M
Muhammad Afzal Ghauri
Researcher at National Institute for Biotechnology and Genetic Engineering
Publications - 53
Citations - 1955
Muhammad Afzal Ghauri is an academic researcher from National Institute for Biotechnology and Genetic Engineering. The author has contributed to research in topics: Coal & Bioleaching. The author has an hindex of 19, co-authored 52 publications receiving 1575 citations. Previous affiliations of Muhammad Afzal Ghauri include Bangor University.
Papers
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Electrochemical approach of anticancer drugs-DNA interaction
Sakandar Rauf,J. Justin Gooding,Kalsoom Akhtar,Muhammad Afzal Ghauri,Moazur Rahman,Munir A. Anwar,Ahmad M. Khalid +6 more
TL;DR: Electrochemical approach can provide new insight into rational drug design and would lead to further understanding of the interaction mechanism between anticancer drugs and DNA.
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Chitosan: A potential biopolymer for wound management.
TL;DR: This article will provide a concise insight on the properties of chitosan necessary for skin healing and regeneration, particularly highlighting the emerging role of ch itosan films as next generation skin substitutes for the treatment of full thickness wounds.
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Column bioleaching of metals from electronic scrap
Sadia Ilyas,Sadia Ilyas,Sadia Ilyas,Chi Ruan,Haq Nawaz Bhatti,Muhammad Afzal Ghauri,Munir A. Anwar +6 more
TL;DR: In this article, the column bio-leaching feasibility of metals from electronic scrap by the selected moderately thermophilic strains of mixed adapted consortium of acidophilic chemolothotrophic and acidophoric heterotrophic bacteria was studied.
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Glucose oxidase immobilization on a novel cellulose acetate-polymethylmethacrylate membrane.
Sakandar Rauf,Ayesha Ihsan,Kalsoom Akhtar,Muhammad Afzal Ghauri,Moazur Rahman,Munir A. Anwar,Ahmad M. Khalid +6 more
TL;DR: Improved resistance against urea denaturation was achieved and the immobilized glucose oxidase retained 50% of the activity without urea in the presence of 5M urea whereas free enzyme retained only 8% activity.
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Removal and recovery of uranium from aqueous solutions by Ca-alginate immobilized Trichoderma harzianum.
TL;DR: Immobilization of Trichoderma harzianum to Ca-alginate improved the stability as well as uranium biosorption capacity of biosorbent at 28+/-2 degrees C and 200 rpm and facilitated the sorption-desorption cycles for better economic feasibility without any significant alteration in sorption capacity/elution efficiency.