[ASAP] Allosteric Regulation of DNA Circuits Enables Minimal and Rapid Biosensors of Small Molecules
[ASAP] Artificial Protein-Responsive Riboswitches Upregulate Non-AUG Translation Initiation in Yeast
![Permalink to: [ASAP] Elucidating the Determinants of Polymerase Specificity by Microfluidic-Based Deep Mutational Scanning](http://oldsite.divbiolchem.org/content/sb-2019-00104d_0006-200x200.gif)
[ASAP] Elucidating the Determinants of Polymerase Specificity by Microfluidic-Based Deep Mutational Scanning
![Permalink to: [ASAP] Combinatorial Sensor Design in <italic toggle="yes">Caulobacter crescentus</italic> for Selective Environmental Uranium Detection](http://oldsite.divbiolchem.org/content/sb-2018-00484s_0007-200x160.gif)
[ASAP] Combinatorial Sensor Design in <italic toggle=”yes”>Caulobacter crescentus</italic> for Selective Environmental Uranium Detection
![Permalink to: [ASAP] Building an Inducible T7 RNA Polymerase/T7 Promoter Circuit in <italic toggle="yes">Synechocystis</italic> sp. PCC6803](http://oldsite.divbiolchem.org/content/sb-2018-00515x_0005-200x200.gif)
[ASAP] Building an Inducible T7 RNA Polymerase/T7 Promoter Circuit in <italic toggle=”yes”>Synechocystis</italic> sp. PCC6803
![Permalink to: [ASAP] Systematic Evaluation of Genetic and Environmental Factors Affecting Performance of Translational Riboswitches](http://oldsite.divbiolchem.org/content/sb-2019-00017y_0010-200x200.gif)
[ASAP] Systematic Evaluation of Genetic and Environmental Factors Affecting Performance of Translational Riboswitches
![Permalink to: [ASAP] Enhanced Pyruvate Production in <italic toggle="yes">Candida glabrata</italic> by Engineering ATP Futile Cycle System](http://oldsite.divbiolchem.org/content/sb-2018-00479s_0006-200x200.gif)
[ASAP] Enhanced Pyruvate Production in <italic toggle=”yes”>Candida glabrata</italic> by Engineering ATP Futile Cycle System
![Permalink to: [ASAP] Structural Characterization of a Synthetic Tandem-Domain Bacterial Microcompartment Shell Protein Capable of Forming Icosahedral Shell Assemblies](http://oldsite.divbiolchem.org/content/sb-2019-00011b_0005-200x200.gif)
[ASAP] Structural Characterization of a Synthetic Tandem-Domain Bacterial Microcompartment Shell Protein Capable of Forming Icosahedral Shell Assemblies
![Permalink to: [ASAP] Spatiotemporal Gene Repression System in the Heterocyst-Forming Multicellular Cyanobacterium <italic toggle="yes">Anabaena</italic> sp. PCC 7120](http://oldsite.divbiolchem.org/content/sb-2018-004967_0005-200x200.gif)
[ASAP] Spatiotemporal Gene Repression System in the Heterocyst-Forming Multicellular Cyanobacterium <italic toggle=”yes”>Anabaena</italic> sp. PCC 7120
![Permalink to: [ASAP] Desymmetrization of Cyclodepsipeptides by Assembly Mode Switching of Iterative Nonribosomal Peptide Synthetases](http://oldsite.divbiolchem.org/content/sb-2018-00541b_0004-200x200.gif)
[ASAP] Desymmetrization of Cyclodepsipeptides by Assembly Mode Switching of Iterative Nonribosomal Peptide Synthetases
![Permalink to: [ASAP] Synthetic Inducible Regulatory Systems Optimized for the Modulation of Secondary Metabolite Production in <italic toggle="yes">Streptomyces</italic>](http://oldsite.divbiolchem.org/content/sb-2019-000013_0007-200x200.gif)
[ASAP] Synthetic Inducible Regulatory Systems Optimized for the Modulation of Secondary Metabolite Production in <italic toggle=”yes”>Streptomyces</italic>
![Permalink to: [ASAP] Metabolic Engineering of a Homoserine-Derived Non-Natural Pathway for the <italic toggle="yes">De Novo</italic> Production of 1,3-Propanediol from Glucose](http://oldsite.divbiolchem.org/content/sb-2019-00003k_0007-200x124.gif)
[ASAP] Metabolic Engineering of a Homoserine-Derived Non-Natural Pathway for the <italic toggle=”yes”>De Novo</italic> Production of 1,3-Propanediol from Glucose
![Permalink to: [ASAP] Physical Plasma Membrane Perturbation Using Subcellular Optogenetics Drives Integrin-Activated Cell Migration](http://oldsite.divbiolchem.org/content/sb-2018-00356t_0011-200x200.gif)
[ASAP] Physical Plasma Membrane Perturbation Using Subcellular Optogenetics Drives Integrin-Activated Cell Migration
![Permalink to: [ASAP] Combining 26s rDNA and the Cre-loxP System for Iterative Gene Integration and Efficient Marker Curation in <italic toggle="yes">Yarrowia lipolytica</italic>](http://oldsite.divbiolchem.org/content/sb-2018-00535f_0006-200x200.gif)
[ASAP] Combining 26s rDNA and the Cre-loxP System for Iterative Gene Integration and Efficient Marker Curation in <italic toggle=”yes”>Yarrowia lipolytica</italic>
![Permalink to: [ASAP] Redirecting Metabolic Flux <italic toggle="yes">via</italic> Combinatorial Multiplex CRISPRi-Mediated Repression for Isopentenol Production in <italic toggle="yes">Escherichia coli</italic>](http://oldsite.divbiolchem.org/content/sb-2018-004295_0008-200x197.gif)
[ASAP] Redirecting Metabolic Flux <italic toggle=”yes”>via</italic> Combinatorial Multiplex CRISPRi-Mediated Repression for Isopentenol Production in <italic toggle=”yes”>Escherichia coli</italic>
![Permalink to: [ASAP] Antisense RNA-Based Strategy for Enhancing Surfactin Production in <italic toggle="yes">Bacillus subtilis</italic> TS1726 via Overexpression of the Unconventional Biotin Carboxylase II To Enhance ACCase Activity](http://oldsite.divbiolchem.org/content/sb-2018-00459q_0005-200x200.gif)
[ASAP] Antisense RNA-Based Strategy for Enhancing Surfactin Production in <italic toggle=”yes”>Bacillus subtilis</italic> TS1726 via Overexpression of the Unconventional Biotin Carboxylase II To Enhance ACCase Activity
![Permalink to: [ASAP] Synthetic Transcription Factors Switch from Local to Long-Range Control during Cell Differentiation](http://oldsite.divbiolchem.org/content/sb-2018-00369y_0006-200x200.gif)
[ASAP] Synthetic Transcription Factors Switch from Local to Long-Range Control during Cell Differentiation
![Permalink to: [ASAP] An Artificial Pathway for Isoprenoid Biosynthesis Decoupled from Native Hemiterpene Metabolism](http://oldsite.divbiolchem.org/content/sb-2018-00383z_0005-200x200.gif)
[ASAP] An Artificial Pathway for Isoprenoid Biosynthesis Decoupled from Native Hemiterpene Metabolism
![Permalink to: [ASAP] Metabolic Engineering of <italic toggle="yes">Saccharomyces cerevisiae</italic> for Production of Shinorine, a Sunscreen Material, from Xylose](http://oldsite.divbiolchem.org/content/sb-2018-003888_0009-200x200.gif)
[ASAP] Metabolic Engineering of <italic toggle=”yes”>Saccharomyces cerevisiae</italic> for Production of Shinorine, a Sunscreen Material, from Xylose
![Permalink to: [ASAP] Biological Engineered Living Materials: Growing Functional Materials with Genetically Programmable Properties](http://oldsite.divbiolchem.org/content/sb-2018-00423s_0006-200x148.gif)