| Predicting DNA hybridization kinetics from sequence JX Zhang, JZ Fang, W Duan, LR Wu, AW Zhang, N Dalchau, B Yordanov, ... Nature chemistry 10 (1), 91-98, 2018 | 167 | 2018 |
| Limitations and opportunities of technologies for the analysis of cell-free DNA in cancer diagnostics P Song, LR Wu, YH Yan, JX Zhang, T Chu, LN Kwong, AA Patel, ... Nature biomedical engineering 6 (3), 232-245, 2022 | 83 | 2022 |
| Highly multiplexed rapid DNA detection with single-nucleotide specificity via convective PCR in a portable device D Khodakov, J Li, JX Zhang, DY Zhang Nature Biomedical Engineering 5 (7), 702-712, 2021 | 51 | 2021 |
| A deep learning model for predicting next-generation sequencing depth from DNA sequence JX Zhang, B Yordanov, A Gaunt, MX Wang, P Dai, YJ Chen, K Zhang, ... Nature communications 12 (1), 4387, 2021 | 47 | 2021 |
| Calibration-free NGS quantitation of mutations below 0.01% VAF P Dai, LR Wu, SX Chen, MX Wang, LY Cheng, JX Zhang, P Hao, W Yao, ... Nature communications 12 (1), 6123, 2021 | 20 | 2021 |
| Ensemble of nucleic acid absolute quantitation modules for copy number variation detection and RNA profiling LR Wu, P Dai, MX Wang, SX Chen, EN Cohen, G Jayachandran, ... Nature communications 13 (1), 1791, 2022 | 8 | 2022 |
| Donut PCR: a rapid, portable, multiplexed, and quantitative DNA detection platform with single-nucleotide specificity D Khodakov, J Li, JX Zhang, DY Zhang BioRxiv, 2020.04. 24.058453, 2020 | 1 | 2020 |
| Microsatellite Instability Detection in Cancer: A Multiplex qPCR Approach that Obviates the Need for Matching Normal Samples W Chen, YH Yan, B Young, A Pinto, Q Jiang, N Song, A Yaseen, W Yao, ... Clinical Chemistry, hvae045, 2024 | | 2024 |
| Microsatellite Instability Detection in Clinical Cancer Samples: A Multiplex qPCR Approach without Matching Normal Samples W Chen, YH Yan, B Young, A Pinto, Q Jiang, N Song, W Yao, DY Zhang, ... medRxiv, 2023.11. 07.23298217, 2023 | | 2023 |
| RNA QUANTITATIVE AMPLICON SEQUENCING FOR GENE EXPRESSION QUANTITATION P Dai, AV SERRANO, JX ZHANG WO Patent WO2023077121A1, 2023 | | 2023 |
| Method, apparatus, and computer-readable medium for predicting a hybridization rate constant of a first sequence X Zhang, Z Fang, R Wu, W Duan, D Zhang US Patent 11,475,979, 2022 | | 2022 |
| Cost-Efficient Sequence-Based Nonextensible Oligonucleotide in Real-Time PCR and High-Throughput Sequencing K Zhang, P Song, P Dai, JX Zhang, LR Wu, LY Cheng, A Pinto, L Kwong, ... ACS sensors 7 (4), 1165-1174, 2022 | | 2022 |
| A Deep Learning Model for Predicting NGS Sequencing Depth from DNA Sequence J Zhang, B Yordanov, A Gaunt, M Wang, P Dai, YJ Chen, K Zhang, J Fang, ... | | 2020 |
| Apparatus and methods for multiplexed amplification and detection of dna using convectional heating and label-free microarray DY Zhang, D Khodakov, X Zhang WO Patent 2020056292A1, 2020 | | 2020 |
| Predicting DNA Hybridization & Strand Displacement Kinetics and NGS Sequencing Depth from Sequence Using Machine-Learning Approach JX Zhang Rice University, 2020 | | 2020 |
David Yu ZhangHardtech entrepreneurVerified email at biostate.ai
