JenniferReed@sciencebuzz.com'
Jennifer Reed



Experience

Content

  • Most Viewed
  • Most Liked

Tab 1

Large-Scale Bi-Level Strain Design Approaches and Mixed-Integer Programming Solution Techniques

Metabolic engineering of microbial strains has been of great interest for producing a wide variety of chemicals including biofuels, polymer precursors, and drugs. While conventional metabolic engineering approaches often focus on modifications to the desired and neighboring pathways, recent developments in computational analysis of metabolic models allow identification of genetic modifications needed to improve production of biochemicals

Tab 2

Large-Scale Bi-Level Strain Design Approaches and Mixed-Integer Programming Solution Techniques

Metabolic engineering of microbial strains has been of great interest for producing a wide variety of chemicals including biofuels, polymer precursors, and drugs. While conventional metabolic engineering approaches often focus on modifications to the desired and neighboring pathways, recent developments in computational analysis of metabolic models allow identification of genetic modifications needed to improve production of biochemicals

ALL ARTICLES

Large-Scale Bi-Level Strain Design Approaches and Mixed-Integer Programming Solution Techniques

Metabolic engineering of microbial strains has been of great interest for producing a wide variety of chemicals including biofuels, polymer precursors, and drugs. While conventional metabolic engineering approaches often focus on modifications to the desired and neighboring pathways, recent developments in computational analysis of metabolic models allow identification of genetic modifications needed to improve production of biochemicals

CONTRIBUTIONS

  • Comments
  • Likes

Tab 3

Tab 4

Tab 5

Reviews
Scroll to top

Send this to a friend