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Regulation of glycerol and starch metabolism in Chlamydomonas pulsatilla in response to changes in salinity (1989)

HELLEBUST, J. A. ; LIN, YI-HUNG

Oxford, UK : Blackwell Publishing Ltd

Plant, cell & environment 12 (1989), S. 0

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ISSN: 1365-3040

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Biology

Notes: Abstract. Chlamydomonas pulsatilla rapidly adjusts its level of osmoregulatory solute, glycerol, when exposed to increased (upshock) or decreased (downshock) salinities. Rates of degradation, or loss, of glycerol are similar in light and dark, while rates of net synthesis proceed about 20% faster in the light than in the dark. Synthesis of glycerol in the dark is correlated with degradation of starch, and starch appears also to be utilized for glycerol synthesis in response to extensive salinity upshocks in the light, where photosynthesis is strongly inhibited. Under conditions of moderate upshocks in the light, photosynthesis is not affected, and net increases in both glycerol and starch were observed. Glycerol turnover takes place both under iso-osmotic conditions, and during period of adjustments to osmotic downshocks, where there is a rapid net decrease in the glycerol pool. Half times for glycerol turnover were estimated from rates of incorporation of photoassimilated 14C into glycerol and glycerol pool sizes to be 20 and 74 min for cells incubated at 50 and 100% artificial seawater, respectively.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1111/j.1365-3040.1989.tb01230.x

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Operation of contractile vacuoles in the euryhaline green flagellate Chlamydomonas pulsatilla (Chlorophyceae) as a function of salinity (1989)

Hellebust, J. A. ; Mérida, T. ; Ahmad, I.

Springer

Marine biology 100 (1989), S. 373-379

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ISSN: 1432-1793

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Chlamydomonas pulsatilla Wollenweber, a euryhaline, marine flagellate (isolated from rockpool at St. Andrew's, New Brunswick, Canada in 1980 by J. A. Hellebust), shows decreasing rates of activity of its four contractile vacuoles in the salinity range of 0 to 15% artificial seawater (ASW). Electron microscopy shows that the contractile vacuole complex persists as a spongiome (collection of small vesicles or tubules) in cells grown at salinities above the range for operation of contractile vacuoles. From calculations of rates of water expulsion, based on size and frequency of contraction of individual vacuoles determined by light microscopy, the time necessary to empty one cell volume increased from ca 20 min at 1% ASW to ca 600 min at 15% ASW. Analysis of inorganic and organic solute contents of cells grown at 1 and 5% ASW allowed the calculation of internal osmotic pressures. Estimates of hydraulic conductivities based on rates of water expulsion via contractile vacuoles and differences in internal and external osmotic pressures resulted in values ranging from 1.1 to 1.4×10-14 m s-1 Pa-1 for individual cells. Growth experiments at low photon flux densities over a salinity range of 1 to 15% ASW, over which contractile vacuole activity varied by a factor of 30, showed little difference in growth rates. This indicates that the cost for operation of contractile vacuoles must be very low. The secretion of large molecular weight organic substances does not appear to be associated with the functioning of contractile vacuoles.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00391153

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