An Examination of Embryogenic and Non-Embryogenic Cultures of Oil Palm (Elaeis Guineensis Jacq.)
Somatic embryogenesis of crop plants such as oil palm has generated considerable research interest. However, the main obstacle that hinders the development of an economically viable propagation system is the low frequency of embryogenesis. Currently, most local tissue culture laboratories are rep...
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Format: | Thesis |
Language: | English English |
Published: |
2001
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Online Access: | http://psasir.upm.edu.my/id/eprint/8438/1/FSMB_2001_11_IR.pdf http://psasir.upm.edu.my/id/eprint/8438/ |
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Institution: | Universiti Putra Malaysia |
Language: | English English |
Summary: | Somatic embryogenesis of crop plants such as oil palm has generated considerable
research interest. However, the main obstacle that hinders the development of an
economically viable propagation system is the low frequency of embryogenesis.
Currently, most local tissue culture laboratories are reporting embryogenesis rates of
approximately 6%. Due to the lack of knowledge about oil palm somatic
embryogenesis, it would be difficult to understand or even to attempt to improve the
process. Hence, this study has been tailored to understand the fundamental processes
that could occur during embryogenesis by analyzing differences between
embryogenic (BC) and non-embryogenic (NEC) in vitro cultures of oil palm.
The initial studies concentrated on elucidating the differences found between EC and
NEC at the microscopical level. Proembryo (PE) structures were predominantly
found in ECs. The phenomenon of isolation of cells, as a prerequisite to
embryogenesis, was observed in the formation of PEs. It was hypothesized that the
surrounding cells at the periphery of each PE structure could have gone through
programmed cell death (PCD) hence creating the condition of 'isolation of cells'.The hypothesis that PCD could play an important role in the embryogenesis process
was further supported by studies carried out at the physiological and molecular level.
ECs were found to be metabolically more active than NECs, thus indicating that ECs
would need an efficient system to overcome the accumulation of reactive oxygen
species (ROS), a toxic byproduct of aerobic metabolism. With the isolation of the
embryogenic tissue specific OPEml, which encodes for an antioxidant known as
peroxiredoxin, it is believed that it functions by protecting the proembryos from
being damaged by the ROS but killing the cells surrounding them.
OPEml represents the first peroxiredoxin to be isolated from a palm and has
potential to be exploited as a molecular marker for embryogenic potential of in vitro
cultures. In addition to this, with the knowledge of the physiological state of
embryogenic and non-embryogenic cultures, a non-destructive method for the
detection of embryogenic potential can now be devised by taking advantage of the
reaction mechanism of oxidative dyes in culture media.Besides this, attempts were also made to isolate other embryogenic related genes by
means of a rapid cloning method for differentially expressed cDNAs. This technique
is better known as Suppression Subtractive Hybridization. Out of a total 595 clones
screened, only 66 were found to be embryogenic specific. Amongst these clones,
one of them was characterized and shown to be closely related to a class IV chitinase
EP3. This clone was designated as OPSSHI. There is some evidence to suggest
from the northern analysis study, that different subsets of class IV endochitinase EP3
were being detected, as two differently sized transcripts were observed. It is possible
that they encode proteins that have differing functions. However, due to the generally short fragments being produced through this technique, it is still too early
to propose a functional role for endochitinase(s) in the oil palm system. |
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