Molecular techniques involving the application of DNA based molecular markers for the conservation and management of endemic and endangered species have assumed significance as
genome sequencing projects have generated an extensive database which can be mined for informative genomic regions. Scientific approaches towards conservation involve several stages, which encompass determination of appropriate genomic regions for characterization, design and testing of specific molecular markers, screening of multiple populations and statistical treatment and
interpretation of data. Population data can be utilized to develop controlled breeding and relocation programs aimed at ensuring that genetic diversity within populations of endangered species is
sustained within the context of an overall conservation program. The information derived as a result of this approach can be applied to establish a scientific and legal framework for the conservation of endemic species. Species specific genomic markers can be applied to enforce the implementation of CITES within the guidelines of a national biodiversity conservation policy.
This paper describes the first reported attempt to isolate DNA sequences containing repeat motifs in Eurycoma longifolia and Orthosiphon stamineus. A library enriched for genomic repeat motifs was developed using novel oligonucleotides designed with inosine residues incorporated at predetermined positions. A total of eight and twelve specific molecular markers were developed for O. stamineus and E. longifolia respectively. These markers have a potential application in estimating population diversity levels and QTL mapping in these two medicinal plants, which are widely used in the Malaysian herbal industry.
Geographically isolated populations of endemic orchids have evolved and adapted to an existence within specifi c ecological niches. These populations are highly susceptible to anthropogenic
infl uences on their microhabitats. The primary objective of conservation programs is the restoration of endangered populations to their ecologically sustainable levels, and the fi rst stage in the process of conservation involves estimation of molecular diversity at the level of the population. The approach described in this article involves the application of RAPD, Microsatellites and Chloroplast DNA markers for the characterization of the genetic structure of Paphiopedilum rothschildianum and Phalaenopsis gigantea, two endangered and endemic orchids of Sabah. This study has isolated a total of 96 microsatellite loci in P. rothschildianum and P. gigantea, 42 specifi c primer pairs have been designed for amplifi cation of microsatellite loci and are currently being applied to screen the breeding pools. The Chloroplast DNA regions amplifi ed by the primer pairs trnH-psbA and trnL-trnF exhibit distinct polymorphisms and can be used to establish phylogenetic
relationships. The ability of microsatellite loci to cross-amplify selected varieties of orchids has been determined. The molecular markers developed will be applied to estimate population diversity
levels and to formulate long-term management strategies for the conservation of endangered species of orchids of Sabah.