about
NADPH-generating systems in bacteria and archaeaForward design of a complex enzyme cascade reactionBioorganic applications of semisynthetic DNA-protein conjugates.Alleviating Redox Imbalance Enhances 7-Dehydrocholesterol Production in Engineered Saccharomyces cerevisiae.Pathway engineered enzymatic de novo purine nucleotide synthesis.Emerging enzymes for ATP regeneration in biocatalytic processes.Epigenetic Treatment of Neurodegenerative Disorders: Alzheimer and Parkinson Diseases.Epigenetic Treatment of Neuropsychiatric Disorders: Autism and Schizophrenia.Mechanistic investigation of a highly active phosphite dehydrogenase mutant and its application for NADPH regeneration.Bioprotective carnitinoids: lipoic acid, butyrate, and mitochondria-targeting to treat radiation injury: mitochondrial drugs come of age.Iron-catalyzed hydrogenation for the in situ regeneration of an NAD(P)H model: biomimetic reduction of α-keto-/α-iminoesters.Enhancement of biocatalytic efficiency by increasing substrate loading: enzymatic preparation of L-homophenylalanine.Immobilization-stabilization of a new recombinant glutamate dehydrogenase from Thermus thermophilus.Enzyme-assisted reforming of glucose to hydrogen in a photoelectrochemical cell.Enzyme-Based Electrobiotechnological Synthesis.Catalytic Alkylation Using a Cyclic S-Adenosylmethionine Regeneration System.A hydrogen fuel cell for rapid, enzyme-catalysed organic synthesis with continuous monitoring.Regiocomplementary O-Methylation of Catechols by Using Three-Enzyme Cascades.Enzymatic synthesis of lipid II and analogues.Directed evolution of formate dehydrogenase from Candida boidinii for improved stability during entrapment in polyacrylamideDevelopment of simple protocols to solve the problems of enzyme coimmobilization. Application to coimmobilize a lipase and a β-galactosidase
P2860
Q26797359-A030EFE4-8AD6-4063-8189-FAED0FA204A7Q28822437-32392678-5837-46F5-85BC-1553C3E24391Q34352292-127B00E9-14A1-45E8-8EAA-8149AE1B843AQ35670317-1BAE52A6-8930-4EB7-AF81-D7BE1B3581F1Q37352002-61C9F49D-7845-4DA5-ADB3-3AE1077C1C5CQ38331516-5E9E188B-F904-4F1E-A290-B95C90369B1AQ38742951-F7032F01-68C2-4034-BFD7-0FA75D53B880Q38743021-45AC0CB8-89D2-481F-817D-1A1E61C860E7Q40402309-6AB526FD-1837-498F-B8A2-AF7BB05F7DC1Q41953858-03A99D7C-08E5-4964-A962-8ACA8F58F078Q44281759-9DFA4ECE-F6EB-4322-BB7D-7E2BF83D5DFEQ44664883-E338F6D1-1DC8-45E3-81BF-C41980FC06BCQ46546563-5C6A225A-79D1-474D-92F7-D027B7C57059Q46550485-76030E0D-60BB-4082-A347-14D6FF8E7776Q47351655-8464D8E1-73B4-41A3-96D1-972E26328B0BQ48267098-77BBDC57-487D-4863-BFB3-1928DCB7BDD9Q50107767-300B2627-A588-4F07-9AED-3F0342FEE7AEQ51697276-68727EC1-6461-4DE0-8D0C-FE0C5A6692C3Q54340363-289C00F3-BAF6-440B-8D70-B9D0456EE0F4Q56898846-8EA7F29D-0DEF-4C59-93FB-EE20D5F5A085Q57629511-E07011CB-200B-43CD-ADB8-E72CA5F3DBD7
P2860
description
1988 nî lūn-bûn
@nan
1988年の論文
@ja
1988年論文
@yue
1988年論文
@zh-hant
1988年論文
@zh-hk
1988年論文
@zh-mo
1988年論文
@zh-tw
1988年论文
@wuu
1988年论文
@zh
1988年论文
@zh-cn
name
Cofactor regeneration for enzyme-catalysed synthesis.
@en
Cofactor regeneration for enzyme-catalysed synthesis.
@nl
type
label
Cofactor regeneration for enzyme-catalysed synthesis.
@en
Cofactor regeneration for enzyme-catalysed synthesis.
@nl
prefLabel
Cofactor regeneration for enzyme-catalysed synthesis.
@en
Cofactor regeneration for enzyme-catalysed synthesis.
@nl
P2093
P1476
Cofactor regeneration for enzyme-catalysed synthesis.
@en
P2093
Chenault HK
Whitesides GM
P304
P356
10.1080/02648725.1988.10647849
P577
1988-01-01T00:00:00Z