Analysis of Gene Effect on Four Characters of Immature Embryo Culture in Maize

This study was to find the regularity in the hereditary variation for the main culturing characters of the immature embryo culture in maize. Two kinds of inbred-line, R18-599 （red） with very excellent embryo culturing capacity and R15 with very poor embryo culturing capacity, were used as P1 and P2 for obtaining six generations. By culturing immature embryos of the six generations, four culturing characters, namely embryonic callus induction efficiency, nonembryonic callus induction efficiency, cloning ability of the embryonic callus, and number of regenerating plants, were analyzed using the general mean analysis and generation joint analysis. Results showed that the embryonic callus induction efficiency accorded with two major additive-dominance-epistatic genes and polygene-mixed additive-dominance-epistatic inheritance model. The induction efficiency of the nonembryonic callus accorded with two major additive-dominance-epistatic genes. The number of regenerating plants accorded with one major gene and polygene-mixed additive-dominance inheritance model. The cloning ability of the embryo callus accorded with two major genes and polygene-mixed inheritance model, whereas the effect of epistatic gene on this character was identified results of the two methods, generation joint analysis may genetic information. to be different using the two methods. By comparison of the not only raise experimental precision but also provide more

Cytological Correlation Between Flower and Vegetative Shoot Development from Immature Embryo-Derived Calli in Wheat

In this paper, the traits of immature embryo culture from 45 genotypes of bread wheat were investigated in detail, and trait correlation analysis in combination with histomorphological examination was used to study the cytological origin of flower as well as the correlation between it and vegetative shoot development from the calli. The rate of floral development in the subculture was highly significantly and positively related to that of the differentiation culture, which reveals that the genetic system of floral development from immature embryo-derived calli in wheat was highly correspondent and stable. The rate of floral development was related neither to the traits in the dedifferentiation culture, nor to the vegetative shoot formation from the total induced calli, but significantly and positively related to that of the calli without leaf-like green spots in the differentiation culture. These findings indicate the partial correlation as well as differentiation between flower and vegetative shoot development. The floral development might only be associated with the genetic system controlling organ regeneration, while vegetative shoots formed from the two ways, including somatic embryogenesis and organ regeneration.

The Application of Somaclonal Variation in Early Maturity,High Yield and High Quality Improvement in Wheat

Yield characters, maturity and grain protein content of somaclones derived both from immature embryo of cultivar 77(2)-Spring and single-cell culture of cultivar NE7742 in vitro were studied and the wide variation was found. Somaclones with maturity 8 days earlier than or the same as CK NE 7742 (high yield, early maturity and high quality), combining with high quality (grain protein content 15.5% - 18%) and high yield (the same as 7724 or higher) have been found and selected and now multiplied for 8 generations. The results of cultivar comparison trial in 1995 showed that several somaclones (the yields were significantly higher than CK DN120) could be used directly in wheat production. The studies confirmed that somaclonal variation is one of the effective ways for early maturity, high-yielding and high-quality improvement in wheat.