植物木质素合成调控与生物质能源利用

植物木质素生物合成调控研究已在造纸树种与饲草品质的改良中取得了许多进展。随着对木质纤维原料乙醇发酵研究的兴起, 植物木质素合成调控再次成为研究热点。该文总结了目前生物质能源利用的现状, 同时针对木质素在木质纤维乙醇发酵中的限制作用, 综述了近年来植物木质素合成调控的研究进展, 提出了今后的研究方向和内容, 并展望了木质素合成调控在木质纤维乙醇发酵中的应用。     

microRNA参与植物次生代谢与非生物胁迫的调控

微RNA(microRNA,miRNA)为广泛存在于真核生物中的约16 ～ 29个核苷酸长度的内源非编码单链RNA分子,在植物中参与细胞增殖、分化、代谢、器官形成以及抵御盐、温度、干旱、重金属胁迫等方面的调节.植物miRNA主要通过对靶基因降解或抑制靶基因的表达,影响植物的生长发育.目前对miRNA的产生与调控方式的研...     

CD4+CD25+调节性T细胞作用机制的双模式

CD4 CD25 调节性T细胞是具有免疫抑制功能的细胞群,在多种生理病理过程中发挥了重要作用。它们的作用机制主要包括细胞-细胞接触依赖和可溶性细胞因子介导两种抑制模式。由于CD4 CD25 调节性T细胞的抑制机制复杂,争议较大,进一步阐明它们的作用机制将有利于多种免疫相关疾病的防治。     

关于征求《生物化学与分子生物学名词》修正意见的说明(续)

上期的《生命的化学》（25卷6期）已公示的《生物化学与分子生物学名词》（以下简称《名词》）有5个专题,包括：[01]总论;[02]蛋白质与多肽;[03]酶;[04]核苷酸、核酸、基因;[05]基因表达与调控。本期再将《名词》余下的7个专题的定名刊登公示。与上期一样,其中1990年《全国自然科学名词审定委员会》已公布的名词,一般不再公示,除个别词条需再次强调,或定名稍有不同的（用“（＊）”表示）外;由常用词组成的复合词选其部分公示。另外．这7个专题定名中的“学名”部分不再列入。     

用生物信息学方法寻找肝癌特异性表达基因转录调控模式

为了对肝癌(hepatocellularcarcinoma,HCC)的分子发病机理进行研究,首先对肝癌基因表达谱数据用t-检验算法进行了分析,找到了肝癌中特异性表达基因(characteristicgenes).然后把这些基因结合已知的肝HNF家族转录因子染色质免疫共沉淀结合DNA启动子芯片(ChIP-chip)实验数据用SAEM算法进行分析,得到了肝癌特异性表达基因的转录调控关系,并寻找到了多个HNF家族转录因子调控单基因的转录调控模式.结果表明HNF家族转录因子对大量具有重要功能的肝癌特异性表达基因进行了转录调控,并且多个HNF家族转录因子调控单基因可以形成前馈环和多输入调控等模式.     

鼻咽癌癌变的分子机理

鼻咽癌是一种多基因遗传性肿瘤,在中国南方和国外中国南方移民及后裔中发病率极高,严重危害了我国南方地区人民生命健康.对于这样一种具有明显民族聚集现象和地域差异的恶性肿瘤,目前认为其病理发病机制与遗传和环境因素的共同作用密切相关.现主要阐述鼻咽癌作为一种多基因遗传性肿瘤的病因发病机制,初步建立鼻咽癌易感基因群的概念和鼻咽癌发生发展过程中易感基因群主导的多阶段性多米诺骨牌效应分子机制假说,为寻找鼻咽癌遗传易感风险因子,筛选鼻咽癌高危人群以及探索鼻咽癌靶向性及个体化的诊断和治疗手段奠定实验与理论基础.     

蚂蚁和紫胶蚧互利关系中的行为机制

研究了云南元江蚂蚁与紫胶蚧互利关系。结果表明,紫胶蚧寄生能招致互利共生的蚂蚁光顾。紫胶蚧寄生前后,蚂蚁造访久树的频率分别是3.5和11.2次.min-1,单枝上蚂蚁数量分别为3~8和11~23头,苏门答腊金合欢上活动的蚂蚁种类有部分差异,而久树上则完全不同。蚂蚁无取食紫胶蚧幼虫和驱赶或干扰其天敌的行为,蚂蚁光顾有利于紫胶蚧正常生长,对紫胶蚧的生殖力不产生显著影响,但增加泌胶量和虫体重。与紫胶蚧互利共生的蚂蚁有一定特异性,但随着不同时期、地区有一定差异。蚂蚁和紫胶蚧互利关系中的行为机制不是简单地提供和利用蜜露,蚂蚁喜欢取食刚刚分泌的蜜露,寄主植物的代谢生理、蜜露所含成分比例的变化影响蚂蚁和紫胶蚧的互利共生关系。     

Phagocytosis of optically-trapped particles： delivery of the pure phagocytic signal

Phagocytosis is a fundamental cell biological process exhibited by a wide variety of cell types from single cell organisms, which rely on this for feeding, to phagocytes in higher animals, which rely on specialised immune cells for combating infecting micro-organisms. In the immune system, both macrophages and neutrophils play roles as phagocytes. Neutrophils are often called ＂professional phagocytes＂ because of their remarkable capacity for phagocytosis, being able to intemalise microscopic particles （diam 0.5-3 μm） of virtually any surface material. The efficiency and speed of phagocytosis is, however, increased by coating the surface of the particles with opsonins such as antibodies or the complement component C3bi （acting on J32 integrin receptors）, and C3bi-accelerated phagocytosis by neutrophils is the first line of defence by the innate immune system in vivo, operating in advance of the slower production of antibodies. Understanding the mechanism ofphagocytosis is, therefore, clearly an important goal.     

ABC transporters, neural stem cells and neurogenesis--a different perspective

Stem cells intrigue. They have the ability to divide exponentially, recreate the stem cell compartment, as well as create differentiated cells to generate tissues. Therefore, they should be natural candidates to provide a renewable source of cells for transplantation applied in regenerative medicine. Stem cells have the capacity to generate specific tissues or even whole organs like the blood, heart, or bones. A subgroup of stem cells, the neural stem cells （NSCs）, is characterized as a self-renewing population that generates neurons and glia of the developing brain. They can be isolated, genetically manipulated and differentiated in vitro and reintroduced into a developing, adult or a pathologically altered central nervous system. NSCs have been considered for use in cell replacement therapies in various neurodegenerative diseases such as Parkinson＇s disease and Alzheimer＇s disease. Characterization of genes with tightly controlled expression patterns during differentiation represents an approach to understanding the regulation of stem cell commitment. The regulation of stem cell biology by the ATP-binding cassette （ABC） transporters has emerged as an important new field of investigation. As a major focus of stem cell research is in the manipulation of cells to enable differentiation into a targeted cell population; in this review, we discuss recent literatures on ABC transporters and stem cells, and propose an integrated view on the role of the ABC transporters, especially ABCA2, ABCA3, ABCB 1 and ABCG2, in NSCs＇ proliferation, differentiation and regulation, along with comparisons to that in hematopoietic and other stem cells.     

动物病毒诱导的细胞凋亡及其生理意义

细胞凋亡是指细胞受到内外信号刺激时发生的一种由细胞内部基因控制的主动性死亡行为,是细胞内在的机制,也是决定生物个体发育和组织平衡的一个重要机制,对于抵御外界各种因素干扰起着非常关键的作用。它呈现一系列典型的生化和形态学特征,如染色质凝集、趋边化以及凋亡小体(ap