We are grateful to the employees and subcontractors of Raytheon Polar Services Company for providing science support at Palmer Station, especially James Bucklin and Christina Hammock. We also thank Laura Mydlarz, Whitney Mann, and Elizabeth McGinty at the University of Texas at Arlington for training in the use of DCFH-DA to assay for oxidants in seawater during a research exchange financed by the NSF-funded Research Coordination Network in Ecoimmunology. This work was supported by the National Science Foundation grant ANT-0838773 (CDA, JBM) and ANT-0838776 (BJB) from the Antarctic Organisms and Ecosystems Program. “
“Nitrogen (N) deficiency promotes lipid accumulation in many oleaginous algae, but we have
a poor understanding of the associations between the initiation of Kinase Inhibitor Library concentration lipid accumulation and algal N retention and partitioning. Here, we report on total cell N,
five bulk pools of N in the cell (protein, free amino acids, DNA, RNA, chl), and lipids from N saturation to growth cessation in three species. While the maximum level of N uptake differed among species, the ratio of minimum retained N to N retained at the initiation of lipid accumulation was consistent among species at 0.5 ± 0.04. This suggests that the cellular initiation of lipid accumulation was associated with a common magnitude of N deficiency among species. Concerning the partitioning of N, the concentration of RNA and the protein to RNA ratio were most similar among
species at the initiation of lipid accumulation with averages of 3.2 ± 0.26 g · L−1 (8.2% variation) and CP-690550 manufacturer 16 ± 1.5 (9.2% variation), respectively. All other pools and physiologically relevant ratios were considerably more variable. The species commonalities in RNA and protein show a similar reduction in general cellular function due to N deficiency before cellular initiation of lipid accumulation. These results provide insight into the physiological drivers for lipid accumulation in N-deficient algae and data for modeling these associations. “
“A new athecate dinoflagellate, Bispinodinium angelaceum N. Yamada et Horiguchi gen. et sp. nov., MCE公司 is described from a sand sample collected on the seafloor at a depth of 36 m off Mageshima Island, subtropical Japan. The dinoflagellate is dorsiventrally compressed and axi-symmetric along the sulcus. The morphology resembles that of the genus Amphidinium sensu lato by having a small epicone that is less than one third of the total cell length. However, it has a new type of apical groove, the path of which traces the outline of a magnifying glass. The circular component of this path forms a complete circle in the center of the epicone and the straight “handle” runs from the sulcus to the circular component. Inside the cell, a pair of elongated fibrous structure termed here the “spinoid apparatus” extends from just beneath the circular apical groove to a point near the nucleus.