Molecular diversity of Azerbaijani wild and cultivated barley genotypes

Abstract β-amylase activity is related to the polymorphism of Bmy1 intron III; however, no attention has been given to such relationship under environmental stresses like drought. In this study, 73 cultivated barley genotypes and 52 Tibetan wild barley accessions were used to test the association between Bmy1 gene intron III polymorphisms and β-amylase activity under drought stress. Our results showed that three alleles, Bmy1.a, Bmy1.b and Bmy1.c, existed in the examined barley genotypes. Tibetan wild barley had higher proportion of Bmy1.b, whereas cultivated barley showed higher proportion of Bmy1.a. Impressively, barley genotypes with Bmy1.b showed significant increase in β-amylase activity under drought stress, compared with those with Bmy1.a or Bmy1.c, indicating that Bmy1.b allele might provide more chances for developing barley cultivars with higher β-amylase activity under water stress than both Bmy1.a and Bmy1.c alleles. Furthermore, the Tibetan wild barley XZ147, belonging to Bmy1.b allele type, showed significant higher β-amylase activity than the cultivar Triumph under drought stress. This might result from the unique amino acid substitution M527 or the amino acid composition of R115, D165, A233, S347 and M527 of XZ147.

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Expression pattern and physiological roles of Plastid Terminal Oxidase (PTOX) in wild and cultivated barley genotypes under drought stress

Environmental and Experimental Botany ◽

10.1016/j.envexpbot.2019.03.007 ◽

2019 ◽

Vol 162 ◽

pp. 313-320 ◽

Cited By ~ 3

Author(s):

Ali Akbar Ghotbi-Ravandi ◽

Mansour Shariati ◽

Zahra-Sadat Shobbar ◽

Maryam Shahbazi

Keyword(s):

Drought Stress ◽

Expression Pattern ◽

Terminal Oxidase ◽

Cultivated Barley ◽

Barley Genotypes ◽

Plastid Terminal Oxidase

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Wild and cultivated barley genotypes demonstrate varying ability to acclimate to plant water deficits

Plant Science ◽

10.1016/0168-9452(94)90169-4 ◽

1994 ◽

Vol 99 (2) ◽

pp. 125-134 ◽

Cited By ~ 14

Author(s):

Dhammika Gunasekera ◽

Mane Santakumari ◽

Zvi Glinka ◽

Gerald A. Berkowitz

Keyword(s):

Plant Water ◽

Water Deficits ◽

Cultivated Barley ◽

Barley Genotypes

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Variation in β-amylase activity and thermostability in Tibetan annual wild and cultivated barley genotypes

Journal of Zhejiang University SCIENCE B ◽

10.1631/jzus.b1400026 ◽

2014 ◽

Vol 15 (9) ◽

pp. 801-808 ◽

Cited By ~ 3

Author(s):

Hai-tao Zhang ◽

Tian-long Chen ◽

Bing-lin Zhang ◽

De-zhi Wu ◽

Ye-chang Huang ◽

...

Keyword(s):

Amylase Activity ◽

Cultivated Barley ◽

Barley Genotypes

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Effect of rhizobacteria strains on the induction of resistance in barley genotypes against Cochliobolus sativus

Hellenic Plant Protection Journal ◽

10.2478/hppj-2020-0009 ◽

2020 ◽

Vol 13 (2) ◽

pp. 83-92 ◽

Cited By ~ 1

Author(s):

A. Adam

Keyword(s):

Plant Growth ◽

Pseudomonas Putida ◽

Growth Parameters ◽

Disease Incidence ◽

Dry Weight ◽

Cochliobolus Sativus ◽

Resistance Level ◽

Wet Weight ◽

Number Of Leaves ◽

Barley Genotypes

SummaryEnhancement of the resistance level in plants by rhizobacteria has been proven in several pathosystems. This study investigated the ability of four rhizobacteria strains (Pseudomonas putida BTP1 and Bacillus subtilis Bs2500, Bs2504 and Bs2508) to promote the growth in three barley genotypes and protect them against Cochliobolus sativus. Our results demonstrated that all tested rhizobacteria strains had a protective effect on barley genotypes Arabi Abiad, Banteng and WI2291. However, P. putida BTP1 and B. subtilis Bs2508 strains were the most effective as they reduced disease incidence by 53 and 38% (mean effect), respectively. On the other hand, there were significant differences among the rhizobacteria-treated genotypes on plant growth parameters, such as wet weight, dry weight, plant height and number of leaves. Pseudomonas putida BTP1 strain was the most effective as it significantly increased plant growth by 15-32%. In addition, the susceptible genotypes Arabi Abiad and WI2291 were the most responsive to rhizobacteria. This means that these genotypes have a high potential for increase of their resistance against the pathogen and enhancement of plant growth after the application of rhizobacteria. Consequently, barley seed treatment with the tested rhizobacteria could be considered as an effective biocontrol method against C. sativus.

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