Eurycoma longifolia plant, the so called Tongkat Ali in Malaysia, is a well grown prominent tree in all Southeast Asia. It is well known among traditional medicine practitioners as a curative plant for many diseases and health conditions. The major quassinoid from the plant is eurycomanone, which exhibits many prominent effects on various cancer cell lines. Numerous studies have shown that eurycomanone inhibits cancerous cell growth and encourages cell death both in vitro and in vivo test. Even though analyses of safety and toxicity have been conducted, there is still a substantial knowledge barrier when it comes to providing a scientific foundation for the molecular mechanism as well as intervention strategy in the living people cancer cell. In a way to offer adequate baseline data for future investigations based on molecular mechanism and intervention, the present work seeks to review the researches conducted to date on this herbal plant.
We characterized the draft genome of the potentially beneficial Bacillus tropicus strain UPM-CREST01, which was isolated from the bulk soil at a paddy cultivation area in Kampung Gajah, Perak, Malaysia. The final draft assembly of 5,252,705 bp, with a G+C content of 35.23%, was found to harbor 5,368 coding sequences, including several plant-growth-promoting genes.
We have successfully characterized the complete genome sequence of the lytic Dickeya solani bacteriophage W2B, isolated from the Bunus Sewage Treatment Plant. The lytic phage from the Ningirsuvirus family has a 40,385-bp linear double-stranded DNA genome containing 51 coding sequences (CDSs).
We characterized the complete genome sequence of the lytic Salmonella enterica bacteriophage PRF-SP1, isolated from Penang National Park, a conserved rainforest in northern Malaysia. The novel phage species from the Autographiviridae family has a 39,966-bp double-stranded DNA (dsDNA) genome containing 49 protein-encoding genes and shares 90.96% similarity with Escherichia phage DY1.