| Eight high-quality genomes reveal pan-genome architecture and ecotype differentiation of Brassica napus JM Song, Z Guan, J Hu, C Guo, Z Yang, S Wang, D Liu, B Wang, S Lu, ... Nature plants 6 (1), 34-45, 2020 | 634 | 2020 |
| Genome-and transcriptome-wide association studies provide insights into the genetic basis of natural variation of seed oil content in Brassica napus S Tang, H Zhao, S Lu, L Yu, G Zhang, Y Zhang, QY Yang, Y Zhou, ... Molecular Plant 14 (3), 470-487, 2021 | 169 | 2021 |
| BnTIR: an online transcriptome platform for exploring RNA‐seq libraries for oil crop Brassica napus D Liu, L Yu, L Wei, P Yu, J Wang, H Zhao, Y Zhang, S Zhang, Z Yang, ... Plant Biotechnology Journal 19 (10), 1895, 2021 | 97 | 2021 |
| Genome‐ and transcriptome‐wide association studies reveal the genetic basis and the breeding history of seed glucosinolate content in Brassica napus Z Tan, Z Xie, L Dai, Y Zhang, H Zhao, S Tang, L Wan, X Yao, L Guo, ... Plant biotechnology journal 20 (1), 211-225, 2022 | 58 | 2022 |
| Multi-omics analysis dissects the genetic architecture of seed coat content in Brassica napus Y Zhang, H Zhang, H Zhao, Y Xia, X Zheng, R Fan, Z Tan, C Duan, Y Fu, ... Genome biology 23 (1), 86, 2022 | 41 | 2022 |
| Transcriptome analysis reveals genes commonly responding to multiple abiotic stresses in rapeseed Y Zhang, U Ali, G Zhang, L Yu, S Fang, S Iqbal, H Li, S Lu, L Guo Molecular Breeding 39, 1-19, 2019 | 37 | 2019 |
| Genome-Wide Association Mapping Unravels the Genetic Control of Seed Vigor under Low-Temperature Conditions in Rapeseed (Brassica napus L.) T Luo, Y Zhang, C Zhang, MN Nelson, J Yuan, L Guo, Z Xu Plants 10 (3), 426, 2021 | 28 | 2021 |
| Oil plant genomes: current state of the science JM Song, Y Zhang, ZW Zhou, S Lu, W Ma, C Lu, LL Chen, L Guo Journal of experimental botany 73 (9), 2859-2874, 2022 | 27 | 2022 |
| Comprehensive transcriptional variability analysis reveals gene networks regulating seed oil content of Brassica napus Z Tan, Y Peng, Y Xiong, F Xiong, Y Zhang, N Guo, Z Tu, Z Zong, X Wu, ... Genome Biology 23 (1), 233, 2022 | 19 | 2022 |
| High‐throughput phenotyping‐based quantitative trait loci mapping reveals the genetic architecture of the salt stress tolerance of Brassica napus G Zhang, J Zhou, Y Peng, Z Tan, Y Zhang, H Zhao, D Liu, X Liu, L Li, L Yu, ... Plant, Cell & Environment 46 (2), 549-566, 2023 | 11* | 2023 |
| Proteome‐wide identification of S‐sulphenylated cysteines in Brassica napus L Yu, S Iqbal, Y Zhang, G Zhang, U Ali, S Lu, X Yao, L Guo Plant, Cell & Environment 44 (11), 3571-3582, 2021 | 11 | 2021 |
| Transcriptome analysis reveals genes of flooding-tolerant and flooding-sensitive rapeseeds differentially respond to flooding at the germination stage J Li, S Iqbal, Y Zhang, Y Chen, Z Tan, U Ali, L Guo Plants 10 (4), 693, 2021 | 9 | 2021 |
| Proteome-wide identification of S-sulfenylated cysteines reveals metabolic response to freezing stress after cold acclimation in Brassica napus L Yu, Z Dai, Y Zhang, S Iqbal, S Lu, L Guo, X Yao Frontiers in Plant Science 13, 1014295, 2022 | 8 | 2022 |
| High-throughput unmanned aerial vehicle-based phenotyping provides insights into the dynamic process and genetic basis of rapeseed waterlogging response in the field J Li, T Xie, Y Chen, Y Zhang, C Wang, Z Jiang, W Yang, G Zhou, L Guo, ... Journal of Experimental Botany 73 (15), 5264-5278, 2022 | 5 | 2022 |
| Transcriptional regulation of oil biosynthesis in different parts of Wanyou 20 (Brassica napus) seeds. YT Zhang, SP Lu, C Jin, L Guo | | 2019 |
Hu Zhao (赵虎)National Key Laboratory of Crop Genetic Improvement, Huazhong Agricultural UniversityGeverifieerd e-mailadres voor webmail.hzau.edu.cn