Gas-tight glass Hungate tubes (16 ml)

气密玻璃匈牙利管（16 ml）

公司名称: Glasgerätebau Ochs

产品编号: 1020471

Determination of Poly(3-hydroxybutyrate) Content in Cyanobacterium Synechocystis sp. PCC 6803 Using Acid Hydrolysis Followed by High-performance Liquid Chromatography

Janine Kaewbai-ngam, Aran Incharoensakdi and Tanakarn Monshupanee

Published online: 2023-08-20

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Determination of Oxygen Respiration Rates in Wetted Developmentally Arrested Spores of Streptomyces Species

Author:

Marco Fischer, Dörte Falke and R. Gary Sawers,

Date:

2014-06-20

[Abstract] Streptomyces species produce spores, which, while not as robust as endospores of Bacillus or Clostridium species, are capable of surviving for months or even years (Hopwood, 2006). During this time these spores remain viable, surviving by slowly degrading internal stores of carbon compounds, such as the carbohydrate trehalose. To enable metabolism to continue they must have access to an electron acceptor that allows the removal of the reducing equivalents that accumulate through metabolic activity. The most commonly used acceptor is oxygen. We describe the ... [摘要] < em>链霉菌属</em>物种产生孢子，其不如芽孢杆菌属或梭状芽孢杆菌属物种的内生孢子那样坚固，能够存活数月或甚至数年 Hopwood，2006）。在此期间，这些孢子保持存活，通过缓慢降解碳化合物（例如碳水化合物海藻糖）的内部储存而存活。为了使代谢能够继续，它们必须获得电子受体，其允许去除通过代谢活性积聚的还原当量。最常用的受主是氧。我们描述了通过发育阻止的链霉菌链霉菌（Streptomyces coelicolo）孢子的氧呼吸速率的定量测量（Fischer等人，2013）。

Rapid Nitrate Reduction Assay with Intact Microbial Cells or Spores

Author:

Marco Fischer, Dörte Falke and R. Gary Sawers,

Date:

2014-06-20

[Abstract] Many microorganisms have the capacity to use nitrate as a respiratory electron acceptor. Reduction of nitrate is catalyzed by a multi-subunit nitrate reductase that is often located associated with the cytoplasmic membrane and has its active site oriented toward the cytoplasm. This means that nitrate must be transported into the cell and often this occurs concomitantly with the export of the reduced nitrite product. Often nitrate and nitrite transport are coupled through the action of a nitrate: nitrite antiporter. Microbial cells, spores and mycelium harbour intracellular storage compounds ... [摘要] 许多微生物具有使用硝酸盐作为呼吸电子受体的能力。硝酸盐的还原由多亚基硝酸盐还原酶催化，所述多亚基硝酸盐还原酶通常位于与细胞质膜相关联并且其活性位点朝向细胞质。这意味着硝酸盐必须被运输到细胞中，并且通常这伴随着还原的亚硝酸盐产物的输出而发生。通常硝酸盐和亚硝酸盐转运通过硝酸盐：亚硝酸盐反向转运体的作用偶联。微生物细胞，孢子和菌丝体含有细胞内储存化合物，例如海藻糖或糖原，其在代谢后充当用于硝酸盐还原的内源性电子供体。还可以使用外源供应的葡萄糖作为硝酸盐还原的底物。这里描述的方法允许直接分析全细胞材料的硝酸盐还原，而不需要人工电子供体。该方法也适用于孢子的研究，特别是链霉菌属物种的研究（Fischer等人，2013）。 Fischer等人的论文2013年提供了下面介绍的方法的数据集示例。

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Gas-tight glass Hungate tubes (16 ml)

气密玻璃匈牙利管（16 ml）

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