Science

Opening: Ramaciotti Centre launches new genome facilities

L-R Mary O'Kane, NSW Chief Scientist; Rebecca Johnson, Australian Museum Research Institute; Nicholas Fisk, UNSW Deputy Vice-Chancellor(Research); Emad El-Omar, Microbiome Research Centre; and Marc Wilkins, Ramaciotti Centre. Photo: Grant Turner/Mediakoo
Wednesday, 26 July, 2017
Steve Offner

NSW Chief Scientist Professor Mary O’Kane has officially opened new custom-designed facilities to house UNSW Science's Ramaciotti Centre for Genomics, the largest university-based facility of its kind in Australia.

Professor O’Kane cut the ribbon to the facility, housed within the new $165 million Biosciences Building on UNSW’s Kensington campus. Amongst other technology, it will house two new state-of-the-art ‘next generation’ sequencing platforms that put NSW at the forefront of international genome sequencing capabilities.

Established in 1999 with a grant from the Clive and Vera Ramaciotti Foundation, the Centre is one of the few dedicated genomics facilities in Australia that accommodates a full suite of genomics technologies and links these together using process management software.

“It’s wonderful to be in this new facility,” Professor O’Kane said. “I am an engineer by training but I am a Big Data nut, so I get so excited about machines like this,” she said, referring to the Centre’s newest acquisitions – the Illumina NovaSeq 6000 technology that offers high-throughput sequencing and the PacBio Sequel platform, which can sequence up to one million single molecules of DNA simultaneously.

UNSW's new Biological Sciences building, home to the Ramaciotti Centre for Genomics.

“The most exciting area is the biological aspects of Big Data and what it can reveal … not just in the human side of things but also in projects like the sequencing of the Koala genome, a crucial part of the NSW government’s Koala Strategy,” Professor O’Kane said.

With the Ramacioitti Centre’s technology already used across all scientific fields and institutions, Professor O’Kane said she expected more research breakthroughs.

“Who knows what the problems are that we might be able to solve?”

Research collaboration

UNSW scientist Professor Marc Wilkins, director of the Ramaciotti Centre, said the new facility and platforms would deliver internationally competitive genomics to the Australian research community.

“The new facility is designed for future growth, to further support the genomics community in NSW and in Australia,” said Professor Wilkins, who is based in the School of Biotechnology and Biomolecular Sciences.

Himself credited with inventing a new field -- proteomics, the large-scale study of proteins within living organisms -- Professor Wilkins said the Ramaciotti Centre’s co-location with proteomics, bioinformatics, flow cytometry and imaging facilities would better facilitate collaboration among its 500 users each year.

Professor Wilkins said collaborations spanned biomedicine, conservation, the environment, agriculture and biotechnology. The Centre was currently working with UNSW Professor Emad El-Omar and his team from the Microbiome Research Centre at St George Hospital to map the microbiota of the gut, which is linked to diseases include stroke, asthma, obesity, diabetes, mental health, and pre-eclampsia in pregnant women.

In 2015, the Centre was instrumental in a ground-breaking study of the koala genome, which revealed the marsupials were genetically diverse and whose declining populations were the result of human-related activity rather than inbreeding.

UNSW Professor March Wilkins, director of the Ramaciotti Centre. Photo: Grant Turner/Mediakoo

The sequencing of the koala genome has since informed policy and management decisions crucial to preserving the iconic species, said the project leader Professor Rebecca Johnson, who is Director of the Australian Museum Research Institute.

The Centre’s “next generation” platforms would “massively accelerate the sequencing and assembly of large, complex genomes of animals and plants” such as the Koala, while also accelerating the analysis of human gene expression projects, Professor Johnson said.

New technology

One of the new instruments housed in the new facility, the Illumina NovaSeq 6000, can sequence up to 3 terabases of DNA in a single run – the equivalent of sequencing one human genome 930 times, Professor Wilkins said.

“This instrument is also very flexible and permits the analysis of genomes, gene expression, and the regulatory processes that control this. It can be used for the analysis of animal, plant and microbial samples important for fundamental research into molecular biology, for research into agriculture and the environment, and for research into human wellness and disease.”

The Centre is also launching a PacBio Sequel platform -- an instrument that sequences single molecules of DNA.

“Remarkably, it can sequence lengths of DNA of up to 98 kilobases, and sequence up to one million of these simultaneously in one run. This type of sequencer is revolutionising genome sequencing of species that have, to date, been impossible to decode by other techniques.”

Since its establishment, the Ramaciotti Centre has been recognised and funded as National Research Infrastructure since 2007 and has received 16 successful ARC LIEF grants since 2000.

The Centre is also supported by funding from the NSW Government’s Research Attraction and Acceleration Program (RAAP) and with investment from UNSW Sydney.

The Centre's opening ceremony this week. Photo Grant Turner/Mediakoo