Sadaf Choudhary
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Explore the profile of Sadaf Choudhary including associated specialties, affiliations and a list of published articles.
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10
Citations
130
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Recent Articles
1.
Mukarram M, Ahmad B, Choudhary S, Konopkova A, Kurjak D, Khan M, et al.
Front Plant Sci
. 2024 Apr;
15:1377964.
PMID: 38633451
Phytotoxicity of trace elements (commonly misunderstood as 'heavy metals') includes impairment of functional groups of enzymes, photo-assembly, redox homeostasis, and nutrient status in higher plants. Silicon nanoparticles (SiNPs) can ameliorate...
2.
Ahmad B, Mukarram M, Choudhary S, Petrik P, Dar T, Khan M
Plant Physiol Biochem
. 2024 Mar;
208:108504.
PMID: 38507841
Nitric oxide (NO) is a gaseous free radical that acts as a messenger for various plant phenomena corresponding to photomorphogenesis, fertilisation, flowering, germination, growth, and productivity. Recent developments have suggested...
3.
Zehra A, Wani K, Choudhary S, Naeem M, Khan M, Aftab T
Plant Physiol Biochem
. 2023 Jan;
195:37-46.
PMID: 36599274
Heavy metal (HM) toxicity is a well-known hazard which causes deleterious impact on the growth and development of plants. The impact of abscisic acid (ABA) in presence of silicon (Si)...
4.
Wani K, Zehra A, Choudhary S, Naeem M, Khan M, Khan R, et al.
J Plant Growth Regul
. 2022 Apr;
:1-10.
PMID: 35431419
is a medicinal plant particularly known for the production of a sesquiterpene lactone artemisinin; a specialty metabolite known for its efficacy in the treatment of malaria by killing different strains...
5.
Mukarram M, Choudhary S, Khan M, Poltronieri P, Khan M, Ali J, et al.
Antioxidants (Basel)
. 2022 Jan;
11(1).
PMID: 35052524
The prominent cultivation of lemongrass ( spp.) relies on the pharmacological incentives of its essential oil. Lemongrass essential oil (LEO) carries a significant amount of numerous bioactive compounds, such as...
6.
Wani K, Choudhary S, Zehra A, Naeem M, Weathers P, Aftab T
Planta
. 2021 Jul;
254(2):29.
PMID: 34263417
This review analyses the most recent scientific research conducted for the purpose of enhancing artemisinin production. It may help to devise better artemisinin enhancement strategies, so that its production becomes...
7.
Mukarram M, Choudhary S, Kurjak D, Petek A, Khan M
Physiol Plant
. 2021 Apr;
172(2):1291-1300.
PMID: 33847385
Drought can be considered as a cocktail of multiple stressful conditions that contribute to osmotic and ionic imbalance in plants. Considering that water is vital for plant life, the very...
8.
Choudhary S, Zehra A, Mukarram M, Wani K, Naeem M, Khan M, et al.
Chemosphere
. 2021 Mar;
276:130153.
PMID: 33714878
Boron (B) toxicity is a notable abiotic hindrance that restricts crop productivity by disturbing several physiological and biochemical processes in plants. This study was aimed to elucidate the role of...
9.
Zehra A, Choudhary S, Wani K, Naeem M, Khan M, Aftab T
Plant Physiol Biochem
. 2020 Sep;
156:125-134.
PMID: 32932206
One of the major abiotic stresses that cause environmental pollution is heavy metal stress. In the present investigation, copper (Cu) toxicity caused morphological and cellular damages to the Artemisia annua...
10.
Zehra A, Choudhary S, Mukarram M, Naeem M, Khan M, Aftab T
Bull Environ Contam Toxicol
. 2020 Mar;
104(5):609-618.
PMID: 32128603
The effects of copper (Cu) exposure on growth and physiological characteristics of three genotypes (CN-12, Cim-Sanjeevani and Cim-Arogya) of Artemisia annua L. were elucidated. The plants were grown under naturally...