Wyniki wyszukiwania

1

Leaf structure and proline accumulation under salt and water stress

100%

Belyavskaya N. A., Chyzhykova O. A., Kovtun N. Y., Sidnev Y. P., Palladina T. O.

Acta Physiologiae Plantarum

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2007

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tom 29

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nr 1 Suppl.

2

Synthetic antidepressants effect on proline accumulation and leaf structure in maize seedlings under salinity

84%

Chyzhykova O. A., Belyavskaya N. A., Palladina T. O.

Acta Physiologiae Plantarum

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2007

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tom 29

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nr 1 Suppl.

3

Proline accumulation under salinity stress. Is abscisic acid involed?

84%

Naqvi S. S. M., Mumtaz S., Ali S. A., Shereen A., Khan A. H., Ashraf M. Y., Khan M. A.

Acta Physiologiae Plantarum

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1994

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tom 16

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nr 2

4

The effect of NaCl on proline accumulation in potato seedlings and calli

84%

Rahnama H., Ebrahimzadeh H.

Acta Physiologiae Plantarum

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2004

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tom 26

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nr 3

5

Does proline accumulated in leaves of water deficit stressed barley plants confine cell membrane injury? I. Free proline accumulation and membrane injury index in drought and osmotically stressed plants

84%

Bandurska H.

Acta Physiologiae Plantarum

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2000

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tom 22

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nr 4

6

Effects of water deficit on the relative water content, proline accumulation and injury of cell membranes in leaves of old and modern cultivars of winter wheat

67%

Bandurska H., Gorny A. G., Zielezinska M.

Acta Physiologiae Plantarum

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2007

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tom 29

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nr 1 Suppl.

7

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A comparison of the effects of drought on proline accumulation and peroxidases activity in leaves of Festuca rubra L. and Lolium perenne L.

67%

Bandurska H., Jozwiak W.

Acta Societatis Botanicorum Poloniae

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2010

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tom 79

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nr 2

111-116

The effect of soil drought on leaf water content, proline content, and the activity of guaiacol (GuPX) and ascorbate (APX) peroxidases as well as the level of lipid peroxidation were investigated in leaves of drought resistant red fescue (Festuca rubra) and drought sensitive perennial ryegrass (Lolium perenne). Plants were grown under glasshouse conditions in soil pot culture. 26 day-old grasses were exposed to drought by withholding irrigation for 18 days. Water content in leaves of perennial ryegrass decreased more than in red fescue throughout the experimental period. On the other hand, proline content (PC) was higher in red fescue. The activity of APX and GuPX increased in leaves of red fescue, while it did not change in perennial ryegrass. Our data demonstrate that both red fescue and perennial ryegrass were able to survive applied drought, as shown by a lack of stress-induced lipid peroxidation and hence no evidence of oxidative damage. We speculate, that the observed drought stress tolerance at cellular level was associated with the ability to accumulate proline, and to maintain high activity of APX and GuPX, resulting in protection against oxidative damage and lipid peroxidation. It seems that this mechanism works better in red fescue.

8

ABA and proline accumulation in leaves and roots of wild [Hordeum spontaneum] and cultivated [Hordeum vulgare Maresi] barley genotypes under water deficit conditions

67%

Bandurska H., Stroinski A.

Acta Physiologiae Plantarum

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2003

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tom 25

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nr 1

9

Free proline accumulation in wheat seedlings influenced by Fusarium culmorum infection and the pathogen metabolite deoxynivalenol

67%

Bandurska H., Chelkowski J., Wisniewska H.

Acta Physiologiae Plantarum

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1994

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tom 16

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nr 2

10

Effects of water deficit on the relative water content, proline accumulation and injury of cell membranes in leaves of old and modern cultivars of winter wheat

59%

Bandurska H., Gorny A., Zielezinska M.

Zeszyty Problemowe Postępów Nauk Rolniczych

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2008

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tom 524

Genotype-dependent variation in water stress-induced tissue dehydration (RWC), proline accumulation (PA), membrane injury (MI) and stress resistance (R) was studied among old and modern cultivars of winter wheat (Triticum aestivum L.). Twenty-day- old seedlings grown in nutrient solution were subjected to a moderate water stress (-0.75 MPa) by immersing (for 72 h) their root systems in aerated nutrient solution with the addition of polyethylene glycol (PEG 6000). Both cultivar groups tended to exhibit a different responsibility to the moderate stress. Water deficit induced reductions in the water content of leaves in five out of nine modern cultivars only and in these cultivars an increased accumulation of free proline was found. The highest, about 100-fold increase in PA was noticed in the modern cvs Emika and Finezja. The highest MI (≈ 12%) had the modern cv. Finezja. The leaf PA under stress positively correlated with MI, but both characteristics showed negative correlations with RWC. Only weak and insignificant relationships between leaf characteristics and stress resistance were observed. The results suggest that none of the individual measured physiological parameters would indirectly serve as a precise indicator for drought resistance in the studied wheat collection.

Ograniczanie wyników

Leaf structure and proline accumulation under salt and water stress

Synthetic antidepressants effect on proline accumulation and leaf structure in maize seedlings under salinity

Proline accumulation under salinity stress. Is abscisic acid involed?

The effect of NaCl on proline accumulation in potato seedlings and calli

Does proline accumulated in leaves of water deficit stressed barley plants confine cell membrane injury? I. Free proline accumulation and membrane injury index in drought and osmotically stressed plants

Effects of water deficit on the relative water content, proline accumulation and injury of cell membranes in leaves of old and modern cultivars of winter wheat

A comparison of the effects of drought on proline accumulation and peroxidases activity in leaves of Festuca rubra L. and Lolium perenne L.

ABA and proline accumulation in leaves and roots of wild [Hordeum spontaneum] and cultivated [Hordeum vulgare Maresi] barley genotypes under water deficit conditions

Free proline accumulation in wheat seedlings influenced by Fusarium culmorum infection and the pathogen metabolite deoxynivalenol

Effects of water deficit on the relative water content, proline accumulation and injury of cell membranes in leaves of old and modern cultivars of winter wheat