MLP-Based Regression Prediction Model For Compound Bioactivity

Author:

Qin Yongfei,Li Chao,Shi Xia,Wang Weigang

Abstract

The development of breast cancer is closely linked to the estrogen receptor ERα, which is also considered to be an important target for the treatment of breast cancer. Therefore, compounds that can antagonize ERα activity may be drug candidates for the treatment of breast cancer. In drug development, to save manpower and resources, potential active compounds are often screened by establishing compound activity prediction model. For the 1974 compounds collected, the top 20 molecular descriptors that significantly affected the biological activity were screened using LASSO regression models combined with 10-fold cross-validation method. Further, a regression prediction model based on the MLP fully connected neural network was constructed to predict the bioactivity values of 50 new compounds. To measure the validity of the model, the model loss term was specified as the mean squared error (MSE). The results showed that the MLP-based regression prediction model had a loss value of 0.0146 on the validation set. This model is therefore well trained and the prediction strategy used is valid. The methods developed by this paper may provide a reference for the development of anti-breast cancer drugs.

Funder

Natural Science Foundation of Zhejiang Province

National Natural Science Foundation of China

Publisher

Frontiers Media SA

Subject

Biomedical Engineering,Histology,Bioengineering,Biotechnology

Reference31 articles.

1. Inhibition Activity Prediction for a Dataset of Candidates' Drug by Combining Fuzzy Logic with MLR/ANN QSAR Models;Abdolmaleki;Chem. Biol. Drug Des.,2019

2. Аir Pollution Emissions Are Associated with Incidence and Prevalence of Breast Cancer in the Aktobe Region of Western Kazakhstan[J];Batyrova;Georgian Med. News,2021

3. Efficacy and Safety of Kanglaite Injection Combined with Chemotherapy for Women Breast Cancer;Cheng;Medicine,2021

4. Multi-input CNN-GRU Based Human Activity Recognition Using Wearable Sensors[J];Dua;Computing,2021

5. Least Angle Regression[J];Efron;Ann. Statistics,2004

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