Project description:Gut microbiota composition of captive Malayan tigers at conservation centre, Pahang, Malaysia

Project description:Gut microbiota composition of captive Malayan tigers at a rescue centre, Perak, Malaysia

Project description:RNA was extracted from the meninges of mice from either Specific pathogen free or Germ free facilities or from the offspring of mice reconstituted with different human microbiomes.

Project description:Health and Saliva Microbiomes of a Semi-Urbanized Indigenous Tribe in Peninsular Malaysia

Project description:In this study, we performed a comparative analysis of gut microbiota composition and gut microbiome-derived bacterial extracellular vesicles (bEVs) isolated from patients with solid tumours and healthy controls. After isolating bEVs from the faeces of solid tumour patients and healthy controls, we performed spectrometry analysis of their proteomes and next-generation sequencing (NGS) of the 16S gene. We also investigated the gut microbiomes of faeces from patientsand controls using 16S rRNA sequencing. Machine learning was used to classify the samples into patients and controls based on their bEVs and faecal microbiomes.

Project description:HuMiChip was used to analyze human oral and gut microbiomes, showing significantly different functional gene profiles between oral and gut microbiome. The results were used to demonstarte the usefulness of applying HuMiChip to human microbiome studies.

Project description:HuMiChip was used to analyze human oral and gut microbiomes, showing significantly different functional gene profiles between oral and gut microbiome.

Project description:Captive, nocturnal strepsirrhine gut microbiomes (16S rRNA)

Project description:<p>Copy number variation (CNV) has been recognized as a major contributor to human genome diversity. It plays an important role in determining phenotypes and has been associated with a number of common and complex diseases. However the CNV data from diverse populations is rather limited. Here we report the first investigation of copy number variation (CNV) in the indigenous populations from Peninsular Malaysia. We genotyped 34 Negrito genomes from Peninsular Malaysia using the Affymetrix SNP 6.0 microarray and identified 62 putative novel CNVs, consisting of 25 gains and 37 losses. These CNVs appear unique to the Negrito population and were absent in the DGV, HapMap3 and Singapore Genome Variation Project (SGVP) datasets. Analysis of gene ontology revealed that genes within these CNVs were enriched in the immune system (GO:0002376), response to stimulus mechanisms (GO:0050896), as well as the metabolic pathways (GO:0001852). Copy number gains in CNVRs enriched with genes were significantly higher than the losses (P value &lt;0.001). Therefore, in view of the small population size, relative isolation and semi-normadic lifestyles of this community, we speculate that these CNVs may be attributed to recent local adaptation of Negritos from Peninsular Malaysia.</p>

Project description:Environmental influences such as infections and dietary changes strongly affect a host’s microbiota. In the steady state, however, host genetics may influence the microbiota composition, as suggested by the greater similarity between the microbiomes of identical twin pairs compared to non-identical twins. Understanding the role of polymorphic mechanisms in regulating the commensal communities is complicated by the variability of human genomes and microbiomes, and by microbial sensitivity to the environment. Animal studies allow genetic modifications, but are also sensitive to influences known as ‘cage’ or ‘legacy’ effects. Here, we analyzed ex-germ-free mice of various genetic backgrounds, including immunodeficient and Major Histocompatibility Complex (MHC)-congenic strains repopulated with identical input microbiota. We found that the host’s genetic polymorphic mechanisms did indeed affect the gut microbiome and that both innate (e.g. anti-microbial peptides, complement, pentraxins and enzymes affecting microbial survival), as well as adaptive (both MHC-dependent and MHC-independent) pathways influenced the microbiota. These polymorphic mechanisms regulated only a limited number of microbial lineages (independently of their abundance). In addition, our comparative analyses suggested that some microbes might benefit from the specific immune responses that they elicit.