The Malaysian fish production is about 1.5 million metric tonnes and 86.9% of this comes from the marine sector and 13.1% from the inland sector. This included fish production by capture and culture. (DOF, 2002). Fisheries genetic resources need to have a value in terms of economic, ecological and social uses and they need to characterized. This is the mandate to FAO and it is also necessary for fisheries management and aquaculture development. The vast aquatic diversity that exists in Malaysia consist of numerous taxa of marine and freshwater fishes, crustaceans, mollusks, plants and animals. These figures could be an underestimate to the actual figure. The levels of genetic diversity includes ecosystems, communities, population, genotypes and individual genes. A knowledge of the genetic background of a species and its population structure is essential for its management, breeding and conservation programmes in fisheries. Problems like how to choose the right candidates for breeding, identifiying and monitoring lines, families and individuals, monitoring and control of inbreeding, inheritance of simple traits and genetic improvement through selection for favourable gene and gene combinations can potentially be answered through the use of molecular markers in the management of fisheries genetic resources.
Basal stem rot (BSR) caused by species Ganoderma, is one of the most serious disease of oil palm in Malaysia. As far as the disease problem to oil palm in Malaysia is concerned, BSR is the only disease requiring urgent solution. The BSR is not new to Malaysia, it has been known to attack oil palm since the early years when the crop was introduced into this country. There is an indication that there are differences in susceptibility to basal stem rot between germplasm materials from different genetic origin [2]. This provides hope in generating oil palm varieties with reduced level of susceptibility using existing genetic materials. There is also interest in developing diagnostic tools such as using PCR primers for detection of the pathogen in oil palms [1]. Altered expression of several classes of genes was observed in plants in response to fungal infection. These include genes associated with cell maintenance and development, genes involved in biosynthesis of lignin and phenolics and genes implicated in oxidative burst, programmed cell death or hypersensitive response [5].
The multi-racial, multi-lingual, multi-religious, and multi-cultural Malaysia is situated at the crossroads of Southeast Asia. It has a total population of about 23 million, comprising of more than fifty ethnic groups: Malays, Chinese, Indian, and the minorities of Orang Asli in Peninsular; Iban, Bidayuh, Melanau, Kenyah Kayan, Ukit, Penan, Sekapan, Lahanan, Lun Bawang, Kelabit, Berawan, Punan Bah etc. in Sarawak; and Kadazan, Bajau, Murut, Paitan, Suluk Bonggi, Illanun, Bengkahak Tidung etc. in Sabah. The origin of the multi-ethnic character of this country traces back to decades of human migration from various regions of Southeast Asia. With her rich human biodiversity, a study of the human population genetics is imperative, either for forensic database purposes, or as the stepping stone for medical applications.
The need to detect genetic variation has fueled the development of novel marker systems in fisheries biology. In this study, a simple, fast and cost effective method was used to differentiate between species of freshwater fishes focusing on Malaysian freshwater fishes by employing
Restriction Fragment Length Polymorphisms (RFLPs) analysis of a 470-bp cytochrome b mtDNA segment. RFLP analysis using six restriction enzymes (AluI, BamHI, BsuRI, Csp61, HpaII and SalI) found variations in the digestion profile among most of the fish samples analyzed. Diagnostic digestion profiles were observed among the Hampala fishes, especially between H. macrolepidota and the other Hampala species/forms (using BsuRI and Csp61). Diagnostic digestion profiles were also detected between H.
bimaculata Type A and Type B (using AluI, BamHI, BsuRI and SalI), supporting their status as distinct species. Additionally, unique digestion profiles were observed in other species such as Leptobarbus hosii (Csp61), Osteocheilus hasseltii (Csp61), Osteocheilus sp. (Csp61), Puntioplites bulu (Csp61), Puntius bramoides (AluI), P. sealei (AluI) and Helostoma temmincki (AluI and Csp61), which can be used as genetic markers for discriminating these species. Overall, the RFLP analysis of the cytochrome
b mtDNA segment has proven to be a considerably effective, fast and non-expensive technique to discriminate among several freshwater fish species in Malaysia.
For many years counting cells and identifying them under the microscope has been the conventional method to determine the number of abnormal and normal cells in cancers. During the last decade, studies have shown that the detection and quantification of residual tumor cells is important in predicting the clinical outcome of several types of hematological malignancies. Detection of
minimal residual disease (MRD) is now becoming routinely implemented in treatment protocols and is increasingly used for guiding therapy and for evaluation of new treatment modalities (Raanani & Hashomer, 2004). A wide variety of techniques have been developed to detect residual malignant cells beyond the sensitivity of conventional approaches by cell morphology. One of these technology is by real time quantitative (RQ) polymerase chain reaction (PCR) using the Taqman and LightCycler systems.
Cancer of the cervix is caused by micro-organisms called Human Papilloma Virus (HPV). This virus is only transmitted to women from their partners/spouses through sexual intercourse. In Malaysia, cancer of the cervix is the second most common cancer among females after breast cancer. The incidence is 21.5 per 100,000 population, with incidence among the Chinese being highest at 33.6 per 100,000 and among Malays the lowest being 12.6 per 100,000. For the past twenty years or so the Annual Reports of Ministry of Health recorded an average of 2500 new cases per year. Cancer of the cervix is preventable. The precursor cancer cells can be easily detected provided the women do regular screening tests called Pap Smear. In nearly all cases this cancer arises from the transformation
zone of the cervix. This is the zone in the cervical mucosa in which the epithelium abruptly changes from hardy squamous epithelium of the ectocervix to the fragile columnar epithelium of the endocervix.
Cervical cancer is the first solid tumour to be shown directly induced by virus. HPV is found in virtually all cervical carcinomas and their precursors.
Genome Wide Association (GWA) Studies of complex diseases represents a new paradigm in the
post-genomic era. Since then, the eld of human genetics has been revolutionized by the GWA Studies approach (Yang and Hibberd 2009). Adding to this, the completion of human genome sequence had enabled a systemic identi cation of genetic loci that determines
the etiology of complex diseases.
Rheumatoid Arthritis (RA) is a chronic inflammatory polyarthritis disease predominantly involving synovial tissue of the joints and characterized by destructive and debilitating arthritis (Choy et al., 2012; Weyand, 2000; reviewed by Worthington, 2005; Gabriel et al., 1999). It can cause progressive and irreversible destruction of tendons, cartilage and bone, which leads to lack of ability to perform daily activities (Singh et al., 2015). Although the aetiology of RA remains unsolved, the strength of the genetic component in RA is estimated based on familial aggregation and information about epidemiology and population prevalence (reviewed by Gregersen, 1999, Choy et al., 2012). (Copied from article).
Telomerase has become important in molecular genetics since its discovery in 1984. The study of telomere in ciliate Tetrahymena thermophilia since 4 decades ago has led to the discovery of telomerase that was discovered by Elizabeth Blackburn and her postgraduate student, Carol Widney Greider in 1984. Later in 2009, Jack William Szostak together with Greider and Blackburn were awarded the Nobel Prize in Physiology or Medicine for their discovery. (Copied from article).
Resistance to anti-HER2 targeted therapy imposes a crucial limitation to the successful treatment of HER2 positive breast cancer. The expression of HER4 and its prognostic value is controversial in breast cancer. The role of HER4 in trastuzumab treatment and resistance in HER2-positive breast cancer has been recently studied. HER4 activation, cleavage and nuclear translocation have been demonstrated mediate trastuzumab resistance in HER2 positive breast cancer. In addition, nuclear HER4 is suggested could be a novel predictive and prognostic biomarker in HER2 positive breast cancer patients. Understanding the role of HER4 may offer useful insights to cancer treatment in HER2-positive breast cancer and other cancers.