Habiba, R., kaKash, K., Hamed, R. (2014). GENETCAL VARIATION OF CALLUS PERFORMANCES OF MAIZE GENOTYPES PRODUCED FROM TISSUE CULTURES UNDER DIFFERENT LEVELS OF SALINITY.. Journal of Plant Protection and Pathology, 5(6), 785-802. doi: 10.21608/jppp.2014.87992
Rehab Habiba; kawther kaKash; Rabab Hamed. "GENETCAL VARIATION OF CALLUS PERFORMANCES OF MAIZE GENOTYPES PRODUCED FROM TISSUE CULTURES UNDER DIFFERENT LEVELS OF SALINITY.". Journal of Plant Protection and Pathology, 5, 6, 2014, 785-802. doi: 10.21608/jppp.2014.87992
Habiba, R., kaKash, K., Hamed, R. (2014). 'GENETCAL VARIATION OF CALLUS PERFORMANCES OF MAIZE GENOTYPES PRODUCED FROM TISSUE CULTURES UNDER DIFFERENT LEVELS OF SALINITY.', Journal of Plant Protection and Pathology, 5(6), pp. 785-802. doi: 10.21608/jppp.2014.87992
Habiba, R., kaKash, K., Hamed, R. GENETCAL VARIATION OF CALLUS PERFORMANCES OF MAIZE GENOTYPES PRODUCED FROM TISSUE CULTURES UNDER DIFFERENT LEVELS OF SALINITY.. Journal of Plant Protection and Pathology, 2014; 5(6): 785-802. doi: 10.21608/jppp.2014.87992
GENETCAL VARIATION OF CALLUS PERFORMANCES OF MAIZE GENOTYPES PRODUCED FROM TISSUE CULTURES UNDER DIFFERENT LEVELS OF SALINITY.
Dept. of Genetics, Fac. of Agric., Mansoura University. EGYPT
Abstract
Four maize hybrids (122, 168, 173 and pioneer) were investigated to determine their genotypic effects on callogenesis response to 2,4-D (2,4dichlorophynoxyacetic acid) and invitro salt tolerance using NaCl. A callus was initiated from mature embryos cultured on three MS media supplemented with 0, 2 and 4mg/l of 2,4-D where the level 0 is the control.The produced calli from the medium which contains 2 mg/L 2,4-D for each genotype were then exposed to four salinity levels (i.e. 0, 1500, 3000 and 6000 ppm) of NaCl,respectively to evaluate some physiological aspects of the produced calli from the genotypes.The results of ANOVA revealed thatthe mean squares of genotypes at all levels of 2,4-D were significantly indicated the presence of differences between them for all in vitro traits. Furthermore, the mean squares of levels and genotype × levels interaction were highly significant for all traits. This indicated that these genotypes gave different responses at different 2,4-D levels.The genetic variation was high and positive with respect to the in vitro traits at each 2,4-D level. This indicated that these traits are mainly controlled by genetic factors. This finding was emphasized by the heritability values, which were more than 80% for all studied traits at each 2,4-D level. In relation to callus response to salt stress, the results indicated that the presence of significant differences between these genotypes for ion content in callus cells (K+%, Na+%, Na+/K+ and Cl-%) with respect to the four salinity levels except for K+% at S1,S3 levels, Na+% at levels S1, S2, S3, Na+/k+ at levels S0, S1, S3 and Cl-% at levels S2, S3. Regarding to, the organic solutes accumulation ( sugar and proline mg/g w.ft),the magnitudes of the mean squares for genotypes were significant at four salinity levels except for proline mg/g w.ft at S3 level. For membrane permeability, relative growth rate and water content, the magnitudes of the mean squares for genotypes were significant at four salinity levels except for water content at levels S0, S3.The results revealed that the genetic variation was high and positive forion content in callus cells (K+%, Na+%, Na+/K+and Cl-%),organic solutes accumulation (sugars and proline), membrane permeability and relative growth rate as well as water content with respect to the four levels of salinity. This finding is emphasized by the heritability values, which were more than 80% for most of studied traits.
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