Ne. Ghittoni et Ma. Bueno, CHANGES IN THE CELLULAR CONTENT OF TREHALOSE IN 4 PEANUT RHIZOBIA STRAINS CULTURED UNDER HYPERSALINITY, Symbiosis, 20(2), 1996, pp. 117-127
The adaptation to saline stress was examined in four Rhizobium strains
which nodulate Arachis hypogaea (peanut). When cultured on basal yeas
t extract-mannitol liquid medium (1.7 mM NaCl), the strains ATCC 10317
, ATCC 51466, and TAL 1000 behaved as fast-growers, while the strain U
SDA 3187 behaved as slow-grower. After a prolonged lag time, the four
strains were able to grow under hypersalinity, albeit at a reduced rat
e. The slow-grower was less salt-tolerant than the fast-growers. On th
e other hand, the disaccharide trehalose was identified in the four st
rains by gas chromatography and by C-13-NMR spectroscopy. Strains ATCC
10314 and ATCC 51466 contained negligible amounts of trehalose, while
strains TAL 1000 and USDA 3187 accumulated significant quantities of
the disaccharide. Under hypersalinity, fast-growers increased the cell
ular content of trehalose, regardless of the carbon source mannitol, s
ucrose, or lactose; when cultured with mannitol as the carbon source,
the slow-grower also increased the accumulation of cellular trehalose.
When cultured with trehalose as the carbon source, the increase of Na
Cl in the growth medium did not change the cellular trehalose content
in the strain ATCC 10317, but the accumulation of the disaccharide dec
reased in the strains TAL 1000 and USDA 3187. Results were correlated
with changes in the metabolism of trehalose in peanut rhizobia exposed
to hypersalinity.