| Enzymatic Activity Assay for Invertase in Synechocystis Cells
|
|
Author:
Date:
2018-05-20
[Abstract] Invertase can catalyze the hydrolysis of sucrose, and is widely distributed in cells of cyanobacteria and plants. Being responsible for the first step for sucrose metabolism, invertase plays important physiological roles and its enzymatic activity is frequently needed to be determined. All the methods for determination of the invertase activity are dependent on detection of the glucose product generated by the invertase. Here we describe an ion chromatography based protocol of our laboratory for determination of cyanobacterial intracellular invertase activity.
[摘要] 转化酶可催化蔗糖的水解,广泛分布于蓝细菌和植物细胞中。 负责蔗糖代谢的第一步,转化酶起着重要的生理作用,其酶活性经常需要确定。 所有测定转化酶活性的方法都依赖于转化酶产生的葡萄糖产物的检测。 在这里我们描述了我们的实验室用于测定蓝细菌细胞内转化酶活性的基于离子色谱的方案。
【背景】转化酶和蔗糖在蓝细菌中发挥重要的生理作用(Curatti,et al。,2008; Kolman等人,2015)和高等植物(Vargas等人, ,2003; Vargas et。,2010)。转化酶(EC 3.2.1.26)可以催化蔗糖降解成葡萄糖和果糖。由于转化酶的这种特性,任何可用于测定葡萄糖或果糖的方法理论上都将用于转化酶酶活性测定。实际上,大多数转化酶酶活性测定基于检测产生的葡萄糖产物。
一些公司已经开发了用于转化酶活性测定的几种试剂盒,例如来自abcam(USA)的ab197005,来自Novus Biologicals(USA)的KA1629,来自Sigma-Aldrich(USA)的MAK118。通过使用这些试剂盒,由转化酶反应产生的葡萄糖产物将被氧化并通过比色(570nm)或荧光法(λem/ ex = 585 / ...
|
|
|
| Determination of Intracellular Osmolytes in Cyanobacterial Cells
|
|
Author:
Date:
2018-04-20
[Abstract] Most of the cyanobacteria accumulate osmolytes including sucrose, glucosylglycerol, in their cells in response to salt stress. Here we describe a protocol of our laboratory for extraction and quantification of cyanobacterial intracellular sucrose and glucosylglycerol. We have confirmed this protocol was applicable to at least four kinds of cyanobacteria, filamentous cyanobacterium Anabaena sp. PCC 7120, unicellular cyanobacterium Synechocystis sp. PCC 6803, Synechococcus elongatus PCC 7942 and halotolerant unicellular cyanobacterium Synechococcus sp. PCC ...
[摘要] 大多数蓝细菌在其细胞中积累包括蔗糖,葡萄糖基甘油在内的渗透压以响应盐胁迫。 在这里,我们描述了我们实验室的蓝藻细胞内蔗糖和葡萄糖甘油的提取和定量方案。 我们已证实此方案适用于至少四种蓝藻,丝状蓝藻Anabaena sp。 PCC 7120,单细胞蓝藻集胞藻 sp。 PCC 6803,细长聚球蓝细菌PCC 7942和耐盐单细胞蓝细菌聚球蓝细菌。 PCC 7002。【背景】Osmolytes(或相容溶质)是一组低分子量的有机溶质,对包括蓝细菌在内的微生物的非生物胁迫适应具有重要的生理作用(Reed和Stewart,1985;Klähn和Hagemann,2011; Slama等人。,2015)。为了确定来自蓝细菌细胞的细胞内渗透物,已经建立了几种方案(Reed和Stewart,1985; Hagemann等人,1997; Motta等人,2004; Du ,2013; Fa et al。,2015)。在这些方法中,基于核磁共振(NMR)光谱的方法是唯一可以直接应用于微生物培养物而不需要任何提取程序的方法(Motta等人,2004年)。然而,这个方案刚刚在Halomonas pantelleriensis 和Sulfolobus solfataricus ...
|
|
|
| Determination of the Effects of Local and Systemic Iron Excess on Lateral Root Initiation in Arabidopsis thaliana
|
|
Author:
Date:
2017-07-05
[Abstract] Root system architecture depends on nutrient availability. A symptom of iron (Fe) toxicity in plants is stunted root growth, yet little is known about the effects of excess Fe on lateral root (LR) development. To better understand how nutrient signals are integrated into root developmental programs, we investigated the morphological response of Arabidopsis thaliana root systems to Fe by testing homogeneous supply and localized Fe supply treatment.
[摘要] 根系统结构取决于营养供应。 植物中铁(Fe)毒性的症状是根系生长发育迟缓,但是对于过量的Fe对侧根(LR)发育的影响知之甚少。 为了更好地了解营养信号如何整合到根发育方案中,我们通过测试均匀供应和局部Fe供应处理,研究了拟南芥根系对Fe的形态反应。
【背景】营养素的局部供应调节拟南芥中的侧根伸长和/或侧根密度。侧根形成受不同发育阶段(例如,起始与延长)和营养特异性方式的营养素的影响(Li et al。,2011; Giehl et al。,2012)。作为植物综合征的铁毒性通常与土壤中过量的铁(Fe(OH)2 +离子)相关联(Vigani,2012)。铁毒性症状因栽培品种而异,其特征在于下部叶子呈红褐色,紫色,黄色或橙色变色,发育不良。通过低pH和缺氧条件,Fe 2 + 离子的存在增加,并且在垂直较低的层中存在增加的存在(Becker和Asch,2005; Li et al。 em>,2016)。我们描述了在拟南芥中验证的体外生长的拟南芥中用于局部铁供应的详细管道(eta。 ,2015a; 2015b和2016)。
|
|
|