Dielectric screening effect of electronic polarization and intramolecular hydrogen bonding

Recent site‐resolved hydrogen exchange measurements have uncovered significant discrepancies between simulations and experimental data during protein folding, including the excessive intramolecular hydrogen bonds in simulations. This finding indicates a possibility that intramolecular charge–charge interactions have not included sufficient dielectric screening effect of the electronic polarization. Scaling down peptide atomic charges according to the optical dielectric constant is tested in this study. As a result, the number of intramolecular hydrogen bonds is lower than using unscaled atomic charges while reaching the same levels of helical contents or β‐hairpin backbone hydrogen bonds, because van der Waals interactions contribute substantially to peptide folding in water. Reducing intramolecular charge–charge interactions and hydrogen bonding increases conformational search efficiency. In particular, it reduces the equilibrium helical content in simulations using AMBER force field and the energy barrier in folding simulations using CHARMM force field.     

Development and evaluation of yeast-based GFP and luciferase reporter assays for chemical-induced genotoxicity and oxidative damage

Applied Microbiology and Biotechnology - We aimed to develop the bioassays for genotixicity and/or oxidative damage using the recombinant yeast. A genotoxicity assay was developed using recombinant...     

金佛拟小鲵幼体皮肤的显微结构观察

采用光镜和扫描电镜对金佛拟小鲵(Pseudohynobius jinfo)幼体皮肤进行组织学和形态学观察。金佛拟小鲵幼体皮肤由表皮和真皮构成。不同部位皮肤厚度不同,头部背侧皮肤最薄,其厚度为(45.99±12.77)μm,尾部腹侧的皮肤最厚,其厚度为(95.21±42.72)μm。表皮角质层仅躯干背部和尾部明显,由仍具有一定生理活性的复层扁平上皮细胞构成。皮肤腺体包括黏液腺和颗粒腺。黏液腺广泛分布于身体各个部位的皮肤,颗粒腺呈区域性分布,仅见躯干部和尾部皮肤,其体积大于黏液腺。毛细血管多分布于真皮疏松层腺体周围,与表皮层紧密接触并凸向表皮。色素细胞主要分布于表皮和疏松层的交界处,呈多细胞聚集的状态,形成厚度不一的色素层。     

硫化氢减轻同型半胱氨酸诱导大鼠海马CA1区神经元损伤

目的探讨硫化氢(H2S)对同型半胱氨酸(Hcy)诱导大鼠海马CA1区神经元损伤的改善作用。方法以侧脑室注射同型半胱氨酸的SD大鼠为同型半胱氨酸神经毒性动物模型,采用Tunel染色法分析大鼠海马CA1区神经元的凋亡情况,采用Elisa法分析大鼠海马组织MDA含量。结果 0.6μmol和2.0μmol的同型半胱氨酸使大鼠海马CA1区神经元发生大量的凋亡(P0.01),而NaHS(100μmol/kg)显著抑制同型半胱氨酸(0.6μmol)诱导大鼠海马CA1区神经元的凋亡(P0.05);同型半胱氨酸(0.2,0.6μmol)可增加大鼠海马CA1区丙二醛含量(P0.001),而NaHS(100μmol/kg)可抑制同型半胱氨酸(0.6μmol/L)诱导大鼠海马CA1区丙二醛水平的增加(P0.001)。结论硫化氢可减轻同型半胱氨酸诱导大鼠海马CA1区神经元的损伤。     

Molecular characterization of <Emphasis Type="Italic">HOXC8</Emphasis> gene and methylation status analysis of its exon 1 associated with the length of cashmere fiber in Liaoning cashmere goat

Homeobox protein Hox-C8 (HOXC8) is a member of Hox family. It is expressed in the dermal papilla of the skin and is thought to be associated with the hair inductive capacity of dermal papilla cells. In the present study, we isolated and characterized a full-length open reading frame of HOXC8 cDNA from the skin tissue of Liaoning cashmere goat, as well as, established a phylogenetic relationship of goat HOXC8 with that of other species. Also, we investigated the effect of methylation status of HOXC8 exon 1 at anagen secondary hair follicle on the cashmere fiber traits in Liaoning cashmere goat. The sequence analysis indicated that the obtained cDNA was 1134-bp in length containing a complete ORF of 729-bp. It encoded a peptide of 242 amino acid residues in length. The structural analysis indicated that goat HOXC8 contained a typical homeobox domain. The phylogenetic analysis revealed that Capra hircus HOXC8 had a closer genetic relationship with that of Ovis aries, followed by Bos Taurus and Bubalus bubalis. The methylation analysis suggested that the methylation degree of HOXC8 exon 1 in anagen secondary hair follicle might be involved in regulating the growth of cashmere fiber in Liaoning cashmere goat. Our results provide new evidence for understanding the molecular structural and evolutionary characteristics of HOXC8 in Liaoning cashmere goat, as well as, for further insight into the role of methylation degree of HOXC8 exon 1 regulates the growth of cashmere fiber in goat.     

Nitrogen resorption in senescing leaf blades of rice exposed to free-air CO<Subscript>2</Subscript> enrichment (FACE) under different N fertilization levels

Background and Aims

The effects of Sb(V), alone or combined with Se, on the growth and root development of plants are unknown. The aim of this study is to investigate the interaction between selenite and different forms of Sb and the effects on their uptake in rice and on rice root morphology.

Methods

A hydroponic experiment was conducted that contained fourteen treatments. The treatment levels for Se were 0.5 and 1 mg L^?1, and the treatment levels for Sb(III) and Sb(V) were 5 and 15 mg L^?1.

Results

Sb(V) alone significantly reduced the surface area, mean diameter and volume of the roots, whereas Sb(III) alone reduced the values of most parameters of root morphology. The addition of 1 mg L^?1 Se significantly enhanced the surface area, number of medium roots, and Sb concentration in the roots subjected to 15 mg L^?1 Sb(V), but it decreased the number of root forks, the number and proportion of fine roots, and the shoot Sb concentration under exposure to 15 mg L^?1 Sb(III). When the plants were subjected to 1 mg L^?1 Se, the addition of 15 mg L^?1 Sb(III) markedly reduced the shoot and root Se concentrations and the number of root tips, root forks, and fine roots and increased the mean root diameter. However, the addition of Sb(V) did not significantly affect the root and shoot Se concentrations but significantly decreased the number of root forks and fine roots and increased the proportion of medium roots.

Conclusions

Se and Sb(III) showed antagonistic effects on uptake in the shoots, but not in the roots, of paddy rice. A range of Se concentrations could stimulate the uptake of Sb in both the shoots and roots of paddy rice exposed to Sb(V).