盐酸4-(β-氨乙基)苯乙酸的合成

以苯乙晴为原料,经水解、氯甲基化、取代、还原四步反应制得盐酸4-(β-氨乙基)苯乙酸。并对文献方法进行了改进。     

全反式维甲酸联合替莫唑胺对胶质瘤U251细胞增殖与凋亡的影响

目的：研究全反式维甲酸（ATRA）联合替莫唑胺（TMZ）对胶质瘤细胞株U251增殖及凋亡的影响。方法：体外培养胶质瘤细胞株U251,分为ATRA组、TMZ组、ATRA＋TMZ组和空白对照4组,应用MTT法测定U251细胞生长抑制率,流式细胞仪检测细胞周期分布和细胞凋亡率,westernblot法检测细胞维甲酸受体β（RARβ）蛋白和凋亡相关蛋白Caspase．3蛋白的表达情况。结果：对照组、ATRA组、TMZ组及ATRA＋TMZ组的细胞生长抑制率分别为（1．72±0．12）％、（9．87±0．87）％、（23．87＋1．32）％及（35．74±1．44）％,ATRA＋TMZ组的细胞生长抑制率显著高于单独应用TMZ（P〈0．01）。对照组、ATRA组、TMZ组及ATRA＋TMZ组的细胞凋亡率分别为（1．32±0．11）％、（4．16±0．35）％、（8．44±0149）％、（15．27±1．03）％,ATRA＋TMZ组的凋亡率显著高于单独应用TMZ有更高的凋亡率（P〈0．01）。对照组、ATRA组、TMZ组及ATRA＋TMZ组RARp蛋白相对表达量分别0．452±0．054、0．837±0．068、0．195±0．021、0．376±0．039,ATRA＋TMZ组RARβ蛋白相对表达量显著高于TMZ组（P〈0．01）。ATRA＋TMZ组Caspase．的3蛋白表达相对水平为（0．832±0．059）,明显高于ATRA组（0．334±0．041）及TMZ组（0．521＋0．032）,差异具有统计学意义（P〈0．01）。结论：全反式维甲酸联合替莫唑胺能更有效抑制U251细胞的增殖,增加其凋亡率,这可能与其增加RARβ和Caspase-3蛋白的表达抑制U251细胞增殖、诱导细胞凋亡有关。     

不同进化类型大豆种子超氧物歧化酶的比较

本文对不同进化类型大豆种子超氧物歧化酶(SOD)进行了比较分析。结果表明:(1)供试三种进化类型大豆种子的 SOD 同工酶酶谱一致,均为7条,其中一条为 Ma-SOD,其余6条为 Cu-Zn-SOD。(2)SOD 活性表现为:野生类型明显高于中间类型,中间类型明显高于栽培类型。(3)随着大豆籽粒百粒重的增大,种胚的 SOD 活性降低。(4)种皮颜色由黑到黄,种皮的 SOD 活性降低。讨论了大豆种子 SOD 活性与 Sofa 亚属内大豆进化的关系。     

Aluminium Stress Affects Nitrogen Fixation and Assimilation in Soybean (Glycine max L.)

Nitrogen fixation and assimilation in nodules and roots were studied in soybean (Glycine max L.) exposed to different levels of aluminium (Al) stress (0, 50, 200 and 500 μM). Al at 500 μM induced oxidative stress, which became evident from an increase in lipid peroxidation accompanied by a concomitant decline in antioxidant enzyme activities and leghaemoglobin breakdown. Consequently, there was also a reduction in nitrogenase activity. However, the leghaemoglobin levels and nitrogenase activity were unexpectedly found to be higher in nodules when the plants were treated with 200 μM Al. Of the enzymes involved in nitrogen assimilation, the activity of glutamate dehydrogenase-NADH was reduced in nodules under Al stress, but it was significantly higher in roots at 500 μM Al as compared to that in the control. In nodules, the glutamine synthetase/glutamate synthase-NADH pathway, assayed in terms of activity and expression of both the enzymes, was inhibited at >50 μM Al; but in roots this inhibitory effect was apparent only at 500 μM Al. No significant changes in ammonium and protein contents were recorded in the nodules or roots when the plants were treated with 50 μM Al. However, Al at ≥200 μM significantly increased the ammonium levels and decreased the protein content in the nodules. But these contrasting effects on ammonium and protein contents due to Al stress were observed in the roots only at 500 μM Al. The results suggest that the effect of Al stress on nitrogen assimilation is more conspicuous in nodules than that in the roots of soybean plants.     

Cryo-EM structures reveal multiple stages of bacterial outer membrane protein folding

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Effect of abscisic acid application on root isoflavonoid concentration and nodulation of wild-type and nodulation-mutant soybean plants

Isoflavonoids (daidzein, genistein, and coumestrol) are involved in induction of nod genes in Bradyrhizobium japonicum and may be involved in nodule development as well. Abscisic acid (ABA) may also impact nodulation since ABA is reportedly involved in isoflavonoid synthesis. The current study was conducted to evaluate whether ABA plays a role in differential nodulation of a hypernodulated soybean (Glycine max L. Merr.) mutant and the Williams parent. Exogenous ABA application resulted in a decrease in nodule number and weight in both lines. Isoflavonoid concentrations were also markedly decreased in response to ABA application in both inoculated and noninoculated soybean roots. The inoculation treatment itself resulted in a marked increase in isoflavonoid concentrations of NOD1-3, regardless of ABA levels, while only slight increases occurred in Williams. The nodule numbers of both soybean lines across several ABA concentration treatments were highly correlated with the concentration of all three isoflavonoids. However, differences in internal levels of ABA between lines were not detected when grown in the absence of external ABA additions. It is concluded that differential nodule expression between the wild type and the hypernodulated mutant is not likely due to differential ABA synthesis.     

Effects of carbon dioxide concentration on the interactive effects of temperature and water vapour on stomatal conductance in soybean

Soybeans were grown at three CO₂ concentrations in outdoor growth chambers and at two concentrations in controlled-environment growth chambers to investigate the interactive effects of CO₂, temperature and leaf-to-air vapour pressure difference (LAVPD) on stomatal conductance. The decline in stomatal conductance with CO₂ was a function of both leaf temperature and LAVPD. In the field measurements, stomatal conductance was more sensitive to LAVPD at low CO₂ at 30 °C but not at 35 °C. There was also a direct increase in conductance with temperature, which was greater at the two elevated carbon dioxide concentrations. Environmental growth chamber results showed that the relative stomatal sensitivity to LAVPD decreased with both leaf temperature and CO₂. Measurements in the environmental growth chamber were also performed at the opposing CO₂, and these experiments indicate that the stomatal sensitivity to LAVPD was determined more by growth CO₂ than by measurement CO₂. Two models that describe stomatal responses to LAVPD were compared with the outdoor data to evaluate whether these models described adequately the interactive effects of CO₂, LAVPD and temperature.     

TGF-β isoforms inhibit hepatitis C virus propagation in transforming growth factor beta/SMAD protein signalling pathway dependent and independent manners

Transforming growth factor beta (TGF-β) plays an important role in the viral liver disease progression via controlling viral propagation and mediating inflammation-associated responses. However, the antiviral activities and mechanisms of TGF-β isoforms, including TGF-β1, TGF-β2 and TGF-β3, remain unclear. Here, we demonstrated that all of the three TGF-β isoforms were increased in Huh7.5 cells infected by hepatitis C virus (HCV), but in turn, the elevated TGF-β isoforms could inhibit HCV propagation with different potency in infectious HCV cell culture system. TGF-β isoforms suppressed HCV propagation through interrupting several different stages in the whole HCV life cycle, including virus entry and intracellular replication, in TGF-β/SMAD signalling pathway–dependent and TGF-β/SMAD signalling pathway–independent manners. TGF-β isoforms showed additional anti-HCV activities when combined with each other. However, the elevated TGF-β1 and TGF-β2, not TGF-β3, could also induce liver fibrosis with a high expression of type I collagen alpha-1 and α-smooth muscle actin in LX-2 cells. Our results showed a new insight into TGF-β isoforms in the HCV-related liver disease progression.