Drying Increases Intracellular Partitioning of Amphiphilic Substances into the Lipid Phase

Golovina, Elena A.; Hoekstra, Folkert A.; Hemminga, M.A.

doi:10.1104/pp.118.3.975

Cited by 55 publications

(31 citation statements)

References 42 publications

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“…Our best speculation builds on recent ideas of partitioning of amphiphilic molecules and surface-active agents into hydrophilic or hydrophobic regions depending on water content (Golovina et al 1998;Hoekstra et al 1999). Within the triacylglycerol fraction, amphiphilic molecules may catalyze or inhibit crystallization reactions (see Walters et al 2005a), thereby explaining differences in crystallization rate, but not total crystallization, with seed water content (Figs.…”

Section: Discussionmentioning

confidence: 98%

Triacylglycerol phase and ‘intermediate’ seed storage physiology: a study of Cuphea carthagenensis

Crane¹,

Kovach

Gardner

et al. 2005

Planta

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Seeds with 'intermediate' storage physiology store poorly under cold and dry conditions. We tested whether the poor shelf life can be attributed to triacylglycerol phase changes using Cuphea carthagenensis (Jacq.) seeds. Viability remained high when seeds were stored at 25 degrees C, but was lost quickly when seeds were stored at 5 degrees C. Deterioration was fastest in seeds with high (>or=0.10 g g(-1)) and low (0.01 g g(-1)) water contents (g H(2)O g dry mass(-1)), and slowest in seeds containing 0.04 g g(-1). A 45 degrees C treatment before imbibition restored germination of dry seeds by melting crystallized triacylglycerols. Here, we show that the rate of deterioration in C. carthagenensis seeds stored at 5 degrees C correlated with the rate that triacylglycerols crystallized within the seeds. Lipid crystallization, measured using differential scanning calorimetry, occurred at 6 degrees C for this species and was fastest for seeds stored at 5 degrees C that had high and very low water contents, and slowest for seeds containing 0.04 g g(-1). Germination decreased to 50% (P50) when between 16 and 38% of the triacylglycerols crystallized; complete crystallization took from 10 to over 200 days depending on water content. Our results demonstrate interactions between water and triacylglycerols in seeds: (1) water content affects the propensity of triacylglycerols to crystallize and (2) hydration of seed containing crystallized triacylglycerols is lethal. We suggest that these interactions form the basis of the syndrome of damage experienced when seeds with intermediate storage physiologies are placed in long-term storage.

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Section: Discussionmentioning

confidence: 98%

Triacylglycerol phase and ‘intermediate’ seed storage physiology: a study of Cuphea carthagenensis

Crane¹,

Kovach

Gardner

et al. 2005

Planta

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“…However, in these studies no explanation of the phenomenon of pollen injuries was proposed. Investigations of Hoekstra et al (1992), Wolkers and Hoekstra (1995) and Golovina et al (1998) showed that cytoplasmic membranes were prime targets for destructive changes in pollen grains as a result of abiotic stresses. There is little information in the literature about the structural and biophysical function of membranes in the tolerance of pollen grains to industrial pollution.…”

Section: Discussionmentioning

confidence: 99%

Environmental pollution changes in membrane lipids, antioxidants and vitality of Scots pine (Pinus sylvestris L.) pollen

Pukacki

Chalupka

2011

Acta Soc Bot Pol

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Investigations were carried out on pollen grains of Scots pine (Pinus sylvestris L.) collected from trees at 1.5, 3, 4 km and control, 20 km from the Luboñ factory producing mineral fertilisers. The percentage of germination of pollen formed close to the pollution source was ca 20% lower compared to the control pollen. Lowered vitality of the pollen was effected in changes of the structure of cytoplasmic membranes. Pollen from the polluted area contained ca 15% less total phospholipids, mainly phosphatidylcholine and phosphatytidylinositol and had a lower content of soluble proteins and less of low molecular antioxidants, such as thiols and ascorbic acid. Composition of total fatty acid in phospholipids fractions showed a significant reduction in the degree of unsaturation of fatty acids. Pollen originating from the polluted area and stored at -30°C showed considerably stronger degradation of cytoplasmic membranes than control.

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“…This leakage is generally transient and does not lead to severe damage (Senaratna and McKersie, 1983;Hoekstra and Van der Wal, 1988). Lately, this leakage has been attributed to the transiently increased membrane permeability associated with the presence, in plasma membranes, of amphiphilic metabolites that are in the process of partitioning back into the aqueous cytoplasm during rehydration (Golovina et al, 1998). Complete loss of cell viability due to irreversible membrane damage may occur when dried anhydrobiotic cells are allowed to imbibe in relatively cold media (Hoekstra et al, 1999).…”

Section: Introductionmentioning

confidence: 99%

Ageing increases the sensitivity of neem (Azadirachta indica) seeds to imbibitional stress

et al. 2004

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Imbibitional stress was imposed on neem (Azadirachta indica) seeds by letting them soak for 1 h in water at unfavourable, low temperatures before further incubation at 30°C. Sensitivity to low imbibition temperatures increased with a decrease in seed moisture content (MC). To investigate a possible involvement of seed age in the extent of imbibitional damage, initially high-quality seed lots that differed in storage history (10 weeks versus 10 months) were examined at 4 and 7% MC (fresh weight basis). After 10 months of storage, the 7% MC seeds had become sensitive to imbibitional stress. Further drying (1 week) to 4% MC affected aged seeds more than non-aged seeds. Barrier properties of cellular membranes in axes excised after 1 d of rehydration were estimated using a spin-probe technique. The proportion of cells with intact membranes increased with increasing imbibition temperature. For each temperature tested, there were more cells with leaky membranes after 10 months than after 10 weeks of dry storage. Localization of embryo cells displaying loss of turgor and abnormal cellular structure was accomplished using cryo-planing, followed by cryo-scanning electron microscopy. Inspection of the cryo-planed surfaces confirmed that imbibitional damage was temperature dependent, occurring at the periphery. Ageing increased the number of imbibitionally damaged, peripheral cell layers. Germination was estimated to fail when less than 70% of axis cells were alive. We conclude that ageing increases the sensitivity to imbibitional stress. Both the fast ageing and the sensitivity to imbibitional stress might explain the apparent controversies about neem seed desiccation tolerance and storage behaviour.

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Drying Increases Intracellular Partitioning of Amphiphilic Substances into the Lipid Phase

Cited by 55 publications

References 42 publications

Triacylglycerol phase and ‘intermediate’ seed storage physiology: a study of Cuphea carthagenensis

Triacylglycerol phase and ‘intermediate’ seed storage physiology: a study of Cuphea carthagenensis

Environmental pollution changes in membrane lipids, antioxidants and vitality of Scots pine (Pinus sylvestris L.) pollen

Ageing increases the sensitivity of neem (Azadirachta indica) seeds to imbibitional stress

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