Saadia Basheer
University of the Punjab
7 Papers
11 Citations
Saadia Basheer is an academic researcher from University of the Punjab. The author has contributed to research in topics: Rhizosphere & Acclimatization. The author has an hindex of 4, co-authored 6 publications.
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Papers
A phytobeneficial strain Planomicrobium sp. MSSA-10 triggered oxidative stress responsive mechanisms and regulated the growth of pea plants under induced saline environment.
Muhammad Shahid,Muhammad Akram,M. A. Khan,Muhammad Zubair,Shahid Shah,Muhammad Ismail,Ghulam Shabir,Saadia Basheer,Kashif Aslam,Mohsin Tariq +9 more
TL;DR: The study was planned to characterize Planomicrobium sp.
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Identification of a novel copper-activated and halide-tolerant laccase in Geobacillus thermopakistaniensis
Saadia Basheer,Naeem Rashid,Raza Ashraf,Muhammad Sohail Akram,Masood Ahmed Siddiqui,Tadayuki Imanaka,Muhammad Akhtar,Muhammad Akhtar +7 more
TL;DR: The purified enzyme was highly tolerant to various halides and organic solvents, thus having a potential for various industrial applications and is the first characterization of a laccase from genus Geobacillus which identifies a gene responsible for functional lacc enzyme in this genus.
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A highly stable laccase from Bacillus subtilis strain R5: gene cloning and characterization.
TL;DR: The laccase activity of the recombinant protein was highly dependent on the presence of copper ions in the growth medium and microaerobic conditions during protein production, and the purified enzyme exhibited highest activity at 55 °C and pH 7.0.
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Glutathione-Dependent Formaldehyde Dehydrogenase Homolog from Bacillus subtilis Strain R5 is a Propanol-Preferring Alcohol Dehydrogenase.
TL;DR: The experimental results obtained in this study demonstrate that the enzyme exhibits a metal ion-dependent alcohol dehydrogenase activity but no glutathione-dependent formaldehyde dehydrogenases or aldehyde dismutase activity, demonstrating that it is a bona-fide alcohol dehydration and not a glutathionedependent formaldehyde dehydration.
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Staphylococcus Sciuri SAT-17 Facilitated in Vitro Regenerated Sugarcane Plantlets Cultivation in Saline Soil by Harmonizing Oxidative Signaling, Photosynthetic Efficiency and Nutrients Uptake Patterns
TL;DR: Staphylococcus sciuri SAT-17 could be used as a potential bio-fertilizer for sugarcane cultivation in hostile environments by maintaining optimum level of various biochemical and physiological entities.
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