The transcription factor TaNF-YB4 overexpression in wheat increases plant vigor and yield

Addressing food security is a priority in developing countries. This study aimed to improve wheat yield by overexpressing the TaNF-YB4 transcription factor, which is involved in carbon assimilation and stress tolerance. An expression cassette for TaNF-YB4 was developed in a modified wheat transforma...

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Bibliographic Details
Published in:Current plant biology 2024-12, Vol.40, p.100394, Article 100394
Main Authors: Azhar, Arooj, Ijaz, Sidra, Jabeen, Ayesha, Kamal, Attiya, Bashir, Aftab, Malik, Kauser Abdulla
Format: Article
Language:English
Subjects:
Carbon assimilation
QRT-PCR
Root architecture
Transcription factor overexpression
Wheat yield
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Summary:Addressing food security is a priority in developing countries. This study aimed to improve wheat yield by overexpressing the TaNF-YB4 transcription factor, which is involved in carbon assimilation and stress tolerance. An expression cassette for TaNF-YB4 was developed in a modified wheat transformation vector (pSB219) and examined through transient expression in Nicotiana tabacum, followed by Agrobacterium-mediated transformation of wheat variety FSD-2008. T0 transgenic plants were propagated to obtain T3 generation PCR-positive plants. Transgene expression was assessed in PCR-verified T2 plants using RT-PCR and qRT-PCR at six weeks post-germination. qRT-PCR analysis using the ΔΔCT method indicated higher TaNF-YB4 expression in transgenic lines than in the wild-type control plants. Improved agronomic and phenotypic traits were observed with a 6–36 % increase in 1000-grain weight in the selected transgenic lines. Root architecture assessments demonstrated enhanced root length, surface area, and projected area in transgenic lines compared with wild-type plants. Additionally, notable variances in total chlorophyll, protein, and sugar content levels were observed between the transgenic lines and control plants, demonstrating statistical significance with a p-value ≤ 0.05. This study indicates that low-level constitutive expression of TaNF-YB4 can enhance wheat yield, presenting a viable strategy for improving wheat productivity. •Overexpression of TaNF-YB4 improved wheat grain weight and root architecture.•The events YB4–5 and YB4–8 showed 36.3 and 24.2 % higher grain weights, respectively.•TaNF-YB4 has the potential to improve wheat yield and agricultural productivity.•Future efforts will focus on breeding homozygous lines and conducting field trials.
ISSN:2214-6628
2214-6628
DOI:10.1016/j.cpb.2024.100394