Antimalarial Activity of C-10 Substituted Triazolyl Artemisinin
Gab-Man Park, Hyun Park, Sangtae Oh, Seokjoon Lee
Korean J Parasito. 2017;55(6):661-665. Published online 2017 Dec 31 DOI: https://doi.org/10.3347/kjp.2017.55.6.661
Citations to this article as recorded by 
Novel frontiers through nitrogen substitution at 6th, 10th and 11th position of artemisinin: Synthetic approaches and antimalarial activity
Priyanka Yadav, Varun Rawat, Shalini Kaushik Love, Ved Prakash Verma
European Journal of Medicinal Chemistry.2025; 281: 117032. CrossRef
Identification of potential bi-triazole based antimalarial compounds and their effects against asexual stages of Plasmodium isolates
Marcinete Latorre Almeida, Leandro do Nascimento Martinez, Welington da Silva Paula do Nascimento, Guilherme Matos Passarini, Daniel Sol Sol de Medeiros, Minelly Azevedo da Silva, Saara Neri Fialho, Amália do Santos Ferreira, Norton Rubens Diunior Lucas P
Caderno Pedagógico.2024; 21(13): e12709. CrossRef
In silico screening, synthesis, and antimalarial evaluation of PABA substituted 1,3,5-triazine derivatives as Pf-DHFR inhibitors
Ashmita Saha, Ayesha Aktar Khanam Choudhury, Nayana Adhikari, Surajit Kumar Ghosh, Anshul Shakya, Saurav Jyoti Patgiri, Udaya Pratap Singh, Hans Raj Bhat
Experimental Parasitology.2023; 250: 108546. CrossRef
Current development of 1,2,3-triazole derived potential antimalarial scaffolds: Structure- activity relationship (SAR) and bioactive compounds
S. Maheen Abdul Rahman, Jasvinder Singh Bhatti, Suresh Thareja, Vikramdeep Monga
European Journal of Medicinal Chemistry.2023; 259: 115699. CrossRef
Exploration of artemisinin derivatives and synthetic peroxides in antimalarial drug discovery research
Om P.S. Patel, Richard M. Beteck, Lesetja J. Legoabe
European Journal of Medicinal Chemistry.2021; 213: 113193. CrossRef