S. Ramanjulu et C. Sudhakar, Proline metabolism during dehydration in two mulberry genotypes with contrasting drought tolerance, J PLANT PHY, 157(1), 2000, pp. 81-85
The free proline levels and activities of pyrroline-5-carboxylate reductase
, proline oxidase and proline dehydrogenase and the levels of quaternary am
monium compounds and chlorophyll stability were studied during water stress
in drought sensitive (S54) and drought tolerant (S13) cultivars of mulberr
y (Morus alba L.). The cultivar S13 accumulated relatively greater amounts
of free proline compared with S54. Water stress increased about 8- and 3.5-
fold in free proline content in the third leaf from the top, of S13 and S54
respectively, after 15 days of severe water stress. The pyrroline-5-carbox
ylate reductase was increased, while the activities of proline oxidase and
proline dehydrogenase were significantly decreased in both cultivars under
water stress conditions. However, the magnitude of increase in pyrroline-5-
carboxylate reductase was relatively greater and the degree of decrease in
proline oxidase and proline dehydrogenase activities was relatively small i
n S13 compared with S54. The results indicate that: during water stress, pr
oline metabolism was altered in mulberry and the extent of alteration varie
d between the cultivars S13 and S54, leading to the greater levels of proli
ne in S 13, supporting its drought tolerance. The greater proline levels in
S13 were due both to the higher rates of proline synthesis and lesser magn
itude of proline oxidation compared with S54. Further, the drought toleranc
e of S13 was evident from the greater magnitude of accumulation of quaterna
ry ammonium compounds compared with S54 during water stress. Furthermore, t
he drought tolerance of S13 was supported by chlorophyll stability having c
omparatively lower amounts of chlorophyll breakdown.