mRNA Design and Optimisation in Theory | Essentials (online)

04/14/2026 12/31/2026 Australia/Melbourne mRNA Design and Optimisation in Theory | Essentials (online)

Digital badge for the short course mRNA Design and Optimisation in Theory Essentials. The badge has blue and red corners, with a large black hexagon in the centre. Within the centre of the hexagon, is the title of the short course, mRNA Design and Optimisation in Theory | Essentials. Just below the title is the Monash University logo. A self-paced, online short course that establishes an understanding of designing and optimising key components in mRNA medicines. Through the completion of online modules, participants will gain knowledge of:

  • Foundation of mRNA design and optimisation
  • Coding Sequence (CDS) optimisation for stability and expression
  • UTR design to control translation and stability
  • Poly(A) tail design: implications for consistent expression and stability
  • mRNA capping: chemistry, function, and impact on translation
  • Computational tools for rational mRNA construct design
  • Next-generation RNA modalities: saRNA and circRNA
  • RNA delivery systems: selection and design considerations

Event Details

Date:
14 April 2026 at 12:00 am – 31 December 2026 at 12:00 am
Venue:
Online
Cost:
AUD 480 incl. GST
Website:
https://www.monash.edu/mrna-workforce-training-centre/training/mrna-design-and-optimisation-in-theory-essentials
Register here:
https://monash.guroo.academy/enrol/mrna_daoite_c1_2026
Categories:
mRNA Short Courses

Description

Digital badge for the short course mRNA Design and Optimisation in Theory Essentials. The badge has blue and red corners, with a large black hexagon in the centre. Within the centre of the hexagon, is the title of the short course, mRNA Design and Optimisation in Theory | Essentials. Just below the title is the Monash University logo. A self-paced, online short course that establishes an understanding of designing and optimising key components in mRNA medicines. Through the completion of online modules, participants will gain knowledge of:

  • Foundation of mRNA design and optimisation
  • Coding Sequence (CDS) optimisation for stability and expression
  • UTR design to control translation and stability
  • Poly(A) tail design: implications for consistent expression and stability
  • mRNA capping: chemistry, function, and impact on translation
  • Computational tools for rational mRNA construct design
  • Next-generation RNA modalities: saRNA and circRNA
  • RNA delivery systems: selection and design considerations

E-Mail
mrnamedicines.workforcetraining@monash.edu