Yang Yu scite author profile

This study investigates the effects of three branched-chain amino acids (BCAA; valine, leucine, and isoleucine) on the in vitro ruminal fermentation of wheat straw using batch cultures of mixed ruminal microorganisms. BCAA were added to the buffered ruminal fluid at a concentration of 0, 2, 4, 7, or 10 mmol/L. After 72 h of anaerobic incubation, pH, volatile fatty acids (VFA), and ammonia nitrogen (NH3-N) in the ruminal fluid were determined. Dry matter (DM) and neutral detergent fiber (NDF) degradability were calculated after determining the DM and NDF in the original material and in the residue after incubation. The addition of valine, leucine, or isoleucine increased the total VFA yields (p≤0.001). However, the total VFA yields did not increase with the increase of BCAA supplement level. Total branched-chain VFA yields linearly increased as the supplemental amount of BCAA increased (p<0.001). The molar proportions of acetate and propionate decreased, whereas that of butyrate increased with the addition of valine and isoleucine (p<0.05). Moreover, the proportions of propionate and butyrate decreased (p<0.01) with the addition of leucine. Meanwhile, the molar proportions of isobutyrate were increased and linearly decreased (p<0.001) by valine and leucine, respectively. The addition of leucine or isoleucine resulted in a linear (p<0.001) increase in the molar proportions of isovalerate. The degradability of NDF achieved the maximum when valine or isoleucine was added at 2 mmol/L. The results suggest that low concentrations of BCAA (2 mmol/L) allow more efficient regulation of ruminal fermentation in vitro, as indicated by higher VFA yield and NDF degradability. Therefore, the optimum initial dose of BCAA for in vitro ruminal fermentation is 2 mmol/L.

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Tailoring the structures and photonic properties of low-dimensional organic materials by crystal engineering

Wang

Chu

et al. 2018

Nanoscale

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Low-dimensional organic materials have given rise to tremendous interest in optoelectronic applications, owing to their controllable photonic properties. However, the controlled-synthesis approaches for organic nano-/micro-architectures are very difficult to attain, because the weak interaction (van der Waals force) between the organic molecules cannot dominate the kinetic process of crystal growth. We report a simple method, which involves selective adhesion to the organic crystal plane by hydrogen-bonding interaction for modulating the crystal growth process, which leads either to the self-assembly of one organic molecule into two-dimensional (2D) microsheets with an obvious asymmetric light propagation or one-dimensional (1D) microrods with low propagation loss. The method of tailoring the structures and photonic properties for fabricating different micro-structures would provide enlightenment for the development of tailor-made mini-sized devices for photonic integrated circuits.

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Some new continued fraction approximation of Euler's constant

Song

2015

Journal of Number Theory

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Yang Yu

Numerical modeling of Boussinesq equations by finite element method

Effects of Branched-chain Amino Acids on <italic>In vitro</italic> Ruminal Fermentation of Wheat Straw

Tailoring the structures and photonic properties of low-dimensional organic materials by crystal engineering

Some new continued fraction approximation of Euler's constant

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Yang Yu

Numerical modeling of Boussinesq equations by finite element method

Effects of Branched-chain Amino Acids on &lt;italic&gt;In vitro&lt;/italic&gt; Ruminal Fermentation of Wheat Straw

Tailoring the structures and photonic properties of low-dimensional organic materials by crystal engineering

Some new continued fraction approximation of Euler's constant

Contact Info

Product

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Effects of Branched-chain Amino Acids on <italic>In vitro</italic> Ruminal Fermentation of Wheat Straw