What's happening at IRRI
Thursday, March 26, 2015, 01:15pm - 02:15pm
Neuroactive and antimicrobial compounds from bacteria isolated from marine mollusks
Gisela P. Concepcion
Vice President for Academic Affairs
University of the Philippines System
The Marine Science Institute
University of the Philippines Diliman
Marine bacteria have been a rich source of novel bioactive compounds for many years. In many cases, these bacteria have been found in close association with marine invertebrates. In our research program, bacteria are isolated from dissected tissues of marine mollusks and cultured in the laboratory. Small-scale cultures undergo preliminary bioactivity screening and are prioritized for isolation and purification of bioactive compounds. In this talk, we will present our work on some of the bacterial isolates and the compounds they produce, which exhibit significant neuroactivity and antimicrobial activity. These compounds are being pursued further as potential drugs. Work on microbial genomes showing the biosynthesis genes and pathways for these compounds will also be presented.
Testing the utility of the COI and 16S genes as DNA barcode markers in species delineation on two selected animal taxa
Ian Kendrich C. Fontanilla
Assistant Professor & Associate Dean for Academic Affairs
College of Science
University of the Philippines, Diliman
DNA barcoding is a novel technique for taxonomic identification of different species at the molecular level. Its premise lies on its ability to distinguish species based on interspecific genetic differences, which should be greater than within species variation. The cytochrome c oxidase subunit I (COI) gene has been designated as the barcode marker of choice for animals because it is easy to amplify through polymerase chain reaction (PCR). However, other genes have also been suggested as possible markers for DNA barcoding, particularly the ribosomal RNA genes such as the mitochondrial 16S rRNA. This study aimed to test the utility of COI and 16S rRNA genes on the Muricidae (Mollusca: Gastropoda) and the Dicroglossidae (Chordata: Amphibia), two taxa based on the COI sequences in the GenBank database. For the Muricidae, a total of 1607 COI sequences and 552 16S rRNA sequences were mined from GenBank, and 505 bp of the COI and 445 bp of the 16S rRNA were evaluated. For the Dicroglossidae, 57 COI sequences and 410 16S rRNA sequences were used, and 558 bp of the COI 501 bp of the 16S rRNA were evaluated. Results showed that for the Muricidae, there was minimal overlap between intraspecific and interspecific variations in the COI, with most species being distinguished at 3% K2P genetic distance, whereas greater overlap was seen in the 16S rRNA, particularly at 0-2.5% interval. The COI is therefore more suitable as a DNA barcode marker at this time. For the Dicroglossidae, on the other hand, there was extensive overlap in the COI, whereas the 16S fared better where most species could be distinguished at 3% K2P genetic distance. Overlaps may be due to the presence of cryptic species or incomplete taxon sampling. It is recommended that DNA barcoding should rely on more than just one gene, but this will only be effective if the taxonomic group in question is well sampled.
Havener Auditorium, International Rice Research Institute, Los Baños, 4030 Laguna, Philippines