Yanhui Wang scite author profile

Recent advances in high-throughput genotyping technologies have provided the opportunity to map genes using associations between complex traits and markers. Genome-wide association studies (GWAS) based on either a single marker or haplotype have identified genetic variants and underlying genetic mechanisms of quantitative traits. Prompted by the achievements of studies examining economic traits in cattle and to verify the consistency of these two methods using real data, the current study was conducted to construct the haplotype structure in the bovine genome and to detect relevant genes genuinely affecting a carcass trait and a meat quality trait. Using the Illumina BovineHD BeadChip, 942 young bulls with genotyping data were introduced as a reference population to identify the genes in the beef cattle genome significantly associated with foreshank weight and triglyceride levels. In total, 92,553 haplotype blocks were detected in the genome. The regions of high linkage disequilibrium extended up to approximately 200 kb, and the size of haplotype blocks ranged from 22 bp to 199,266 bp. Additionally, the individual SNP analysis and the haplotype-based analysis detected similar regions and common SNPs for these two representative traits. A total of 12 and 7 SNPs in the bovine genome were significantly associated with foreshank weight and triglyceride levels, respectively. By comparison, 4 and 5 haplotype blocks containing the majority of significant SNPs were strongly associated with foreshank weight and triglyceride levels, respectively. In addition, 36 SNPs with high linkage disequilibrium were detected in the GNAQ gene, a potential hotspot that may play a crucial role for regulating carcass trait components.

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Identification of multiple constituents in the traditional Chinese medicine formula Sheng-Mai San and rat plasma after oral administration by HPLC–DAD–MS/MS

Wang

Qiu

Wang

et al. 2011

Journal of Pharmaceutical and Biomedical Analysis

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Nonlinear behavior in the time domain in argon atmospheric dielectric-barrier discharges

Hong

Wang

2008

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A vast majority of nonlinear behavior in atmospheric pressure discharges has so far been studied in the space domain, and their time-domain characters are often believed to exact the periodicity of the externally applied voltage. In this paper, based on one-dimensional fluid mode, we study complex nonlinear behavior in the time domain in argon atmospheric dielectric-barrier discharges at very broad frequency range from kilohertz to megahertz. Under certain conditions, the discharge not only can be driven to chaos from time-periodic state through period-doubling bifurcation, but also can return stable periodic motion from chaotic state through an inverse period-doubling bifurcation sequence. Upon changing the parameter the discharge undergoes alternatively chaotic and periodic behavior. Some periodic windows embedded in chaos, as well as the secondary bifurcation occurring in the periodic windows can also be observed. The corresponding discharge characteristics are investigated.

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Enhanced Green Emission of Eu²⁺ by Energy Transfer from the ⁵D₃ Level of Tb³⁺ in NaCaPO₄

et al. 2014

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Eu 2+ /Tb 3+ single-doped and codoped NaCaPO 4 phosphors were prepared by a high-temperature solid-state reaction method. Their VUV−UV excitation spectra, emission spectra, fluorescence decay spectra, X-ray excited luminescence (XEL), and cathodoluminescence (CL) spectra were investigated and discussed. The main parameters of the electron−vibrational coupling between the Eu 2+ 5d states and host lattice vibrations (such as Huang−Rhys factor, effective phonon energy, and position of the zero-phonon line of the 4f 6 5d−4f 7 emission of Eu 2+ ) were estimated from the experimental spectra. For codoped samples NaCaPO 4 :Eu 2+ , Tb 3+ , enhanced green emission of Eu 2+ by energy transfer (ET) from the 5 D 3 level of Tb 3+ was found.

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Multipeak behavior and mode transition of a homogeneous barrier discharge in atmospheric pressure helium

Wang

Liu

2006

Thin Solid Films

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Yanhui Wang

Genome-Wide Association Studies Using Haplotypes and Individual SNPs in Simmental Cattle

Identification of multiple constituents in the traditional Chinese medicine formula Sheng-Mai San and rat plasma after oral administration by HPLC–DAD–MS/MS

Nonlinear behavior in the time domain in argon atmospheric dielectric-barrier discharges

Enhanced Green Emission of Eu²⁺ by Energy Transfer from the ⁵D₃ Level of Tb³⁺ in NaCaPO₄

Multipeak behavior and mode transition of a homogeneous barrier discharge in atmospheric pressure helium

Contact Info

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Resources

About

Yanhui Wang

Genome-Wide Association Studies Using Haplotypes and Individual SNPs in Simmental Cattle

Identification of multiple constituents in the traditional Chinese medicine formula Sheng-Mai San and rat plasma after oral administration by HPLC–DAD–MS/MS

Nonlinear behavior in the time domain in argon atmospheric dielectric-barrier discharges

Enhanced Green Emission of Eu2+ by Energy Transfer from the 5D3 Level of Tb3+ in NaCaPO4

Multipeak behavior and mode transition of a homogeneous barrier discharge in atmospheric pressure helium

Contact Info

Product

Resources

About

Enhanced Green Emission of Eu²⁺ by Energy Transfer from the ⁵D₃ Level of Tb³⁺ in NaCaPO₄