PERMANENT GENETIC RESOURCES: A set of primer pairs for amplifying the complete mitochondrial DNA of endangered Chinese egret (Aves, Ardeidae, Egretta eulophotes)

The Chinese egret is a globally endangered species. Here we describe a set of primer pairs to amplify its entire mtDNA. The polymerase chain reaction products (1000–2000 bp) were successfully amplified by using this primer set and were then sequenced and aligned. The contiguous mtDNA sequences of the Chinese egret were assembled to be a circular molecule (17 579 bp). This primer set was also confirmed to be useful for six other species of ardeid birds. The versatility of this primer set will provide a groundwork for further studies on the genetic structure and molecular evolution of the ardeid species.     

高粱舟蛾发生规律与防治研究

高粱舟蛾Dinaracombusta (Walker)以幼虫取食玉米、高粱、甘蔗叶片。近年来 ,河北省正定、磁县、滦城等地危害夏玉米成灾。该虫在河北中南部每年发生 1代 ,以蛹在土中越冬 ,6月底至 7月上旬夏玉米田开始见卵 ,7月中下至 8月上旬为幼虫发生危害盛期。虫口密度与气象、天敌及食物因素有关。幼虫抗药性低 ,在夏玉米田采用高效氯氰菊酯乳油等低龄期防治 ,效果均在 90 %以上     

The role of blood flow and microRNAs in blood vessel development

The circulatory system is the first organ system that develops during embryogenesis, and is essential for embryo viability and survival. Crucial for developing a functional vasculature are the specification of arterial-venous identity in vessels and the formation of a hierarchical branched vascular network. Sprouting angiogenesis, intussusception, and flow driven remodeling events collectively contribute to establishing the vascular architecture. At the molecular level, arterial-venous identity and branching are regulated by genetically hardwired mechanisms involving Notch, vascular endothelial growth factor and neural guidance molecule signaling pathways, modulated by hemodynamic factors. MicroRNAs are small, non-coding RNAs that act as silencers to fine-tune the gene expression profile. MicroRNAs are known to influence cell fate decisions, and microRNA expression can be controlled by blood flow, thus placing microRNAs potentially at the center of the genetic cascades regulating vascular differentiation. In the present review, we summarize current progress regarding microRNA functions in blood vessel development with an emphasis on studies performed in zebrafish and mouse models.     

中国产龙葵数值分类的研究

本文通过对龙葵及变种黄果龙葵和少花龙葵的形态特征比较及系统聚类分析研究,认为可分为２个种及１个变种。     

幽门螺杆菌HspA融合蛋白口服疫苗的构建

构建表达幽门螺杆菌的保护性抗原分热休克蛋白A亚单位(HspA）和霍乱毒素B亚单位（CtxB）的重组融合蛋白的生物工程菌株,以此制备幽门螺杆菌的口服疫苗。用PCR方法扩增hspA和ctxB两个目的的基因片段,将它们分别克隆至pSK（＋）质粒上,然后插入含T7启动子ET－22b（＋）的表达载体中,构建嗓基因的表达质量pET－hct,转化E.coliBL21(DE3）,经IPTG诱导表达融合蛋白HCT。经测序,hspA-ctxB(hct)融合基因片段由726bp组成,可以编码242个氨基酸残基的多肽。经SDS－PAGE和免疫印迹分析检测发现,融合基因表达的蛋白质相对分子质量约为30kD。融合蛋白经镍离子柱纯化、复性后,和HspA共同标记同位素^125I,然后给小鼠灌胃,结果观察到HCT组小鼠血清中的^125I的放射量要明显高于HspA组（P＜0．001）,且吸收峰值时间明显提前。融合蛋白中的CtxB可明显促进小鼠对HspA的吸收,HCT融合蛋白可以作为预防和治疗幽门螺杆菌感染的侯选口服疫苗。     

甲羟戊酸通路对细胞生长调控作用的研究进展

甲羟戊酸(MVA)通路对细胞生长具有重要的调节作用,MVA及其衍生物通过对蛋白质异戊烯化和N糖基化修饰而影响Ras蛋白、生长因子及受体的功能、细胞内信号转导和细胞的生长。MVA通路参与血管活性物质生成的调节是其调节细胞生长的另一机制。MVA生成的限速酶羟甲基戊二酸单酰辅酶A(HMGCoA)则受MVA通路衍生物的反馈抑制。HMGCoA还原酶抑制剂通过抑制MVA及其衍生物的生成而抑制细胞的生长和增殖。     

Blockade of L-type voltage-gated Ca channel inhibits ischemia-induced neurogenesis by down-regulating iNOS expression in adult mouse

Neurogenesis in the adult mammalian hippocampus may contribute to repairing the brain after injury. The signals that regulate neurogenesis in the dentate gyrus following ischemic stroke insult are not well known. We have previously reported that inducible nitric oxide synthase (iNOS) expression is necessary for ischemia-stimulated neurogenesis in the adult dentate gyrus. Here, we show that mice subjected to 90 min of middle cerebral artery occlusion (MCAO) significantly increased the number of new neurons and up-regulated iNOS expression in the dentate gyrus. Blockade of the L-type voltage-gated Ca(2+) channel (L-VGCC) prevented neurogenesis in the dentate gyrus and subventricular zone (SVZ), and down-regulated iNOS expression in the dentate gyrus after cerebral ischemia. This study suggests that Ca(2+) influx through L-VGCC is involved in ischemia-induced neurogenesis by up-regulating iNOS expression.     

工业微生物中NADH的代谢调控

NADH是微生物代谢网络中的一种关键辅因子。调节微生物胞内NADH的形式与浓度是定向改变和优化微生物细胞代谢功能, 实现代谢流最大化、快速化地导向目标代谢产物的重要手段之一。以下在详尽总结了NADH生理功能的基础上, 从生化工程(添加外源电子受体、不同氧化还原态底物及NAD合成前体物, 调节培养环境和氧化还原电势)和代谢工程(过量表达NADH代谢相关酶、缺失NADH竞争途径及引入NADH外源代谢途径)两方面分析、归纳了NADH代谢调控策略, 进而凝练出调控NADH/NAD+比率调节微生物细胞代谢功能研究方面亟待解决的3个科学问题及可能的解决途径。     

Profilin I attached to the Golgi is required for the formation of constitutive transport vesicles at the trans-Golgi network

Profilin I was identified, by mass spectrometric sequencing and immunoblotting, as a component of purified Golgi cisternae from HepG2 cells. Binding to the Golgi was verified by indirect immunofluorescence in MT-1 cells showing that a fraction of profilin I colocalizes with TGN38, a marker of the trans-Golgi network (TGN). Studying the formation of constitutive exocytic vesicles at the TGN in a cell-free system demonstrated that cytosolic profilin I has no effect, while incubation of Golgi cisternae with a profilin I-specific antibody reduced vesicle formation by about 50%. Notably, the antibody displaces a fraction of the Golgi-bound dynamin II indicating that profilin I may indirectly promote vesicle formation by supporting the binding of dynamin II to the Golgi membrane. The impact of dynamin II on vesicle formation is demonstrated by incubating the Golgi with the proline-rich domain of dynamin II which concomitantly displaces dynamin II and inhibits vesicle formation. The data provide evidence that profilin I attaches to the Golgi apparatus and is required for the formation of constitutive transport vesicles.