Survivin is essential for fertile egg production and female fertility in mice

Survivin is the smallest member of the inhibitor of apoptosis protein (IAP) family and acts as a bifunctional protein involved in mitosis regulation and apoptosis inhibition. To identify the physiological role of Survivin in female reproduction, we selectively disrupted Survivin expression in oocytes and granulosa cells (GCs), two major cell types in the ovary, by two different Cre-Loxp conditional knockout systems, and found that both led to defective female fertility. Survivin deletion in oocytes did not affect oocyte growth, viability and ovulation, but caused tetraploid egg production and thus female infertility. Further exploration revealed that Survivin was essential for regulating proper meiotic spindle organization, spindle assembly checkpoint activity, timely metaphase-to-anaphase transition and cytokinesis. Mutant mice with Survivin depleted in GCs showed reduced ovulation and subfertility, caused by defective follicular growth, increased follicular atresia and impaired luteinization. These findings suggest that Survivin has an important role in regulating folliculogenesis and oogenesis in the adult mouse ovary.     

Structural insight into the transmembrane segments 3 and 4 of the hERG potassium channel

The hERG (human ether‐a‐go‐go related gene) potassium channel is a voltage‐gated potassium channel containing an N‐terminal domain, a voltage‐sensor domain, a pore domain and a C‐terminal domain. The transmembrane segment 4 (S4) is important for sensing changes of membrane potentials through positively charge residues. A construct containing partial S2–S3 linker, S3, S4 and the S4–S5 linker of the hERG channel was purified into detergent micelles. This construct exhibits good quality NMR spectrum when it was purified in lyso‐myristoyl phosphatidylglycerol (LMPG) micelles. Structural study showed that S3 contains two short helices with a negatively charged surface. The S4 and S4–S5 linker adopt helical structures. The six positively charged residues in S4 localize at different sides, suggesting that they may have different functions in channel gating. Relaxation studies indicated that S3 is more flexible than S4. The boundaries of S3–S4 and S4–S4–S5 linker were identified. Our results provided structural information of the S3 and S4, which will be helpful to understand their roles in channel gating. Copyright © 2014 European Peptide Society and John Wiley & Sons, Ltd.     

南五味子属(五味子科)三种植物之补记

报道南五味子属Kadsura的黑老虎K. coccinea (Lem.) A. C. Smith在印度尼西亚的分布新记录,毛南五味子K. induta A. C. Smith在中国贵州的分布新记录,冷饭藤K. oblongifolia Merrill在中国福建和台湾以及越南的分布新记录,补充或纠正了前人对毛南五味子的形态描述,取消了Saunders对海南黑老虎K. hainanensis Merrill和冷饭藤所作的后选模式。     

2,4-二氯苯酚的矿物表面化学行为研究

矿物质是土壤中的重要组成成分,本实验采用动态反应和平衡反应研究氧化物矿物表面2,4-二氯苯酚(2,4-DCP)的化学行为.结果表明,无定形铁氧化物、针铁矿、α-MnO₂、δ-MnO₂对自然的或外源的有机化合物有较强的氧化能力,其中对2,4二氯苯酚的氧化能力是:δ-MnO₂αMnO₂>无定形铁氧化物、针铁矿.采用分段法估算反应系统的速率,发现氧化锰氧化2,4-二氯苯酚的反应速率是氧化铁的3～50倍,δ-MnO₂氧化2,4-二氯苯酚的速率是α-MnO₂的1.5～3.2倍.根系分泌物由于参与氧化物表面化学反应,对系统2,4-二氯苯酚的氧化过程产生一定影响,α-MnO₂加入根系分泌物后,2,4-二氯苯酚在溶液中的消减速率明显减慢,δ-MnO₂则相反,在根系分泌物共存下溶液中的2,4-二氯苯酚的转化率增加.Cu复合共存可能影响2,4二氯苯酚在矿物表面的键合氧化过程,其中δ-MnO₂对铜吸附能力大于αMnO₂,Cu复合共存对δMnO₂表面2,4-二氯苯酚的氧化影响较大.     

不同填埋工艺对填埋气产生动态变化的影响

依据厌氧、准好氧填埋原理构建了填埋试验装置,对准好氧填埋CH₄、O₂浓度的动态变化进行了监测,并与厌氧填埋结构CH₄的浓度变化进行了比较.结果表明,准好氧填埋方式下、厌氧填埋方式下CH₄的平均浓度变化范围分别为7%～13%、35%～50%;准好氧填埋结构有利于减少CH₄气体的产生;CH₄浓度在准好氧填埋、厌氧填埋方式下都表现出明显的空间层次效应,呈现出下层>中层>上层的规律性;准好氧填埋结构的O₂浓度呈现上层>中层>下层的规律性.     

Biochemical specialization within Arabidopsis RNA silencing pathways

In plants, the RNA silencing machinery responds to numerous inputs, including viral infection, microRNAs, and endogenous siRNAs that may act both in trans and in cis. Additionally, the full spectrum of silencing outcomes has been demonstrated in plants, ranging from mRNA degradation to repression at the level of protein synthesis to chromatin remodeling. Genetic studies in Arabidopsis have indicated that individual response pathways are functionally compartmentalized. However, to date, no biochemical systems have been available to investigate the roles of specific proteins within silencing pathways or the effects of selected mutations on the biochemical activity of those components. Here, we describe the generation of Arabidopsis extracts that reproduce many aspects of RNA silencing reactions in vitro. We find that specific members of the Dicer and Argonaute families have distinct biochemical activities, which provides insight into their roles within RNA silencing pathways in Arabidopsis.     

KNOCKDOWN OF THE IONOTROPIC γ‐AMINOBUTYRIC ACID RECEPTOR (GABAR) RDL GENE DECREASES FIPRONIL SUSCEPTIBILITY OF THE SMALL BROWN PLANTHOPPER,Laodelphax striatellus (HEMIPTERA: DELPHACIDAE)

Insect γ‐aminobutyric acid receptors (GABARs) are important molecular targets of cyclodiene and phenylpyrazole insecticides. Previously GABARs encoding rdl (resistant to dieldrin) genes responsible for dieldrin and fipronil resistance were identified in various economically important insect pests. In this study, we cloned the open reading frame cDNA sequence of rdl gene from fipronil‐susceptible and fipronil‐resistant strains of Laodelphax striatellus (Lsrdl). Sequence analysis confirmed the presence of a previously identified resistance‐conferring mutation. Different alternative splicing variants of Lsrdl were noted. Injection of dsLsrdl reduced the mRNA abundance of Lsrdl by 27–82%, and greatly decreased fipronil‐induced mortality of individuals from both susceptible and resistant strains. These data indicate that Lsrdl encodes a functional RDL subunit that mediates susceptibility to fipronil. Additionally, temporal and spatial expression analysis showed that Lsrdl was expressed at higher levels in eggs, fifth‐instar nymphs, and female adults than in third‐instar and fourth‐instar nymphs. Lsrdl was predominantly expressed in the heads of 2‐day‐old female adults. All these results provide useful background knowledge for better understanding of fipronil resistance related ionotropic GABA receptor rdl gene expressed variants and potential functional differences in insects.     

核微管组织中心的研究

本文利用间接免疫荧光手段对间期核微管组织中心的性质进行了初步探讨。当分离核与6S微管蛋白保温后,用抗管蛋白抗体进行间接免疫荧光染色,在群体中只有极少数核上有微管生长。Triton X-100或溶血卵磷脂去膜核的实验证实能长微管的核是核膜缺失或破损核。用秋水仙素解聚核上长出的微管,可见核内荧光亮点数多于染色体数,说明核内微管组织中心数目多于着丝粒数,很可能包括着丝粒和一部分染色质颗粒。将秋水仙素和6S微管蛋白混合后与去膜核保温,结果6S微管蛋白与核内微管组织中心有亲和力。本文就这些结果进行了讨论。     

白花滨海前胡——滨海前胡1新变型

报道了前胡属（Peucedanum）1新变型——白花滨海前胡（Peucedanum japonicum f.album）,新变型与原变型的区别在于：花白色;而原变型花色为紫色。     

粟酒裂殖酵母N-糖酰胺酶在大肠杆菌中的表达、纯化及活性分析

根据GenBank中公布的粟酒裂殖酵母(Schizosaccharomyces pombe)N-糖酰胺酶(Png1p)cDNA序列, 设计并合成一对特异性引物, 利用RT-PCR技术从粟酒裂殖酵母中克隆出糖酰胺酶cDNA。将得到的基因克隆到表达载体pET-15b中。重组质粒转入大肠杆菌BL21(DE3)中, 经诱导表达和纯化提取后, 进行酶活测定。实验结果表明, 该酶的分子量约为39 kD, 纯化后的重组N-糖酰胺酶可以对变性处理的糖蛋白进行糖链的切除, 且这种作用需要还原剂DTT的辅助作用; N-糖酰胺酶只对错误折叠的糖蛋白有作用, 对天然的糖蛋白没有作用。等量粟酒裂殖酵母Png1p在不同温度、pH、DTT浓度和底物变性温度下对等量核糖核酸酶B(RNase B)的脱糖基化检测发现, 重组酶的最适反应温度30°C, 最适反应pH为7.0, 需要的最适DTT浓度为10 mmol/L, 底物在100°C处理10 min时酶的脱糖基化率最高。