Mohammad Faisal scite author profile

Research into nanotechnology, an emerging science, has advanced in almost all fields of technology. The aim of the present study was to evaluate the role of nano-silicon dioxide (nano-SiO2 ) in plant resistance to salt stress through improvement of the antioxidant system of squash (Cucurbita pepo L. cv. white bush marrow). Seeds treated with NaCl showed reduced germination percentage, vigor, length, and fresh and dry weights of the roots and shoots. However, nano-SiO2 improved seed germination and growth characteristics by reducing malondialdehyde and hydrogen peroxide levels as well as electrolyte leakage. In addition, application of nano-SiO2 reduced chlorophyll degradation and enhanced the net photosynthetic rate (Pn ), stomatal conductance (gs ), transpiration rate, and water use efficiency. The increase in plant germination and growth characteristics through application of nano-SiO2 might reflect a reduction in oxidative damage as a result of the expression of antioxidant enzymes, such as catalase, peroxidase, superoxide dismutase, glutathione reductase, and ascorbate peroxidase. These results indicate that nano-SiO2 may improve defense mechanisms of plants against salt stress toxicity by augmenting the Pn , gs , transpiration rate, water use efficiency, total chlorophyll, proline, and carbonic anhydrase activity in the leaves of plants.

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Phytotoxic hazards of NiO-nanoparticles in tomato: A study on mechanism of cell death

Faisal

Saquib

Alatar

et al. 2013

Journal of Hazardous Materials

293

114

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Shoot multiplication in Rauvolfia tetraphylla L. using thidiazuron

Faisal

Ahmad

Anis

2005

Plant Cell Tiss Organ Cult

137

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The effect of thidiazuron (TDZ) was investigated on in vitro shoot proliferation from nodal explants of Rauvolfia tetraphylla. Murashige and Skoog (MS) medium containing TDZ (0.5-10 lM) was effective in inducing shoot buds and maintaining high rates of shoot multiplication on hormone free medium. The highest shoot regeneration frequency (90%) and mean number (18.50 ± 1.25) of shoots per explant were achieved from nodal segments cultured on MS medium supplemented with 5 lM TDZ for 4 weeks prior to transfer to MS medium without TDZ for 8 weeks. The regenerated shoots rooted best on MS medium containing 0.5 lM indole-3-butyric acid (IBA). Micropropagated plantlets were hardened to survive ex vitro conditions and were then established into soil.

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ZEITLUPE Contributes to a Thermoresponsive Protein Quality Control System in Arabidopsis

et al. 2017

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Cellular proteins undergo denaturation and oxidative damage under heat stress, forming insoluble aggregates that are toxic to cells. Plants possess versatile mechanisms to deal with insoluble protein aggregates. Denatured proteins are either renatured to their native conformations or removed from cellular compartments; these processes are often referred to as protein quality control. Heat shock proteins (HSPs) act as molecular chaperones that assist in the renaturation-degradation process. However, how protein aggregates are cleared from cells in plants is largely unknown. Here, we demonstrate that heat-induced protein aggregates are removed by a protein quality control system that includes the ZEITLUPE (ZTL) E3 ubiquitin ligase, a central circadian clock component in ZTL mediates the polyubiquitination of aggregated proteins, which leads to proteasomal degradation and enhances the thermotolerance of plants growing at high temperatures. The ZTL-defective mutant exhibited reduced thermotolerance, which was accompanied by a decline in polyubiquitination but an increase in protein aggregate formation. ZTL and its interacting partner HSP90 were cofractionated with insoluble aggregates under heat stress, indicating that ZTL contributes to the thermoresponsive protein quality control machinery. Notably, the circadian clock was hypersensitive to heat in We propose that ZTL-mediated protein quality control contributes to the thermal stability of the circadian clock.

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An efficient micropropagation system for Tylophora indica: an endangered, medicinally important plant

Faisal

Ahmad

Anis

2007

Plant Biotechnol Rep

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Tylophora indica is an important medicinal plant from the repository of valuable plant species of Indian subcontinent. The plant has a long reputation in curing various health ailments including asthma, bronchitis, rheumatism and other respiratory problems. Due to its vast medicinal importance, the plant is exploited on a large scale and its uncontrolled and unmonitored harvesting from the wild has categorized the plant among the endangered plant species.

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Mohammad Faisal

Nano‐silicon dioxide mitigates the adverse effects of salt stress on Cucurbita pepo L

Phytotoxic hazards of NiO-nanoparticles in tomato: A study on mechanism of cell death

Shoot multiplication in Rauvolfia tetraphylla L. using thidiazuron

ZEITLUPE Contributes to a Thermoresponsive Protein Quality Control System in Arabidopsis

An efficient micropropagation system for Tylophora indica: an endangered, medicinally important plant

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