Pilot forward genetic screens in Xenopus tropicalis have isolated over 60 recessive mutations. Here we present a simple method for mapping mutations to chromosomes using gynogenesis and centromeric markers. When coupled with available genomic resources, gross mapping facilitates evaluation of candidate genes as well as higher resolution linkage studies. Using gynogenesis, we have mapped the genetic locations of the 10 X. tropicalis centromeres, and performed fluorescence in situ hybridization to validate these locations cytologically. We demonstrate the use of this very small set of centromeric markers to map mutations efficiently to specific chromosomes.
Plant regeneration, which is the major limiting factor for transformation of Cajanus cajan, has been obtained via multiple shoot formation from the cotyledonary node region of seedlings germinated on MS medium containing 2 mgl(-1) 6-benzylaminopurine. A mass of multiple shoot-initials formed at the axillary bud region of the cotyledonary node of the seedlings within two weeks. The cotyledonary node along with the mass of shoot-initials excised from the seedling, continued to form new shoot-initials on MS medium containing 6-benzylaminopurine (2 mgl(-1)) and supplemented topically with indole-3-acetic acid. The formation of new shoot-initials was also observed from the cotyledonary nodal explant, after cutting off its surface layers to completely remove the pre-existing shoot-initials and culturing it on 6-benzylaminopurine (2 mgl(-1)) containing medium. The shoots elongated rapidly on basal MS medium and rooted efficiently in MS medium supplemented with indole-3-butyric acid (0.5 mgl(-1)). The procedure described is efficient, and highly reproducible and a common response was observed for all the six varieties tested.
Transgene copy number is an important criterion for determining the utility of transgenic events. Single copy integration events are highly desirable when the objective is to produce marker free plants through segregation or when it is necessary to introgress different transgenes into commercial cultivars from different transgenic events. In contrast multi-copy events are advocated by several authors for higher expression of the transgene. Till recently, it was thought that employment of the particle gun for transformation results in the production of a high proportion of multi-copy events often with complex integration pattern when compared to Agrobacterium-mediated transformation. However, it has been demonstrated that usage of cassette DNA for bombardment in place of whole plasmids would result in simple insertion pattern of the transgenes. While investigating the effect of varying the cassette DNA amount on stable transformation, the frequency of occurrence of low copy events was observed to increase when lower doses of cassette DNA was employed for bombardment. Large scale experimentation with rigorous statistical analysis performed to verify the above observations employing Helium gun and the Electric discharge gun for gene delivery confirmed the above observations. Helium gun experiments involving production of more than 1,600 corn events consistently yielded single copy events at higher frequencies at lower cassette DNA load (46% at 2.5 ng/shot) as compared to higher cassette DNA load (29% at 25 ng/shot) across 18 independent experiments. Results were nearly identical with the Electric discharge particle gun device where single copy events were recovered at frequencies of 54% at 2.5 ng cassettes DNA per shot as compared to 18% at 25 ng cassette DNA per shot. The transformation frequency declined from 41 to 34% (Helium gun) and from 48 to 31% (Electric discharge gun) with reduction in cassette DNA quantity from 25 to 2.5 ng per shot. This reduction in the transformation frequency is more than compensated by the savings in time and effort involved in the production and screening of events if the desired outcome is single copy events. These results demonstrate the flexibility of the particle gun method for controlling the frequency of production of either low copy or high copy events by altering the quantity of cassette DNA used for bombardment. The transgene expression levels over generations in relation to its integration need further investigations.
An efficient protocol was developed for Agrobacterium tumefaciens-mediated transformation of tomato (Solanum lycopersicum) cultivars using cotyledon explants. The transformation frequency was assessed in response to several different factors, including seed germination medium, seedling age, pre-culture duration, pre-culture and cocultivation media, inoculation medium, medium pH, washing medium, and kanamycin concentration in initial selection medium. Cotyledons excised from 6-d-old seedlings germinated on half-strength Murashige and Skoog's (MS) basal medium containing 8.9 μM benzyladenine (BA) produced the most suitable explant material. Six days of explant pre-culture and 5 min inoculation with Agrobacterium culture in MS medium, containing 8.9 μM BA, 9.3 μM kinetin, and 0.4 mg l −1 thiamine at pH 5.0, significantly improved the transformation frequency. The addition of a tobacco feeder cell layer, however, did not lead to any significant improvement in the transformation rate. Kanamycin at 20 mg l −1 in the selection medium for the initial 10 d resulted in the highest transformation frequency. Combining the best conditions for each parameter resulted in an overall transformation efficiency of 44.3 %. Gene transfer was confirmed through PCR and Southern blot analyses. Mendelian inheritance ratios were found in 71.5 % of the independent transgenic lines from self-fertilized T 1 progeny. The optimized transformation procedure showed high transformation frequencies for all three tomato cultivars tested, namely, Kashi Vishesh (H-86), Hisar Anmol (H-24), and Kashi Amrit (DVRT-1), and is also expected to give reproducible results with other tomato cultivars.
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