Raheel Munir scite author profile

Raheel Munir

4Publications

42Citation Statements Received

151Citation Statements Given

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254

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Affiliations

Zhejiang University, Hangzhou Academy of Agricultural Sciences, The University of Agriculture, Peshawar

Publications

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The WRKY6 transcription factor affects seed oil accumulation and alters fatty acid compositions in Arabidopsis thaliana

Song

Munir

et al. 2020

Physiologia Plantarum

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In rapeseed, the oil content of the seed not only supplies energy for seed germination and seedling development but also provides essential dietary nutrients for humans and livestock. Recent studies have revealed that many transcription factors (TFs) regulate the accumulation of fatty acids (FAs) during seed development. WRKY6, a WRKY6 family TF, was reported to serve a function in the plant senescence processes, pathogen defense mechanisms and abiotic stress responses. However, the precise role of WRKY6 in influencing FA accumulation in seeds is still unknown. In this study, we demonstrate that WRKY6 has a high expression level in developing seeds and plays an essential role in regulating the accumulation of FAs in developing seeds of Arabidopsis. Mutation of WRKY6 resulted in significant increase in seed size, accompanied by an increase in FA content and changes in FA composition. Ultrastructure analyses showed that the absence of WRKY6 resulted in more and higher percentage of oil body in the cell of mature seeds. Quantitative real‐time PCR analysis revealed changes in the expression of several genes related to photosynthesis and FA biosynthesis in wrky6 mutants at 10 or 16 days after pollination. These results reveal a novel function of WRKY6 influencing seed oil content and FAs compositions. This gene could be used as a promising gene resource to improve FA accumulation and seed yield in Brassica napus through genetic manipulation.

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Ethylene mediates CuO NP-induced ultrastructural changes and oxidative stress inArabidopsis thalianaleaves

Azhar

Khan

Muhammad

et al. 2020

Environ. Sci.: Nano

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Identification and characterization of a novel multi-stress responsive gene in Arabidopsis

et al. 2020

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Abiotic stresses especially salinity, drought and high temperature result in considerable reduction of crop productivity. In this study, we identified AT4G18280 annotated as a glycine-rich cell wall protein-like (hereafter refer to as GRPL1) protein as a potential multistress-responsive gene. Analysis of public transcriptome data and GUS assay of pGRPL1::GUS showed a strong induction of GRPL1 under drought, salinity and heat stresses. Transgenic plants overexpressing GRPL1-3HA showed significantly higher germination, root elongation and survival rate under salt stress. Moreover, the 35S::GRPL1-3HA transgenic lines also showed higher survival rates under drought and heat stresses. GRPL1 showed similar expression patterns with Abscisic acid (ABA)-pathway genes under different growth and stress conditions, suggesting a possibility that GRPL1 might act in the ABA pathway that is further supported by the inability of ABA-deficient mutant (aba2-1) to induce GRPL1 under drought stress. Taken together, our data presents GRPL1 as a potential multi-stress responsive gene working downstream of ABA.

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BnaA02.NIP6;1a encodes a boron transporter required for plant development under boron deficiency in Brassica napus

Song

Munir

et al. 2021

Plant Physiology and Biochemistry

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Raheel Munir

The WRKY6 transcription factor affects seed oil accumulation and alters fatty acid compositions in Arabidopsis thaliana

Ethylene mediates CuO NP-induced ultrastructural changes and oxidative stress inArabidopsis thalianaleaves

Identification and characterization of a novel multi-stress responsive gene in Arabidopsis

BnaA02.NIP6;1a encodes a boron transporter required for plant development under boron deficiency in Brassica napus

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