NIH／3T3，C-11细胞基因文库的构建以及成纤维蛋白质DNA片段克隆的分离

本文以λAGTl0为载体,用两种不同的方法建立了NIH／3T3,C-11细胞基因文库,所得重组子值分别为：6×10⁵pfu,2.5x10⁶pfu,1.8x10⁶Pfu,1.4×10⁶pfu均超过了建库要求的理论值。并且从C-11细胞基因文库中分离出成纤维蛋白质DNA片段克隆,使得这-DNA片段竞隆到PBR322质粒中。     

药用植物肿节枫诱导前噬菌体有效组分的分析

在11种溶原性细菌系统中,以双层琼脂平板-纸片法检测药用植物肿节枫对前噬菌体的诱导作用,表明温和性噬菌体φ52 Ⅰ溶原化的金黄色葡萄球菌2009,对肿节枫的诱导反应最为敏感。其它溶原性菌株,包括曾用以筛选抗肿瘤药物的大肠杆菌K_(12)(λ)-K_(12)S系统都呈阴性反应。化学成分的进一步分析说明,仅肿节枫黄酮糖苷组分Ⅰ具有诱导活性。并与丝裂霉素C作了比较。     

白喉毒素的双重溶原性转换的研究

从白喉噬菌体β和r杂交,分离得到一株白喉噬菌体的重组子一、具有亲代噬菌体β产生毒紊的溶原性转换能力,即带有β的毒素基因(tox)和噬菌体r的溶原性免疫性的特征。该噬菌体再感染单溶原性产毒菌株C7(β),得到双重溶原性菌株,携带了两个前噬菌体及其所带有的两个毒素基因,菌株产毒能力单溶原性亲代株高。     

噬菌蛭弧菌简易保存方法的研究

本文报道了噬菌蛭弧菌在自来水宿主软琼脂中,于4℃环境(冰箱)存活的时间.发现噬菌蛭弧菌在自来水宿主软琼脂中,于4℃冰箱中保存,至少可以存活3个月以上,一般为5～8个月左右,最长时间可达18个月。但在自来水宿主双层琼脂平板上形成的噬斑数目,随着保存时间的延长,则有不同程度的减少。     

磁共振谱在肿瘤细胞生物学及抗肿瘤药物研究中的应用

磁共振谱对生物体无损伤性,无破坏性,对化学反应无干扰性,在医学生物学领域得到了广泛应用。本文介绍磁共振谱中的１Ｈ、１３Ｃ、１９Ｆ、３１Ｐ谱在细胞生物学研究中的应用和方法学。另外还介绍了目前３１Ｐ谱在肿瘤细胞生物学和抗肿瘤药物研究中的应用。     

中国沿海代表性河口地区鳗苗群体形态特征的比较研究

本文报道了１９９２—１９９４年连续３年采自海南至辽宁（包括台湾）沿海７个代表性河口地区鳗苗群体的主要形态特征比较研究结果。４项计数性状和３项度量性状,差异系数分析结果未达到亚种差异水平;判别函数显示,大多数群体间存在显著差异,这种差异应源于遗传变异。各年差异变化无规律,可能与鳗苗漂游分布的随机性有关。     

孔药花属(鸭跖草科)的核型研究

本文首次对鸭跖草科孔药花属Porandra Hong进行染色体研究。孔药花P．ramosa Hong和攀缘孔药花P．scandens Hong在染色体的大小、数目和形态上都十分相似,核型公式为2n＝36＝4m+26sm+6st(2sat),核型类型属于3B。染色体证据支持孔药花属与穿鞘花属Amischotolype和Coleotrype属相近的观点。     

国产7种乌头属植物的核型研究

本文报道了国产7种乌头属植物（两色乌头（Aconitum alboviolaceum Kom.,牛扁 A.barbartum var.puberulum Ledeb.,蔓乌头A.volubile Pall.,展毛蔓乌头 A.ciliare DC.,北乌头 A.kusnezoffii Reichb.,蒿叶乌头 A.artemisiaefolium Bar.et Skv.,细叶乌头 A.macrorhgnchum Turcz.）的核型。其中展毛蔓乌头、蒿叶乌头和细叶乌头的核型为首次报道。本文还首次指出乌头属中具多年生根状茎的牛扁亚属植物的核型没有明显的二型性,而具二年生块根的乌头正属植物的核型的二型性十分明显。此外还讨论了细叶乌头及展毛蔓乌头的系统位置,认为它们与蔓乌头有较近的亲缘关系。     

理解运动行为抑制调控的新视角：乙酰胆碱门控氯离子通道受体

Acetylcholine, the first identified neurotransmitter, plays crucial roles in various brain functions. One well-known case is its involvement as an activating neurotransmitter in the regulation of locomotion. However, its inhibitory regulatory role, particularly in locomotion, remains poorly understood. In a study conducted by Polat et al., the authors investigated the inhibitory role of acetylcholine in locomotion in C. elegans. In this organism, the acetylcholine-gated chloride channel receptor consists of four subunits. The authors thoroughly examined the loss-of-function of each subunit in movement regulation. Interestingly, the mutant worms were still capable of performing various movements such as forward, backward crawling, and turning, suggesting that the overall movement was not significantly affected. However, quantitative behavior analysis revealed subtle yet significant differences in the timing and postures of the movement in these mutants. Furthermore, the authors employed optogenetics to stimulate a specific neuron involved in backward crawling and demonstrated that the loss-of-function of the receptors in individual neurons affects the transitioning between locomotion modes. This work provides evidence for the inhibitory regulatory role of acetylcholine in locomotion. The loss-of-function of acetylcholine-gated chloride channel receptors likely disrupts the balance of neuronal and circuit physiology, thereby affecting the regulation of locomotion. Moreover, this study highlights the powerful role of quantitative behavior analysis in discovering and understanding more sophisticated functions of neural circuits.