Mechanism of activation of 1,2-dehydro-N-acetyldopamine for cuticular sclerotization

The mechanism of oxidation of 1,2-dehydro-N-acetyldopamine (dehydro NADA) was examined to resolve the controversy between our group and Andersen's group regarding the reactive species involved in β-sclerotization. While Andersen has indicated that dehydro NADA quinone is the β-sclerotizing agent [Andersen, 1989], we have proposed quinone methides as the reactive species for this process [Sugumaran, 1987; Sugumaran, 1988]. Since dehydro NADA quinone has not been isolated or identified till to date, we studied the enzymatic oxidation of dehydro NADA in the presence of quinone traps to characterize this intermediate. Accordingly, both N-acetylcysteine and o-phenylenediamine readily trapped the transiently formed dehydro NADA quinone as quinone adducts. Interestingly, when the enzymatic oxidation was performed in the presence of o-aminophenol or different catechols, adduct formation between the dehydro NADA side chain and the additives had occurred. The structure of the adducts is in conformity with the generation and reactions of dehydro NADA quinone methide (or its radical). This, coupled with the fact that 4-hydroxyl or amino-substituted quinones instantly transformed into p-quinonoid structure, indicates that dehydro NADA quinone is only a transient intermediate and that it is the dehydro NADA quinone methide that is the thermodynamically stable product. However, since this compound is chemically more reactive due to the presence of both quinone methide and acylimine structure on it, the two side chain carbon atoms are “activated.” Based on these considerations, it is suggested that the quinone methide derived from dehydro NADA is the reactive species responsible for cross-link formation between dehydro NADA and cuticular components during β-sclerotization.     

兴安落叶松结实规律与长短枝习性的关系

1987年5月,大兴安岭林区发生的特大森林火灾,实属世界罕见,火灾面积达1.0×10~6ha 多。大量的火烧迹地亟待更新、无论是人工更新还是人工促进天然更新,其中关键的问题之一是种子的来源,在大兴安岭地区,兴     

长白山常绿针叶树越冬期间光合能力的抑制

在长白山地区以红皮云杉、樟子松为材料,研究其冬季光合能力的变化,探讨了除红松外的其它针叶树是否在冬季也存在光合抑制以及遮荫是否可减轻抑制等问题,结果表明,红皮云杉、樟子松有与红松相似的冬季光合抑制,但程度较轻;遮荫对减轻光合抑制非常有效,可以推测,在长白山地区或冬季气候与之相似的地区,常绿针叶树在冬季均可能表现光合抑制,遭受冬季光氧化伤害,并且其释放的ＣＯ２（光越强,释放量越大）是空气中ＣＯ２含量     

辽宁省西部棘蝇属一新种：双翅目：蝇科

本文记述于辽宁朝阳市采到的棘蝇属１新种：辽西棘蝇Ｐｈａｏｎｉａｌｉａｏｓｈｉｅｎｓｉｓ ｓｐ．ｎｏｖ。模式标本存辽宁朝阳市卫生防疫站。     

河南木兰属9种植物过氧化物同工酶分析

本文采用聚丙烯酰胺凝胶电泳系统,测定了河南木兰属8种、1变种50多份的成熟叶片材料的过氧化物同工酶酶谱。测定结果表明,该属植物9种、变种的酶谱均有差异性,每种、变种均有特征酶谱,种间酶谱显著大于种内酶谱,根据其酶谱差异性,可以进行生物种、变种的鉴别和良种的选择。为免除其酶带Rf单一指标,鉴别生物种、变种可能出现的问题,作者创立了"酶谱多指标综合判断距离法"分析技术,首次将该属植物种、变种酶谱的酶带数目、Rf、酶带宽度及其活性强弱4个因子的差异性,进行编码联机、电脑运算分析,其结果与该属玉兰亚属内的玉兰派和辛夷派的形态分类相吻合。但是,从酶学观点不支持椭圆叶玉兰作为独立种的存在,以作为河南玉兰的变种为宜,也不支持河南玉兰派和腋花玉兰派的成立,以并入辛夷派为佳。     

Triterpenoids from Meehania fargesii with Cytotoxic Activity1

In the investigation of Meehania fargesii, eighteen triterpenoids were isolated and identified, including a previously unknown compound with an 13,27-cycloursane skeleton, using techniques like 1D and 2D NMR, and HR-MS. Furthermore, the cytotoxicity of these compounds were evaluated against HCT116, MCF-7, and AGS cell lines using the CCK-8 method to examine their structure–activity relationship. Remarkably, compounds 13 and 16 exhibited higher cytotoxicity across all three cell lines compared to the positive drug. Western blot analysis revealed that these compounds activated apoptosis in HCT116 cells by promoting the Bax protein and inhibiting the Bcl-2 protein. This suggests that compounds 13 and 16 have potential as apoptosis-inducing agents in HCT116 cells.