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Keyword [xylose]
Result: 61 - 80 | Page: 4 of 5
61. Construction And Application Of Pichia Pastoris Mutants For Xylose Metabolism Defect
62. Xylose And Arabinose Pathway Expression In Saccharomyces Cerevisiae
63. The Research Of Gre3 Gene Disruption In Saccharomyces Cerevisiae
64. Metabolic Engineering Of Escherichia Coli For Poly(3-hydroxybutyrate)
65. Construction Of Glucose Transporter-deficient Escherichia Coli Bacteria And Its D-lactic Acid Fermentation
66. Development And Preliminary Application Of FLP/FRT Recombination System In Candida Amazonensis
67. Transcriptome Annotation And Gene Expression Differences Analysis Of The Recombinant Yeast Strain
68. Functional Genomic Analysis Of Saccharomyces Cerevisiae Harboring An Efficient Cofactor-independent Xylose Isomerase Pathway
69. A Xylose-sensing Transcriptional Factor XbpR And Its Regulatory Function In Mycobacterium Smegmatis
70. Isolation And Preliminary Fermentation Evaluation Of Butanol-producing Strains Using Xylose As Carbon Source
71. Characteristic Of ?-mannanase And Glycoside Hydrolase Ttxy43,and Engineering Of Saccharomyces Cerevisiae Strains Display High Efficiency In Xylose Utilization
72. Manipulation Of Endogenous Gene Expression To Improve Xylose Utilization And Acetic Acid Tolerance Of Saccharomyces Cerevisiae
73. The Construction Of Coenzyme Regeneration Improved In E.Coli With Mulit-copy Integrated Expression Of Xylose Reductase
74. Isolation And Identification Of Carbonate Mineralized Bacteria And Its Immobilization On Heavy Metals
75. Mechanism Of ASK10 Mutation And Deletion Enhanced Xylose Isomerase Activity In Saccharomyces Cerevisiae
76. Effects Of BofA And BglG Genes On Sugar's Utilization In Thermoanaerobacterium Aotearoense SCUT27
77. Establishing The Methods Of Genome Editing Using CRISPR-Cas9 And Regulating Gene Expression Using Xylose In Trichoderma Reesei
78. Strains Construction For Cellulosic Ethanol Production And The Optimization Of Fermentation
79. Glycerol Utilization In Gluconobacter Oxydans 621H And Hydrolysis Of Inulin Catalyzed By Fe3+
80. Directed Evolution Of Carbon Chain Elongating Enzyme GALS And Its Potential Application Value In Artificial Ecology
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