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Showing 2 results for Real Time Pcr
Negin Eslahi, Mojegan Kowsari, Mostafa Motallebi#, Mohammad Reza Zamani, Sepideh Akbari,
Volume 6, Issue 1 (9-2019)
Abstract
The transition from the vegetative phase to reproductive phase is the most important event in production and genetic innovation. This phenomenon is influenced by many genetic and environmental factors in plants. According to studies carried out in this field, one of the environmental factors affects the reproductive and flowering process is Trichoderma species, which is abundant in soil. This study was carried out to evaluate the ability of two recombinant Trichoderma harzianum strains containing chimeric chit 42 (with CHBD domain) and wild-type strain to promote common bean flowering and yield increase in vivo condition. To do this, flowering parameters such as a number of flowers, flowering time and effective parameters in yield were evaluated. Also, expression level of some flowering-related genes such as FT and SOC1 were measured using real-time PCR. The results showed that the bean plants treated with recombinant strains had a significantly increased number of flowers and earlier flowering compared to the control and wild type Trichoderma. Also, plants treated with recombinant strains showed a significant difference in the number and weight of the pod compared to the plant treated with wild type strain and non-treated plants. In addition, the plants treated with T13 strain showed more expression levels of the FT and SOC1 genes (with ratio of 3.42 and 3.41 fold respectively) compared to other treatments and control plant. Finally, T13 recombinant strain exhibited a better performance compared to the other strains through a positive effect on flowering and then increased the crop yield.
Fatemeh Asadzadeh, Babak Abdollahi Mandoulakani,
Volume 11, Issue 1 (9-2024)
Abstract
To investigate the effect of iron deficiency stress on the expression of genes encoding bZIP4, bZIP79, and bZIP97 transcription factors in iron-efficient and -inefficient bread wheat cultivars, a factorial experiment was conducted in a completely randomized design with three replications in the research greenhouse of Urmia University. Falat (iron-inefficient) and Pishtaz (iron-efficient) cultivars were grown in iron deficiency and sufficiency conditions. The expression levels of genes mentioned above were measured using real time PCR technique in the leaves and roots of the cultivars at two growth stages: one month after germination (vegetative) and 30% of spiking (reproductive). The results revealed the highest increase in the relative expression of bZIP79 (more than 14-fold change) and bZIP97 (more than 3-fold change) in the leaves of iron-inefficient (Falat) and -efficient (Pishtaz) cultivars, respectively, at vegetative stage. The highest relative expression of bZIP4 was observed in the roots of iron-inefficient cultivars in the vegetative stage. This probably shows that bZIP4 might activate the transcription of the genes responsible for iron uptake from the soil. Increased expression of bZIP79 in the leaves of iron-efficient cultivar in the vegetative stage under iron deficiency conditions, indicates the involvement of this transcription factor in the activation of genes responsible for iron transfer from the leaves to the grain and other tissues. In general, this research helps understand the mechanism of plants coping with iron deficiency stress. Also, the identification of key bZIP transcription factors involved in the activation of genes responsible for iron absorption and transport in bread wheat plants provides the possibility of genetic manipulation of bread wheat cultivars to produce cultivars with a higher amount of iron in the grain.
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