Abdul Latif Khan
University of Nizwa
316 Papers
717 Citations
Abdul Latif Khan is an academic researcher from University of Nizwa. The author has contributed to research in topics: Biology & Abscisic acid. The author has an hindex of 54, co-authored 293 publications. Previous affiliations of Abdul Latif Khan include University of Houston & Kyungpook National University.
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Papers
Determination of macro and micronutrients and nutritional prospects of six vegetable species of mardan, pakistan
Javid Hussain,Najeeb Ur Rehman,Abdul Latif Khan,Hidayat Hussain,Ahmed Al-Harrasi,Liaqat Ali,Farhana Sami,Zabta Khan Shinwari +7 more
- 01 Jan 2011
TL;DR: In this paper, the nutritional and mineral composition of selected vegetables, which are commonly used as food in Pakistan, were determined according to AOAC methods and the results indicated that all these vegetables have the potential to provide essential nutrients to the human beings.
Chemical Profile and In-Vitro Pharmacological activities of Yellow Pigment Extracted from Arthrobacter gandavensis
Muhammad Numan,Muhammad Numan,Samina Bashir,Roqayya Mumtaz,Sibgha Tayyab,Ikram Ullah,Abdul Latif Khan,Zabta Khan Shinwari,Ahmed Al-Harrasi +8 more
TL;DR: The yellow pigments isolated from Arthrobacter gandavensis covers a broad range pharmacological activities, which is ideal for industrial scale fermentation.
In vitro oxidative stress regulatory potential of Citrullus colocynthis and Tephrosia apollinea.
Tania Shamim Rizvi,Abdul Latif Khan,Liaqat Ali,Liaqat Ali,Narjis Al-Mawali,Fazal Mabood,Javid Hussain,Muhammad Adnan,Ahmed Al-Harrasi +8 more
TL;DR: The results of the present study revealed higher bioactivity of C. colocynthis than that of T. apollinea in various antioxidant assays, and the total phenolic content of both selected medicinal plants was evaluated.
Silicon and Salinity: Crosstalk in Crop-Mediated Stress Tolerance Mechanisms.
TL;DR: The potential role of Si in ameliorating salinity stress in crops and the possible mechanisms underlying Si-associated stress tolerance in plants are elucidated and the identification of gaps in the understanding of this process as a whole is underlined.
Plant growth-promoting endophytic bacteria versus pathogenic infections: an example of Bacillus amyloliquefaciens RWL-1 and Fusarium oxysporum f. sp. lycopersici in tomato.
TL;DR: The current findings suggest that RWL-1 inoculation promoted and rescued plant growth by modulating defense hormones and regulating amino acids during disease incidence and suggests that bacterial endophytes could be used for possible control of F. oxysporum f.