Jump to content

ARKA descriptors in QSAR

From Wikipedia, the free encyclopedia

One of the most commonly used in silico approaches for assessing new molecules' activity/property/toxicity is the Quantitative Structure-Activity/Property/Toxicity Relationship (QSAR/QSPR/QSTR), which generates predictive models for efficiently predicting query compounds .[1] QSAR/QSPR/QSTR uses numerical chemical information in the form of molecular descriptors and correlates these to the response activity/property/toxicity using statistical techniques.[2] While QSAR is essentially a similarity-based approach, the occurrence of activity/property cliffs may greatly reduce the predictive accuracy of the developed models.[3] The novel Arithmetic Residuals in K-groups Analysis (ARKA) approach is a supervised dimensionality reduction technique that can easily identify activity cliffs in a data set.[4] Activity cliffs are similar in their structures but differ considerably in their activity. The basic idea of the ARKA descriptors is to group the conventional QSAR descriptors based on a predefined criterion and then assign weightage to each descriptor in each group. ARKA descriptors have also been used to develop classification-based[5] and regression-based[6] QSAR models with acceptable quality statistics.

References

[edit]
  1. ^ Muratov, Eugene N.; et al. (June 8, 2020). "QSAR without borders". Chemical Society Reviews. 49 (11): 3525–3564. doi:10.1039/D0CS00098A. PMC 8008490. PMID 32356548.
  2. ^ Cherkasov, Artem; et al. (June 26, 2014). "QSAR Modeling: Where Have You Been? Where Are You Going To?". Journal of Medicinal Chemistry. 57 (12): 4977–5010. doi:10.1021/jm4004285. PMC 4074254. PMID 24351051.
  3. ^ Dablander, Markus; Hanser, Thierry; Lambiotte, Renaud; et al. (April 17, 2023). "Exploring QSAR models for activity-cliff prediction". Journal of Cheminformatics. 15 (1): 47. doi:10.1186/s13321-023-00708-w. PMC 10107580. PMID 37069675.
  4. ^ Qin, Li-Tang; Zhang, Jun-Yao; Nong, Qiong-Yuan; Xu, Xia-Chang-Li; Zeng, Hong-Hu; Liang, Yan-Peng; Mo, Ling-Yun (November 2024). "Classification and regression machine learning models for predicting the combined toxicity and interactions of antibiotics and fungicides mixtures". Environmental Pollution. 360: 124565. doi:10.1016/j.envpol.2024.124565. PMID 39033842.
  5. ^ Banerjee, Arkaprava; Roy, Kunal (2024). "ARKA: a framework of dimensionality reduction for machine-learning classification modeling, risk assessment, and data gap-filling of sparse environmental toxicity data". Environmental Science: Processes & Impacts. 26 (6): 991–1007. doi:10.1039/D4EM00173G. PMID 38743054.
  6. ^ Sobańska, Anna W.; Banerjee, Arkaprava; Roy, Kunal (18 November 2024). "Organic Sunscreens and Their Products of Degradation in Biotic and Abiotic Conditions—In Silico Studies of Drug-Likeness and Human Placental Transport". International Journal of Molecular Sciences. 25 (22): 12373. doi:10.3390/ijms252212373.