dc.description.abstract |
Agrobacterium mediated transformation of soybean has successfully been
achieved. However, the efficiency is usually low indicating that Agrobacterium
mediated transformation of soybean demands optimization of more suitable
conditions for transfer of T-DNA from plasmid to plant cell; beside these
constraints; transformation is also dependent upon plant genotype, Agrobacterium
strain and type of plasmid.
Present investigation was aimed to find suitable regeneration protocol for two
soybean cultivars, NARC-4 and NARC-7 and to standardize some transformation
conditions. Based on optimized regeneration and transformation scheme, LFY
gene, for early flowering and rol genes (A, B & C) for enhanced rooting were
introduced in soybean genome. For transfer of LFY gene EHA105 harboring
pROKIILFYGUSintnptII and for rol gene, LBA4404 harboring pLBR were used.
Cotyledonary node method was found suitable for direct organogenesis of
soybean NARC-4 and NARC-7 cultivars. However, presence of different plant
growth regulators in media resulted in variation in number of shoot produced,
shoot length and in percentage response. Statistical analysis reveals that BAP
resulted in higher frequency of shoot regeneration and number of shoots per
explant while mean shoot length was found higher when ZTR was used in the
medium. Out of both soybean cultivars, NARC-4 showed better response than
NARC-7.
For standardization of transformation conditions, different parameters were
studied. It was observed that explant cutting in Agro-suspension culture and
infection for 1hr resulted in the highest GUS expression (48.3% and 55.9%,
respectively). While 5 days co-cultivation resulted in 55.17% GUS response and
washing for 2hr in washing medium containing 1g/L cefotaxime was better. It was
found that 30mg/L kanamycin was sufficient in selection medium. At this
concentration number of GUS positive shoots were maximum (63.6% response).
The overall percentage transformation efficiency of both soybean cultivars NARC-
4 and NARC-7 was 24.16% and 15.71% respectively, when tested at best
conditions.
11Soybean cultivar NARC-4 was used for transformation of LFY and rol genes.
EHA 105 containing LFY gene along with GUS as reporter and nptII as selectable
marker showed transformation efficiency 2.2%. Only 4 plants were recovered and
confirmed for presence of LFY gene by PCR. These plants were highly dwarfed
with small leaves and short nodal distance. Early flowering was observed by these
transforments. The flowers turned brown and died after few days. Few of them
turned into pods but no seed formation was observed.
All the rol transforments produced enhanced rooting as compared to control
plants. However, plants morphology varied depending upon rol gene. RolA
transforments were small in size and mildly shrubby with ovate to elliptical leaf
shape while rolC transforments were also dwarf with divided stem at the base with
ovate to slightly globular leaf shape. Soybean rolB transformed plants showed
variation in morphology. These plants were dwarf to shrubby with variation in leaf
shape. The shrubby plants had reduced nodal distance with a little more zigzag
pattern as compared to non-transformed plants. Rol transforments produced
flowers in less time period as compared to control plants. These flowers converted
into pods and set seeds. PCR analysis confirmed presence of respective gene in
these plants. Southern blot analysis confirmed insertion of T-DNA in soybean
genome as single copy number to multiple copies in rol gene transforments.
In this study rol and LFY genes were efficiently introduced in soybean cultivar
NARC-4 after optimization of regeneration and some transformation conditions. |
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