Curtis A. Meurer scite author profile

Four transgenic soybean [Glycine max (L.) Merrill] lines were generated containing the maize 15 kDa zein protein gene using somatic embryogenic protocols. The zein gene was inserted behind the b-phaseolin promoter for seed-specific expression. All four lines represent separate transformation events as they were generated in different experiments at different locations. Two of the transformation events produced multiple plants, and these produced identical Southern hybridization patterns (UKY/Z1, UKY/Z2 and UKY/Z3 from the first; and OSU/Z4, OSU/Z8 and OSU/Z10 from the second). Molecular characterization revealed that multiple copies of the zein gene were present in all of the transgenic lines. Immunoblot analysis confirmed the accumulation of the zein protein product in the seeds of the UKY/Z1, UKY/Z2, UKY/Z3, OSU/Z4, OSU/Z8 and OSU/Z10 transgenic lines. However, there was no accumulation of zein protein in the UGA/Z1 line and Northern analysis confirmed that the zein transgene was silenced in this line. It was not possible to analyze the zein expression in the seeds of the UKY/Z4 line, as it was sterile. Amino acid analysis of the UKY and OSU lines confirmed that there was a 12±20% increase in methionine, and 15±35% increase in cysteine content in these lines compared to the control. There were no consistent changes in the content of the other amino acids in the transgenic lines. These results suggest that while the increase in methionine content in these lines is modest, it is possible to increase the methionine content without adversely affecting the protein composition of soybean.

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Embryogenic response of multiple soybean [Glycine max (L.) merr.] cultivars across three locations

Meurer

Dinkins

Redmond

et al. 2001

In Vitro Cell.Dev.Biol.-Plant

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Nine soybean [Glycine max (L.) Merr.] cultivars representing midwestern, mid-south, and southern US growing regions were evaluated at each of three locations (Athens, GA; Lexington, KY; and Wooster, OH) using uniform embryogenic induction and proliferation protocols in order to evaluate the portability of soybean somatic embryogenic protocols to different locations. The experimental design minimized variation between locations by having all cultivars present at all locations on all days. A quantitative weighted score for primary embryo induction was developed on average embryo number per explant and was used to describe non-embryogenic, poorly embryogenic, moderately embryogenic, and highly embryogenic responses. Ranking of cultivars remained similar across all locations, indicating a uniform transportability of the protocol, at least as far as embryo induction is concerned. Continued proliferation of embryogenic cultures was also measured using a repetitive growth measure but few meaningful conclusions could be made due to the high level of variability including inconsistent growth of cultures between each subculture. Overall, several cultivars were identified as being uniformly embryogenic or non-embryogenic at the primary induction phase at all locations, and we predict that those embryogenic cultivars could be used by any laboratory for high-efficiency induction of embryogenesis. The best of these cultivars,`Jack', was uniformly responsive across all locations and should be selected as the genotype most likely to yield positive results when attempting to culture and genetically engineer soybeans via embryogenic protocols.

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Recent Advances in Soybean Transformation

Dinkins

Reddy

Meurer

et al. 2003

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Curtis A. Meurer

Factors affecting soybean cotyledonary node transformation

Increased sulfur amino acids in soybean plants overexpressing the maize 15 kDa zein protein

Embryogenic response of multiple soybean [Glycine max (L.) merr.] cultivars across three locations

Recent Advances in Soybean Transformation

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