DOCSLIB.ORG
Explore
Sign Up
Log In
Upload
Search
Home
» Tags
» Chemostat
Chemostat
Exploring Small-Scale Chemostats to Scale up Microbial Processes: 3-Hydroxypropionic Acid Production in S
Chemostat Culture for Yeast Experimental Evolution
Yeast Metabolic and Signaling Genes Are Required for Heat-Shock Survival
Evobot: an Open-Source, Modular, Liquid Handling Robot for Scientific Experiments
Raman Spectroscopy for the Microbiological Characterization and Identification of Medically Relevant Bacteria Khozima Mahmoud Hamasha Wayne State University
Surface Growth of a Motile Bacterial Population Resembles Growth in a Chemostat
Viscosity on Biofilm Phenotypic Expression
Growth of an Adherent Mixed Microbial Culture in a Substrate
Developing a Low-Cost Milliliter-Scale Chemostat Array for Precise Control of Cellular Growth
Dunham Lab Chemostat Manual
Microbial Growth
A High-Throughput Platform for Feedback-Controlled Directed Evolution
25% Off List Price
A Chemostat Competition Experiment
Dynamics of the Stochastic Chemostat with Monod-Haldane Response Function Received: 14 June 2017 Liang Wang1,2, Daqing Jiang1,3,5, Gail S
A Generalizable Experimental Framework for Automated Cell Growth and Laboratory Evolution
Modelling and Efficient Characterization of Enzyme
Action of Chloramphenicol and Cycloheximide on Saccharomyces Carlsbergensis: Batch and Continuous Studies
Top View
Design of a Continuous-Flow, Immobilized-Cell Fermentor System for Production of Bioethanol
Calorimeter-Fermentor Combination for Investigations on Microbial Steady State Cultures H
INEEL Biotechnology for Oilfield Application – Microbial Enhanced Oil Recovery FY2003 Report
The Effect of Oxygen and Ozone on Microbial
Chemostat Culture Systems Support Diverse Bacteriophage Communities from Human Feces Tasha M
The Single-Cell Chemostat: an Agarose- Based, Microfluidic Device for High- Throughput, Single-Cell Studies of Bacteria and Bacterial Communities
Pauline M. Doran
Bacterial Growth
Designing Automated, High-Throughput, Continuous Cell Growth Experiments Using Evolver
Information to Users
Steady State Multiplicity in the Chemostat
Introduction to the Chemostat H.T
Plate Reader Turbidostat Final Report
New Brunswick™ Bioflo 310 Benchtop Fermentor/Bioreactor
Bioreactor Operating Strategies for Improved Polyhydroxyalkanoate (PHA) Productivity
Continuous Fermentation to Produce Xanthan Biopolymer: Effect of Dilution Rate*
Metabolic and Evolutionary Responses of Clostridium Thermocellum to Genetic Interventions Aimed at Improving Ethanol Production Evert K
Automated Cell Treatment for Competence and Transformation of Escherichia Coli in a High-Throughput Quasi-Turbidostat Using Microtiter Plates
Journal Methods Microbiological
Micro-Bioreactor Design for Chinese Hamster Ovary Cells Shireen
Adaptation of a Single-Stage Chemostat System to Model Functional Aspects of the Human Distal Gut Microbiota
Methanol-Independent Protein Expression by AOX1 Promoter With
Special Engineering Aspects
Coli.", 2 Galactoside (TMG), That Are Not Split by This Enzyme."
Population Collapse and Adaptive Rescue During Long-Term Chemostat