ANOVA and correlation analysis were used to examine the relationships of building height to vegetation coverage and building density. We found: (1) The residential areas expanded rapidly and were dominated by outward growth, with much less within-city infilling. The growth rate varied greatly through time, first increasing from 1949-2004 and then decreasing from [2005][2006][2007][2008][2009]. The expansion direction of newly built residential neighborhoods shifted from west to north in a clockwise direction. (2) The vertical structure of residential neighborhoods changed with time and varied in space, forming a "low-high" pattern from urban central areas to the urban edges within the 5th ring road of Beijing. (3) The residential neighborhoods built in different time periods had significant differences in vegetation coverage, building density, and building height. The residential neighborhoods built in more recent years tended to have taller buildings, lower building density and lower vegetation coverage.

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Structural basis for plant lutein biosynthesis from α-carotene

Niu

Guo

Wang

et al. 2020

Proc. Natl. Acad. Sci. U.S.A.

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Two cytochrome P450 enzymes, CYP97A3 and CYP97C1, catalyze hydroxylations of the β- and ε-rings of α-carotene to produce lutein. Chirality is introduced at the C-3 atom of both rings, and the reactions are both pro-3R–stereospecific. We determined the crystal structures of CYP97A3 in substrate-free and complex forms with a nonnatural substrate and the structure of CYP97C1 in a detergent-bound form. The structures of CYP97A3 in different states show the substrate channel and the structure of CYP97C1 bound with octylthioglucoside confirms the binding site for the carotenoid substrate. Biochemical assays confirm that the ferredoxin-NADP+reductase (FNR)–ferredoxin pair is used as the redox partner. Details of the pro-3Rstereospecificity are revealed in the retinal-bound CYP97A3 structure. Further analysis indicates that the CYP97B clan bears similarity to the β-ring–specific CYP97A clan. Overall, our research describes the molecular basis for the last steps of lutein biosynthesis.

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Disome-seq reveals widespread ribosome collisions that recruit co-translational chaperones

Zhao

Chen

Liu

et al. 2019

Preprint

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Regulation of translation elongation plays a crucial role in determining absolute protein levels and ensuring the correct localization and folding of proteins. Much of our knowledge regarding translation elongation comes from the sequencing of mRNA fragments protected by single ribosomes (ribo-seq). However, larger protected mRNA fragments have been observed, suggesting the existence of an alternative and previously hidden layer of regulation. In this study, we performed disome-seq to sequence mRNA fragments protected by two stacked ribosomes -a product of translational pauses during which the 5′-ribosome collides with the 3′-paused one. We detected widespread ribosome collisions that are missed in traditional ribo-seq. These collisions are due to 1) slow ribosome release when stop codons are at the A-site, 2) slow peptide bond formation from proline, glycine, asparagine, and cysteine when they are at the P-site, and 3) slow leaving of polylysine from the exit tunnel of ribosomes.The paused ribosomes can continue translating after collisions, as suggested by the structure of disomes obtained by cryo-electron microscopy (cryo-EM). Collided ribosomes recruit chaperones, which can aid in the co-translational folding of the nascent peptides. Therefore, cells use regulated ribosome collisions to ensure protein homeostasis.

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Superamphiphobic aluminum alloy with low sliding angles and acid-alkali liquids repellency

et al. 2020

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Jia Wang

Hydrogenolysis of Glycerol to 1,3‐propanediol under Low Hydrogen Pressure over WO_x‐Supported Single/Pseudo‐Single Atom Pt Catalyst

Disome-seq reveals widespread ribosome collisions that promote cotranslational protein folding

The higher, the cooler? Effects of building height on land surface temperatures in residential areas of Beijing

Significant effects of ecological context on urban trees’ cooling efficiency

Sixty-Year Changes in Residential Landscapes in Beijing: A Perspective from Both the Horizontal (2D) and Vertical (3D) Dimensions

Structural basis for plant lutein biosynthesis from α-carotene

Disome-seq reveals widespread ribosome collisions that recruit co-translational chaperones

Superamphiphobic aluminum alloy with low sliding angles and acid-alkali liquids repellency

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Jia Wang

Hydrogenolysis of Glycerol to 1,3‐propanediol under Low Hydrogen Pressure over WOx‐Supported Single/Pseudo‐Single Atom Pt Catalyst

Disome-seq reveals widespread ribosome collisions that promote cotranslational protein folding

The higher, the cooler? Effects of building height on land surface temperatures in residential areas of Beijing

Significant effects of ecological context on urban trees’ cooling efficiency

Sixty-Year Changes in Residential Landscapes in Beijing: A Perspective from Both the Horizontal (2D) and Vertical (3D) Dimensions

Structural basis for plant lutein biosynthesis from α-carotene

Disome-seq reveals widespread ribosome collisions that recruit co-translational chaperones

Superamphiphobic aluminum alloy with low sliding angles and acid-alkali liquids repellency

Contact Info

Product

Resources

About

Hydrogenolysis of Glycerol to 1,3‐propanediol under Low Hydrogen Pressure over WO_x‐Supported Single/Pseudo‐Single Atom Pt Catalyst