Presence of mycobacteriophage I3-like DNA sequences in the genome of its host Mycobacterium smegmatis

The genomes of phage I3 and its host Mycobacterium smegmatis have been compared. From thermal melting studies the GC contents of DNA from mycobacteriophage I3 and its host M. smegmatis were found to be 66%. A new method, based only on the initial rates of reassociation, has been developed for calculating the DNA homology. Analysis of DNA reassociation kinetics suggested the presence of one equivalent of the phage I3 genome within the M. smegmatis genome. Southern analysis revealed the presence of almost all of the phage I3 specific sequences within the host genome.     

Root exudates of rice seedlings. The influence of one variety on another

Summary In the present study attempts have been made to elucidate the composition and physiological actions of root exudates from CB-1 Rupsail and the mixed population of these two varieties. The chemical nature of the different components of root exudates was studied by means of paper chromatography, bioassay and other biochemical procedures. It was noted that exudates from CB-1 and Rupsail seedlings inhibited root/shoot growth of test seedlings of both varieties. But when these two varieties were grown together root/shoot growth of both varieties were markedly promoted. Both qualitative and quantitative differences in amino acids, carbohydrates and growth substances contents of root exudates of individual and mixed population of rice varieties were noted.     

High efficiency plant regeneration and genetic fidelity of regenerants by SCoT and ISSR markers in chickpea (Cicer arietinum L.)

High efficient and repeatable in vitro regeneration protocol was established from embryo axis, half-seed, axillary meristem, and cotyledonary node explants of chickpea. Various concentrations and combinations of various plant growth regulators (PGRs) were employed to induce multiple shoots, shoot elongation and rooting of shoots to obtain complete plantlets of chickpea. The pretreatment of seeds with 6-benzyl aminopurine (BAP) at 1.0 mg l^?1 was found to significantly increase the multiple shoot regeneration from the all explants tested. Among three PGRs such as BAP, kinetin (KIN) and thidiazuron (TDZ) tested for multiple shoot induction; BAP at 2.0 mg l^?1 produced the maximum number of shoots in all tested explants. The maximum number of shoots (48.80 shoots/explant) was attained from the embryo axis explant followed by half-seed (32.76 shoots/explant), axillary meristem (28.34 shoots/explant) and cotyledonary node explant (18.47 shoots/explant) on medium augmented with 2.0 mg l^?1 BAP along with 0.05 mg l^?1 Indole-3-butyric acid (IBA). The optimum percentage of shoot elongation response was recorded (96.68%) on medium fortified with IAA (0.05 mg l^?1), GA₃ (1.0 mg l^?1) and BAP (1.0 mg l^?1) with an average shoot length of 8.82 cm. The elongated shoots were successfully rooted in medium augmented with 2.0 mg l^?1 IBA. The complete plants were acclimatized in the greenhouse with a survival rate of 72%. The plantlets regenerated from four explants appeared to be morphologically similar to mother plants. The genetic fidelity of in vitro regenerated plants was evaluated using Start Codon Targeted and Inter simple sequence repeats molecular markers. The in vitro regenerated plants from all four explants were found to be the true to type with their mother plant. The in vitro protocol presented in the study should offer as a feasible system for chickpea genetic transformation.

     

Isolation and characterization of the dehydration stress-inducible GhRDL1 promoter from the cultivated upland cotton (<Emphasis Type="Italic">Gossypium hirsutum</Emphasis>)

Cotton fiber is the basic raw material used in the textile industry. The fiber yield is severely affected by a number of biotic and abiotic factors, such as insects, viruses, drought and salinity. Drought is a major factor that negatively impacts the yields and quality of cotton fiber. Promoters that respond to stress conditions and up-regulate transgenes are of great significance in crop improvement using genetic engineering approach. Although dehydration-responsive gene promoters, such as RD22 and RD29 from Arabidopsis, have been characterized, not much information is available regarding stress-responsive promoters from Gossypium hirsutum, which accounts for approximately 90 % of cultivated cotton. In this study, we isolated and characterized the promoter of a dehydration-responsive gene (GhRDL1) from G. hirsutum using Agrobacterium-mediated transformation in tobacco and cotton. Transgenic tobacco plants expressing uidA under the GhRDL1 promoter showed GUS activity in the trichomes. Also, GUS expression was observed to some extent in leaf, stem and floral tissues. Similar results were observed when GhRDL1 promoter was tested in transgenic cotton. Most importantly, our study showed that the GhRDL1 promoter is up-regulated in the presence of polyethylene glycol that creates water stress under invitro conditions. Thus, the GhRDL1 promoter may find its usefulness in the development of stress-tolerant cotton and other crop species in the near future.