Limits...
Optimization and effects of different culture conditions on growth of Halomicronema hongdechloris - a filamentous cyanobacterium containing chlorophyll f.

Li Y, Lin Y, Loughlin PC, Chen M - Front Plant Sci (2014)

Bottom Line: High performance liquid chromatography on H. hongdechloris pigments confirmed that chlorophyll a is the major chlorophyll and chlorophyll f constitutes ~10% of the total chlorophyll from cells grown under far-red light.The total photosynthetic oxygen evolution yield per cell showed no changes under different light conditions, which confirms the involvement of chlorophyll f in oxygenic photosynthesis.The implications of the presence of chlorophyll f in H. hongdechloris and its relationship with the ambient light environment are discussed.

View Article: PubMed Central - PubMed

Affiliation: School of Biological Sciences, University of Sydney Sydney, NSW, Australia.

ABSTRACT
A chlorophyll f containing cyanobacterium, Halomicronema hongdechloris (H. hongdechloris) was isolated from a stromatolite cyanobacterial community. The extremely slow growth rate of H. hongdechloris has hindered research on this newly isolated cyanobacterium and the investigation of chlorophyll f-photosynthesis. Therefore, optimizing H. hongdechloris culture conditions has become an essential requirement for future research. This work investigated the effects of various culture conditions, essential nutrients and light environments to determine the optimal growth conditions for H. hongdechloris and the biosynthetic rate of chlorophyll f. Based on the total chlorophyll concentration, an optimal growth rate of 0.22 ± 0.02 day(-1)(doubling time: 3.1 ± 0.3 days) was observed when cells were grown under continuous illumination with far-red light with an intensity of 20 μE at 32°C in modified K + ES seawater (pH 8.0) with additional nitrogen and phosphor supplements. High performance liquid chromatography on H. hongdechloris pigments confirmed that chlorophyll a is the major chlorophyll and chlorophyll f constitutes ~10% of the total chlorophyll from cells grown under far-red light. Fluorescence confocal image analysis demonstrated changes of photosynthetic membranes and the distribution of photopigments in response to different light conditions. The total photosynthetic oxygen evolution yield per cell showed no changes under different light conditions, which confirms the involvement of chlorophyll f in oxygenic photosynthesis. The implications of the presence of chlorophyll f in H. hongdechloris and its relationship with the ambient light environment are discussed.

No MeSH data available.


Effects of (A) temperature, (B) pH, and (C) salinity on the growth rate of H. hongdechloris. Error bars represent SE (n = 8).
© Copyright Policy - open-access
Related In: Results  -  Collection

License
getmorefigures.php?uid=PMC3934312&req=5

Figure 4: Effects of (A) temperature, (B) pH, and (C) salinity on the growth rate of H. hongdechloris. Error bars represent SE (n = 8).

Mentions: Understanding the impacts of environmental as well as other physico-chemical parameters are important for a newly purified cyanobacterial culture. Effects of pH, temperature, and salinity on the cell growth are shown in Figure 4. The cells grew at temperature ranges from 20 to 39°C with a best k of 0.17 ± 0.02 day-1and t of 4.2 ± 0.4 days were obtained at 32°C, which was assigned as the optimal temperature (Figure 4A). No significant reductions were observed when the temperature was reduced to 27°C or increased to 39°C (F(2,21) = 1.07, p = 0.3617).


Optimization and effects of different culture conditions on growth of Halomicronema hongdechloris - a filamentous cyanobacterium containing chlorophyll f.

Li Y, Lin Y, Loughlin PC, Chen M - Front Plant Sci (2014)

Effects of (A) temperature, (B) pH, and (C) salinity on the growth rate of H. hongdechloris. Error bars represent SE (n = 8).
© Copyright Policy - open-access
Related In: Results  -  Collection

License
Show All Figures
getmorefigures.php?uid=PMC3934312&req=5

Figure 4: Effects of (A) temperature, (B) pH, and (C) salinity on the growth rate of H. hongdechloris. Error bars represent SE (n = 8).
Mentions: Understanding the impacts of environmental as well as other physico-chemical parameters are important for a newly purified cyanobacterial culture. Effects of pH, temperature, and salinity on the cell growth are shown in Figure 4. The cells grew at temperature ranges from 20 to 39°C with a best k of 0.17 ± 0.02 day-1and t of 4.2 ± 0.4 days were obtained at 32°C, which was assigned as the optimal temperature (Figure 4A). No significant reductions were observed when the temperature was reduced to 27°C or increased to 39°C (F(2,21) = 1.07, p = 0.3617).

Bottom Line: High performance liquid chromatography on H. hongdechloris pigments confirmed that chlorophyll a is the major chlorophyll and chlorophyll f constitutes ~10% of the total chlorophyll from cells grown under far-red light.The total photosynthetic oxygen evolution yield per cell showed no changes under different light conditions, which confirms the involvement of chlorophyll f in oxygenic photosynthesis.The implications of the presence of chlorophyll f in H. hongdechloris and its relationship with the ambient light environment are discussed.

View Article: PubMed Central - PubMed

Affiliation: School of Biological Sciences, University of Sydney Sydney, NSW, Australia.

ABSTRACT
A chlorophyll f containing cyanobacterium, Halomicronema hongdechloris (H. hongdechloris) was isolated from a stromatolite cyanobacterial community. The extremely slow growth rate of H. hongdechloris has hindered research on this newly isolated cyanobacterium and the investigation of chlorophyll f-photosynthesis. Therefore, optimizing H. hongdechloris culture conditions has become an essential requirement for future research. This work investigated the effects of various culture conditions, essential nutrients and light environments to determine the optimal growth conditions for H. hongdechloris and the biosynthetic rate of chlorophyll f. Based on the total chlorophyll concentration, an optimal growth rate of 0.22 ± 0.02 day(-1)(doubling time: 3.1 ± 0.3 days) was observed when cells were grown under continuous illumination with far-red light with an intensity of 20 μE at 32°C in modified K + ES seawater (pH 8.0) with additional nitrogen and phosphor supplements. High performance liquid chromatography on H. hongdechloris pigments confirmed that chlorophyll a is the major chlorophyll and chlorophyll f constitutes ~10% of the total chlorophyll from cells grown under far-red light. Fluorescence confocal image analysis demonstrated changes of photosynthetic membranes and the distribution of photopigments in response to different light conditions. The total photosynthetic oxygen evolution yield per cell showed no changes under different light conditions, which confirms the involvement of chlorophyll f in oxygenic photosynthesis. The implications of the presence of chlorophyll f in H. hongdechloris and its relationship with the ambient light environment are discussed.

No MeSH data available.