Juan Wang scite author profile

The draft genome of the pear (Pyrus bretschneideri) using a combination of BAC-by-BAC and next-generation sequencing is reported. A 512.0-Mb sequence corresponding to 97.1% of the estimated genome size of this highly heterozygous species is assembled with 1943 coverage. High-density genetic maps comprising 2005 SNP markers anchored 75.5% of the sequence to all 17 chromosomes. The pear genome encodes 42,812 protein-coding genes, and of these,~28.5% encode multiple isoforms. Repetitive sequences of 271.9 Mb in length, accounting for 53.1% of the pear genome, are identified. Simulation of eudicots to the ancestor of Rosaceae has reconstructed nine ancestral chromosomes. Pear and apple diverged from each other~5.4-21.5 million years ago, and a recent whole-genome duplication (WGD) event must have occurred 30-45 MYA prior to their divergence, but following divergence from strawberry. When compared with the apple genome sequence, size differences between the apple and pear genomes are confirmed mainly due to the presence of repetitive sequences predominantly contributed by transposable elements (TEs), while genic regions are similar in both species. Genes critical for self-incompatibility, lignified stone cells (a unique feature of pear fruit), sorbitol metabolism, and volatile compounds of fruit have also been identified. Multiple candidate SFB genes appear as tandem repeats in the S-locus region of pear; while lignin synthesis-related gene family expansion and highly expressed gene families of HCT, C39H, and CCOMT contribute to high accumulation of both G-lignin and S-lignin. Moreover, alpha-linolenic acid metabolism is a key pathway for aroma in pear fruit.

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The fourth crystallographic closest packing unveiled in the gold nanocluster crystal

Gan

et al. 2017

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Metal nanoclusters have recently attracted extensive interest not only for fundamental scientific research, but also for practical applications. For fundamental scientific research, it is of major importance to explore the internal structure and crystallographic arrangement. Herein, we synthesize a gold nanocluster whose composition is determined to be Au60S6(SCH2Ph)36 by using electrospray ionization mass spectrometry and single crystal X-ray crystallography (SCXC). SCXC also reveals that Au60S6(SCH2Ph)36 consists of a fcc-like Au20 kernel protected by a pair of giant Au20S3(SCH2Ph)18 staple motifs, which contain 6 tetrahedral-coordinate μ4-S atoms not previously reported in the Au–S interface. Importantly, the fourth crystallographic closest-packed pattern, termed 6H left-handed helical (6HLH) arrangement, which results in the distinct loss of solid photoluminescence of amorphous Au60S6(SCH2Ph)36, is found in the crystals of Au60S6(SCH2Ph)36. The solvent-polarity-dependent solution photoluminescence is also demonstrated. Overall, this work provides important insights about the structure, Au–S bonding and solid photoluminescence of gold nanoclusters.

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Trace Solvent as a Predominant Factor To Tune Dipeptide Self-Assembly

Wang¹,

Liu

Yan³

et al. 2016

ACS Nano

168

136

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Solvent molecules such as water are of key importance for tuning self-assembly in biological systems. However, it remains a great challenge to detect the role of different types of noncovalent interactions between trace solvents and biomolecules such as peptides. In this work, we discover a dominant role of trace amounts of solvents for mediation of dipeptide self-assembly, in which solvent-bridged hydrogen bonding is demonstrated as a crucial force in directing fiber formation. Hydrogen-bond-forming solvents (including ethanol, N,N-dimethylformamide, and acetone) can affect the hydrogen bonding of C═O and N-H in diphenylalanine (FF) molecules with themselves, but this does not induce π-π stacking between FF molecules. The directional hydrogen bonding promotes a long-range-ordered arrangement of FF molecules, preferentially along one dimension to form nanofibers or nanobelts. Furthermore, we demonstrate that water with strong hydrogen-bond-forming capability can notably speed up structure formation with long-range order, revealing the importance of water as a trace solvent for regulation of persistent and robust fiber formation.

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CsPbBr₃ Single Crystal X-ray Detector with Schottky Barrier for X-ray Imaging Application

Wang

Zhang

et al. 2020

ACS Appl. Electron. Mater.

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A high Z CsPbBr 3 halide perovskite with large charge carrier diffusion length was used for radiation detection applications. The high sensitivity X-ray detector is expected to be used for imaging applications. The free-seeding CsPbBr 3 single crystals (SCs) were directly grown on ITO glass. We fabricated the Ag/CsPbBr 3 /ITO sandwich structural X-ray detector with Schottky contact at room temperature. We investigated the X-ray detection and phase-contrast X-ray imaging of the all-inorganic halide perovskite CsPbBr 3 SCs. The devices exhibit high performances with low dark current density (∼5− 27 nA/cm 2 ) and high sensitivity (770 μC•Gy −1 •cm −2 ) with an applied voltage of 8 V. An "L"-shape imaging was obtained based on the CsPbBr 3 SC X-ray detector array, which makes it a promising application for pixel X-ray imaging techniques.

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Juan Wang

The genome of the pear (Pyrus bretschneideri Rehd.)

The fourth crystallographic closest packing unveiled in the gold nanocluster crystal

Trace Solvent as a Predominant Factor To Tune Dipeptide Self-Assembly

CsPbBr₃ Single Crystal X-ray Detector with Schottky Barrier for X-ray Imaging Application

Contact Info

Product

Resources

About

Juan Wang

The genome of the pear (Pyrus bretschneideri Rehd.)

The fourth crystallographic closest packing unveiled in the gold nanocluster crystal

Trace Solvent as a Predominant Factor To Tune Dipeptide Self-Assembly

CsPbBr3 Single Crystal X-ray Detector with Schottky Barrier for X-ray Imaging Application

Contact Info

Product

Resources

About

CsPbBr₃ Single Crystal X-ray Detector with Schottky Barrier for X-ray Imaging Application