dc.description.abstract |
A series of experiments were carried out to establish a suitable protocol for
Agrobacterium-mediated genetic transformation in two locally grown varieties of peanut
(Arachis hypogaea L.), namely, Dhaka-1 and BARI Badam-8. As a prerequisite of the
transformation protocol, an efficient in vitro regeneration system was established for
these two peanut varieties. Three different types of explants, namely, immature
cotyledonary leaflet, single cotyledon attached decapitated embryo (SCADE) and deembryonated
half cotyledon (DEHC) explants were used for in vitro regeneration. The
best performance of multiple shoot development was achieved in case of Dhaka-1
(72.2%) and BARI Badam-8 (68%) varieties when the explants of SCADE and DEHC
when initially cultured on MS medium supplemented with 88.8 µM BAP, followed by
two subsequent cultures on lower concentrations of BAP (66.6 µM BAP and 13 µM
BAP) containing medium. In most of the cases the regeneration of multiple shoots was
obtained in 40 days. Best response towards the formation of roots from the excised in
vitro regenerated shoots was observed on half strength of MS medium supplemented with
2.5 µM IBA or 1.0 µM IAA for the two varieties of peanut. Fully developed in vitro
regenerated plantlets were successfully established in soil for further growth and
development.
For optimization of genetic transformation protocol, Agrobacterium strain LBA4404
containing binary vector plasmid pBI121 harbouring GUS (β-Glucoronidase) and nptII
(neomycin phosphotransferase) genes (construct I) was used. Transient GUS
histochemical assay revealed that among the two explants used maximum transient GUS
expression (88%) was observed from de-embryonated half cotyledon explants of variety
BARI Badam-8. In this case the required optical density of Agrobacterium suspension
was 0.8 at 600 nm with 10 minutes for the incubation of explants in that bacterial
suspension. Transformed shoots were cultured on 150 - 200 mg/l kanamycin
supplemented medium to select the putatively transformed shoots. During this experiment
it was possible to develop a series of multiple shoots from the selected transformed
explants using Agrobacterium strain having marker genes (GUS and nptII).
Histochemical GUS assay of the putatively transformed shoots on optimum
concentrations of kanamycin showed the integration of marker genes. However, gene
specific bands were not amplified during PCR experiment. During this study Agrobacterium strain containing EHA105/pCAMBIA 1301-PDH45
harbouring PDH45 and hptII genes were used for the transfer of drought and salinity
tolerant gene in the peanut plants. Single cotyledon attached decapitated embryo
(SCADE) and de-embryonated half cotyledon (DEHC) explants of variety Dhaka-1and
BARI Badam-8 were used for transformation experiments. Among the explants studied
maximum transformation efficiency was observed in de-embryonated half cotyledon
(DEHC) explants with bacterial suspension having an optical density of 0.5 at 600 nm
with 25 min incubation period and 48 hrs of co-cultivation period. Transformed shoots
were selected using 20 mg/l hygromycin. Stable integration of PDH45 and hptII genes
were confirmed through PCR analysis using the genomic DNA isolated from transformed
shoots. In this case, transformation efficiency was found to be 1.08% in case of BARI
Badam-8. A total 13 putatively transgenic plants (T
) of BARI Badam-8 were confirmed
through PCR analysis. These T
0
0
peanut plants survived through acclimatization and
developed till maturation. Transgenic lines were maintained in the greenhouse. T
seeds
were collected and raised following the Biosafety guidelines in the greenhouse for further
investigation. |
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