Biomolecular Horizons 2024
22 - 26 September 2024 AEST
Melbourne, Australia

Overview

Oxford Nanopore Technologies will be at the Biomolecular Horizons 2024. The event will be held in Melbourne, Australia from 22-26 September 2024. This important forum will bring together three prestigious congresses, each with a strong history of attracting the Bioscience and Biotechnology communities to discuss and examine the latest developments and research:

  • 26th Congress of the International Union of Biochemistry and Molecular Biology (IUBMB)
  • 17th Congress of the Federation of Asian & Oceanian Biochemists & Molecular Biologists (FAOBMB)
  • 22nd ComBio Conference (ComBio) BMH2024 will be one of the biggest international research conferences in basic biomolecular science.

Event venue - Melbourne Convention and Exhibition Centre (1 Convention Centre Place, South Wharf Vic 3006 Australia)

Oxford Nanopore at BMH 2024

Visit us at our exhibition booth # 25 if you are attending this conference.

Exhibition Opening Hours

  • Mon 23 September: 08:30 - 20:00 (Welcome reception in exhibition: 18:00 - 20:00)
  • Tue 24 September: 08:30 - 17:00
  • Wed 25 September: 08:30 - 15:30

Oxford Nanopore will be co-chairing a symposia during the concurrent session on Thursday, 26 September.

Please see below for more details.

Concurrent session

Symposia - Bioinformatics, Computational Biology and ‘Omics
Session details

Time

Agenda

Chairs

Miles Benton, Oxford Nanopore Technologies

Annabel Whibley, University of Auckland

11:50 - 12:08

Invited Speaker

A vision of translational computational pharmacogenomics

Michael Menden, University of Melbourne, Australia

12:08 - 12:26

Invited Speaker

Implementing targeted nanopore sequencing for clinical applications

James Ferguson, Garvan Institute, Australia

12:26 - 12:40

Complete cryo-EM data processing on bunya HPC virtual desktops

Farrah Blades, University of Queensland, Australia

12:40 - 12:54

Mapping the molecular landscape of sex- and modality-specific exercise responses in human skeletal muscle through multi-OMICs integration

Macsue Jacques, Monash University, Australia