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1.
Sci Rep ; 4: 3958, 2014 Feb 04.
Article in English | MEDLINE | ID: mdl-24492482

ABSTRACT

Phaeodactylum tricornutum Bohlin is an ideal model diatom; its complete genome is known, and it is an important economic microalgae. Although silicon is not required in laboratory and factory culture of this species, previous studies have shown that silicon starvation can lead to differential expression of miRNAs. The role that silicon plays in P. tricornutum growth in nature is poorly understood. In this study, we compared the growth rate of silicon starved P. tricornutum with that of normal cultured cells under different culture conditions. Pigment analysis, photosynthesis measurement, lipid analysis, and proteomic analysis showed that silicon plays an important role in P. tricornutum growth and that its presence allows the organism to grow well under green light and low temperature.


Subject(s)
Diatoms/growth & development , Diatoms/metabolism , Energy Metabolism/physiology , Silicon/metabolism , Bacterial Proteins/biosynthesis , Cell Cycle Checkpoints/genetics , Chlorophyll/metabolism , Chlorophyll A , Cold Temperature , Light , Lipids/analysis , MicroRNAs/biosynthesis , Proteomics , Signal Transduction , Xanthophylls/metabolism
2.
Physiol Plant ; 148(4): 582-9, 2013 Aug.
Article in English | MEDLINE | ID: mdl-23163246

ABSTRACT

Zostera marina (eelgrass) is an important ecological component of many shallow, temperate lagoons. Evidence suggests that Z. marina has a high bicarbonate utilization capability, which could be promoted by possible proton extrusion and the consequent formation of an 'acid zone' in the apoplastic space (unstirred layer) of its leaves. It has been found that 50 mM of the buffer Tris significantly inhibited the photosynthetic O(2) evolution of Z. marina and it was proposed that this was because of Tris's ability to bond with protons outside the cell wall. To investigate if H(+) played an important role in the photosynthetic carbon utilization of Z. marina, it is very important to simultaneously monitor the photosynthesis status and possible H(+) fluxes. However, probably because of the lack of suitable techniques, this has never been attempted. In this study, experiments were undertaken on Z. marina by monitoring H(+) and O(2) fluxes and the relative electron transport rates during light-dark transition. During stable photosynthesis, in addition to an obvious O(2) outflow, there was a significant net H(+) influx connected to Z. marina photosynthesis. The inhibitory effects of both Tris and respiration inhibitors on apparent O(2) evolution of Z. marina were confirmed. However, evidence did not support the proposed Tris inhibition mechanism.


Subject(s)
Oxygen/metabolism , Protons , Zosteraceae/physiology , Cell Respiration/drug effects , Cell Respiration/radiation effects , Light , Photosynthesis/drug effects , Photosynthesis/radiation effects , Plant Leaves/physiology , Plant Leaves/radiation effects , Seawater , Tromethamine/pharmacology , Zosteraceae/cytology , Zosteraceae/drug effects , Zosteraceae/radiation effects
3.
Planta ; 229(4): 803-10, 2009 Mar.
Article in English | MEDLINE | ID: mdl-19112580

ABSTRACT

Physiological data from extreme habitat organisms during stresses are vital information for comprehending their survival. The intertidal seaweeds are exposed to a combination of environmental stresses, the most influential one being regular dehydration and re-hydration. Porphyra katadai var. hemiphylla is a unique intertidal macroalga species with two longitudinally separated, color distinct, sexually different parts. In this study, the photosynthetic performance of both PSI and PSII of the two sexually different parts of P. katadai thalli during dehydration and re-hydration was investigated. Under low-grade dehydration the variation of photosystems of male and female parts of P. katadai were similar. However, after the absolute water content reached 42%, the PSI of the female parts was nearly shut down while that of the male parts still coordinated well and worked properly with PSII. Furthermore, after re-hydration with a better conditioned PSI, the dehydrated male parts were able to restore photosynthesis within 1 h, while the female parts did not. It is concluded that in P. katadai the susceptibility of photosynthesis to dehydration depends on the accommodative ability of PSI. The relatively lower content of phycobiliprotein in male parts may be the cause for a stronger PSI after severe dehydration.


Subject(s)
Photosynthesis/drug effects , Porphyra/physiology , Water/pharmacology , Adaptation, Physiological/drug effects , Adaptation, Physiological/radiation effects , Algal Proteins/metabolism , Light , Photosynthesis/radiation effects , Photosystem I Protein Complex/metabolism , Photosystem II Protein Complex/metabolism , Porphyra/metabolism
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