质粒YRP7的基本特性鉴定

质粒YRP7用氯霉素法扩增,碱变性裂解法提取,酸酚法及核糖核酸酶纯化后,得到了高产量(5.6mg/L培养液),高纯度(A260:A280=2.0)的质粒制品,经转化实验及酶切分析确定YRP7具有下列特征:大小为5.41±0.10kb,可赋予宿主细胞AmP~r、Tet~r的表型,对大肠杆菌C600的转化频率为10~(-6)、转化效率为1.5×10~6转化子/mgDNA。限制性内切酶BamH Ⅰ、ECoRⅠ、Hind Ⅲ及PstⅠ在其分子上的切点数分别为1、2、2、2,并确定了各酶切片段的分子大小,对BanHⅠ的单切点,经插入失活法证实其位于Tet~r的基因上。由上述特征可确定,质粒YRP7是一个比较理想的克隆载体。     

葡萄Actin基因家族的鉴定及进化和表达分析

采用生物信息学方法从葡萄(Vitis vinifera Linn.)全基因组中鉴定Actin基因家族,并对各基因的染色体定位和结构特征,编码蛋白质的理化性质、亚细胞定位、二级结构、三级结构和系统进化,以及不同组织的基因表达进行研究.结果表明:葡萄Actin基因家族16个基因分布在12条染色体上.16个基因的结构特征及其编码蛋白质的理化性质差异较大.16个基因的长度及其内含子总长度的变化范围较大,编码序列(CDS)和外显子总长度的变化范围较小.除登录号GSVIVG01008254001和GSVIVG01014035001的基因外,其他14个基因的GC含量均低于其CDS的GC含量.除登录号GSVIVG01008254001的基因外,其他15个基因编码的蛋白质的理论相对分子质量为12534.54~82612.33,理论等电点为pI 4.92~pI 9.13.16个基因编码蛋白质的消光系数为14105~73645,脂肪族氨基酸指数为65.54~92.06,其中9个为稳定蛋白,7个为不稳定蛋白.除登录号GSVIVG01014035001的基因外,其他15个基因编码的蛋白质均为亲水性蛋白.登录号GSVIVG01016517001的基因编码的蛋白质定位于细胞质和细胞核,其他15个基因编码的蛋白质定位于细胞质.二级结构和三级结构显示:葡萄Actin基因家族16个基因编码的蛋白质均由α螺旋、无规则卷曲和延伸链构成,且总体以无规则卷曲为主.系统进化分析和不同组织的基因表达分析结果显示:与拟南芥〔Arabidopsis thaliana(Linn.)Heynh.〕相似,葡萄Actin基因家族16个基因编码的蛋白质分为3个亚家族,ClassⅡ亚家族(营养型)包括登录号GSVIVG01003099001和GSVIVG01026580001的基因编码的蛋白质,这2个基因在所有组织中的表达均较高;ClassⅢ亚家族(生殖型)包括登录号GSVIVG01033494001、GSVIVG01024980001和GSVIVG01016550001的基因编码的蛋白质,这3个基因在花粉、雄蕊和花中的表达均较高;ClassⅠ亚家族包括其他11个基因编码的蛋白质,这11个基因在各组织中的表达总体上较低.研究结果显示:葡萄Actin基因家族的表达具有组织特异性.     

P21蛋白在不同级别宫颈组织中的表达及其与高危HPV感染相关性的研究

目的通过检测宫颈组织中p21waf基因表达与高危HPV感染的情况,研究P21蛋白与高危HPV感染在宫颈组织恶性转化过程中的作用及其相互关系。方法应用免疫组化检测P21蛋白及基因杂交捕获Ⅱ代技术(HC-Ⅱ)检测高危HPV在正常宫颈组、宫颈炎、宫颈上皮内瘤样病变(CIN)及宫颈癌组这4组中的表达情况。结果在正常宫颈组、宫颈炎、宫颈上皮内瘤样病变(CIN)、及宫颈癌组中P21的阳性表达率分别为11.8%、15.4%、39.1%和57.7%;高危HPV的阳性表达率分别为20%、23.5%、65.2%和88.5%,这两项指标在CIN、宫颈癌组有明显的升高趋势且与正常宫颈和宫颈炎两组相比差异具有显著性统计学意义(P<0.05);各级别宫颈组织中高危HPV阳性组的P21蛋白阳性率明显高于阴性组的P21蛋白阳性率。差异在统计学上具有显著性意义(P<0.05)。结论P21蛋白的表达和高危HPV感染与宫颈病变的恶化均有高度的相关性,其检出率和阳性表达率随着宫颈病变恶性程度的增加而升高。在CIN向宫颈癌恶性转化过程中,P21与高危HPV共同促进肿瘤的发生。     

Jasmonic acid carboxyl methyltransferase regulates development and herbivory‐induced defense response in rice

Jasmonic acid(JA) and related metabolites play a key role in plant defense and growth. JA carboxyl methyltransferase(JMT) may be involved in plant defense and development by methylating JA to methyl jasmonate(Me JA) and thus influencing the concentrations of JA and related metabolites. However, no JMT gene has been well characterized in monocotyledon defense and development at the molecular level. After we cloned a rice JMT gene,Os JMT1, whose encoding protein was localized in the cytosol, we found that the recombinant Os JMT1 protein catalyzed JA to Me JA. Os JMT1 is up-regulated in response to infestation with the brown planthopper(BPH; Nilaparvata lugens). Plants in which Os JMT1 had been overexpressed(oeJMT plants) showed reduced height and yield. These oe-JMT plants also exhibited increased Me JA levels but reduced levels of herbivore-induced JA and jasmonoyl-isoleucine(JAIle). The oe-JMT plants were more attractive to BPH female adults but showed increased resistance to BPH nymphs,probably owing to the different responses of BPH female adults and nymphs to the changes in levels of H_2O_2 and Me JA in oe-JMT plants. These results indicate that Os JMT1,by altering levels of JA and related metabolites, plays a role in regulating plant development and herbivore-induced defense responses in rice.     

葡萄SBP基因家族生物信息学分析

SBP(squamosa promoter binding protein,SBP)基因家族是植物所特有的一类重要转录因子,广泛参与植物生长、发育以及多种生理生化反应的信号传导。葡萄是继拟南芥、水稻和杨树之后完成全基因组测序的第四种开花植物,因此葡萄逐渐成为分子生物学研究的重点对象,进行葡萄基因组信息挖掘与分析对于葡萄功能基因组学的发展具有重要意义。本文利用生物信息学方法对葡萄家族45条SBP蛋白序列的系统发生和SBP基因组定位进行分析,然后对其氨基酸组成成分、理化性质以及二级和三级结构进行预测和分析,同时还分析了葡萄与拟南芥的SBP基因家族之间的联系。结果显示这45条蛋白序列与拟南芥16个SBP基因蛋白序列一起分成了3个亚族,说明拟南芥与葡萄SBP基因间具有较高的保守性;进一步的基因组定位结果发现其分布在14条染色体上,较拟南芥在染色体上的分布更为分散。研究还发现不同亚家族间氨基酸数目、氨基酸序列间的疏水性存在一定的差异;而二级结构预测结果发现,41条氨基酸序列以随机卷曲为主要组成部分,这与拟南芥相似,且45条氨基酸序列三维结构十分相似。本文实验结果均为葡萄SBP基因家族的进一步功能分析提供了重要研究基础。     

ERK and mTOR signaling couple beta-adrenergic receptors to translation initiation machinery to gate induction of protein synthesis-dependent long-term potentiation

beta-Adrenergic receptors critically modulate long-lasting synaptic plasticity and long-term memory in the mammalian hippocampus. Persistent long-term potentiation of synaptic strength requires protein synthesis and has been correlated with some forms of hippocampal long-term memory. However, the intracellular processes that initiate protein synthesis downstream of the beta-adrenergic receptor are unidentified. Here we report that activation of beta-adrenergic receptors recruits ERK and mammalian target of rapamycin signaling to facilitate long-term potentiation maintenance at the level of translation initiation. Treatment of mouse hippocampal slices with a beta-adrenergic receptor agonist results in activation of eukaryotic initiation factor 4E and the eukaryotic initiation factor 4E kinase Mnk1, along with inhibition of the translation repressor 4E-BP. This coordinated activation of translation machinery requires concomitant ERK and mammalian target of rapamycin signaling. Taken together, our data identify distinct signaling pathways that converge to regulate beta-adrenergic receptor-dependent protein synthesis during long-term synaptic potentiation in the hippocampus. We suggest that beta-adrenergic receptors play a crucial role in gating the induction of long-lasting synaptic plasticity at the level of translation initiation, a mechanism that may underlie the ability of these receptors to influence the formation of long-lasting memories.     

Cell expansion and microtubule behavior in ray floret petals of Gerbera hybrida: responses to light and gibberellic acid

It is still unclear how light and gibberellins are integrated to regulate petal size. Here, we report that light improves both the length and the width of the ray floret petals in G. hybrid, but GA(3) promotes only the petal length. It is also revealed that the control of the petal size by light and GA(3) depends on modulating the cell size, which is governed by the behavior of cortical microtubule.Light and gibberellins are important regulators of plant organ growth. However, little is known about their roles in petal size determination. Here, we report how light and gibberellic acid (GA(3)) signals are integrated to regulate the ray floret (Rf) size in Gerbera hybrida. The inflorescences of G. hybrida at stages 1.5 were cultivated in vitro for 9 d followed by the determination of the Rf petal size. Results demonstrated that the light signal significantly enhanced both the length and the width of Rf petals, but GA(3) promoted only the petal length. Moreover, GA(3) displayed a synergistic positive effect on the length but an antagonistic effect on the width with the light signal. Measurements of the petal cells revealed that the cell size, not the cell number, exhibited a dominant contribution to the petal size in response to light and GA(3) signals. Furthermore, light and GA(3) signals not only induced an obvious reorientation of cortical microtubules (MTs) into transverse arrays but also promoted the recovery of the MT lengths in petal cells following oryzalin (an MT depolymerizing agent) treatment. Importantly, disruption of the MT lengths and arrays by oryzalin could inhibit the cell expansion and the petal enlargement induced by light or/and GA(3) signals. Taken together, it is concluded that the control of the petal size by light and GA(3) signals mainly depends on modulating the cell size and, moreover, the organization of the cortical MTs plays a crucial role in the control of the cell size and hence the Rf petal growth.