Hong-Wu Ma
Hong-Wu Ma
Tianjin Institute of Industrial Biotechnology, CAS
Verified email at
Cited by
Cited by
Reconstruction of metabolic networks from genome data and analysis of their global structure for various organisms
H Ma, AP Zeng
Bioinformatics 19 (2), 270-277, 2003
The Edinburgh human metabolic network reconstruction and its functional analysis
H Ma, A Sorokin, A Mazein, A Selkov, E Selkov, O Demin, I Goryanin
Molecular systems biology 3 (1), 135, 2007
The connectivity structure, giant strong component and centrality of metabolic networks
HW Ma, AP Zeng
Bioinformatics 19 (11), 1423-1430, 2003
SynTReN: a generator of synthetic gene expression data for design and analysis of structure learning algorithms
T Van den Bulcke, K Van Leemput, B Naudts, P van Remortel, H Ma, ...
BMC bioinformatics 7, 1-12, 2006
An extended transcriptional regulatory network of Escherichia coli and analysis of its hierarchical structure and network motifs
HW Ma, B Kumar, U Ditges, F Gunzer, J Buer, AP Zeng
Nucleic acids research 32 (22), 6643-6649, 2004
Hierarchical structure and modules in the Escherichia coli transcriptional regulatory network revealed by a new top-down approach
HW Ma, J Buer, AP Zeng
BMC bioinformatics 5, 1-10, 2004
MEMOTE for standardized genome-scale metabolic model testing
C Lieven, ME Beber, BG Olivier, FT Bergmann, M Ataman, P Babaei, ...
Nature biotechnology 38 (3), 272-276, 2020
Decomposition of metabolic network into functional modules based on the global connectivity structure of reaction graph
HW Ma, XM Zhao, YJ Yuan, AP Zeng
Bioinformatics 20 (12), 1870-1876, 2004
Cell-free chemoenzymatic starch synthesis from carbon dioxide
T Cai, H Sun, J Qiao, L Zhu, F Zhang, J Zhang, Z Tang, X Wei, J Yang, ...
Science 373 (6562), 1523-1527, 2021
Constructing a synthetic pathway for acetyl-coenzyme A from one-carbon through enzyme design
X Lu, Y Liu, Y Yang, S Wang, Q Wang, X Wang, Z Yan, J Cheng, C Liu, ...
Nature communications 10 (1), 1378, 2019
Compartmentalization of the Edinburgh human metabolic network
T Hao, HW Ma, XM Zhao, I Goryanin
BMC bioinformatics 11, 1-12, 2010
Centrality, network capacity, and modularity as parameters to analyze the core-periphery structure in metabolic networks
MR Da Silva, H Ma, AP Zeng
Proceedings of the IEEE 96 (8), 1411-1420, 2008
Metabolic engineering of Bacillus subtilis for chiral pure meso-2, 3-butanediol production
J Fu, G Huo, L Feng, Y Mao, Z Wang, H Ma, T Chen, X Zhao
Biotechnology for biofuels 9 (1), 1-14, 2016
Human metabolic network reconstruction and its impact on drug discovery and development
H Ma, I Goryanin
Drug discovery today 13 (9-10), 402-408, 2008
Phylogenetic comparison of metabolic capacities of organisms at genome level
HW Ma, AP Zeng
Molecular phylogenetics and evolution 31 (1), 204-213, 2004
Development of a novel biosensor for the detection of arsenic in drinking water
J Aleksic, F Bizzari, Y Cai, B Davidson, K De Mora, S Ivakhno, ...
Synthetic Biology, IET 1 (1.2), 87-90, 2007
AmtB-mediated NH3 transport in prokaryotes must be active and as a consequence regulation of transport by GlnK is mandatory to limit futile cycling of NH4+/NH3
FC Boogerd, H Ma, FJ Bruggeman, WC van Heeswijk, ...
FEBS letters 585 (1), 23-28, 2011
Construction, Model-Based Analysis, and Characterization of a Promoter Library for Fine-Tuned Gene Expression in Bacillus subtilis
D Liu, Z Mao, J Guo, L Wei, H Ma, Y Tang, T Chen, Z Wang, X Zhao
ACS synthetic biology 7 (7), 1785-1797, 2018
Memote: A community driven effort towards a standardized genome-scale metabolic model test suite
C Lieven, ME Beber, BG Olivier, FT Bergmann, M Ataman, P Babaei, ...
BioRxiv, 350991, 2018
Systematic design and in vitro validation of novel one-carbon assimilation pathways
X Yang, Q Yuan, H Luo, F Li, Y Mao, X Zhao, J Du, P Li, X Ju, Y Zheng, ...
Metabolic Engineering 56, 142-153, 2019
The system can't perform the operation now. Try again later.
Articles 1–20