{"id":21141,"date":"2024-12-03T10:30:31","date_gmt":"2024-12-03T02:30:31","guid":{"rendered":"https:\/\/mpob.gov.my\/ms\/abbc-publication\/"},"modified":"2025-07-24T16:20:17","modified_gmt":"2025-07-24T08:20:17","slug":"abbc-publication","status":"publish","type":"page","link":"https:\/\/mpob.gov.my\/ms\/pusat-kemajuan-bioteknologi-dan-biakbaka\/abbc-publication\/","title":{"rendered":"ABBC Publication"},"content":{"rendered":"\t\t
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No<\/th>Article<\/th>Year<\/th><\/tr>\n<\/thead>\n
279<\/td>Ab-Halim, M A; Rosli, R; Low, E T L; Mohamed-Hussein, Z A and Singh, R (2022). Molecular screening of Basal Stem Rot Resistance Genes in Oil Palm. J. Oil Palm Res., doi.org\/10.21894\/jopr.2022.0078<\/td>2022<\/td> <\/tr>\n
278<\/td>Amiruddin, N; Pek-Lan, C; Kuang-Lim, C; Ong, P W; Morris, P E; Ong-Abdullah, M; Masura, S S and Eng-Ti, L L (2022). Determination of reliable reference genes for reverse transcription quantitative real-time PCR from oil palm transcriptomes. J. Oil Palm Res., doi.org\/10.21894\/jopr.2022.0002<\/td>2022<\/td> <\/tr>\n
277<\/td>Jamaludin, N; Bahariah, B; Shaharudin, N A; Ho, C L; Rasid O A; Parveez, G K A and Masani, M Y A (2022). Designing gRNAs targeting oil palm Phytoene desaturase gene and construction of vectors for oil palm CRISPR\/Cas9 study. J. Oil Palm Res., DOI: https:\/\/doi.org\/10.21894\/jopr.2022.0032<\/td>2022<\/td> <\/tr>\n
276<\/td>Lee, A P L; Abu Bakar, D and Sundram, S (2022). A non-invasive tissue culture system for performing artificial pathogenicity assays of Ganoderma boninense. Australas. Plant Pathol. 51(1): 39-42<\/td>2022<\/td> <\/tr>\n
275<\/td>Masura, S S; Rasid, O A; Shaharuddin, N A; Masani, M Y A; Chan, K-L; Low, E T L; Badai, S S; Hanin, A N; Rahmah, A R S; Abdullah, M P; Azzeme, A M; Parveez, G K A (2022). Identification of oil palm root-specific genes through mining of RNA-Seq data and RT-qPCR analysis. J. Oil Palm Res., Vol. 34 (2): 261-275. DOI: https:\/\/doi.org\/10.21894\/jopr.2021.0036<\/td>2022<\/td> <\/tr>\n
274<\/td>Nizan, I E F; Kamaruddin, K; Ong, P-W; Ramli, Z; Singh, R; Rose, R J and Chan, P-L (2022). Overexpression of Oil Palm Early Nodulin 93 Protein Gene (EgENOD93) Enhances In Vitro Shoot Regeneration in Arabidopsis thaliana. Molecular Biotechnology 64(7): 743-757<\/td>2022<\/td> <\/tr>\n
273<\/td>Nurniwalis, A W; Zubaidah, R; Mohamad Arif, A M and Parveez, G K A (2022). Oil palm MSP2 promoter isolation, in silico analysis and functional characterization. J. Oil Palm Res., DOI: https:\/\/doi.org\/10.21894\/jopr.2022.0049<\/td>2022<\/td> <\/tr>\n
272<\/td>Rosli, R; Ab-Halim, M A; Ngoot-Chin, T; Zaki, N M; Jayanthi, N; Singh, R; Low, E T L; Mohamed-Hussein, Z A (2021). Oil Palm SSR Resource Interface (OPSRI) \u0096 Web-based Bioinformatics Analysis Pipeline for SSR Mining. J. Oil Palm Res., 34(4): 643-656<\/td>2022<\/td> <\/tr>\n
271<\/td>Salim, W N S T M; Yaakub, Z; Mustaffa, S; Bakar, N A A; Nasir, F M; Marjuni, M; Amiruddin, M D and Ong-Abdullah, M. (2022). Genetic variability of MPOB-Cameroon oil palm germplasm based on morphological traits using multivariate analysis. J. Oil Palm Res., 35(3): 476-490.<\/td>2022<\/td> <\/tr>\n
270<\/td>Sanusi, N S N M; Rosli, R; Chan, K L; Ab-Halim, M A; Ting, N-C; Singh, R and Low, E T L (2022). Integrated consensus genetic map and genomic scaffold re-ordering of oil palm (Elaeis guineensis) genome. Comput Biol Chem, Vol. 102: https:\/\/doi.org\/10.1016\/j.compbiolchem.2022.107801.<\/td>2022<\/td> <\/tr>\n
269<\/td>Sarpan, N; Tatarinova, T V; Low, E-T L; Ong-Abdullah, M; Sapian, I S and Ooi, S-E (2022). Histone modification marks improve identification of oil palm transcription start sites. J. Oil Palm Res., 34(1): 35-45.<\/td>2022<\/td> <\/tr>\n
268<\/td>Yaakub, Z; Marjuni, M; Mustaffa, S; Salim, W N S T M; N A A; Nasir; Abdullah, N; Amiruddin, M D; Nookiah, R; Kushairi, A and Ong-Abdullah, M. (2022). Phenotypic variability of Elaeis Oleifera germplasm revealed by principal component and cluster analyses. J. Oil Palm Res., doi.org\/10.21894\/jopr.2022.0054<\/td>2022<\/td> <\/tr>\n
267<\/td>Abu Bakar, N A; Ahmad Malike, F; Amiruddin, M and Meilina Ong A (2022). Genetic variability and performance of MPOB-Nigeria dura x AVROS pisifera planting materials. International Journal of Oil Palm, 5(1): 26-38.<\/td>2022<\/td> <\/tr>\n
266<\/td>Zaki, N M; Singh, R; Muhammad Azwan, Z; Nordiana, H M N and Chan, P-L (2022). An update of oil palm haploid technology: MPOB\u0092s Experience. Oil Palm Bulletin 84: 1-9<\/td>2022<\/td> <\/tr>\n
265<\/td>Zubaidah, R and Zatty, S A M (2022). Exploiting gibberellin in oil palm height control: Strategies and way forward. Transactions of the Malaysian Society of Plant Physiology Conference, volume 29.<\/td>2022<\/td> <\/tr>\n
264<\/td>Amiruddin, N: Pek-Lan C: Azizi N; Morris, P E; Kuang-Lim C; Pei Wen Ong, P E; Rosli, R; Masura, S S; Murphy, D J; Sambanthamurthi, R; Haslam, R P; Mee-Len, C; Harwood, J L and Eng-Ti L L. (2021). Characterization of oil palm acyl-coa-binding proteins and correlation of their gene expression with oil synthesis. Plant Cell Physiol. 00(0): 1\u009613 (2019) DOI:10.1093\/pcp\/pcz237<\/td>2021<\/td> <\/tr>\n
263<\/td>Bahariah, B; Rasid, O A; Rahmah, A R S; Parveez, G K A and Masani, M Y A (2021). Genetic Transformation of Oil Palm Based on Selection with Hygromycin. J. Oil Palm Res., 33(4), 577-587.<\/td>2021<\/td> <\/tr>\n
262<\/td>Bahariah, B; Masani, M Y A; Rasid, O A and Parveez, G K A (2021). Multiplex CRISPR\/Cas9-mediated genome editing of the FAD2 gene in rice: a model genome editing system for oil palm. Journal of Genetic Engineering and Biotechnology 19(1):86. doi: 10.1186\/s43141-021-00185-4<\/td>2021<\/td> <\/tr>\n
261<\/td>Fizree, M P M A A; Shaharuddin, N A; Ho, C L; Manaf, M A A; Parveez, G K A and Masani, M Y A (2021). Efficient protocol improved the yield and viability of oil palm protoplast isolated from in vitro leaf and mesocarp. Scientia Horticulturae. 290: 110522.<\/td>2021<\/td> <\/tr>\n
260<\/td>Goh, M S; Lam, S D; Yang, Y; Naqiuddin, M; Addis, S N K; Yong, W T L and Ma, N L (2021). Omics technologies used in pesticide residue detection and mitigation in crop. Journal of Hazardous Materials, 420: 126624.<\/td>2021<\/td> <\/tr>\n
259<\/td>Ithnin, M; Vu, W T; Shin, M G; Suryawanshi, V; Sherbina, K; Zolkafli, S H; Serdari, N; Amiruddin, M D; Abdullah, N; Mustaffa, S; Marjuni, M; Nookiah, R; Kushairi, A; Marjoram, P; Nuzhdin S V; Chang, P L; Singh, R (2021). Genomic diversity and genome-wide association analysis related to yield and fatty acid composition of wild American oil palm. Plant Science 304: 110731<\/td>2021<\/td> <\/tr>\n
258<\/td>Kamaruddin, K; Ithnin, M; Ting, N-C; Zulkifli, Y; Sanusi, N S N M; Sritharan, K and Singh, R (2021). Anchoring a genetic map of an interspecific backcross two family to the genome builds of Elaeis. Journal of Genetics 100: 7 https:\/\/doi.org\/10.1007\/s12041-020-01240-8<\/td>2021<\/td> <\/tr>\n
257<\/td>Lim, F-H; Rasid, O A; Idris, A S; As\u0092wad, A W M; Vadamalai, G; Parveez, G K A and Wong, M-Y (2021). Enhanced polyethylene glycol (PEG)-mediated protoplast transformation system for the phytopathogenic fungus, Ganoderma boninense. Folia Microbiologica 66:677-688.<\/td>2021<\/td> <\/tr>\n
256<\/td>Morris, P E; Chan, P-L; Ooi, C-L L; Ong, P W; Kamaruddin, K; Marjuni, M; Amiruddin, M D; Chan, K-L; Rosli, R; Low, E-T L; Singh, R; Shaharuddin, N A; Murphy, D J; Manaf, M A A and Abdullah, S N A (2020). Transcriptome analysis across various mesocarp developmental stages of MPOB-Angola dura. J. Oil Palm Res., 32 (3): 406-419<\/td>2021<\/td> <\/tr>\n
255<\/td>Muhammad Azwan, Z; Zaki, N M; Nordiana, H N M; Madon, M; Norziha, A; Zulkifli, Y; Chan, P L and Singh, R (2021). Short communication: simplified approach for early identification of spontaneous oil palm haploid (Elaeis guineensis). J. Oil Palm Res., doi.org\/10.21894\/jopr.2021.0019<\/td>2021<\/td> <\/tr>\n
254<\/td>Nagappan, J; Kadri, F; Foan, C C; Cooper, R M; May, S T; Seman, I A and Low, E T L (2021). A rapid and efficient DNA extraction protocol for Ganoderma zonatum, a basal and upper stem rot of oil palm pathogen in Malaysia. J. Oil Palm Res., 33(1): 12-20.<\/td>2021<\/td> <\/tr>\n
253<\/td>Nuraziyan, A; Ooi, S-E and Ong-Abdullah, M (2021). Evaluation of mitochondrial DNA isolation methods for oil palm (Elaeis guineensis) leaf. J. Oil Palm Res., 33(4): 607-616.<\/td>2021<\/td> <\/tr>\n
252<\/td>Ooi, S-E; Feshah, I; Nuraziyan, A; Sarpan, N; Ata, N; Lim, C-C; Choo, C-N; Wong, W-C; Wong, F-H; Wong, C-K and Ong-Abdullah, M (2021). Leaf transcriptomic signatures for somatic embryogenesis potential of Elaeis guineensis. Plant Cell Rep. 40(7): 1141-1154.<\/td>2021<\/td> <\/tr>\n
251<\/td>Said, Z S A M; Wahab, N A; Ramli, Z (2021). Isolation and characterisation of gibberellin 2-oxidase 6 gene from oil palm (Elaeis guineensis jacq.). J. Oil Palm Res., 33 (2): 235-247.<\/td>2021<\/td> <\/tr>\n
250<\/td>Shin, M G; Ithnin, M; Vu, W T; Kamaruddin, K; Chin, T N; Yaakub, Z; Chang, P L; Sritharan, K; Nuzhdin, S and Singh, R (2021). Association mapping analysis of oil palm interspecific hybrid populations and predicting phenotypic values via machine learning algorithms. Plant Breeding 140(6): 1150-1165<\/td>2021<\/td> <\/tr>\n
249<\/td>Singh, R; Ooi, L C-L; Ting, N-C; Low, L E-T; Ong-Abdullah, M; Nookiah, R; Marjuni, M; Mustaffa, S; Abdul Manaf, M A; Garner, P; Reed, J; Wischmeyer, C; Beil, M; Bacher B; Lakey, N D; Ordway J M and Sambanthamurthi R (2021). A genetic platform for predicting and reducing non-tenera contamination in oil palm (Elaeis guineensis) seed supply. Tree Genetics and Genomes 17: 45 doi.org\/10.1007\/s11295-021-01527-6<\/td>2021<\/td> <\/tr>\n
248<\/td>Ting, N-C; Zulkifli, M A; van de Weg, E; Zaki, N M; Serdari, N M; Mustaffa, S; Abidin, M I Z; Sanusi, N S N M; Smulders, M J; Low, E T L and Ithnin, M (2021). Detection of ploidy and chromosomal aberrations in commercial oil palm using high-throughput SNP markers. Planta 253(2): 1-17<\/td>2021<\/td> <\/tr>\n
247<\/td>Wan Nur Syuhada, W S; Rasid, O A and Parveez, G K A (2021). Molecular cloning of Elaeis guineensis phytoene synthase (Egpsy) and its expression in mesocarp tissues. J. Oil Palm Res., 33 (3): 447-457.<\/td>2021<\/td> <\/tr>\n
246<\/td>Zaki, N M; Schwarzacher, T; Singh, R; Madon, M; Wischmeyer, C; Nordiana, H M N, Muhammad Azwan, Z and Heslop-Harrison, J S (2021). Chromosome identification in oil palm (Elaeis guineensis) using in situ hybridization with massive pool of single copy oligonucleotides and transferability across Arecaceae species. Chromosome Research 29(3):373-390<\/td>2021<\/td> <\/tr>\n
245<\/td>Zolkafli, S H; Ting, N-C; Nik Mohd Sanusi, N S; Ithnin, M; Mayes, S; Massawe, F; Sambanthamurthi, R; Ismail, I; Zainol Abidin, M I; Roowi, S H; Lee, Y P; Hanafi, N F F and Singh, R (2021). Comparison of quantitative trait loci (QTLs) associated with yield components in two commercial Dura x Pisifera breeding crosses. Euphytica 217: 104.<\/td>2021<\/td> <\/tr>\n
244<\/td>Zolkafli, S H; Ithnin, M; Chan, K L; Zainol Abidin, M I; Ismail, I; Ting, N-C; Ooi, L C-L and Singh, R (2021). Optimal set of microsatellite markers required to detect illegitimate progenies in selected oil palm (Elaeis guineensis Jacq.) breeding crosses. Breeding Science 71: 253-260<\/td>2021<\/td> <\/tr>\n
243<\/td>Masani, M Y A; Bahariah, B; Fizree, P M A A and Parveez, G K A (2021). Genome editing for oil palm improvement. The Planter 97(1141): 211-213.<\/td>2021<\/td> <\/tr>\n
242<\/td>Badai, S S; Rasid, O A; Parveez, G K A and Masani, M Y A (2020). A rapid RNA extraction method from oil palm tissues suitable for reverse transcription quantitative real-time PCR (RT-qPCR). 3 Biotech 10(12): 530<\/td>2020<\/td> <\/tr>\n
241<\/td>Chan, P-L; Rose, R J; Abdul Munir, A M; Zamri, Z; Ong, P-W; Ooi, L C-L; Low, E T L; Zamzuri, I; Suzaini, Ya; Song, Y and Singh, R (2020). Early nodulin 93 protein gene: essential for induction of somatic embryogenesis in oil palm. Plant Cell Reports 39(11): 1395-1413<\/td>2020<\/td> <\/tr>\n
240<\/td>Hanin, A N; Parveez, G K A; Rasid, O A and Masani, M Y A (2020). Biolistic-mediated oil palm transformation with alfalfa glucanase (aglu1) and rice chitinase (rch10) genes for increasing oil palm resistance towards Ganoderma boninense. Industrial Crops & Products 144: 112008. https:\/\/doi.org\/10.1016\/j.indcrop.2019.112008.<\/td>2020<\/td> <\/tr>\n
239<\/td>Lim, F-H; Rasid, O A; As\u0092wad, A W M; Vadamalai, G; Parveez, G K A and Wong, M-Y (2020). The future is now: Revolution of RNA-mediated gene silencing in plant protection against insect pests and diseases. Plant Biotechnology Reports 14(6):643\u0096662.<\/td>2020<\/td> <\/tr>\n
238<\/td>Nordiana, H M N; Madon, M; Singh, R; Sritharan, K; Muhammad Azwan, Z and Zaki, N M (2020). Oil palm male meiosis profiling: from field observation to cytogenetics analysis. J. Oil Palm Res., 33: 436-446<\/td>2020<\/td> <\/tr>\n
237<\/td>Nor Azwani, A B; Fadila, A M; Mohd Din, A; Rajanaidu, N; Norziha, A; Suzana, M; Marhalil, M; Zulkifli, Y and Kushairi, A (2020). Potential oil palm genetic materials derived from introgression of germplasm (MPOB-Nigeria, MPOB-Zaire and MPOB-Cameroon accessions) to advanced (AVROS) breeding population. J. Oil Palm Res., 32(4): 569- 581.<\/td>2020<\/td> <\/tr>\n
236<\/td>Nurfahisza, A R; Parveez, G K A; Rasid, O A and Masani, M Y A (2020). Optimisation of the bombardment parameters for transformation and regeneration of stable oil palm transformants. J. Oil Palm Res., 32(4): 696-704.<\/td>2020<\/td> <\/tr>\n
235<\/td>Nurniwalis, A W; Chan, K L; Zubaidah, R; Rozana, R; Fadilah, A M; Mohamad Arif, A M; Jeremy, R and Festo, M (2020). Oil palm ethylene receptor gene family: identification, characterisation and expression analysis. J. Oil Palm Res., 32(2): 377-393.<\/td>2020<\/td> <\/tr>\n
234<\/td>Singh, R; Low, L E-T; Ooi, L C-L; Ong-Abdullah, M; Ting, N-C; Nookiah, R; Ithnin, M; Marjuni, M; Mustaffa, S; Zulkifli, Y; Amiruddin, M D; Abdul Manaf, M A; Chan, K-L; Ab Halim, M A; Sanusi, N S N M; Lakey, N; Sachdeva, M; Bacher, B; Garner, P A; MacDonald, J D; Smith, S W; Wischmeyer, C; Budiman, M A; Beil, M; Stroff, C; Reed, J; Van Brunt, A; Berg, H; Ordway, J M and Sambanthamurthi, R (2020). Variation for heterodimerization and nuclear localization among known and novel oil palm SHELL alleles. New Phytologist 226(2):426-440 https:\/\/doi.org\/10.1111\/nph.16387<\/td>2020<\/td> <\/tr>\n
233<\/td>Ting, N-C; Mayes, S; Massawe, F; Sambanthamurthi, R; Chan, K-L; Sritharan, K and Singh, R (2020). Candidate genes linked to QTL regions associated with fatty acid composition in oil palm. Biologia 76: 267-279 https:\/\/doi.org\/10.2478\/s11756-020-00563-2<\/td>2020<\/td> <\/tr>\n
232<\/td>Ting, N-C; Sherbina, K; Khoo, J-S; Kamaruddin, K; Chan, P-L; Chan, K-L; Ab Halim, M A; Sritharan, L; Zulkifli, Y; Mayes, S; Massawe, F; Chang, P L; Nuzhdin, S V; Sambanthamurthi, R and Singh, R (2020). Expression of fatty acid and triacylglycerol synthesis genes in interspecific hybrids of oil palm. Scientific Reports 10: 16296 https:\/\/doi.org\/10.1038\/s41598-020-73170-5<\/td>2020<\/td> <\/tr>\n
231<\/td>Samsulrizal, N H; Hazuki, M D; Azmi, N S A; Said, Z S A M; Nurniwalis, A W; Zubaidah R (2020). Orthologous revelation between Elaeis guineensis, Arabidopsis thaliana and Solanum lycopersicum. International Journal of Life Sciences and Biotechnology. 3(2): 164-179<\/td>2020<\/td> <\/tr>\n
230<\/td>Amiruddin, N; Chan, P L; Azizi, N; Morris, P E; Chan, K-L; Ong, P W; Rosli, R; Masura, S S; Murphy, D J; Sambanthamurthi, R; Haslam, R P; Chye, M-L; Harwood, J L and Low, E T L (2020) Characterisation of oil palm acyl-CoA-binding proteins and correlation of their gene expression with oil synthesis.\u00c2 Plant Cell Physiol., 61(4): 735-747.<\/td>2020<\/td> <\/tr>\n
229<\/td>Hanin, A N; Parveez, G K A; Rasid, O A and Masani, M Y A (2020). Biolistic-mediated oil palm transformation with alfalfa glucanase (AGLU1) and rice chitinase (RCH10) genes for increasing oil palm resistance towards Ganoderma boninense. Ind. Crops Prod., 144:112008.<\/td>2020<\/td> <\/tr>\n
228<\/td>Ismail, M; Juraimi, A S; Idris, A S; Rusli, M H; Omar, R Z R and Naqiuddin, M (2020). Bipolaris sorokiniana: A potential indigenous plant pathogen to control goosegrass (Eleusine indica) in oil palm plantations. J. Oil Palm Res., 32(2): 219-227.<\/td>2020<\/td> <\/tr>\n
227<\/td>Kushairi, A and Mohd Din, A (2020). Development of new oil palm cultivars in Malaysia. J. Oil Palm Res., DOI:https:\/\/doi.org\/10.21894\/jopr.2020.0037.<\/td>2020<\/td> <\/tr>\n
226<\/td>Lau, B Y C; Amiruddin, M D and Othman, A (2020). Proteomics analysis on lipid metabolism in Elaeis guineensis and Elaeis oleifera. Data in Brief, 31: 105714.<\/td>2020<\/td> <\/tr>\n
225<\/td>Morris, P E; Chan, P-L; Ooi, L C L; Ong, P W; Kamaruddin, K; Marjuni, M; Amiruddin, M D; Chan, K-L; Rosli, R; Low, E T L; Singh, R; Shaharuddin, N A; Murphy, D J; Manaf, M A A and Abdullah, S N A (2020). Transcriptome analysis across various mesocarp developmental stages of MPOB-Angola dura. J. Oil Palm Res., DOI:10.21894\/jopr.2020.0034.<\/td>2020<\/td> <\/tr>\n
224<\/td>Naqiuddin, M; Ma, N L and Ong-Abdullah, M (2020) Potassium nutrition in the oil palm: A molecular perspective. J. Oil Palm Res., 32(1): 139-144.<\/td>2020<\/td> <\/tr>\n
223<\/td>Ooi S-E; Sarpan, N; Aziz, N A; Nuraziyan, A; Nor Azwani, A B and Ong-Abdullah, M (2020). Transcriptomics of microdissected staminodes and early developing carpels from female inflorescences of Elaeis guineensis. J. Oil Palm Res., DOI:10.21894\/jopr.2020.0036.<\/td>2020<\/td> <\/tr>\n
222<\/td>Ramli, U S; Tahir, N I; Rozali, N L; Othman, A; Muhammad, N H; Muhammad, S A; Tarmizi, A H A; Hashim, N; Sambanthamurthi, R; Singh, R; Manaf, M A A and Parveez, G K A (2020). Sustainable Palm Oil - The role of screening and advanced analytical techniques for geographical traceability and authenticity verification. Molecules, 25: 2927.<\/td>2020<\/td> <\/tr>\n
221<\/td>Sarpan, N; Taranenko, E; Ooi, S-E; Low, E-T L; Espinoza, A; Tatarinova, T V and Ong-Abdullah, M (2020). DNA methylation changes in clonally propagated oil palm. Plant Cell Rep., DOI: 10.1007\/s00299-020-02561-9.<\/td>2020<\/td> <\/tr>\n
220<\/td>Singh, R; Low, E T L; Ooi, L C L; Ong-Abdullah, M; Ting, N-C; Nookiah, R; Ithnin, M; Marjuni, M; Mustaffa, S; Yaakub, Z; Amiruddin, M D; Manaf, M A A; Chan, K-L; Ab Halim, M A; Sanusi, N S N M; Lakey, N; Sachdeva, M; Bacher, B; Garner, P A; Macdonald, J D; Steven, W S; Wischmeyer, C; Budiman, M A; Beil, M; Stroff, C; Reed, J; Brunt, A V; Berg, H; Ordway, J M and Sambanthamurthi, R (2020). Variation for heterodimerization and nuclear localization among known and novel oil palm SHELL alleles.\u00c2 New Phytol., 226(2): 426-440.<\/td>2020<\/td> <\/tr>\n
219<\/td>Suzana, M; Zulkifli, Y; Marhalil, M; Rajanaidu, N and Ong-Abdullah, M (2020). Principal component and cluster analyses on Tanzania oil palm Elaeis guineensis Jacq. germplasm. J. Oil Palm Res., 32(1): 24-33.<\/td>2020<\/td> <\/tr>\n
218<\/td>Ting, N-C; Mayes, S; Massawe, F; Sambanthamurthi, R; Chan, K-L, Sritharan, K and Singh R (2020). Candidate genes linked to QTL regions associated with fatty acid composition in oil palm. Biologia, DOI:10.2478\/s11756-020-00563-2.<\/td>2020<\/td> <\/tr>\n
217<\/td>Zulkifli, Y; Singh, R; Ting, N C, Marhalil, M; Xaviar, A; Rajanaidu, N, Jansen, J; Mohd Din, A; Ong-Abdullah, M; Chie, T Y and Kushairi, A (2020). Quantitative trait loci (QTL) linked to compactness in an interspecific backcross two (BC2) population of oil palm. J. Oil Palm Res., 32(2): 201-210.<\/td>2020<\/td> <\/tr>\n
216<\/td>Badai, S S; Chan, K L; Chan, P L; Rasid, O A and Parveez, G K A (2019). Identification of genes preferentially expressed in mesocarp tissue of oil palm using in silico analysis of transcripts.\u00c2 J. Oil Palm Res., 31(4): 540-549.<\/td>2019<\/td> <\/tr>\n
215<\/td>Darkwah, D O; Blay E T; Amoatey, H M; Agyei-Dwarko, D; Sapey, E and Ong-Abdullah, M (2019). Mutagenic effects of gamma irradiation on oil palm (Elaeis guineensis Jacq.) seedling germination and growth. J. Oil Palm Res., 31(2): 212-219.<\/td>2019<\/td> <\/tr>\n
214<\/td>Dzulkafli, S B; Othman, A; Shahwan, S; Nurazah, Z; Manaf, M A A; Idris, A S; Amiruddin, M D; Tahir, N I and Ramli, U S (2019). Identification of chelidonic acid and asparagine in Ganoderma boninense-inoculated oil palm seedlings. J. Oil Palm Res., 31: 53-66.<\/td>2019<\/td> <\/tr>\n
213<\/td>Fakhrana, I N; Nurfahisza, A R; Rasid, O A and Parveez, G K A (2019). Minimal inhibitory concentration of hygromycin for selecting transformed oil palm embryogenic calli.\u00c2 J. Oil Palm Res., 31(1): 14-27.<\/td>2019<\/td> <\/tr>\n
212<\/td>Farah Amira, M P; Sundram, S, Yusof, M T, Angel, L P L, Hashim, A M and Abdullah, S N A (2019). Induced systemic resistance and promotion of plant growth in oil palm seedlings by endophytic Trichoderma virens J. Oil Palm Res., 31(4): 572-581.<\/td>2019<\/td> <\/tr>\n
211<\/td>Fizree, P M A A; Shaharuddin, N A; Ho, C L; Masura, S S; Manaf, M A A; Parveez, G K A and Masani, M Y A (2019). Evaluation of transient DsRED gene expression in oil palm embryogenic calli.\u00c2 Sci. Horti., 257: 108679.<\/td>2019<\/td> <\/tr>\n
210<\/td>Hassan, H; Amiruddin, M D; Weckwerth, W and Ramli, U S (2019). Deciphering key proteins of oil palm (Elaeis guineensis Jacq.) fruit mesocarp development by proteomics and chemometrics. Electrophoresis, 40: 254-265.<\/td>2019<\/td> <\/tr>\n
209<\/td>Khin, A M; Mohd Din, A; Mohd, Y R; Mohd Yusoff, A S; Shairul, I R, Zulkifli, Y and Yusuff, O (2019). Genetic diversity and selection criteria of MPOB-Senegal oil palm (Elaeis guineensis Jacq.) germplasm by quantitative traits. Ind. Crops Prod., 139: 111558.<\/td>2019<\/td> <\/tr>\n
208<\/td>Kushairi, A; Ong-Abdullah, M; Nambiappan, B; Hishamuddin, E; Bidin, M N I Z; Ghazali, R; Subramaniam, V; Sundram, S and Parveez, G K A (2019). Oil palm economic performance in Malaysia and R&D progress in 2018. J. Oil Palm Res., 31(2): 165-194.<\/td>2019<\/td> <\/tr>\n
207<\/td>Lau, B Y C. and Othman, A (2019). Evaluation of sodium deoxycholate as solubilization buffer for oil palm proteomics analysis.\u00c2 PLoS ONE, 14(8): e0221052.<\/td>2019<\/td> <\/tr>\n
206<\/td>Masura, S S; Parveez, G K A and Rasid, O A (2019). Isolation and characterization of an oil palm constitutive promoter derived from ubiquitin extension protein (uep2) gene.\u00c2 J. Oil Palm Res., 31(1): 28-41.<\/td>2019<\/td> <\/tr>\n
205<\/td>Muhamad Afiq, A H; Shaharuddin, N A and Zubaidah, R (2019). Identification of reliable reference gene for gene expression studies of oil palm plantlets using normfinder and bestkeeper algorithms. J. Oil Palm Res., 31: 204-211.<\/td>2019<\/td> <\/tr>\n
204<\/td>Naqiuddin, M and Ong-Abdullah, M (2019) Evaluation of GFP-based system for pre-crystallisation study of EgKUP membrane proteins. J. Oil Palm Res., 31(1): 42-52.<\/td>2019<\/td> <\/tr>\n
203<\/td>Ooi, L C L; Low, E T L; Ordway, J; Marjun, M; Yaakub, Z; Jiang, N; Smith, S; Bacher, B, Garner, P; Leinenger, M; Sander, N; Chan, P-L; Ong, P W; Ong-Abdullah, M; Rajanaidu, N; Manaf, M A A; Lakey, N; Sambanthamurthi, R and Singh, R (2019). SureSawitTM True-to-Type \u00e2\u0080\u0093 A high throughput universal single nucleotide polymorphism (SNP) panel for DNA fingerprinting, purity testing and origin verification in oil palm.\u00c2 J. Oil Palm Res., 31: 561-571.<\/td>2019<\/td> <\/tr>\n
202<\/td>Ooi, S-E; Sarpan, N; Abdul Aziz, N; Nuraziyan, A and Ong-Abdullah, M (2019). Differential expression of heat shock and floral regulatory genes in pseudocarpel initials of mantled female inflorescences from Elaeis guineensis Jacq.\u00c2 Plant Reproduction, 32(2): 167-179.<\/td>2019<\/td> <\/tr>\n
201<\/td>Ong, P W; Chan, P-L; Ooi, L C L and Singh, R (2019). Isolation Of high quality total RNA from various tissues of oil palm (Elaeis guineensis) for reverse transcription quantitative real-time PCR (RT-qPCR). J. Oil Palm Res., 31: 195-203.<\/td>2019<\/td> <\/tr>\n
200<\/td>Othman, A; Goggin, K A; Tahir, N I; Brodrick, E; Singh, R; Sambanthamurthi, R; Parveez, G K A; Davies, A N; Murad, A J; Muhammad, N H; Ramli, U S and Murphy, D J (2019). Use of headspace-gas chromatography-ion mobility spectrometry to detect volatile fingerprints of palm fibre oil and sludge palm oil in samples of crude palm oil.\u00c2 BMC Research Notes, 12: 229.<\/td>2019<\/td> <\/tr>\n
199<\/td>Padfield, R; Hansen, S; Davies, Z G; Ehrensperger, A; Slade, E M; Evers, S; Papargyropoulou, E; Bessou, C; Abdullah, N; Page, S; Ancrenaz, M; Aplin, P; Dzulkafli, S B; Barclay, H; Chellaiah, D; Choudhary, S; Conway, S; Cook, S; Copeland, A; Campos-Arceiz, A; Deere, A J; Drew, S; Gilvear, D; Gray, R; Haller, T; Hood, A S-C; Huat, L K; Huynh, N; Kangayatkarasu, N; Koh, L P; Kolandai, S K; Lim, R A H; Yeong, K L; Lucey, J M; Luke, S H; Mitchell, S L; Montefrio, M J; Mullin, K; Nainar, A; Nekaris, K A-I; Nijman, V; Nunes, M; Siti Nurhidayu; O\u00e2\u0080\u0099reilly, P; Puan, C L; Ruppert, N; Salim, H; Schouten, G; Tallontire, A; Smith, T E L; Tao, H-H; Tham, M H; Varkkey, H; Wadey, J; Yule, C M; Azhar, B; Sayok, A K; Vairappan, C; Bicknell, J E And Struebig, M J (2019). Co-producing a research agenda for sustainable palm oil.\u00c2 Frontiers in Forests and Global Change, 2(13): 1-17.<\/td>2019<\/td> <\/tr>\n
198<\/td>Shahwan, S; Othman, A; Dzulkafli, S, B; Hassan, H; Idris, A S; Amiruddin, M D and Ramli, U S (2019). PP06: Quantitative proteomics analysis of oil palm root during early stages of Ganoderma inoculation in Conference Proceedings \u00e2\u0080\u0093 4th International Conference on Molecular Diagnostics and Biomarker Discovery: Antibody Technology. BMC Proceedings, 13(10): p18.<\/td>2019<\/td> <\/tr>\n
197<\/td>Sundram, S; Angel, L P L and Sirajuddin, S A (2019). Integrated balanced fertilizer management in soil health rejuvenation for a sustainable oil palm cultivation: A review. J. Oil Palm Res., 31(3): 348-363.<\/td>2019<\/td> <\/tr>\n
196<\/td>Zatty, S A M S; Fatin, A M A; Abu Bakar, S; Rahman, R N Z R A; Chor, A L T; Latip, W and Ali, M S M (2019). Unravelling protein-organic solvent interaction of organic solvent tolerant elastase from Pseudomonas aeruginosa strain K crystal structure. Int. J. Biol. Macromol., 127: 575-584.<\/td>2019<\/td> <\/tr>\n
195<\/td>Zulkifli, Y; Ithnin, M, Singh, R; Marhalil, M; Mohd Din, A and Ong-Abdullah, M (2019). An RFLP marker, CB75A, predicts for palmitic acid content across selected oil palm germplasm and interspecific-hybrids. J. Oil Palm Res., 31(2): 315-320.<\/td>2019<\/td> <\/tr>\n
194<\/td>Gan, S T; Wong, W C; Wong, C K; Soh, A C; Kilian, A; Low, E T L, Massawe, F and Mayes, S (2018). High density SNP and DArT-based genetic linkage maps of two closely related oil palm populations.\u00c2 J. Appl. Genet., 59(1): 23-34.<\/td>2018<\/td> <\/tr>\n
193<\/td>Jayanthi, N; Foan, C C; Angel, L P L; Cooper, R M; May, S T and Low, E T L (2018). Improved nucleic acid extraction protocols for\u00c2 Ganoderma boninense, G. miniatocinctum and G. tornatum.\u00c2 Biotechnol. Lett., 40(11-12): 1541-1550.<\/td>2018<\/td> <\/tr>\n
192<\/td>Kushairi, A; Loh, S K; Azman, I; Hishamuddin, E; Ong-Abdullah, M; Bidin, M N I Z; Ghazali, R; Sundram, S and Parveez, G K A (2018). Oil palm economic performance in Malaysia and R&D progress in 2017. J. Oil Palm Res., 30(2): 163-195.<\/td>2018<\/td> <\/tr>\n
191<\/td>Lau, B Y C; Othman, A and Ramli, U S (2018). Review: Application of proteomics technologies in oil palm research. Protein J., 37(6): 473-499.<\/td>2018<\/td> <\/tr>\n
190<\/td>Lim, F H; Rasid, O A; Idris, A S and Parveez, G K A (2018). Molecular cloning of\u00c2 Ganoderma boninense\u00c2 Hog1-Type Mitogen-Activated Protein Kinase (MAPK) cDNA and transcriptional response to salinity stress.\u00c2 J. Oil Palm Res., 30(3): 380-389.<\/td>2018<\/td> <\/tr>\n
189<\/td>Ong, P W; Ithnin, M; Marjuni, M; Rajanaidu, N; Abdullah, N A P; Rafii, M Y; Ooi, L C L; Low, E T L and Singh, R (2018). Association of SNP markers with height increment in MPOB-Angolan natural oil palm populations.\u00c2 J. Oil Palm Res., 30(1): 61-70.<\/td>2018<\/td> <\/tr>\n
188<\/td>Lee, F-C; Ong-Abdullah M; Ooi, S-E; Ho, C-L and Namasivayam, P (2018). Cloning and characterization of Somatic Embryogenesis Receptor Kinase I (EgSERK I) and its association with callus initiation in oil palm. In Vitro Cell. Dev-Pl., DOI: https:\/\/doi.org\/10.1007\/s11627-018-9942-x.<\/td>2018<\/td> <\/tr>\n
187<\/td>Madon, M; Arulandoo, X; Sritharan, K; Nordiana, H M N; Muhammad Azwan, Z and Zaki, N M (2018). Short communication: Genomic constitution of oil palm interspecific hybrid crosses monitored by genomic in situ hybridization (GISH). J. Oil Palm Res., 30(2): 338 \u00e2\u0080\u0093 344.<\/td>2018<\/td> <\/tr>\n
186<\/td>Masani, M Y A; Izawati, A M D; Rasid, O A and Parveez, G K A (2018). Biotechnology of oil palm: Current status of oil palm genetic transformation. Biocatal. Agric. Biotechnol., 15: 335-347.<\/td>2018<\/td> <\/tr>\n
185<\/td>Naqiuddin, M and Ong-Abdullah, M (2018). Importance of KUP8 for K+ uptake in rooted plantlets of Elaeis guineensis under K+ sufficient conditions.\u00c2 S. Afr. J. Bot., 118: 65-7.<\/td>2018<\/td> <\/tr>\n
184<\/td>Nurniwalis, A W; Zubaidah, R; Siti Nor Akmar, A; Suhaimi, N and Massawe, F (2018). Isolation and characterization of an ethylene receptor (ERS-Type) cDNA from oil palm mesocarp. J. Oil Palm Res., 30(2): 251-264.<\/td>2018<\/td> <\/tr>\n
183<\/td>Parveez, G K A and Majid, N A (2018). Green fluorescent protein as a visual selection marker for oil palm transformation.\u00c2 Ind. Crops Prod. 115: 134-145.<\/td>2018<\/td> <\/tr>\n
182<\/td>Rahman, F; Hassan, M; Rosli, R; Almousally, I; Hanano, A and Murphy, D J (2018) Evolutionary and genomic analysis of the caleosin\/peroxygenase (CLO\/PXG) gene\/protein families in the Viridiplantae.\u00c2 PLoS ONE, 13(5): e0196669.<\/td>2018<\/td> <\/tr>\n
181<\/td>Rosli, R; Amiruddin, N; Ab Halim, M A; Chan, P L; Chan, K-L; Azizi, N; Morris, P E; Low, E T L; Ong-Abdullah, M; Sambanthamurthi, R; Singh, R and Denis, J (2018). Comparative genomic and transcriptomic analysis of selected fatty acid biosynthesis genes and CNL disease resistance genes in oil palm.\u00c2 PLoS ONE, 13(4): e0194792.<\/td>2018<\/td> <\/tr>\n
180<\/td>Rosli, R; Chan, P L; Chan, K-L; Amiruddin, N; Low, E T L; Singh, R; John, H and Murphy, D J (2018). In silico characterization and expression profiling of the diacylglycerol acyltransferase gene family (DGAT1, DGAT2, DGAT3 and WS\/DGAT) from oil palm, Elaeis guineensis.\u00c2 Plant Sci., 275: 84-96.<\/td>2018<\/td> <\/tr>\n
179<\/td>Sanusi, N S N M; Rosli, R; Ab Halim, M A; Chan, K-L; Jayanthi, N; Azizi, N; Amiruddin, N; Tatarinova, V T and Low, E T L (2018). PalmXplore: oil palm gene database.\u00c2 Database, 2018: 1-9.<\/td>2018<\/td> <\/tr>\n
178<\/td>Sarpan, N; Ong-Abdullah, M and Ooi, S-E (2018). Optimisation of a chromatin immunoprecipitation (ChIP) protocol for histone modification in oil palm.\u00c2 J. Oil Palm Res., 30(2): 242-250.<\/td>2018<\/td> <\/tr>\n
177<\/td>Ting, N-C; Mayes, S; Massawe, F; Sambanthamurthi, R; Jansen, J; Sharifah Shahrul, R S A; Seng, T-Y, Ithnin, M and Singh, R (2018). Putative regulatory candidate genes for QTL linked to fruit traits in oil palm (Elaeis guineensis Jacq.).\u00c2 Euphytica, 214: 214<\/td>2018<\/td> <\/tr>\n
176<\/td>Zubaidah, R; Nurniwalis, A W; Chan, P L; Masura, S S; Siti Nor Akmar, A and Parveez, G K A (2018). Tissue-specific promoters: the importance and potential application for genetic engineering in oil palm. J. Oil Palm Res., 30(1): 1-12.<\/td>2018<\/td> <\/tr>\n
175<\/td>Angel, L P L; Yusof, M T; Ismail, I S; Tay, Y P B; Mohamed Azni and Sundram, S (2017). Profiling of antifungal activity of Trichoderma virens 159c involved in biocontrol against Ganoderma boninense.\u00c2 J. Oil Palm Res., 30: 83-93.<\/td>2017<\/td> <\/tr>\n
174<\/td>Arolu, W I; Rafii, M Y; Marhalil, M; Mohamed, M H; Zulkefly, S; Harun A R; Mohd Isa Z A; Mohd Din, A; Kushairi, A and Rajanaidu, N. (2017). Breeding of high yielding and dwarf oil palm planting materials using Deli dura \u00c3\u0097 Nigerian pisifera population. Euphytica, 213(7).<\/td>2017<\/td> <\/tr>\n
173<\/td>Bahariah, B; Masani, M Y A; Rasid, O A and Parveez, G K A (2017). Construction of a vector containing hygromycin (HPT) gene driven by double 35S (2XCAMV35S) promoter for oil palm transformation.\u00c2 J. Oil Palm Res., 29(4): 469-486.<\/td>2017<\/td> <\/tr>\n
172<\/td>Chan, K-L; Rosli, R; Tatarinova, T V; Hogan, M; Firdaus-Raih, M and Low, E T L (2017). Seqping: gene prediction pipeline for plant genomes using self-training gene models and transcriptomic data.\u00c2 BMC Bioinformatics, 18:1-7.<\/td>2017<\/td> <\/tr>\n
171<\/td>Chan, K-L; Tatiana, V T; Rosli, R; Amiruddin, N; Azizi, N; Ab Halim, M A; Sanusi, N S N M; Jayanthi, N; Ponomarenko, P; Triska, M; Solovyev, V; Firdaus-Raih, M; Sambanthamurthi, R; Murphy, D and Low, E T L (2017). Evidence-based gene models for structural and functional annotations of the oil palm genome.\u00c2 Biol. Direct, 12:21.<\/td>2017<\/td> <\/tr>\n
170<\/td>Ho, H; Gudimella, R; Ong-Abdullah, M and Harikrishna, J A (2017). Expression of microRNAs during female inflorescence development in African oil palm (Elaeis guineensis Jacq.)\u00c2 Tree Genet. Genomes, 13:35.<\/td>2017<\/td> <\/tr>\n
169<\/td>Ithnin, M; Xu, Y; Marjuni, M; Serdari, M N; Amiruddin, M D; Low, E T L; Tan, Y C; Yap, S J; Ooi, L C L; Rajanaidu, N; Singh, R and Xu, S (2017). Multiple locus genome-wide association studies for important economic traits of oil palm.\u00c2 Tree Genetic & Genomes, 13: 103.<\/td>2017<\/td> <\/tr>\n
168<\/td>Ithnin, M; Teh, C K and Ratnam, W (2017). Genetic diversity of Elaeis oleifera (HBK) Cortes populations using cross species SSRs: implication\u00e2\u0080\u0099s for germplasm utilization and conservation.\u00c2 BMC Genetics, 18: 37.<\/td>2017<\/td> <\/tr>\n
167<\/td>Izawati, A M D; Masani, M Y A; Parveez, G K A and Ismanizan, I (2017). 2-deoxyglucose selection system for Agrobacterium-mediated transformation of Solanum lycopersicon and Nicotiana tabacum plants. Aust.\u00c2 J. Crop Sci., 11(7): 813-820.<\/td>2017<\/td> <\/tr>\n
166<\/td>Kushairi, A; Singh, R and Ong-Abdullah, M (2017). The oil palm industry in Malaysia: Thriving with transformation technologies.\u00c2 J. Oil Palm Res., 29(4): 431-439.<\/td>2017<\/td> <\/tr>\n
165<\/td>Lau, B Y C; James, D M; Deb-Choudhury, S; Dyer, J M; Ramli, U S and Clerens, S (2017). Differential expression analysis of oil palm fatty acid biosynthesis enzymes with gel-free quantitative proteomics.\u00c2 J. Oil Palm Res., 29(1): 23-34.<\/td>2017<\/td> <\/tr>\n
164<\/td>Lim, F H; Fakhrana, I N; Rasid, O A; Idris, A S; Ho, C L; Shaharuddin, N A and Parveez, G K A (2017). Molecular cloning and expression analysis of Ganoderma boninense cyclophilins at different growth and infection stages. Physiol. Mol. Plant P., 99: 31-40.<\/td>2017<\/td> <\/tr>\n
163<\/td>Low, E T L, Jayanthi, N; Chan, K-L; Sanusi, N S N M; Ab Halim, M A; Rosli, R; Azizi, N; Amiruddin, N; Angel, L P L; Ong-Abdullah, M; Singh, R; Abd Manaf, M A; Sambanthamurti, R; Ghulam Kadir, A P and Kushairi, A (2017). The oil palm genome revolution.\u00c2 J. Oil Palm Res., 29(4): 456-468.<\/td>2017<\/td> <\/tr>\n
162<\/td>Masura, S S; Tahir, N I; Rasid, O A; Umi, S R; Abrizah, O; Masani, M Y A; Parveez, G K A and Kushairi, A (2017). Post-genomic technology for the advancement of oil palm research.\u00c2 J. Oil Palm Res., 29(4): 469-486.<\/td>2017<\/td> <\/tr>\n
161<\/td>Midin, M R; Loke, K K; Madon, M; Nordin, M S; Goh, H H and Noor, M N (2017). MRT sequencing data for Garcinia mangostana L. variety Mesta. Genomics Data, 12: 134-135.<\/td>2017<\/td> <\/tr>\n
160<\/td>Norziha, A; Marhalil, M; Fadila, A M; Zulkifli, Y; Ithnin, M; Mohd Din, A; Rajanaidu, N and Kushairi, A (2017). Long-term storage of oil palm germplasm zygotic embryo using Cryopreservation.\u00c2 J. Oil Palm Res., 29(4): 541-547.<\/td>2017<\/td> <\/tr>\n
159<\/td>Nurazah, Z; Abu Seman, I; Kushairi, M; Amiruddin, M D; Othman, A and Ramli, U S (2017). Metabolomics unravel differences between Cameron Dura and Deli Dura oil palm (Elaeis guineensis Jacq.) genetic backgrounds against basal stem rot. J. Oil Palm Res., 29(2): 227-241.<\/td>2017<\/td> <\/tr>\n
158<\/td>Rozali, N L; Yarmo, M A; Idris, A S; Kushairi, A and Ramli, U S (2017). Metabolomics differentiation of oil palm (Elaeis guineensis Jacq.) spear leaf with contrasting susceptibility to Ganoderma boninense. Plant Omics, 10: 45.<\/td>2017<\/td> <\/tr>\n
157<\/td>Tahir, N I; Shaari, K; Abas, F; Ishak, Z; Hashim, A T; Amiruddin, M D; Parveez, G K A and Ramli, U S (2017). Metabolome analysis of oil palm clone P325 of different planting trials.\u00c2 J. Oil Palm Res., 28: 431-441.<\/td>2017<\/td> <\/tr>\n
156<\/td>Tan, H S; Jacoby, R P; Ong-Abdullah, M; Taylor, N L; Liddell, S; Wong, W C and Chin, C F (2017). Proteomic profiling of mature leaves from oil palm (Elaeis guineensis Jacq.).\u00c2 Electrophoresis, 38(8): 1147-1153.<\/td>2017<\/td> <\/tr>\n
155<\/td>Zaki, N M; Singh, R; Nordiana, H M N; Muhammad Azwan, Z; Steven, W S; Schwarzacher, T; Madon, M and Heslop-Harrison, J S (2017). Short communication: Towards development of Elaeis guineensis chromosome-arm specific markers and their utility across the Elaeis genus.\u00c2 J. Oil Palm Res., 29(4): 594-599.<\/td>2017<\/td> <\/tr>\n
154<\/td>Zubaidah, R; Nurniwalis, A W; Siti Nor Akmar, A and Parveez, G K A (2017). The use of Arabidopsis thaliana model system for testing oil palm promoter case study on oil palm MT3-A promoter. J. Oil Palm Res., 29 (2): 189-196.<\/td>2017<\/td> <\/tr>\n
153<\/td>Zulkifli, Y; Norziha, A; Naqiuddin, M; Fadila, A M; Nor Azwani, A B; Suzana, M; Samsul, K R; Ong-Abdullah, M; Singh, R; Parveez, G K A and Kushairi, A (2017). Designing the oil palm of the future.\u00c2 J. Oil Palm Res., 29(4): 440-455.<\/td>2017<\/td> <\/tr>\n
152<\/td>Angel, L P L; Yusof, M T; Ismail, I S; Tay, Y P B; Mohamed Azni, I N A; Kamarudin, N and Sundram, S (2016). An In vitro study of the antifungal activity of Trichoderma virens 7b and a profile of its non-polar antifungal components released against\u00c2 Ganoderma boninense.\u00c2 J. Microbiol., 54(11):732-744.<\/td>2016<\/td> <\/tr>\n
151<\/td>Arolu, W I; Marhalil, M; Rafii, M Y; Mohamed, M H; Mohd Isa Z A; Kazem, O; Zulkefly, S; Harun A R; Mohd Din, A; Kushairi, A and Rajanaidu, N. (2016). Genetic variability analysis and selection of pisifera palms for commercial production of high yielding and dwarf oil palm planting materials. Ind. Crop Prod., 90: 135-141.<\/td>2016<\/td> <\/tr>\n
150<\/td>Chai, S-K; Namasivayam, P; Ho, C-L; Norazlin, A A; Ong-Abdullah, M and Ooi, S-E (2016). RNA from fresh frozen cryosections of oil palm inflorescences is superior to FFPE sections.\u00c2 J. Oil Palm Res., 28(2): 154-160.<\/td>2016<\/td> <\/tr>\n
149<\/td>Fadila, A M; Norziha, A; Mohd Din, A; Rajanaidu, N and Kushairi, A (2016) Evaluation of bunch index in MPOB oil palm (Elaeis guineensis Jacq.) germplasm collection.\u00c2 J. Oil Palm Res., 28(4): 442-451.<\/td>2016<\/td> <\/tr>\n
148<\/td>Hanin, A N; Masani, M Y A and Parveez, G K A (2016). Evaluation of oil palm leaf-specific promoter (LSP1) activity for expressing PHB genes in Arabidopsis thaliana. J. Oil Palm Res., 28(1): 1-9.<\/td>2016<\/td> <\/tr>\n
147<\/td>Lau, B Y C; James, D M; Deb-Choudhury, S; Dyer, J M; Ramli, U S and Clerens, S (2016). Application of a mass spectrometric approach to detect the presence of oil palm fatty acid biosynthetic phosphopeptides.\u00c2 Protein J., 35(2): 163-170.<\/td>2016<\/td> <\/tr>\n
146<\/td>Majid, N A and Parveez, G K A (2016). Regeneration of transgenic oil palm carrying GFP gene used as a visual selectable marker.\u00c2 J. Oil Palm Res., 28(4): 415-430.<\/td>2016<\/td> <\/tr>\n
145<\/td>Mohd Nasriq Hafizee, A R; Ong-Abdullah, M; Shaharuddin, N A; Nurniwalis, A W; Roberts, J A and Zubaidah, R (2016). Impact of paclobutrazol on the growth and development of nursery grown clonal oil palm (Elaeis guineensis Jacq.). J. Oil Palm Res., 28(4): 404-414.<\/td>2016<\/td> <\/tr>\n
144<\/td>Ng, C H; Lee, S L; Tnah, L H; Ng K K S; Lee, C T and Madon, M (2016). Genome size variation and evolution in Dipterocarpaceae.\u00c2 Plant Eco. & Div., 9(5-6): 437-446.<\/td>2016<\/td> <\/tr>\n
143<\/td>Nurfahisza, A R; Rafiqah, M A; Parveez, G K A and Rasid, O A (2016). Comparison of the effectiveness of basta, bialaphos and glufosinate ammonium for selecting transformed oil palm tissues.\u00c2 J. Oil Palm Res., 28(3): 247-255.<\/td>2016<\/td> <\/tr>\n
142<\/td>Ooi, L C L; Low, E T L; Ong-Abdullah, M; Rajanaidu, N; Ting, N-C; Jayanthi, N; Manaf, M A A , Chan, K-L; Ab Halim, M A; Azizi, N; Omar, W; Murad, A J; Lakey, N; Jared, M O; Anthony, F; Muhammad Arif, B; Andrew, V B; Melissa, B; Leininger, M T; Nan, J; Steven, W S; Clyde, R B; Alex, C S K; Shabani, B; O-Connor, A H; Nguyen, A Y; Chaudhari, H G; Shah, S A; Choo, Y M; Sambanthamurthi, R and Singh, R (2016). Non-tenera contamination and the economic impact of SHELL genetic testing in the Malaysian independent oil palm industry.\u00c2 Front. Plant Sci., 7: 771.<\/td>2016<\/td> <\/tr>\n
141<\/td>Ooi, S E; Ramli, Z; Syed Alwee, S S R; Kulaveerasingam, H and Ong-Abdullah, M (2016). EgHOX1, a HD-Zip II gene, is highly expressed during early oil palm (Elaeis guineensis Jacq.) somatic embryogenesis.\u00c2 Plant Gene, 8: 16-25.<\/td>2016<\/td> <\/tr>\n
140<\/td>Roslan, N D; Ong-Abdullah, M; Mohamed-Azni I-N A; Idris, A S and Sundram, S (2016). Comparison of RNA extraction methods for RT-PCR detection of Coconut cadang-cadang viroid variant in orange spotting oil palm leaves. Can. J. Plant Pathol., 38(3): 382-388.<\/td>2016<\/td> <\/tr>\n
139<\/td>Tan, H S; Liddell, S; Ong-Abdullah, M; Wong, W C and Chin, C F (2016). Differential proteomic analysis of embryogenic lines in oil palm (Elaeis guineensis Jacq).\u00c2 J. Proteomics, 143: 334-345.<\/td>2016<\/td> <\/tr>\n
138<\/td>Ting, N-C; Yaakub, Z; Kamaruddin, K; Mayes, S; Massawe, F; Sambanthamurthi, R; Jansen, J; Low, E T L; Ithnin, M; Kushairi, A; Arulandoo, X; Rosli, R; Chan, K-L; Amiruddin, N; Sritharan, K; Lim, C C; Rajanaidu, N; Amiruddin, M D and Singh, R (2016). Fine-mapping and cross-validation of QTLs associated with fatty acid composition in multiple independent interspecific crosses of oil palm.\u00c2 BMC Genomics, 17:289.<\/td>2016<\/td> <\/tr>\n
137<\/td>Wan Nur Syuhada, W S; Rasid, O A and Parveez, G K A (2016). Evaluation on the effects of culture medium on regeneration of oil palm plantlets from immature embryos (IE).\u00c2 J. Oil Palm Res., 28(2): 234-239.<\/td>2016<\/td> <\/tr>\n
136<\/td>Izawati, A M D; Masani, M Y A; Ismanizan, I and Parveez, G K A (2015). Evaluation on the effectiveness of 2-deoxyglucose-6-phosphate phosphatase (DOGR1) gene as a selectable marker for oil palm (Elaeis guineensis Jacq.) embryogenic calli transformation mediated by Agrobacterium tumefaciens.\u00c2 Front. Plant Sci., 6: 727.<\/td>2015<\/td> <\/tr>\n
135<\/td>Kok, S-Y; Ong-Abdullah, M; Ee, G C-L and Namasivayam, P (2015). A histological study of oil palm (Elaeis guineensis) endosperm during seed development. J. Oil Palm Res., 27(2): 107-112.<\/td>2015<\/td> <\/tr>\n
134<\/td>Lau, B Y C; Deb-Choudhury, S; Morton, J D; Dyer, J M ; Ramli, U S and Clerens, S (2015). Method developments to extract oil palm chromoplast proteins for proteomic analysis.\u00c2 SpringerPlus, 4(1): 791.<\/td>2015<\/td> <\/tr>\n
133<\/td>Mohd Din, A; Rajanaidu, N, Jalani, S and Zakri, A H (2015). Genetic variation and heritability estimates for bunch yield, bunch components and vegetative traits in oil palm interspecific hybrids. J. Agric. Sci. Technol. A., 2015: 162-173.<\/td>2015<\/td> <\/tr>\n
132<\/td>Nurniwalis, A W; Zubaidah, R; Siti Nor Akmar, A; Zulkifli, H; Manaf, M A; Massawe, F J; Chan, K L and Parveez, G K A (2015). Genomic structure and characterization of a lipase class 3 gene and promoter from oil palm.\u00c2 Biol. Plant., 59(2): 227-236.<\/td>2015<\/td> <\/tr>\n
131<\/td>Ong-Abdullah, M; Ordway, J M; Jiang, N; Ooi, S-E; Kok, S-Y; Sarpan, N; Nuraziyan, A; Tarmizi, A H; Zamzuri, I; Samsul, K R; Fadila, A M; Nor Azwani, A B; Marhalil, M; Norziha, A; Zulkifli, Y; Mohd Din, A; Rajanaidu, N; Singh, R; Low, E-T L; Chan, K-L; Azizi , N; Smith, S W; Bacher, B; Budiman, M A, Brunt, A V; Wischmeyer, C; Beil, M; Hogan, M; Lakey, N; Lim, C-C; Arulandoo, X; Wong C-K; Choo, C-N; Wong, W-C; Kwan, Y-Y; Syed Alwee, S S R; Sambanthamurthi, R and Martienssen, R A (2015). Loss of Karma transposon methylation underlies the mantled somaclonal variant of oil palm.\u00c2 Nature, 525: 533-537.<\/td>2015<\/td> <\/tr>\n
130<\/td>Parveez, G K A; Bahariah, B; Hanin, A N; Masani, M Y A; Rasid, O A; Tarmizi, A H and Ishak, Z (2015). Production of polyhydroxybutyrate in oil palm (Elaeis guineensis Jacq.) mediated by microprojectile bombardment of PHB biosynthesis genes into embryogenic calli.\u00c2 Front. Plant Sci., 6: 598.<\/td>2015<\/td> <\/tr>\n
129<\/td>Parveez, G K A; Rasid, O A; Masani, M Y A and Sambanthamurthi, R (2015). Biotechnology of oil palm: strategies towards manipulation of lipid content and composition.\u00c2 Plant. Cell Rep. 34(4): 533-543.<\/td>2015<\/td> <\/tr>\n
128<\/td>Sarpan, N; Kok, S-Y; Chai, S-K; Fitrianto, A; Nuraziyan, A; Zamzuri, I; Ong-Abdullah, M and Ooi, S-E (2015). A model to predict floral development stage of Inflorescences from Elaeis guineensis Jacq.\u00c2 J. Oil Palm Res., 27(4): 315-325.<\/td>2015<\/td> <\/tr>\n
127<\/td>Suzana, M; Rahimah, A R; Ithnin, M and Singh, R (2015). A simple and rapid protocol for isolation of genomic DNA from oil palm leaf tissue. J. Oil Palm Res., 27(3): 282-287.<\/td>2015<\/td> <\/tr>\n
126<\/td>Bahariah, B; Parveez, G K A; Masani, M Y A and Norzulaani, K (2014). The use of mannose selection system for gene transfer in tobacco plants (Nicotiana tabacum l.), a model plant for oil palm transformation.\u00c2 J. Oil Palm Res., 26(2): 154-162.<\/td>2014<\/td> <\/tr>\n
125<\/td>Chan, P-L; Rose, R J; Abdul Murad, A M; Zainal, Z; Low, E T L; Ooi, L C L; Ooi, S E; Yahya, S and Singh, R (2014). Evaluation of reference genes for quantitative real-time PCR in oil palm elite planting materials propagated by tissue culture.\u00c2 PLoS ONE, 9(6):e99774.<\/td>2014<\/td> <\/tr>\n
124<\/td>Hassan, H; Lau, B Y C and Ramli, U S (2014). Extraction methods for analysis of oil palm leaf and root proteins by two-dimensional gel electrophoresis. J. Oil Palm Res., 26(1): 54-61.<\/td>2014<\/td> <\/tr>\n
123<\/td>Latif, N M; Zaki, N M; Nordiana, H N M; Marjuni, M; Che Radziah, C M Z and Madon, M (2014). Correlation of microspore nuclear development with male inflorescence morphology in Elaeis oleifera, Elaeis guineensis and the OxG hybrid.\u00c2 J. Oil Palm Res., 26(1):104-108.<\/td>2014<\/td> <\/tr>\n
122<\/td>Lim, F H; Fakhrana, I N; Rasid, O A; Idris, A S; Parveez, G K A; Ho, C L and Shaharuddin, N A (2014). Isolation and selection of reference genes for\u00c2 Ganoderma boninense\u00c2 gene expression study using quantitative real-time PCR (qPCR).\u00c2 J. Oil Palm Res., 26(2): 170-181.<\/td>2014<\/td> <\/tr>\n
121<\/td>Low, E T L; Jayanthi, N; Ab Halim, M A; Azizi, N; Chan, K-L; Nauman, J M; Paul, M; Rudi, B; Alan, M; Roger, M; Ong-Abdullah, M and Singh, R (2014). Analyses of hypomethylated oil palm gene space.\u00c2 PLoS ONE, 9(1): e86728.<\/td>2014<\/td> <\/tr>\n
120<\/td>Masani, M Y A; Noll, G; Parveez, G K A; Sambanthamurthi, R and Pr\u00c3\u00bcfer, D (2014). Efficient transformation of oil palm protoplasts by PEG-mediated transfection and DNA microinjection.\u00c2 PLoS ONE, 9(5): e96831.<\/td>2014<\/td> <\/tr>\n
119<\/td>Nurfahisza, A R; Rafiqah, M A; Masani, M Y A; Hanin, A N; Rasid, O A; Parveez, G K A and Ismanizan, I (2014). Molecular analysis of transgenic oil palm to detect the presence of transgenes.\u00c2 J. Oil Palm Res., 26(1): 96-103.<\/td>2014<\/td> <\/tr>\n
118<\/td>Noh, A; Rafii, M Y; Mohd Din, A; Kushairi, A; Norziha, A; Rajanaidu, N; Latif, M A and Malek, M A (2014). Variability and performance evaluation of introgressed Nigerian dura x Deli dura oil palm progenies. Genet. Mol. Res., 13(2): 2426-2437.<\/td>2014<\/td> <\/tr>\n
117<\/td>Nordiana, H M N; Ting, N-C; Clyde, M M; Singh, R and Madon, M. (2014) Evaluation of inter-simple sequence repeat (ISSR) markers for genetic mapping of an oil palm interspecific hybrid mapping population (Elaeis oleifera \u00c3\u0097 E. guineensis). J. Oil Palm Res., 26(3): 214-223.<\/td>2014<\/td> <\/tr>\n
116<\/td>Ramachandran, V; Ong-Abdullah, M; Ho, C-L; Syed Alee, S S R and Namasivayam, P (2014). Modified RNA in situ hybridization protocol for oil palm (Elaeis guineensis Jacq.) fruit and inflorescence. J. Oil Palm Res., 26(4): 300-307.<\/td>2014<\/td> <\/tr>\n
115<\/td>Rasid, O A; Lim, F H; Fakhrana, I N; Idris, A S and Parveez, G K A (2014). Isolation of a partial cDNA clone coding for\u00c2 Ganoderma boninense\u00c2 pde.\u00c2 J. Oil Palm Res., 26(3): 265-269.<\/td>2014<\/td> <\/tr>\n
114<\/td>Rasid, O A; Wan Nur Syuhada, W S; Hanin, A N; Masura, S S and Parveez, G K A (2014). Molecular cloning and regulation of oil palm (Elaeis guineensis Jacq.) phyteone desaturase in developing mesocarp tissues.\u00c2 J. Oil Palm Res., 26(1): 37-46.<\/td>2014<\/td> <\/tr>\n
113<\/td>Singh, R; Low, E T L; Ooi, L C L; Ong-Abdullah, M; Rajanaidu, N; Ting, N-C; Marjuni, M; Chan, P-L; Ithnin, M; Manaf, M A A; Jayanthi, N; Chan, K L; Rosli, R; Ab Halim, M A; Norazah, A; Budiman, M A; Lakey, N; Bacher, B; Van Brunt, A; Wang, C; Hogan, M; He, D; Macdonald, J D; Smith, S W; Ordway, J M; Martienssen, R A and Sambanthamurthi, R (2014). The oil palm VIRESCENS gene controls fruit colour and encodes a R2R3-MYB.\u00c2 Nature Communications, 5: 4106.<\/td>2014<\/td> <\/tr>\n
112<\/td>Ting, N-C; Jansen, J; Mayes, S; Massawe, F; Sambanthamurthi, R; Ooi, L C L; Chin, C W; Arulandoo, X; Seng, T-Y; Sharifah Shahrul, R S A; Ithnin, M and Singh, R (2014). High density SNP and SSR-based genetic maps of two independent oil palm hybrids.\u00c2 BMC Genomics, 15:309.<\/td>2014<\/td> <\/tr>\n
111<\/td>Zulkifli, Y; Singh, R; Mohd Din, A; Ting, N C; Rajanaidu, N; Kushairi, A; Musa, B; Mohamad, O and Ismanizan, I (2014). Inheritance of SSR and SNP loci in an oil palm interspecific hybrid backross (BC2) population. J. Oil Palm Res., 26(3): 203-213.<\/td>2014<\/td> <\/tr>\n
110<\/td>Bahariah, B; Parveez, G K A; Masani, M Y A; Masura, S S; Norzulaani K and Rofina, O Y (2013). Biolistic transformation of oil palm using the phosphomannose isomerase (pmi) gene as a positive selectable marker.\u00c2 Biocatal. Agric. Biotechnol., 2(4): 295-304.<\/td>2013<\/td> <\/tr>\n
109<\/td>Ho, W K; Ooi, S-E; Mayes, S; Namasivayam, P; Ong-Abdullah, M and Chin, C F (2013). Methylation levels of a novel genetic element, EgNB3 as a candidate biomarker associated with the embryogenic competency of oil palm.\u00c2 Tree Genet. Genomes, 9: 1099-1107.<\/td>2013<\/td> <\/tr>\n
108<\/td>Jayanthi, N; Rosli, R; Ting, N C; Ooi, L C L; Low, E T L and Singh, R (2013). Exploiting synteny between oil palm and rice to find markers more closely linked to selected trait.\u00c2 J. Oil Palm Res., 25(2):180-187.<\/td>2013<\/td> <\/tr>\n
107<\/td>Kok, S-Y; Namasivayam, P; Ee, G C L and Ong-Abdullah, M (2013). Biochemical characterization during seed development of oil palm (Elaeis guineensis).\u00c2 J. Plant Res., 126(4): 539-547.<\/td>2013<\/td> <\/tr>\n
106<\/td>Marhalil, M; Rafii, M Y; Afizi M M A; Arolu, I W; Noh, A; Mohd Din, A; Kushairi, A; Norziha, N; Rajanaidu, N, Latif, M A; and Malek, M A (2013) Genetic variability in yield and vegetative traits in elite germplasm of MPOB-Nigerian Dura \u00c3\u0097 AVROS Pisifera progenies. J. Food Agric, Environ., 11(2): 515-519.<\/td>2013<\/td> <\/tr>\n
105<\/td>Masani, M Y A; Noll, G; Parveez, G K A; Sambanthamurthi, R and Pr\u00c3\u00bcfer, D (2013). Regeneration of viable oil palm plants from protoplasts by optimizing media components, growth regulators and cultivation procedures.\u00c2 Plant Science, 210: 118-127.<\/td>2013<\/td> <\/tr>\n
104<\/td>Midin, M R; Samsul, K R; Tarmizi, H A; Nulit, R and Madon, M (2013). Analysis of oil palm clones, their suspension calli and regenerants via flow cytometry (FCM) and rDNA fluorescence in situ hybridisation (rDNA-FISH).\u00c2 J. Oil Palm Res., 25(3):357-367.<\/td>2013<\/td> <\/tr>\n
103<\/td>Noor Ai\u00e2\u0080\u0099shah, O; Tharek, M; Keyeo, F; Keng, C L; Zamzuri, I, Ahmad Ramli, M Y and Amir, H G (2013). Influence of indole-3-acetic acid (IAA) produced by diazotrophic bacteria on root development and growth of in vitro oil palm shoots (Elaeis guineensis Jacq.). J. Oil Palm Res., 25(1): 100-107.<\/td>2013<\/td> <\/tr>\n
102<\/td>Nurazah, Z; Idris, A S; Kushairi, A and Ramli, U S (2013). Metabolite profiling of oil palm towards understanding basal stem rot (BSR) disease. J. Oil Palm Res., 25(1): 58-71.<\/td>2013<\/td> <\/tr>\n
101<\/td>Ooi, S-E; Choo, C-N; Zamzuri, I and Ong-Abdullah, M (2013). Candidate hormone-responsive markers for callogenesis of oil palm (Elaeis guineensis Jacq.)\u00c2 J. Oil Palm Res., 25(1): 9-21.<\/td>2013<\/td> <\/tr>\n
100<\/td>Ooi, S-E; Nov\u00c3\u00a1k, O; Dole\u00c5\u00beal, K; Zamzuri, I and Ong-Abdullah, M (2013). Cytokinin differences in in vitro cultures and inflorescences from normal and mantled oil palm (Elaeis guineensis Jacq.)\u00c2 J. Plant Growth Regul. 32: 865-874.<\/td>2013<\/td> <\/tr>\n
99<\/td>Sarpan, N; Ooi, S-E; Ong-Abdullah, M; Ho, C-L; Chin, C F and Namasivayam, P (2013). Representational Difference Analysis (RDA) for the identification of DNA marker associated with tissue culture amenity in oil palm.\u00c2 J. Oil Palm Res., 25(3): 305-313.<\/td>2013<\/td> <\/tr>\n
98<\/td>Singh, R; Low, E T L; Ooi, L C L; Ong-Abdullah, M; Ting, N-C; Jayanthi, N, Rajanaidu, N; Amiruddin, M D; Rosli, R; Manaf, M A A; Chan, K-L; Ab Halim, M A; Azizi, N; Lakey, N; Steven, W S; Budiman, M A; Hogan, M; Bacher, B; Brunt, A V; Wang, C; Ordway, J M; Sambanthamurthi, R and Martienssen, R A (2013). The oil palm SHELL gene controls oil yield and encodes a homologue of SEEDSTICK.\u00c2 Nature, 500(7462): 340-344.<\/td>2013<\/td> <\/tr>\n
97<\/td>Singh, R; Ong-Abdullah, M; Low, E T L; Manaf, M A A; Rosli, R; Rajanaidu, N; Ooi, L C L; Ooi, S E; Chan, K-L; Ab Halim, M A; Azizi, N; Jayanthi, N; Bacher, B; Lakey, N; Steven, W S; He, D; Hogan, M; Budiman, M A; Lee, E K; Desalle, R; Kudrna, D; Goicoechea, J L; Wing, R A; Wilson, R K; Fulton, R S; Ordway, J M; Martienssen, R A and Sambanthamurthi, R (2013). Oil palm genome sequences reveals divergence of interfertile species in old and new worlds.\u00c2 Nature, 500(7462): 335-339.<\/td>2013<\/td> <\/tr>\n
96<\/td>Sue-Sean, T; Yung-Chie, T; Faridah, A; Ong-Abdullah, M and Ho, C-L (2013). Transcriptome of oil palm (Elaeis guineensis Jacq.) roots treated with\u00c2 Ganoderma boninense.\u00c2 Tree Genet. Genomes, 9: 377-386.<\/td>2013<\/td> <\/tr>\n
95<\/td>Syahanim, S; Abrizah, O; Manaf, M A A; Idris, A S and Mohd Din, A (2013). Identification of differentially expressed proteins in oil palm seedlings artificially infected with Ganoderma: A proteomics approach. J. Oil Palm Res., 25: 298-304.<\/td>2013<\/td> <\/tr>\n
94<\/td>Tahir, N I; Kozhirah, S; Faridah, A; Parveez, G K A; Tarmizi, H A and Ramli, U S (2013). Identification of oil palm (E. guineensis) spear leaf metabolites using Mass Spectrometry and Neutral Loss Analysis.\u00c2 J. Oil Palm Res., 25: 72-83.<\/td>2013<\/td> <\/tr>\n
93<\/td>Ting, N-C; Jansen, J; Jayanthi, N; Ishak, Z; Chin, C W; Tan, S G; Cheah S C; And Singh, R (2013). Identification of QTLs associated with callogenesis and embryogenesis in oil palm using genetic linkage maps improved with SSR markers.\u00c2 PLoS ONE, 8(1): e53076.<\/td>2013<\/td> <\/tr>\n
92<\/td>Thuc, L V; Geelen, D; Ky, H; Ooi, S-E; Napis, S; Sinniah, U R and Namasivayam, P (2013). Overexpression of the oil palm (Elaeis guineensis Jacq.) TAPETUM DEVELOPMENT1-like Eg707 in rice affects cell division and differentiation and reduces fertility.\u00c2 Mol. Biol. Reports, 40: 1579-1590.<\/td>2013<\/td> <\/tr>\n
91<\/td>Yeoh, K A; Othman, S; Meon, F; Abdullah and Ho, C L (2013). Sequence analysis and gene expression of putative oil palm chitinase and chitinase-like proteins in response to colonization of\u00c2 Ganoderma boninense\u00c2 and Trichoderma harzianum. Mol.\u00c2 Biol Rep., 40: 147-158.<\/td>2013<\/td> <\/tr>\n
90<\/td>Bahariah, B; Parveez, G K A; Masani, M Y A and Norzulaani, K (2012). Construction of phosphomannose isomerase (PMI) transformation vectors and evaluation of the effectiveness of vectors in tobacco (Nicotiana tabacum L).\u00c2 Bioinformation Journal, 8(3):151-157.<\/td>2012<\/td> <\/tr>\n
89<\/td>Bahariah, B; Parveez, G K A and Norzulaani, K (2012). Determination of optimal concentration of mannose as a selection agent for selecting transformed oil palm cells using the Phosphomannose Isomerase (pmi) gene as the positive selectable marker.\u00c2 J. Oil Palm Res., 24: 1250-1259.<\/td>2012<\/td> <\/tr>\n
88<\/td>Habib, S H; Ooi, S-E; Nov\u00c3\u00a1k, O; Tarkowsk\u00c3\u00a1, D; Rol\u00c4\u008d\u00c3\u00adk, J; Dole\u00c5\u00beal, K; Syed Alwee, S S R; Ho, C-L and Namasivayam, P (2012). Comparative mineral and hormonal analyses of wild type and TLS somaclonal variant derived from oil palm (Elaeis guineensis Jacq. var. tenera) tissue culture. Plant Growth Regul.,\u00c2 68: 313-317.<\/td>2012<\/td> <\/tr>\n
87<\/td>Izawati, A M D; Parveez, G K A and Ismanizan, I (2012). Optimisation of 2-deoxyglucose concentration for identifying the sensitivity level for oil palm embryogenic calli.\u00c2 J. Oil Palm Res., 24: 1296-1302.<\/td>2012<\/td> <\/tr>\n
86<\/td>Madon, M; Heslop-Harrison, J S; Schwarzacher, T and Tarmizi, H A (2012). Analysis of oil palm calli and regenerants using flow and image cytometry and 18s-25s ribosomal DNA fluorescence in situ hybridisation (FISH).\u00c2 J. Oil Palm Res. 24(1): 1318-1329.<\/td>2012<\/td> <\/tr>\n
85<\/td>Myint, K S A; Rafii, M Y; Sheikh-Abdullah, S A; Lwin, N M; Mohd Din, A and Latif, M A (2012). Determination of the optimum pollen germination medium for different fruit forms of oil palm (Elaeis guineensis). J. Anim. Plant Sc., 14(1): 1855-1865.<\/td>2012<\/td> <\/tr>\n
84<\/td>Noh, A; Rafii, M Y; Saleh, G; Kushairi, A and Latif, M A (2012). Genetic performance and general combining ability of oil palm Deli dura x AVROS pisifera tested on inland soils. Sci. World J., 2012: 1-8.<\/td>2012<\/td> <\/tr>\n
83<\/td>Ooi, S-E; Choo, C-N; Zamzuri, I and Ong-Abdullah, M (2012). A candidate auxin-responsive expression marker gene, EgIAA9, for somatic embryogenesis in oil palm (Elaeis guineensis Jacq.)\u00c2 Plant Cell Tiss. Org. Cult., 110(2): 201-212.<\/td>2012<\/td> <\/tr>\n
82<\/td>Ooi, S-E; Lee, F-C and Ong-Abdullah, M (2012). A rapid and sensitive in situ RNA hybridisation method for oil palm tissues.\u00c2 J. Oil Palm Res., 24: 1235-1239.<\/td>2012<\/td> <\/tr>\n
81<\/td>Samsul, K R; Rohani, O; Singh, R and Mohd-Nazir, B (2012). Mutation induction using gamma irradiation on oil palm (Elaeis guinensis) cultures.\u00c2 J. Oil Palm Res., 24: 1448-1458.<\/td>2012<\/td> <\/tr>\n
80<\/td>Tahir, N I; Kozhirah, S; Faridah, A; Parveez, G K A; Ishak, Z and Ramli, U S (2012). Characterization of Apigenin and Luteolin derivatives from oil palm (Elaeis guineensis Jacq.) leaf using LC-ESI-MS\/MS. J. Agric.\u00c2 Food Chem., 60(45): 11201-11210.<\/td>2012<\/td> <\/tr>\n
79<\/td>Yeoh, K. A; Othman, A; Meon, S; Abdullah, F and Ho, C. L. (2012). Sequence analysis and gene expression of putative exo- and endo-glucanases from oil palm (Elaeis guineensis) during fungal infection.\u00c2 J. Plant Physiol., 169: 1565-1570.<\/td>2012<\/td> <\/tr>\n
78<\/td>Yusoff, N F M; Namasivayam, P; Ong-Abdullah, M; Ho, C-L and Syed Alwee, S S R (2012). A time course anatomical analysis on callogenesis of young leaf explants of Elaeis guineensis (Arecaceae).\u00c2 J. Oil Palm Res., 24: 1330-1341.<\/td>2012<\/td> <\/tr>\n
77<\/td>Zaki, N M; Singh, R; Rosli, R and Ismail, I (2012). Elaeis oleifera genomics-SSR markers: exploitation in oil palm germplasm diversity and cross-amplification in Arecaceae.\u00c2 Int. J. Mol. Sc., 13(4): 4069-4088.<\/td>2012<\/td> <\/tr>\n
76<\/td>Zulkifli, Y; Ithnin, M and Singh, R (2012). Evaluation of MPOB oil palm germplasm (Elaeis guineensis) collections using EST-SSR.\u00c2 J. Oil Palm Res., 24: 1368-1377.<\/td>2012<\/td> <\/tr>\n
75<\/td>Habib, S H; Syed-Alwee, S S R; Ho, C-L; Ong-Abdullah, M; Sinniah, U R and Namasivayam, P (2011). Morpho-histological characterization of truncated leaf syndrome seedlings: an oil palm (E. guineensis Jacq.) somaclonal variant.\u00c2 Acta. Physiol. Plant, 34: 17-28.<\/td>2011<\/td> <\/tr>\n
74<\/td>Koehn, H; Lau, B Y C; Clerens, S; Plowman, J E; Dyer, J M; Ramli, U S and Deb-Choudhury, S (2011). Combination of acid labile detergent and C18 Empore disks for improved identification and sequence coverage of in-gel digested proteins.\u00c2 Anal. Bioanal. Chem., 400: 415-421.<\/td>2011<\/td> <\/tr>\n
73<\/td>Kok, S-Y; Ong-Abdullah, M; Ee, G C and Namasivayam, P (2011). Comparison of nutrient composition in kernel of tenera and clonal materials of oil palm (Elaeis guineensis Jacq.).\u00c2 Food Chem., 129: 1343-1347.<\/td>2011<\/td> <\/tr>\n
72<\/td>Kutty, P C; Parveez, G K A and Huyop, F (2011). Improved Post Agro-infection Strategies for Greater Transgenic Events Recovery in Nicotiana tabacum.\u00c2 Int. J. Agric. Res., 6(2): 119-133.<\/td>2011<\/td> <\/tr>\n
71<\/td>Lim, F H; Fakhrana, I N; Shaharuddin, N A; Rasid, O A; Idris, A S and Parveez, G K A (2011). A partial-length cyclophilin-encoding (cyp) cDNA isolated from\u00c2 Ganoderma boninense.\u00c2 J. Oil Palm Res., 23: 1115-1120.<\/td>2011<\/td> <\/tr>\n
70<\/td>Masura, S S; Parveez, G K A and Low, E T L (2011). Isolation and characterization of an oil palm constitutive promoter from a translationally control tumor protein (TCTP) gene.\u00c2 Plant Physiol. Biochem., 40: 701-708.<\/td>2011<\/td> <\/tr>\n
69<\/td>Norziha, A; Rafii, M Y; Ithnin, M; Saleh, G and Latif, M A (2011). Genetic variability of oil palm parental genotypes and performance of its\u00e2\u0080\u0099 progenies as revealed by molecular markers and quantitative traits.\u00c2 C. R. Biol., 334: 290-299.<\/td>2011<\/td> <\/tr>\n
68<\/td>Seng, T Y; Siti Hawa, M S; Chin, C W; Ting, N-C; Singh, R; Faridah, Q Z; Tan, S G; and Sharifah Shahrul, R S A (2011). Genetic linkage map of a high yielding FELDA Deli x Yangambi oil palm cross.\u00c2 PLoS ONE, 6(11): e26593.<\/td>2011<\/td> <\/tr>\n
67<\/td>Teh, O K and Ramli, U S (2011). Cloning and characterization of a KCS-like KASII-encoding cDNA from Jessenia bataua that elongates saturated and monounsaturated stearic acids in Arabidopsis thaliana.\u00c2 Mol. Biotechnol., 48: 97-108.<\/td>2011<\/td> <\/tr>\n
66<\/td>Thuc, L V; Sarpan, N; Ky, H; Ooi, S-E; Napis, S; Ho, C-L; Ong-Abdullah, M; Chin, C F and Namasivayam, P (2011). A novel transcript of oil palm (Elaeis guineensis Jacq.), Eg707, is specifically upregulated in tissues related to totipotency. Mol. Biotechnol., 48(2): 156-64.<\/td>2011<\/td> <\/tr>\n
65<\/td>Billotte, N; Jourjon, M F; Marseillac, N; Berger, A; Flori, A; Asmady, H; Adon, B; Singh, R; Nouy, B; Potier, F; Cheah, S C; Rohde, W; Ritter, E; Courtois, B; Charrier, A and Mangin, B (2010). QTL detection by multipatrent linkage mapping in oil palm (Elaeis guineensis Jacq.).\u00c2 Theor. Appl. Genet., 120(8): 1673-1687.<\/td>2010<\/td> <\/tr>\n
64<\/td>Chan, P-L; Ma, L S; Low, E T L; Shariff, E M; Ooi, L C L; Cheah, S C and Singh, R (2010). Normalized embryoid cDNA library of oil palm (Elaeis guineensis).\u00c2 Elec. J. Biotech., 13(1): 14.<\/td>2010<\/td> <\/tr>\n
63<\/td>Faridah, S; Huyop, F and Parveez, G K A (2010). Biolistics transformation of Citrullus vulgaris Schrad (Watermelon).\u00c2 Biotechnol., 9(2): 119-130.<\/td>2010<\/td> <\/tr>\n
62<\/td>Faridah, S; Huyop, F and Parveez, G K A (2010). Cotyledon with hypocotyl segment as an explant for the production of transgenic Citrullus vulgaris Schrad (Watermelon) mediated by Agrobacterium.\u00c2 Biotechnol., 9(2): 106-118.<\/td>2010<\/td> <\/tr>\n
61<\/td>Ismail, A H; Marhaban, M H; Mohd Noor, S B and Tarmizi, A H (2010). Feature extraction of oil palm in vitro shoot images. J. Oil Palm Res., 22: 765-773.<\/td>2010<\/td> <\/tr>\n
60<\/td>Kutty, P C; Parveez, G K A and Huyop, F (2010). An easy method for Agrobacterium tumefaciens-mediated gene transfer of Nicotiana tabacum cv. TAPM26.\u00c2 J. Biol. Sci., 10(6): 480-489.<\/td>2010<\/td> <\/tr>\n
59<\/td>Masura, S S; Parveez, G K A and Ismanizan, I (2010). Isolation and characterization of oil palm constitutive promoter derived from ubiquitin extension protein (uep1) gene.\u00c2 New Biotechnol., 27: 289-299.<\/td>2010<\/td> <\/tr>\n
58<\/td>Noh, A; Rafii, M Y; Saleh, G and Kushairi, A (2010). Genetic performance of 40 Deli dura x AVROS pisifera Full-Sib families.\u00c2 J. Oil Palm Res., 22: 781-795.<\/td>2010<\/td> <\/tr>\n
57<\/td>Ooi, S-E; Ishak, F and Ong-Abdullah, M (2010). Cloning and in silico analysis of promoters of highly expressed genes in oil palm embryogenic cultures.\u00c2 J. Oil Palm Res., 22: 856-868.<\/td>2010<\/td> <\/tr>\n
56<\/td>Parveez, G K A; Abrizah, O; Nurhafizah, R and Bahariah, B (2010). Functional analysis of oil palm palmitoyl-acyl-ACP thioesterase (FatB) gene via down-regulation in a model plant: Arabidopsis thaliana.\u00c2 J. Oil Palm Res., 22: 803-813.<\/td>2010<\/td> <\/tr>\n
55<\/td>Roowi, S H; Ho, C-L; Syed Alwee, S S R; Ong-Abdullah, M and Napis, S (2010). Isolation and characterization of differentially expressed transcripts from the suspension cells of oil palm (Elaeis guineensis Jacq.) in response to different concentration of auxins.\u00c2 Mol. Biotechnol., 46(1): 1-19.<\/td>2010<\/td> <\/tr>\n
54<\/td>Zaki, N M; Ismanizan, I; Rosli, R; Ting, N-C; and Singh, R (2010). Development and characterization of Elaeis oleifera microsatellite markers.\u00c2 Sains Malaysiana, 39(6): 909-9.<\/td>2010<\/td> <\/tr>\n
53<\/td>Ting, N-C; Zaki, N M; Rosli, R; Low, E T L; Ithnin, M; Cheah, S C; Tan, S G and Singh, R (2010). SSR mining in oil palm EST database: application in oil palm germplasm diversity studies.\u00c2 J. Genet., 89(2): 135-145.<\/td>2010<\/td> <\/tr>\n
52<\/td>Zubaidah, R and Siti Nor Akmar, A (2010). Functional characterisation of the oil palm type 3 Metallothionine-like gene (MT3-B) promoter.\u00c2 Plant Mol. Biol. Rep., 28: 531-541.<\/td>2010<\/td> <\/tr>\n
51<\/td>Aishah, T; Alina, W; Hamidah, G; Huyop, F and Parveez, G K A (2009). In vitro regeneration of garden balsam Impatiens balsamina using cotyledons derived from seedlings.\u00c2 Biotechnol., 8(1): 44-52.<\/td>2009<\/td> <\/tr>\n
50<\/td>Aishah, T; Hamidah, G A W; Huyop, F and Parveez, G K A (2009). Optimization of parameters for transformation of Impatiens balsamina through biolistics.\u00c2 Biotechnol., 8(1): 1-12.<\/td>2009<\/td> <\/tr>\n
49<\/td>Izawati, A M D; Masani, M Y A and Parveez, G K A (2009). Transformation of oil palm using Agrobacterium tumefaciens.\u00c2 J. Oil Palm Res., 21: 643-652.<\/td>2009<\/td> <\/tr>\n
48<\/td>Ky, H; Thuc, L V; Ooi, S-E; Zamzuri, I; Namasivayam, P and Napis, S (2009). Sequence and expression analysis of EgSAPK, a putative member of the Serine\/Threonine protein Kinases in oil palm (Elaeis guineensis Jacq.) Int.\u00c2 J. Bot., 5(1): 76-84.<\/td>2009<\/td> <\/tr>\n
47<\/td>Masani, M Y A; Parveez, G K A; Izawati, A M D; Chan, P L and Siti Nor Akmar, A (2009). Construction of PHB and PHBV multiple-gene vectors driven by an oil palm leaf-specific promoter.\u00c2 Plasmid, 62: 191-200.<\/td>2009<\/td> <\/tr>\n
46<\/td>Ramli, U S; Salas, J J; Quant, P A and Harwood, J L (2009). Use of metabolic control analysis to give quantitative information on control of lipid biosynthesis in the important oil crop, Elaeis guineensis (oil palm).\u00c2 New Phytologist, 184: 330-339.<\/td>2009<\/td> <\/tr>\n
45<\/td>Rasid, O A; Ho, C L; Parveez, G K A; Sambanthamurthi, R and Napis, S (2009). Plant carotenoids: genetic engineering for high value-added products.\u00c2 J. Oil Palm Res., 21: 588-601.<\/td>2009<\/td> <\/tr>\n
44<\/td>Singh, R; Tan, S G; Panandam, J M; Rahman, R A; Ooi L C L; Low, E T L, Sharma, M; Jansen, J and Cheah, S C (2009). Mapping quantitative trait loci (QTLs) for fatty acid composition in an interspecific cross of oil palm.\u00c2 BMC Plant Biol., 9: 114.<\/td>2009<\/td> <\/tr>\n
43<\/td>Chan, P-L; Siti Nor Akmar, A and Roohaida, O (2008). Light-harvesting chlorophyll a\/b binding protein (LHCB) promoter for targeting specific expression in oil palm leaves.\u00c2 J. Oil Palm Res., (Special Issue-July 2008): 21-29.<\/td>2008<\/td> <\/tr>\n
42<\/td>Low, E T L; Alias, H; Boon, S H; Shariff, E M; Tan, C Y A; Ooi, L C L; Cheah, S C; Raha, A R; Wan, K L and Singh, R (2008). Oil palm (Elaeis guineensis Jacq.) tissue culture ESTs: Identifying genes associated with callogenesis and embryogenesis.\u00c2 BMC Plant Biol., 8:62.<\/td>2008<\/td> <\/tr>\n
41<\/td>Madon, M; Phoon, L Q; Clyde, M M and Amiruddin, M D (2008). Application of flow cytometry for estimation of nuclear DNA content in Elaeis.\u00c2 J. Oil Palm Res., 20: 447-52.<\/td>2008<\/td> <\/tr>\n
40<\/td>Masani, M Y A and Parveez, G K A (2008). Development of transformation vectors for the production of high oleate transgenic oil palm.\u00c2 Electron. J. Biotechn., 11: 3.<\/td>2008<\/td> <\/tr>\n
39<\/td>Masani, M Y A; Parveez, G K A and Ho, C L (2008). Transgenic plants producing polyhydroxyalkanoates.\u00c2 APJMBB., 16(1): 1-10.<\/td>2008<\/td> <\/tr>\n
38<\/td>Masani, M Y A; Ho, C L and Parveez, G K A (2008). Construction of PHB and PHBV transformation vectors for bioplastics production in oil palm.\u00c2 J. Oil Palm Res., Special Issue 2: 37-55.<\/td>2008<\/td> <\/tr>\n
37<\/td>Norziha, A; Rafii, M Y; Ithnin, M and Ghizan, S (2008). Genetic variation among parent genotypes and their progenies based on microsatellite markers. J. Oil Palm Res., 20: 533-541.<\/td>2008<\/td> <\/tr>\n
36<\/td>Nurniwalis, A W; Suhaimi, N; Akmar, A S N; Aminah, S and Arif, M A M (2008). Gene discovery via expressed sequence tags from the oil palm (Elaeis guineensis Jacq.) mesocarp.\u00c2 J. Oil Palm Res., Special Issue 2: 87-96.<\/td>2008<\/td> <\/tr>\n
35<\/td>Omar, W S W; Willis, L B; Rha, C K; Sinskey, A J; Ramli, U S; Masani, M Y A; Parveez, G K A and Sambanthamurthi, R (2008). Isolation and utilization of ACCase from oil palm mesocarp.\u00c2 J. Oil Palm Res., Special Issue 2: 97-107.<\/td>2008<\/td> <\/tr>\n
34<\/td>Ooi, S-E; Harikrishna, K and Ong-Abdullah, M (2008). Isolation and characterization of a putative Serine\/Threonine Kinase expressed during oil palm tissue culture. J. Oil Palm Res., 1: 14-22<\/td>2008<\/td> <\/tr>\n
33<\/td>Parveez, G K A; Bahariah, B; Hanin, A N; Masani, M Y A; Omar, A R; Tarmizi, A H; Zamzuri, I; Manaf, M A; Kushairi, D A; Gregory, Y; Yeong, B J and Anthony, J S (2008). Transformation of PHB and PHBV genes driven by maize ubiquitin promoter into oil palm for the production of biodegradable plastics.\u00c2 J. Oil Palm Res., Special Issue 2: 77-86.<\/td>2008<\/td> <\/tr>\n
32<\/td>Parveez, G K A and Majid, N A (2008). Factors affecting green fluorescence protein (GFP) gene expression in oil palm after microprojectile bombardment mediated transformation.\u00c2 J. Oil Palm Res., 20: 495-507.<\/td>2008<\/td> <\/tr>\n
31<\/td>Rasid, O A; Parveez, G K A; Ho, C L; Suhaimi, N and Sambanthamurthi, R (2008). Plant carotenoids: Genetic engineering for high value-added products.\u00c2 J. Oil Palm Res., 21: 588-601.<\/td>2008<\/td> <\/tr>\n
30<\/td>Rasid, O A; Wan Nur Syuhada, W S; Hanin, A N; Masura, S S; Zulqarnain, M; Ho, C L; Suhaimi, N and Sambanthamurthi, R (2008). RT-PCR amplification and cloning of partial DNA sequence coding for oil palm (Elaeis oleifera) phytoene synthase gene.\u00c2 APJMBB., 16(1): 17-24.<\/td>2008<\/td> <\/tr>\n
29<\/td>Shariff, E M; Low, E T L; Halimah, A; Cheah, S C and Singh, R (2008). Identification of gene expressed in the embryoid tissue of oil palm (Elaeis guineensis Jacq.) tissue culture via expressed sequence tag analysis.\u00c2 J. Oil Palm Res., 1: 51-63.<\/td>2008<\/td> <\/tr>\n
28<\/td>Singh, R; Tan, S G; Panandam, J; Rahimah, A R and Cheah, S C (2008). Identification of cDNA-RFLP markers and their use for molecular mapping in oil palm (Elaeis guineensis).\u00c2 Asia Pacific J. Mol. Biol. & Biotech., 16(3): 53-63.<\/td>2008<\/td> <\/tr>\n
27<\/td>Singh, R; Zaki , N M; Ting, N-C; Rosli, R; Tan, S G; Low, E T L; Ithnin, M and Cheah, S C (2008). Exploiting an oil palm EST database for the development of gene-derived SSR markers and their exploitation for assessment of genetic diversity.\u00c2 Biologia, 63(2): 227-235.<\/td>2008<\/td> <\/tr>\n
26<\/td>Siti Nor Akmar, A and Zubaidah, R (2008). Mesocarp-specific metallothionein-like gene promoter for genetic engineering of oil palm.\u00c2 J. Oil Palm Res., Special Issue 2: 1-8.<\/td>2008<\/td> <\/tr>\n
25<\/td>Tarmizi, A H; Samsul, K R; Zaiton, R and Rosli, M Y (2008). Multiplication of oil palm liquid cultures in bioreactors.\u00c2 J. Oil Palm Res., 1: 44-5.<\/td>2008<\/td> <\/tr>\n
24<\/td>Teen, Y J; Masani, M Y A; Parveez, G K A and Sambanthamurthi, R (2008). Activity studies, gene characterization and manipulation of 3-ketothiolase of oil palm (Elaeis guineensis Jacq.) mesocarp.\u00c2 J. Oil Palm Res., Special Issue 2: 118-133.<\/td>2008<\/td> <\/tr>\n
23<\/td>Thuc, L V; Ky, H; Ooi, S-E; Napis, S; Zamzuri, I and Namasivayam, P (2008). Molecular characterization of an unknown protein (Acc. No. EU795363) from the ESTs of oil palm (Elaeis guineensis Jacq.) cell suspension culture.\u00c2 Pertanika J. Sci. Technol., 16: 189-199.<\/td>2008<\/td> <\/tr>\n
22<\/td>Willis, L B; York, G M; Lessard, P A; Jo, Y B; Rasid, O A; Manaf M A A; Park, C and Sinskey, A J (2008). Reagents for generation and analysis of bioplastic producing plants.\u00c2 J. Oil Palm Res., Special Issue 2: 56-68.<\/td>2008<\/td> <\/tr>\n
21<\/td>Azlin, C O; Amir, H G; Keng, C L and Zamzuri, I (2007). Effect of plant growth-promoting Rhizobacteria on on root formation and growth of tissue cultured oil palm (Elaeis guineensis Jacq.).\u00c2 Biotechnol., 6: 549-554.<\/td>2007<\/td> <\/tr>\n
20<\/td>Ho, C-L; Kwan, Y-Y; Choi, M-C; Tee, S-S; Ng, W-H; Lim, K-A; Lee, Y-P; Ooi, S-E; Lee, W-W; Tee, J-M; Tan, S-H; Kulaveerasingam, H; Syed Alwee, S S R and Ong-Abdullah, M (2007). Analysis and functional annotation of expressed sequence tags (ESTs) from multiple tissues of oil palm (Elaeis guineensis Jacq.).\u00c2 BMC Genomics, 8:381.<\/td>2007<\/td> <\/tr>\n
19<\/td>Majid, N A and Parveez, G K A (2007). Evaluation of green fluorescence protein (GFP) as a selectable marker for oil palm transformation via transient expression.\u00c2 APJMBB, 15(1):1-8.<\/td>2007<\/td> <\/tr>\n
18<\/td>Parveez, G K A; Majid, N A; Alizah, Z and Rasid, O A (2007). Determination of minimal inhibitory concentration of selection agents for selecting transformed immature embryos of oil palm.\u00c2 APJMBB., 15(3): 133-146.<\/td>2007<\/td> <\/tr>\n
17<\/td>Singh, R; Tan, S G; Panandam, J; Sharma, M and Cheah, S C (2007). Preliminary analysis of quantitative trait loci associated with oil quality in an interspecific cross of oil palm.\u00c2 Pertanika J. Trop. Agri. Sc., 30(1): 31-44.<\/td>2007<\/td> <\/tr>\n
16<\/td>Singh, R; Jayanthi, N; Tan, S G; Panandam, J M and Cheah, S C (2007). Development of simple sequence repeat (SSR) markers for oil palm and their application in genetic mapping and fingerprinting of tissue culture clones.\u00c2 Asia Pacific J. Mol. Biol. & Biotech., 15: 121-131.<\/td>2007<\/td> <\/tr>\n
15<\/td>Tarmizi, A H and Zaiton, R (2007). Development of the MPOB Fast Transfer Technique (MoFaTT) for maintenance and maturation of oil palm culture aggregates.\u00c2 J. Oil Palm Res., 19(2): 435-439.<\/td>2007<\/td> <\/tr>\n
14<\/td>Janna, O A; Marziah, M; Parveez, G K A and Saleh, K (2006). Factors affecting delivery and transient expression of glucuronidase gene in Dendrobium Sonia protocorm-like-body.\u00c2 Afr. J., 5(2): 88-94<\/td>2006<\/td> <\/tr>\n
13<\/td>Low, E T L; Tan, J S; Chan, P L; Boon, S H; Wong, Y L; Rosli, R; Ooi, L C L; Ma, L S; Ong-Abdullah, M; Cheah, S C and Rajinder, S (2006). Developments towards the application of DNA chip technology in oil palm tissue culture.\u00c2 J. Oil Palm Res., Vol. special issue: 87-98.<\/td>2006<\/td> <\/tr>\n
12<\/td>Ramli, U S; Salas, J J; Quant, P A and Harwood, J L (2005). Metabolic control analysis reveals an important role for diacylglycerol acyltransferase in olive but not in oil palm lipid accumulation.\u00c2 FEBS Journal, 272: 5764-5770.<\/td>2006<\/td> <\/tr>\n
11<\/td>Syed Alwee, S S R; Van der Linden, C G; Van der Schoot, J; de Folter, S; Angenent, G C; Cheah, S-C and Smulders, M J M (2006). Characterization of oil palm MADS box genes in relation to the mantled flower abnormality. Plant Cell Tiss. Org. Cult., 85: 331-344.<\/td>2006<\/td> <\/tr>\n
10<\/td>Ting, N-C; Cheah, S C; Zamzuri, I; Tan, S G; Faridah, Q Z; Ithnin, M and Singh, R (2006). Statistical mapping of quantitative trait loci controlling the time to first callusing in oil palm (Elaeis guineensis Jacq.) tissue culture.\u00c2 Pertanika J. Trop. Agri. Sc., 29(1&2): 35-45.<\/td>2006<\/td> <\/tr>\n
9<\/td>Gorret, N; Samsul, K R; Oppenheim, S F; Willis, L B; Lessard, P A; Rha, C and Sinskey, A J (2004). Bioreactor culture of oil palm (Elaeis guineensis Jacq.) and effects of nitrogen source, inoculum size, and conditioned medium on biomass production.\u00c2 J. Biotechnol., 108(3): 253-263.<\/td>2004<\/td> <\/tr>\n
8<\/td>Tarmizi, A H; Norjihan, M A and Zaiton, R (2003). Multiplication of oil palm suspension cultures in a bench-top (2-litre) bioreactor.\u00c2 J. Oil Palm Res., 16(2): 44-49.<\/td>2003<\/td> <\/tr>\n
7<\/td>Ramli, U S; Baker, D S; Quant, P A and Harwood, J L (2002). Control mechanisms operating for lipid biosynthesis differ in oil palm (Elaeis guineensis Jacq.) and olive (Olea europaea L.) callus cultures.\u00c2 Biochem. J., 364: 385-391.<\/td>2002<\/td> <\/tr>\n
6<\/td>Ramli, U S; Baker, D S; Quant, P A and Harwood, J L (2002). Use of control analysis to study the regulation of plant lipid biosynthesis.\u00c2 Biochem. Soc., 30(6): 1043 \u00e2\u0080\u0093 1046.<\/td>2002<\/td> <\/tr>\n
5<\/td>Namasivayam, P; Ong-Abdullah, M and Kulaveerasingam, H (2001). Sequence analysis and characterization of an oil palm (Elaeis guineensis Jacq.) cDNA encoding calmodulin.\u00c2 APJMBB., 9(1): 45-51.<\/td>2001<\/td> <\/tr>\n
4<\/td>Janna, O A; Marziah, M and Parveez, G K A. (2000). Potential selective agents for orchid transformation.\u00c2 APJMBB., 8: 85-93.<\/td>2000<\/td> <\/tr>\n
3<\/td>Mohd Din, A; Rajanaidu, N and Jalani, B S (2000). Performance of Elaeis oleifera from Panama, Costa Rica, Colombia and Honduras in Malaysia. J. Oil Palm Res., 12(1): 71-80.<\/td>2000<\/td> <\/tr>\n
2<\/td>Othman, A; Lazarus, C; Fraser, T and Stobart, K (2000). Cloning of a palmitoyl-acyl carrier protein thioesterase from oil palm. Biochem Soc Trans., 28(6): 619\u00e2\u0080\u0093622.<\/td>2000<\/td> <\/tr>\n
1<\/td>Tarmizi, A H and Marziah, M (2000). Studies towards understanding proline accumulation in oil palm (Elaeis guineensis Jacq.) polyembryogenic cultures.\u00c2 J. Oil Palm Res., 12(1): 8-13.<\/td>2000<\/td> <\/tr>\n <\/tbody>\n <\/table>\n \n \n \n<\/div>\n<\/div>\n\t\t\t\t\t\t<\/div>\n\t\t\t\t<\/div>\n\t\t\t\t\t<\/div>\n\t\t\t\t<\/div>\n\t\t\t\t<\/div>\n\t\t","protected":false},"excerpt":{"rendered":"","protected":false},"author":4,"featured_media":0,"parent":27116,"menu_order":0,"comment_status":"closed","ping_status":"closed","template":"","meta":{"footnotes":""},"class_list":["post-21141","page","type-page","status-publish"],"_links":{"self":[{"href":"https:\/\/mpob.gov.my\/ms\/wp-json\/wp\/v2\/pages\/21141","targetHints":{"allow":["GET"]}}],"collection":[{"href":"https:\/\/mpob.gov.my\/ms\/wp-json\/wp\/v2\/pages"}],"about":[{"href":"https:\/\/mpob.gov.my\/ms\/wp-json\/wp\/v2\/types\/page"}],"author":[{"embeddable":true,"href":"https:\/\/mpob.gov.my\/ms\/wp-json\/wp\/v2\/users\/4"}],"replies":[{"embeddable":true,"href":"https:\/\/mpob.gov.my\/ms\/wp-json\/wp\/v2\/comments?post=21141"}],"version-history":[{"count":1,"href":"https:\/\/mpob.gov.my\/ms\/wp-json\/wp\/v2\/pages\/21141\/revisions"}],"predecessor-version":[{"id":21145,"href":"https:\/\/mpob.gov.my\/ms\/wp-json\/wp\/v2\/pages\/21141\/revisions\/21145"}],"up":[{"embeddable":true,"href":"https:\/\/mpob.gov.my\/ms\/wp-json\/wp\/v2\/pages\/27116"}],"wp:attachment":[{"href":"https:\/\/mpob.gov.my\/ms\/wp-json\/wp\/v2\/media?parent=21141"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}