集胞藻6803的混合培养——光照强度和葡萄糖的影响

利用摇瓶研究了混合营养条件下单细胞蓝藻集胞藻6803(Synechocystissp.PCC6803)的生长特性,以及葡萄糖和光照强度对集胞藻6803生长的影响。实验结果表明,在葡萄糖消耗完之前,集胞藻6803的混合营养型生长处于对数生长期,且葡萄糖浓度及光照强度都对集胞藻6803的混合营养型生长有显著影响:在初始葡萄糖浓度097～480g/L范围内,同一光照强度培养下藻细胞的比生长速率随葡萄糖浓度的增大而降低;而在光照强度15～55μE·m^-2·s^-1范围内,初始葡萄糖浓度相同条件下藻细胞的比生长速率及对葡萄糖的藻体得率都随光照强度的增强而增大,但当光照强度在55～96μE·m^-2·s^-1时,集胞藻6803混合培养的比生长速率基本不变,出现了光饱和现象。     

集胞藻Synechocystissp.PCC6803利用葡萄糖生长与光合能量转化的关系

用PAM叶绿素荧光仪测定了饥饿细胞、光自养细胞和混合营养细胞的叶绿素荧光 ,并对 3种类型细胞的荧光参数 :PSⅡ实际光化学效率 φⅡ和还原型质醌Q-A 进行了比较。用双重转盘磷光机测定了光自养细胞和混合营养细胞的毫秒延迟发光。根据叶绿素荧光动力学分析和毫秒延迟发光的结果及光合电子传递抑制剂 3,4_二氯苯基二甲脲 (DCMU)、二溴百里香醌 (DBMIB)对集胞藻 6 80 3(Synechocystissp .PCC 6 80 3)混合营养生长影响进行了分析 ,集胞藻 6 80 3混合营养培养的生长速率显著高于光自养培养的原因可能在于一是外源葡萄糖没有抑制反而是促进了混合营养细胞的光自养生长 ,二是呼吸基质向质醌库提供电子 ,使光合机构的能量转化加强 ,从而促进了集胞藻6 80 3细胞的利用葡萄糖的合成代谢。     

集胞藻PCC6803 中relA/spoT 同源基因syn-rsh (slr1325)的鉴定

[目的]四磷酸或五磷酸鸟苷(Guanosine 3′,5′-bispyrophosphate,(p)ppGpp)是细菌在遭遇环境胁迫时细胞产生应激反应的信号分子,(p)ppGpp由其合成酶RelA或具有合成酶或水解酶双重催化功能的RelA/SpoT合成.本文证明了集胞藻PCC6803(Synechocystis sp.)中唯一编码RelA/SpoT同源蛋白(命名为Syn-RSH)的基因slr1325(syn-rsh)的功能.[方法]通过互补试验证明syn-rsh表达产物的生物学功能;以纤维素薄层层析检测不同条件下Escherichia coli(p)ppGpp合成缺陷突变株及集胞藻PCC6803细胞中的(p)ppGpp.[结果]诱导Syn-RSH表达可使(p)ppGpp合成酶和水解酶基因缺失的E.coli突变株回复野生型表型,并在细胞中积累一定水平的ppGpp;在实验室培养条件下,集胞藻PCC6803细胞中可检测到低水平的ppGpp,氨基酸饥饿可诱导ppGpp水平升高并维持在相应水平.[结论]Syn-RSH具有(p)ppGpp合成酶和水解酶的双重功能,(p)ppGpp是集胞藻PCC6803在实验室生长条件下细胞生长所必需的.     

集胞藻PCC 6803中丝氨酸/苏氨酸激酶SpkC对高温胁迫的响应

丝氨酸/苏氨酸激酶是蓝藻感知和转导外界刺激的重要元件,但至今蓝藻中很多丝氨酸/苏氨酸激酶的功能尚属未知。【目的】研究集胞藻PCC6803中的丝氨酸/苏氨酸激酶Spk C是否参与对高温胁迫的响应。【方法】本研究采用同源重组的方法构建spC基因完全敲除突变株,检测突变株与野生株在高温胁迫下的生长状况、色素组成,并对高温胁迫下叶绿素荧光参数差异进行分析,比较光合系统Ⅱ活性差异。此外,通过测定生长速率来判断高温胁迫后藻株的恢复情况。【结果】经过42℃高温胁迫后,与野生株相比,突变株ΔspkC生长减缓,光合色素(叶绿素、类胡萝卜素和藻胆色素)的含量降低;45℃高温胁迫下突变株ΔspkC的光合系统Ⅱ活性下降幅度更大;经过5 d 42℃高温处理后,突变株生长几乎停滞,存活率较野生株明显降低。【结论】集胞藻PCC 6803中spkC基因的缺失导致突变株对高温胁迫响应出现缺陷,提示丝氨酸/苏氨酸激酶SpkC参与响应高温胁迫。     

细胞周期蛋白依赖性激酶抑制剂Roscovitine对3种蓝藻生长和活性的影响

为了明确蓝藻中丝氨酸/苏氨酸激酶的功能是否与调控细胞的生长分裂相关,以丝状鱼腥藻7120、单细胞集胞藻6803和聚球藻7002为对象,利用OD750光吸收测定和MTT方法研究了不同浓度丝氨酸苏氨酸激酶抑制剂roscovitine对其生长和脱氢酶活性的影响。结果表明:4 h roscovitine处理后对鱼腥藻7120和集胞藻6803生长量影响不大,对聚球藻7002的生长有促进作用。4 h roscovitine的处理对鱼腥藻7120有浓度依赖的显著抑制活性,对集胞藻6803的活性无影响,但是却促进聚球藻7002的活性。药物作用4 d后,7120的生长和活性均显著降低,并有浓度效应;6803的生长量较对照减少,但活性变化不明显;聚球藻7002的生长和活性均未受影响。显微观察结果显示,roscovitine对3种细胞形态没有影响,但药物作用4 d后的7120藻丝体较短。结果表明丝氨酸/苏氨酸抑制剂roscovitine影响丝状藻7120的生长和活性。     

ClpP2蛋白失活对集胞藻PCC6803生长、光合作用和蛋白质组的影响

【背景】蛋白酶能够降解细胞中错误折叠或是无功能的蛋白,Clp家族蛋白就是一类重要的蛋白酶复合物。Clp蛋白酶复合物的水解核心是ClpP,集胞藻PCC6803中存在4种不同的ClpP蛋白,分别为ClpP1-ClpP4。作为重要的蛋白水解复合物的功能组分,目前对集胞藻ClpP的研究十分有限,对其生理功能与调控底物的研究甚少。【目的】选择集胞藻为研究对象探究ClpP2蛋白的功能,鉴定其潜在底物,为集胞藻ClpP2作用机制提供实验支撑。【方法】构建集胞藻ClpP2突变株(ΔClpP2),进行其生长实验和光合生理功能研究。通过标记定量蛋白质组学技术(isobaric tag for relative absolute quantitation, iTRAQ)鉴定ClpP2调控的靶标蛋白,生物信息学分析底物蛋白参与的代谢通路,最后利用平行反应监测(parallel reaction monitoring, PRM)技术对部分定量数据进行验证。【结果】ΔClpP2可以在自然条件下光合自养生长至对数生长期,但高光或高温胁迫下则无法正常生长。相较于野生型,ΔClpP2有着显著降低的PSⅡ电子传递效率及P...     

集胞藻ORFs侧翼序列的PCR扩增和定向基因插入失活策略

针对集胞藻PCC6803的1927个待定编码基因进行了两侧序列的PCR扩增。4个亚株基因组在sll0267-sll0269区域的PCR扩增产物与Kazusa DNA数据存在差异,以叶绿素合成基因chlH和chlL为例,显示三片段连接PCR产物可有效用于集胞藻6803基因组定向插入失活。     

增强型绿色荧光蛋白在集胞藻6803中的表达

利用聚球藻7942热休克基因groESL的启动子和报告基因egfp,构建了表达载体pUC-Tegfp并转化集胞藻6803,并通过所制备抗体对转基因藻进行蛋白免疫印迹检测.结果发现,在转基因藻株T-egfp的细胞粗提液中含有能与eGFP抗体特异结合的蛋白质,表明外源增强型绿色荧光蛋白基因(egfp)在集胞藻6803中成功表达.     

蓝藻与植物叶绿体光合系统基因的生物信息学研究

用BLAST法比较了蓝藻和叶绿体中编码光合系统蛋白的基因碱基序列的同源性,其中蓝藻来自集胞藻6803和念珠藻7120,叶绿体来自地钱、烟草、水稻、裸藻、黑松、玉米、紫菜、拟南芥等。以集胞藻6803的碱基序列为基准(100％),与其他物种进行同源性比较。在光系统Ⅰ基因中,psaC同源性最高(90．14％),最低的是psaJ,(52．24％)。光系统Ⅱ基因中,同源性最高的是psbD基因(83．7l％),最低的是psbN(49．70%)。ATP合成酶基因中,同源性最高的是atpB基因(79．58％,),最低的是atpF(26．69％)。细胞色素b6／f复合物基因中,同源性最高的是petB(81．66％),最低的是petA(55．27％)。这些数据可为叶绿体的起源和进化提供一些证据。     

Changes in lactate dehydrogenase activity in chicken tissues in hyperthyreosis in ontogenesis

The lactate dehydrogenase activity in reactions of lactate oxidation and synthesis was studied in subfractions of the chicken brain, heart and liver at the embryonal, early postembryonal and adult stages of development after thyroxine administration. It has been shown that during embryogenesis thyroxine predominantly enhanced the rate of lactate oxidation in the mitochondrial tissues. A marked increase in the lactate synthesis was found in cytoplasm of the adult chicken tissues. Specificity of enzyme activity alterations was detected in the chicken brain during ontogenesis after thyroxine administration.     

Scurvy in capybaras bred in captivity in Argentine

In order to determine if the absence of vitamin C in the diet of capybaras (Hydrochoerus hydrochaeris) causes scurvy, a group of seven young individuals were fed food pellets without ascorbic acid, while another group of eight individuals received the same food with 1 g of ascorbic acid per animal per day. Animals in the first group developed signs of scurvy-like gingivitis, breaking of the incisors and death of one animal. Clinical signs appeared between 25 and 104 days from the beginning of the trial in all individuals. Growth rates of individuals deprived of vitamin C was considerably less than those observed in the control group. Deficiency of ascorbic acid had a severe effect on reproduction of another population of captive capybaras. We found that the decrease in ascorbic acid content in the diet affected pregnancy, especially during the first stages. The results obtained suggest that it is necessary to supply a suitable quantity of vitamin C in the diet of this species in captivity.     

Role for dopamine in malonate-induced damage in vivo in striatum and in vitro in mesencephalic cultures

Defects in mitochondrial energy metabolism have been implicated in the pathology of several neurodegenerative disorders. In addition, the reactive metabolites generated from the metabolism and oxidation of the neurotransmitter dopamine (DA) are thought to contribute to the damage to neurons of the basal ganglia. We have previously demonstrated that infusions of the metabolic inhibitor malonate into the striata of mice or rats produce degeneration of DA nerve terminals. In the present studies, we demonstrate that an intrastriatal infusion of malonate induces a substantial increase in DA efflux in awake, behaving mice as measured by in vivo microdialysis. Furthermore, pretreatment of mice with tetrabenazine (TBZ) or the TBZ analogue Ro 4-1284 (Ro-4), compounds that reversibly inhibit the vesicular storage of DA, attenuates the malonate-induced DA efflux as well as the damage to DA nerve terminals. Consistent with these findings, the damage to both DA and GABA neurons in mesencephalic cultures by malonate exposure was attenuated by pretreatment with TBZ or Ro-4. Treatment with these compounds did not affect the formation of free radicals or the inhibition of oxidative phosphorylation resulting from malonate exposure alone. Our data suggest that DA plays an important role in the neurotoxicity produced by malonate. These findings provide direct evidence that inhibition of succinate dehydrogenase causes an increase in extracellular DA levels and indicate that bioenergetic defects may contribute to the pathogenesis of chronic neurodegenerative diseases through a mechanism involving DA.     

SSTR5 ablation in islet results in alterations in glucose homeostasis in mice

Somatostatin (SST) peptide is a potent inhibitor of insulin secretion and its effect is mediated via somatostatin receptor 5 (SSTR5) in the endocrine pancreas. To investigate the consequences of gene ablation of SSTR5 in the mouse pancreas, we have generated a mouse model in which the SSTR5 gene was specifically knocked down in the pancreatic beta cells (betaSSTR5Kd) using the Cre-lox system. Immunohistochemistry analysis showed that SSTR5 gene expression was absent in beta cells at three months of age. At the time of gene ablation, betaSSTR5Kd mice demonstrated glucose intolerance with lack of insulin response and significantly reduced serum insulin levels. Insulin tolerance test demonstrated a significant increase of insulin clearance in vivo at the same age. In vitro studies demonstrated an absence of response to SST-28 stimulation in the betaSSTR5Kd mouse islet, which was associated with a significantly reduced SST expression level in betaSSTR5Kd mice pancreata. In addition, betaSSTR5Kd mice had significantly reduced serum glucose levels and increased serum insulin levels at 12 months of age. Glucose tolerance test at an older age also indicated a persistently higher insulin level in betaSSTR5Kd mice. Further studies of betaSSTR5Kd mice had revealed elevated serum C-peptide levels at both 3 and 12 months of age, suggesting that these mice are capable of producing and releasing insulin to the periphery. These results support the hypothesis that SSTR5 plays a pivotal role in the regulation of insulin secretion in the mouse pancreas.     

2016年中国植物科学若干领域重要研究进展

2016年中国植物科学持续稳步发展, 表现在中国植物科学家在国际主流高影响力学术期刊发表文章的数量稳中有升, 中国植物科学领域的期刊逆风出行, 进入研究性期刊世界前三甲行列。中国科学家在植物学诸多领域取得了丰硕的成果。水稻(Oryza sativa)产量性状杂种优势的分子遗传机制解析入选2016年中国科学十大进展; 植物受精过程中雌雄配子体信号识别机制的研究和独脚金内酯的受体感知机制入选2016年生命科学十大进展。我国植物科学, 特别是以水稻为代表的作物研究在国际学术界已占有一席之地。例如, 在水稻组学(如基因组和转录组等)资源和技术平台的建立、重测序的开发及功能基因的克隆和调控网络的解析方面取得了系列重要成果(如揭示了独脚金内酯信号转导的“去抑制化激活”机制、从分子水平上阐释了水稻籼粳杂种不育和广亲和性基因S5的作用机理及发现了控制水稻耐冷的基因组位点), 已经引领世界水稻乃至作物科学研究。该文对2016年中国本土植物科学若干领域取得的重要研究进展进行了概括性评述, 旨在全面追踪当前中国植物科学领域的发展前沿和研究热点, 与读者共享我国科学家所取得的杰出成就。