Biochemical and physiological mechanisms leading to salt tolerance
(2004) In Tropical Ecology 45(1). p.141-150- Abstract
- We showed that malic enzyme and F-type ATPase isolated from glycophytes and halophytes do not differ significantly in their amino acid composition. Isolated enzymes from both types of plants showed nearly identical salt sensitivity, each, but enzyme activities in fresh homogenates from halophyte leaves apparently were more salt resistant as compared to the ones from glycophytes. These results suggest that some cytosolic compounds other than the tested enzymes bring about salt tolerance. We observed distinct differences in photosynthate export out of the chloroplasts when comparing salt stress response of glycophytes and halophytes. In contrast to glycophytes metabolite leakage out of the chloroplasts or internal metabolite pool size are... (More)
- We showed that malic enzyme and F-type ATPase isolated from glycophytes and halophytes do not differ significantly in their amino acid composition. Isolated enzymes from both types of plants showed nearly identical salt sensitivity, each, but enzyme activities in fresh homogenates from halophyte leaves apparently were more salt resistant as compared to the ones from glycophytes. These results suggest that some cytosolic compounds other than the tested enzymes bring about salt tolerance. We observed distinct differences in photosynthate export out of the chloroplasts when comparing salt stress response of glycophytes and halophytes. In contrast to glycophytes metabolite leakage out of the chloroplasts or internal metabolite pool size are more strictly regulated in halophytes. Pronounced differences were observed, when measuring P-type ATPase activities at the plasmalemma. Apparently, most of the difference between salt tolerant plants (halophytes) and glycophytes is due to a faster and (Less)
Please use this url to cite or link to this publication:
https://lup.lub.lu.se/record/1129601
- author
- Huchzermeyer, B ; Hausmann, N ; Paquet-Durand, Francois LU and Koyro, H.-W.
- publishing date
- 2004
- type
- Contribution to journal
- publication status
- published
- subject
- in
- Tropical Ecology
- volume
- 45
- issue
- 1
- pages
- 141 - 150
- publisher
- International Society for Tropical Ecology
- external identifiers
-
- scopus:8844271837
- ISSN
- 0564-3295
- language
- English
- LU publication?
- no
- id
- c636404a-6b43-4f27-a87c-85f77db126de (old id 1129601)
- date added to LUP
- 2016-04-01 15:59:05
- date last changed
- 2022-01-28 08:27:59
@article{c636404a-6b43-4f27-a87c-85f77db126de, abstract = {{We showed that malic enzyme and F-type ATPase isolated from glycophytes and halophytes do not differ significantly in their amino acid composition. Isolated enzymes from both types of plants showed nearly identical salt sensitivity, each, but enzyme activities in fresh homogenates from halophyte leaves apparently were more salt resistant as compared to the ones from glycophytes. These results suggest that some cytosolic compounds other than the tested enzymes bring about salt tolerance. We observed distinct differences in photosynthate export out of the chloroplasts when comparing salt stress response of glycophytes and halophytes. In contrast to glycophytes metabolite leakage out of the chloroplasts or internal metabolite pool size are more strictly regulated in halophytes. Pronounced differences were observed, when measuring P-type ATPase activities at the plasmalemma. Apparently, most of the difference between salt tolerant plants (halophytes) and glycophytes is due to a faster and}}, author = {{Huchzermeyer, B and Hausmann, N and Paquet-Durand, Francois and Koyro, H.-W.}}, issn = {{0564-3295}}, language = {{eng}}, number = {{1}}, pages = {{141--150}}, publisher = {{International Society for Tropical Ecology}}, series = {{Tropical Ecology}}, title = {{Biochemical and physiological mechanisms leading to salt tolerance}}, volume = {{45}}, year = {{2004}}, }