Keyword [S. cerevisiae] Result: 21 - 40 | Page: 2 of 3 21.  An Integrated Approach To Predict Essential Genes In The Aspergillus Nidulans Genome 22.  Cloning And Expression Of Human Pepsinogen A In Escherichia Coli And Saccharomyces Cerevisiae 23.  Effects Of Deletion Of Elp3 Gene On Caffeine And Hydrogen Peroxide Tolerance In S.Cerevisiae 24.  Research On Sub-cellular Location Of Soybean GmsSOS1 Protein And Its Salt Tolerance Complementation In Yeast Mutant 25.  Research On The Validity Of Spyligase System In Saccharomyces Cerevisiae 26.  The Breeding Of Yeasts With 2-phenylethanol Tolerance And High Yield 27.  Metabolism Of Sulfur In Saccharomyces Cerevisiae 28.  Study On Adaptive Evolution Of S.cerevisiae And E. Coli By Population Genomics 29.  Improving The Malonyl-CoA Level Through The Biosensor Based Key Enzyme Manipulation And The Transcription Regulation In S.cerevisiae 30.  A Study Of The Major Reactive Species In The Surface Micro-Discharge Plasma And Its Antimicrobial Mechanism Against Saccharomyces Cerevisiae 31.  Study On The Molecular Mechanism Of Elp3 Involved In S.cerevisiae Oxidative Stress Reaction Via Yap1 32.  Construction Of A Library Of Yeast S. Cerevisiae Synthetic Promoters Activated By Orthogonal Chimeric Proteins 33.  Study On The Function Of Elp3 In Oxidative Stress Of S.cerevisiae 34.  The Study Of Substrate Specific Recognition By APC/CCdc20in S.Cerevisiae 35.  Identification and characterization of an actomyosin contractile ring involved in S. cerevisiae cytokinesis 36.  Investigating the determinants of nucleosome assembly and positioning during DNA replication in S. cerevisiae 37.  Chromatin landscape of the 'dark matter of the genome': centromeres of S. cerevisiae and repeat sequences of D. melanogaster 38.  Parts and methods in synthetic biology: An investigation of light induced gene regulation in E. coli and the design and characterization of a dual mode promoter in S. cerevisiae 39.  Omics Analysis And Mechanism Research Of High Nucleic Acid Saccharomyces Cerevisiae 40.  Study On Biosynthesis Of Conjugated Linoleic Acid Monomers By Recombinant Yeast Strains   <<First  <Prev  Next>  Last>>  Jump to

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