Durga Prasad Barik scite author profile

A reproducible procedure was developed for genetic transformation of grasspea using epicotyl segment co-cultivation with Agrobacterium. Two disarmed Agrobacterium tumefaciens strains, EHA 105 and LBA 4404, both carrying the binary plasmid p35SGUSINT with the neomycin phosphotransferase II (nptII) gene and the beta-glucuronidase (gus)-intron, were studied as vector systems. The latter was found to have a higher transforming ability. Several key factors modifying the transformation rate were optimized. The highest transformation rate was achieved using hand-pricked explants for infection with an Agrobacterium culture corresponding to OD(600) congruent with 0.6 and diluted to a cell density of 10(9) cells ml(-1) for 10 min, followed by co-cultivation for 4 days in a medium maintained at pH 5.6. Putative transformed explants capable of forming shoots were selected on regeneration medium containing kanamycin (100 mug ml(-1)). We achieved up to 36% transient expression based on the GUS histochemical assay. Southern hybridization of genomic DNA of the kanamycin-resistant GUS-expressive shoots to a gus-intron probe substantiated the integration of the transgene. Transformed shoots were rooted on half-strength MS containing 0.5 mg l(-1) indole-3-acetic acid, acclimated in vermi-compost and established in the experimental field. Germ-line transformation was evident through progeny analysis. Among T(1) seedlings of most transgenic plant lines, kanamycin-resistant and -sensitive plants segregated in a ratio close to 3:1.

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Incorporation of Bacterial Blight Resistance Genes Into Lowland Rice Cultivar Through Marker-Assisted Backcross Breeding

Pradhan

Nayak

Pandit

et al. 2016

Phytopathology®

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Bacterial blight (BB) of rice caused by Xanthomonas oryzae pv. oryzae is a major disease of rice in many rice growing countries. Pyramided lines carrying two BB resistance gene combinations (Xa21+xa13 and Xa21+xa5) were developed in a lowland cultivar Jalmagna background through backcross breeding by integrating molecular markers. In each backcross generation, markers closely linked to the disease resistance genes were used to select plants possessing the target genes. Background selection was continued in those plants carrying resistant genes until BC(3) generation. Plants having the maximum contribution from the recurrent parent genome were selected in each generation and hybridized with the recipient parent. The BB-pyramided line having the maximum recipient parent genome recovery of 95% was selected among BC3F1 plants and selfed to isolate homozygous BC(3)F(2) plants with different combinations of BB resistance genes. Twenty pyramided lines with two resistance gene combinations exhibited high levels of tolerance against the BB pathogen. In order to confirm the resistance, the pyramided lines were inoculated with different X. oryzae pv. oryzae strains of Odisha for bioassay. The genotypes with combination of two BB resistance genes conferred high levels of resistance to the predominant X. oryzae pv. oryzae isolates prevalent in the region. The pyramided lines showed similarity with the recipient parent with respect to major agro-morphologic traits.

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Rapid plant regeneration through in vitro axillary shoot proliferation of butterfly pea (Clitoria ternatea L.)—a twinning legume

Barik

Naik

Mudgal

et al. 2007

In Vitro Cell.Dev.Biol.-Plant

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This study describes a reproducible protocol for rapid mass propagation of a multipurpose legume, Clitoria ternatea L., using cotyledonary node explants derived from axenic seedlings. Multiple shoots were induced in Murashige and Skoog (MS) medium supplemented with N 6 -benzyladenine (BA), zeatin riboside, or thidiazuron. N 6 -Benzyladenine at 1.0 mg l −1 (4.44 μM) was most effective for shoot proliferation. Multiple shoots were also induced in nodal segments of in vitro-raised shoots grown on MS medium containing 1.0 mg l −1 (4.44 μM) of BA. Rooting was best induced in shoots grown on half-strength MS medium with 0.25 mg l −1 (1.42 μM) of indole-3-butyric acid. Plants were acclimatized in vermicompost and established in soil where they flowered and formed mature seeds.

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Arbuscular mycorrhizal symbiosis: plant growth improvement and induction of resistance under stressful conditions

Mitra

Djebaili

Pellegrini

et al. 2021

Journal of Plant Nutrition

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