about
IMGMD: A platform for the integration and standardisation of In silico Microbial Genome-scale Metabolic ModelsMetabolic model reconstruction and analysis of an artificial microbial ecosystem for vitamin C production.Reconstruction and in silico analysis of an Actinoplanes sp. SE50/110 genome-scale metabolic model for acarbose production.Use of genome-scale metabolic models for understanding microbial physiology.Engineering redox balance through cofactor systems.Increased Processivity, Misincorporation, and Nucleotide Incorporation Efficiency in Sulfolobus solfataricus Dpo4 Thumb Domain Mutants.Metabolic Model Reconstruction and Analysis of an Artificial Microbial Ecosystem.Engineering Escherichia coli for malate production by integrating modular pathway characterization with CRISPRi-guided multiplexed metabolic tuning.Engineering rTCA pathway and C4-dicarboxylate transporter for L-malic acid production.Gene Circuits for Dynamically Regulating Metabolism.Hacking an Algal Transcription Factor for Lipid Biosynthesis.Mitochondrial engineering of the TCA cycle for fumarate production.Fumaric acid production by Torulopsis glabrata: engineering the urea cycle and the purine nucleotide cycle.Metabolic engineering of Escherichia coli W3110 to produce L-malate.Lsm12 mediates Polη deubiquitination to help resist oxidative stressOverexpression of thermostable meso-diaminopimelate dehydrogenase to redirect diaminopimelate pathway for increasing L-lysine production in Escherichia coliEnhancement of malate production through engineering of the periplasmic rTCA pathway in Escherichia coliGenome-scale biological models for industrial microbial systemsRational modification of Corynebacterium glutamicum dihydrodipicolinate reductase to switch the nucleotide-cofactor specificity for increasing l-lysine productionEnhancing fructosylated chondroitin production in Escherichia coli K4 by balancing the UDP-precursorsDevelopment of an Escherichia coli-based biocatalytic system for the efficient synthesis of N-acetyl-D-neuraminic acidEngineering synergetic CO2-fixing pathways for malate productionMetabolic engineering of carbohydrate metabolism systems in Corynebacterium glutamicum for improving the efficiency of L-lysine production from mixed sugarSpatial modulation and cofactor engineering of key pathway enzymes for fumarate production in Candida glabrataEnhancing L-malate production of Aspergillus oryzae FMME218-37 by improving inorganic nitrogen utilizationCgHog1-Mediated CgRds2 Phosphorylation Alters Glycerophospholipid Composition To Coordinate Osmotic Stress in Candida glabrataRecycling of cooking oil fume condensate for the production of rhamnolipids by Pseudomonas aeruginosa WB505Computational inference of the transcriptional regulatory network of Candida glabrataBioproduction, purification, and application of polysialic acidProduction of bioactive metabolites by submerged fermentation of the medicinal mushroom Antrodia cinnamomea: recent advances and future developmentHigh-Throughput Screening of a 2-Keto-L-Gulonic Acid-Producing Gluconobacter oxydans Strain Based on Related DehydrogenasesGenetic Circuit-Assisted Smart Microbial EngineeringProgrammable biomolecular switches for rewiring flux in Escherichia coliMetabolic engineering of glucose uptake systems in Corynebacterium glutamicum for improving the efficiency of L-lysine productionProduction, structure and morphology of exopolysaccharides yielded by submerged fermentation of Antrodia cinnamomeaEngineering Microorganisms for Enhanced CO2 Sequestration
P50
Q33677779-ED6B07BC-775F-4661-BA25-9E804C3EBD95Q35166250-2074BABD-37C5-4190-A231-DC15B746E555Q35778056-24A963C7-55B3-4E35-8759-36C4666B1E13Q37737389-E2AD23E9-47B5-40EC-BA8A-6F553B0B6E05Q38209241-3B94F2E8-E8B4-47D5-8285-72B62FFB83ADQ38678144-7F0D5724-9FF3-4685-8DEC-3F6701392885Q46244833-E66BC343-8FAE-4ED4-8E28-C08937A6E281Q47378677-08864030-AA44-4B63-887F-AD2F73AFF58EQ48823819-8F4291D7-8A5F-49CB-966F-FE92EDEBC16AQ49906080-AF6ECC92-244E-47D4-A28F-FBB4615915C6Q50155063-2D3B42AA-0391-4B53-9C67-6BB5B80ED02DQ51005522-E87A58B6-0A75-4EE2-9882-547AB980E90FQ51066389-99F0FD46-A89C-47EA-BA30-16239B078701Q51153576-F5806E0F-1224-4271-9592-A9E4D8E68ED1Q58112654-5E679F8B-BB13-4AB0-9D6E-37DA18EC8607Q64263148-2393FF33-A498-4EFE-BAEE-CBE92A087469Q87867438-7CEBDB60-B6E4-4914-B1F2-AD2989228298Q87934063-42A664BB-8767-4929-9444-B69ABF0008D3Q88160807-1B501A1F-D536-421F-B057-6B092826FCD4Q88357945-5F99104D-EA5E-4E76-9CD2-45B37C7F8534Q88493775-42971C79-C224-4C19-8B44-E9A15BCDE82BQ88650208-81EBE423-841D-48F1-AEFE-A94FAB8220A7Q89763520-8461B518-2E58-4C15-B8A1-9310A123C5ABQ90736634-C0FF36B6-BF90-4DDF-AB03-A7718CEB46F6Q90953231-881B8850-77F2-4B58-9E72-7C61DBC863D9Q91009975-7FFDA30E-C934-42E4-8FF4-ED8117FFF8F7Q91447701-F6DEAEEA-9552-44FA-AB1E-69D72545C85CQ91599757-4E872BDC-71D8-4C3D-8066-34AFFBCACEC1Q91656343-EC778CCB-4B23-4C38-9175-E4196E7B876BQ91955871-29FC91AF-7DDD-426F-9FBC-84065BAC7647Q92542680-2DFB28A9-7BB3-459D-ABCE-77EF304220F7Q92675929-076E5DE5-3FD2-4153-A748-232240FA11DEQ92757116-331DAEC8-BB06-40E8-B053-7C36CCEDA84EQ92774110-0F071B58-8669-4180-A665-F3B3C63F2212Q93180776-C3DC1238-4A8F-4DD4-BB73-8C4C2AEFCEE5Q93191022-AE213CA6-CAFB-4324-8AB9-52D11EA018D5
P50
description
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Liming Liu
@ast
Liming Liu
@en
Liming Liu
@es
Liming Liu
@nl
type
label
Liming Liu
@ast
Liming Liu
@en
Liming Liu
@es
Liming Liu
@nl
prefLabel
Liming Liu
@ast
Liming Liu
@en
Liming Liu
@es
Liming Liu
@nl
P106
P31
P496
0000-0003-3022-936X