Biology Reference
In-Depth Information
34. Lin HC, Morcillo F, Dussert S, Dubreull CT, Tregear JW, Tranbarger TJ. Transcriptome
analysis during somatic embryogenesis of the tropical monocot
Elaeis guineensis
evidence
for conserved gene function in early development.
Plant Mol. Biol
. 2009;
70
:173-192.
35. Chan PL, Ma LS, Low ETL, Shariff EM, Ooi LCL, Cheah SC, et al. Normalized embry-
oid cDNA library of oil palm (
Elaeis guineensis
).
Electron. J. Biotechnol
. 2010;I13.
36. Beule T, Camps C, Debiesse S, Tranchant C, Dussert S, Sabau X, et al. Transcriptome anal-
ysis reveals differentially expressed genes associated with the mantled homeotic flowering
abnormality in oil palm (
Elaeis guineensis
Jacq.).
Tree Genet. Genomes
. 2010;
7
:169-182.
37. Rival A, Jaligot E, Beule T, Finnegan EJ. Isolation and expression analysis of genes
encoding MET, CMT, and DRM methyltransferases in oil palm (
Elaeis guineensis
Jacq.)
in relation to the 'mantled' somaclonal variation.
J. Exp. Bot
. 2008;
59
:3271-3281.
38. Ho CL, Kwan YY, Choi MC, Tee SS, Ng WH, Lim KA, et al. Analysis and functional
annotation of expressed sequence tags (ESTs) from multiple tissues of oil palm (
Elaeis
guineensis
Jacq.).
BMC Genom
. 2007;
8
:381.
39. Singh R, Cheah SC. Differential gene expression during flowering in oil palm.
Plant Cell
Rep
. 2000;
19
:804-809.
40. Jouannic S, Argout X, Lechauve F, Fizames C, Borgel A, Morcillo F, et al. Analysis
of expressed sequences tags from oil palm (
Elaeis guineensis
Jacq).
FEBS Lett
.
2005;
579
:2709-2714.
41. Bertossi FA, Chabrillange N, Duval Y, Tregar T. Contrasting globulin and cysteine pro-
teinase gene expression patterns reveal fundamental developmental differences between
zygotic and somatic embryos of oil palm.
Tree Physiol
. 2011;
28
:1157-1167.
42. Le VT, Sarpan N, Huynh K, Ooi SE, Napis S, Ho CL, et al. A novel transcript of oil palm
(
Elaeis guineensis
Jacq.), Eg707, is specifically upregulated in tissues related to totipo-
tency.
Mol. Biotechnol
. 2011;
48
(June (2)):156-164.
43. Jaligot E, Adler S, Debladis E, Beulé T, Richaud F, Ilbert P, et al. (2011). Epigenetic
imbalance and the floral developmental abnormality of the in vitro-regenerated oil palm
Elaeis guineensis
. Ann Bot. (2011) doi: 10.1093/aob/mcq266 (in press).
44. Chua KL, Singh R, and Cheah SC. (2001). Construction of oil palm (
Elaeis guineensis
Jacq.) linkage maps using AFLP markers. In
Cutting-edge technologies for sustained
competitiveness: Proceedings of the 2001 PIPOC International Palm Oil Congress
,
Agriculture Conference by International Palm Oil Congress (2001: Petaling Jaya,
Selangor) Kuala Lumpur: Malaysian Palm Oil Board (MPOB) August 20-22, 2001 (pp.
461-467). Kuala Lumpur, Malaysia.
45. Ying ST, Zaman FQ, Ho CL, Maizura I, Rao V. Flanking AFLP markers for the vires-
cence trait in oil palm.
J. Oil Palm Res
. 2007;
19
:381-392.
46. Singh R, Tan SG, Panandam J, Rahman RA, Cheah SC. Identification of cDNA-RFLP
markers and their use for molecular mapping in oil palm (
Elaeis guineensis
J.).
Asia Pac.
J. Mol. Biol. Biotechnol
. 2008;
16
:53-63.
47. Rohde W, Sniady V, Herrán A, Estioko L, Sinje S, Marseillac N, et al. (2001).
Construction and exploitation of high-density DNA marker and physical maps in the
perennial tropical oil crops coconut and oil palm: from biotechnology towards marker-
assisted breeding. (www.tropentag.de/2002/abstracts/full/44.pdf).
48. Billotte N, Jourjon MF, Marseillac N, Berger A, Flori A, Asmady B, et al. QTL detec-
tion by multi-parent linkage mapping in oil palm (
Elaeis guineensis
Jacq.).
Theor. Appl.
Genet
. 2010;
120
:1673-1687.
49. Singh R, Tan SG, Panandam J, Rahman RA, Ooi LC, Low ETL, et al. Mapping quantita-
tive trait loci (QTLs) for fatty acid composition in an interspecific cross of oil palm.
BMC
Plant Biol
. 2009;
9
:114.
