Saturday, November 05, 2022

Singapore scientists crack the genome of Singapore's national flower

Peer-Reviewed Publication

AGENCY FOR SCIENCE, TECHNOLOGY AND RESEARCH (A*STAR), SINGAPORE

Researchers with the Papilionanthe Miss Joaquim. (From left to right) Prof Teh Bin Tean, Director, SingHealth Duke-NUS Institute of Biodiversity Medicine, and Senior Group Leader of the Laboratory of Biodiversity Genomics at GIS, and Prof Patrick Tan, Executive Director of the Genome Institute of Singapore. Photo Credit: SingHealth 

IMAGE: RESEARCHERS WITH THE PAPILIONANTHE MISS JOAQUIM. (FROM LEFT TO RIGHT) PROF TEH BIN TEAN, DIRECTOR, SINGHEALTH DUKE-NUS INSTITUTE OF BIODIVERSITY MEDICINE, AND SENIOR GROUP LEADER OF THE LABORATORY OF BIODIVERSITY GENOMICS AT GIS, AND PROF PATRICK TAN, EXECUTIVE DIRECTOR OF THE GENOME INSTITUTE OF SINGAPORE. PHOTO CREDIT: SINGHEALTH view more 

CREDIT: SINGHEALTH

A collaboration between A*STAR’s Genome Institute of Singapore (GIS) and SingHealth Duke-NUS Institute of Biodiversity Medicine (BD-MED) has decoded the entire genetic blueprint of Singapore’s National Flower, Papilionanthe Miss Joaquim, also commonly known as Vanda Miss Joaquim (VMJ). Chemical profiling, informed by the genome analysis, further uncovered natural products such as flavonols and anthocyanins, notable for their antioxidant properties and distinctive colour pattern. The study was published in Communications Biology on 15 September 2022.

VMJ was declared the National Flower of Singapore in 1981, and has since captured the fascination of both locals and tourists. The GIS and BD-MED teams employed various genetic sequencing technologies to assemble the entire VMJ genome for the first time, revealing a total of 19 chromosomes spanning 2.4 billion nucleic acid base pairs with approximately 32,000 genes. These genes influence the production of proteins which impact the orchid’s traits and cellular processes, and demonstrated the presence of natural products in our national flower responsible for its distinctive colour pigmentation, smell, and other natural bioactive compounds.

Knowledge of the VMJ genome enables the team to perform chemical profiling to uncover VMJ’s antioxidant properties and distinctive colour pattern—flavonols and anthocyanins. The orchid was also found to contain vandaterosides, a bioactive compound capable of slowing the skin-ageing process which was previously discovered in Papilionanthe Teres, the seed parent of VMJ.

Prof Teh Bin Tean, Director of SingHealth Duke-NUS BD-MED, and Senior Group Leader of the Laboratory of Biodiversity Genomics at A*STAR's GIS, said, “We are heartened to be able to construct and decipher the genetic blueprint of our national flower, and hope that this achievement will be a significant contribution to our national heritage. VMJ is an orchid hybrid with magnificent blooms, and it is widely used as a breeding stalk for over 400 various orchid hybrids. Findings on its genomic makeup could help us better understand how to enhance genomic resources and pave the way for future research in gene and metabolite engineering. Deciphering the genetic code of flora species such as the VMJ also allows us to uncover naturally occurring bioactive compounds, which could be used for healthcare purposes and to understand, prevent and fight diseases.”

Prof Patrick Tan, Executive Director of GIS, said, “Singapore’s biodiversity is well represented, with over 4,000 species of native flora which are threatened in the face of global climate irregularities and issues. Thanks to advancing sequencing technology, we are able to conserve the genomes of flora by preserving the genetic code through sequencing. We are tremendously honoured to start our journey studying Singapore’s plant biodiversity with our national flower.”

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