Factors playing role in heat acclimation processes in barley and oat plants
Photosynthetica • 2021
معلومات البحث
المؤلفون
É Darkó, R Khalil, N Elsayed, M Pál, KÁ Hamow, G Szalai, J Tajti, QT Nguyen, NT Nguyen, VN Le, T Janda
الكلمات المفتاحية
Not Available
المجلة العلمية
Photosynthetica
الناشر
ACAD SCIENCES CZECH REPUBLIC, INST EXPERIMENTAL BOTANY
المجلد
57
العدد
4
الصفحات
1035-1043
publication.type
International
رابط البحث
Open Link
المواد المرفقة
Not Available
الملخص
In the present study, the heat acclimation processes (growing at 30/27°C for 2 weeks) in spring and winter varieties of
barley (Hordeum vulgare L., varieties ‘Conchita’ and ‘Mv Initium’) and oat (Avena sativa L., varieties ‘Mv Pehely’ and
‘Mv Hópehely’) were characterized. Temperature dependence of certain chlorophyll a fluorescence induction parameters
indicated the efficiency of heat acclimation. Heat treatment induced the activity of glutathinone-S-transferase, but
decreased the amounts of the major polyamines. A significant increase in cadaverine content was found in ‘Conchita’.
1,3-diaminopropane contents after heat acclimation were lower in the oat and higher in the barley varieties than that in the
control plants. Salicylic acid and para-hydroxybenzoic acid contents were also induced at elevated temperatures. Changes
in abscisic acid differed in the two species. Results suggest that besides certain similarities, different strategies can be
activated to avoid the damaging effects of high temperatures in barley and oat plants.
barley (Hordeum vulgare L., varieties ‘Conchita’ and ‘Mv Initium’) and oat (Avena sativa L., varieties ‘Mv Pehely’ and
‘Mv Hópehely’) were characterized. Temperature dependence of certain chlorophyll a fluorescence induction parameters
indicated the efficiency of heat acclimation. Heat treatment induced the activity of glutathinone-S-transferase, but
decreased the amounts of the major polyamines. A significant increase in cadaverine content was found in ‘Conchita’.
1,3-diaminopropane contents after heat acclimation were lower in the oat and higher in the barley varieties than that in the
control plants. Salicylic acid and para-hydroxybenzoic acid contents were also induced at elevated temperatures. Changes
in abscisic acid differed in the two species. Results suggest that besides certain similarities, different strategies can be
activated to avoid the damaging effects of high temperatures in barley and oat plants.
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