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Optimization Of Regeneration And Agrobacterium Mediated Transformation Of Wheat (triticum Aestivum L.cv. Yuregir 89)Demirbas, Didem 01 October 2004 (has links) (PDF)
The objective of this study was to optimize regeneration parameters of immature inflorescence culture of Triticum aestivum cv. Yü / regir-89. The effects of dark incubation period and explant region on regeneration success were tested. Immature inflorescences were cut into 3 pieces as tip, mid, base and put onto 2mg /L 2,4-dichlorophenoxyacetic acid containing callus induction medium. These explants were taken to regeneration after 6, 9, 13 weeks of dark incubation period. The regeneration capacities of calli were determined as rooting and shooting percentages. Shooting percentages were found to be 72.0 % for 6 weeks of dark incubation and 64.1 % for 9 weeks of dark incubation while it decreases to 26.1 % in 13 weeks of dark incubation period. This showed that prolonged dark incubation period decreased regeneration capacity of the callus. There was no significant difference in regeneration capacities of tip, mid and base regions of immature inflorescences, which reveals the potential of every region of inflorescence to be used as explant source in further transformation studies.
Besides regeneration studies, optimization of transformation parameters for Turkish wheat cultivar Yü / regir by using Agrobacterium tumefaciens AGLI containing binary vector pALl56 was performed. Transformation efficiencies were determined by monitoring the transient expression of uidA gene via histochemical GUS assay. Three to four weeks old calli were found to be more responsive to Agrobacterium-mediated transformation. Different media were tested for utilization during co-cultivation period. It was found that including phenolic compound acetosyringone along with ascorbic acid as an antioxidant was essential for succesful transformation.
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Optimization Of Selection Conditions And Agrobacterium Mediated Transformation Of Chickpea (cicer Arietinum L. Cv. Gokce)Oz, M. Tufan 01 January 2005 (has links) (PDF)
The objective of this study was to optimize an efficient selection system and Agrobacterium mediated transformation of chickpea (Cicer arietinum L.).
Cotyledonary node explants of Turkish chickpea cultivar Gö / kç / e were used to determine the effects of selective agents, two antibiotics (Kanamycin, Hygromycin) and two herbicides (PPT, Glyphosate) as well as four antibiotics (Augmentin, Carbenicillin, Cefotaxime, Timentin) for eliminating Agrobacterium on multiple shoot and root induction. Selective agents and antibiotics were applied to explants at different concentrations for one month and numbers of regenerated shoots and roots were recorded. Kanamycin at 100 mg/L, Hygromycin at 20 mg/L, PPT at 3 mg/L and Glyphosate at 5 mg/L were found to be appropriate to select chickpea transformants. Lowest concentrations of all selective agents (50 mg/L Kanamycin, 10 mg/L Hygromycin, 3 mg/L PPT, 1 mg/L Glyphosate) totally inhibited rooting of the regenerated shoots.
Among the Agrobacterium-eliminating antibiotics, Cefotaxime and Augmentin each up to 600 mg/L had no adverse effect on shoot induction, whereas Timentin (300 mg/L) significantly increased and Carbenicillin (300 mg/L) significantly decreased shoot induction after four weeks of culture. Augmentin was determined to have no effect on rooting capacities of chickpea shoots. However Cefotaxime at all concentrations significantly decreased root induction. On the other hand only high concentrations of Carbenicillin (300 mg/L) and Timentin (200 mg/L) significantly decreased rooting. Sulbactam in combination with Carbenicillin and Cefotaxime displayed effective inhibition of bacterial growth.
Furthermore, Agrobacterium mediated transformation procedure for cotyledonary node explants of Gö / kç / e, was also optimized by monitoring transient uidA expression on 4th, 9th, and 16th days after transformation. Transformation procedure was improved via mechanical injury of axillary region of explants and application of vacuum infiltration at 200 mmHg for 40 minutes.
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Optmization Of Tissue Culture, Regeneration And Transformation Parameters In Winter Wheat Cultivars (kiziltan-91 And Bezostaja-01)Kavas, Musa 01 September 2005 (has links) (PDF)
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The objective of this study was to optimize tissue culture and regeneration
parameters of immature inflorescence culture of Triticum aestivum cv. Bezostaja-
01 and Triticum durum cv. Kiziltan-91. The effects of callus age and vernalisation
time of explants on regeneration success were evaluated. For determination of
optimum vernalisation time of immature inflorescence, plants subjected to 4 ° / C
for 1, 2, 3, 4, and 5 weeks, respectively. Tillers containing immature
inflorescences were collected at the same time. Percentage of inflorescence formed
tillers over total explants were reached the highest value, 79 %, at 4 weeks cold
treated Kiziltan cultivar and, 73 %, at 5 weeks cold treated Bezostaja cultivar.
Isolated immature inflorescences were put onto 2mg /L 2,4-dichlorophenoxyacetic
acid and picloram containing callus induction medium for Kiziltan and Bezostaja
cultures, respectively. Callus induction rate were found to be 100 % for Kiziltan
and Bezostaja. These explants were taken to regeneration after 6, 9, 12 and 15
weeks of dark incubation period. The regeneration capacities of calli were
determined as shooting percentage and data were collected after 4, 8, 12, and 15
week regeneration period. The highest shooting percentage of 69 %, were obtained
from 6 weeks old calli produced from 4 weeks vernalised explants in Kiziltan
cultures at the end of 15 weeks regeneration period. However, shooting percentage
was 57.2 % for 9 weeks old calli while it decreases to 37.6 % in 12 weeks old calli
and 44.2 % in 15 weeks old calli at the end of 15 weeks regeneration period. This
showed that prolonged dark incubation period decreased regeneration capacity of
the callus. However, there was no significant difference in regeneration capacities
of calli produced from Bezostaja immature inflorescence and the highest shooting
percentage was obtained from 9 weeks old calli produced from 5 weeks vernalised
explants, 27.4 %.
Besides regeneration studies, optimization of transformation parameters for winter
wheat cultivars Kiziltan and Bezostaja by using Agrobacterium tumefaciens AGLI
containing binary vector pALl56 was performed. Transformation efficiencies were
determined by monitoring the transient expression of uidA gene via histochemical
GUS assay. Three to four weeks old calli were found to be more responsive to
Agrobacterium-mediated transformation in Kiziltan cultures. However, four to five
weeks old calli were found to be more responsive to Agrobacterium-mediated
transformation in Bezostaja cultures. Different transformation protocols were used.
It was found that MGL based and MMA based protocols could be used for
Bezostaja and Kiziltan transformation, respectively. The highest GUS expression,
84%, was obtained from 28 weeks old calli produced from 5 weeks vernalised
explants in Bezostaja cultures.
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Optimization Of Regeneration And Agrobacterium Mediated Transformation Of Sugar Beet (beta Vulgaris L.)Baloglu, Cengiz Mehmet 01 September 2005 (has links) (PDF)
In this study, optimization of a transformation and regeneration system via indirect and direct organogenesis in cotyledon, hypocotyl, petiole, leaf and shoot base tissues of sugar beet (Beta vulgaris L. cv. ELK 345 and 1195) was investigated. Two different germination, three different callus induction and shoot induction medium was used for indirect organogenesis of sugar beet cultivar ELK 345. Except cotyledon, other explants (hypocotyl, petiole and leaf) produced callus. However no shoot development was observed from callus of these explants. Shoot base tissue of sugar beet cultivar 1195 was employed for direct organogenesis. Shoot development was achieved via direct organogenesis using 0.1 mg/L IBA and 0.25 mg/L BA. Root development and high acclimatization rate were accomplished from shoot base tissue.
Different concentrations of kanamycin and PPT were applied to leaf blade explants to find out optimum dose for selection of transformants. Kanamycin at 150 mg/L and PPT at 3 mg/L totally inhibited shoot development from leaf blades.
Moreover, an Agrobacterium mediated transformation procedure for leaf explants of ELK 345 was also optimized by monitoring transient uidA expression 3rd days after transformation. Effects of different parameters (vacuum infiltration, bacterial growth medium, inoculation time with bacteria, Agrobacterium strains and L-cysteine application in co-cultivation medium) were investigated to improve transformation procedure. Vacuum infiltration and Agrobacterium strains were significantly improved transformation procedure. Percentage of GUS expressing areas on leaves increased three folds from the beginning of the study.
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The role of P25 interacting transcriptional regulator VIP1 in activation of transcription.Hashi, Asma Kanon January 2022 (has links)
Rhizomania, caused by beet necrotic yellow vein virus (BNYVV), has been considered as an economically important disease around the world because of the extreme reduction in sugar beet yield and sugar content in affected plants. The spread of rhizomania all over the world, including the emergence of resistance- breaking virus isolates, have been become a major concern for the plant pathologists and plant breeders aiming at improving sugar beet resistance to BNYVV as well as better understanding sugar beet-virus interactions during disease development. The main focus of this project is to elucidate the role of P25-interacting partner, the VIP1 transcription factor, in activation of transcription. The isolation of the gene-of-interest (VIP1) was performed by RT-PCR on total RNA preparations extracted from root tissue of sugar beet (Beta vulgaris ssp. vulgaris). The isolated gene of interest was cloned using gateway system into a binary expression vector and the obtained construct was then transformed into Agrobacterium tumefaciens for analysing transient expression in the experimental host (Nicotinana benthamiana). Dual-luciferase promoter activity assay was performed on isolated leaf discs co-expressing P25 and VIP1 and compared to appropriate controls. Six promoter constructs were tested. However, we observed an increase in luciferase activity (1.8-4.2-fold) upon co-expression of P25 and VIP1 only for two constructs tested, although the increase was not supported by Student’s t-test at 0.05 significance level. Nevertheless, the luciferase activity assay data for these two constructs were consistent with RNA-seq and RT-qPCR data obtained previously showing upregulation of the expression of these two specific sugar beet genes during BNYVV infection in sugar beets. Thus, the results support our hypothesis that the interaction of the virus virulence factor P25 with VIP1 transcription factor is needed to activate transcription of certain genes in the nucleus for the virus benefit.
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