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Commercial production of avidin from transgenic maize: characterization of transformant, production, processing, extraction and purification (1997)

Hood, Elizabeth E. ; Witcher, Derrick R. ; Maddock, Sheila ; [et al.]

Springer

Molecular breeding 3 (1997), S. 291-306

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ISSN: 1572-9788

Keywords: avidin ; heterologous gene ; localization ; male sterility ; processing ; protein production ; protein purification ; seed expression ; transgenic maize

Source: Springer Online Journal Archives 1860-2000

Topics: Agriculture, Forestry, Horticulture, Fishery, Domestic Science, Nutrition

Notes: Abstract We have produced in transgenic maize seed the glycoprotein, avidin, which is native to avian, reptilian, and amphibian egg white. A transformant showing high-level expression of avidin was selected. Southern blot data revealed that four copies of the gene are present in this transformant. The foreign protein represents 〉2% of aqueous soluble extracted protein from populations of dry seed, a level higher than any heterologous protein previously reported for maize. In seed, greater than 55% of the extractable transgenic protein is present in the embryo, an organ representing only 12% of the dry weight of the seed. This indicates that the ubiquitin promoter which is generally considered to be constitutive, in this case may be showing a strong tissue preference in the seed. The mature protein is primarily localized to the intercellular spaces. An interesting trait of the transgenic plants expressing avidin is that the presence of the gene correlates with partial or total male sterility. Seed populations from transgenic plants were maintained by outcrossing and segregate 1:1 for the trait. In generations T2–T4, avidin expression remained high at 2.3% (230 mg/kg seed) of extractable protein from seed, though it varied from 1.5 to 3.0%. However, levels of expression did not appear to depend on pollen parent or growing location. Cracked and flaked kernels stored at −29°C or 10 °C for up to three months showed no significant loss of avidin activity. Commercial processing of harvested seed also generated no apparent loss of activity. The protein was purified to greater than 90% purity by affinity chromatography after extraction from ground mature maize seed. Physical characterization of purified maize-derived avidin demonstrated that the N-terminal amino acid sequence and biotin binding characteristics are identical to the native protein with near identical molecular weight and glycosylation. This study shows that producing avidin from maize is not only possible but has practical advantages over current methods.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1009676322162

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Commercial production of β-glucuronidase (GUS): a model system for the production of proteins in plants (1998)

Witcher, Derrick R. ; Hood, Elizabeth E. ; Peterson, Dave ; [et al.]

Springer

Molecular breeding 4 (1998), S. 301-312

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ISSN: 1572-9788

Keywords: β-glucuronidase (GUS) ; heterologous gene ; localization ; seed expression ; transgenic maize ; processing ; protein production ; protein purification

Source: Springer Online Journal Archives 1860-2000

Topics: Agriculture, Forestry, Horticulture, Fishery, Domestic Science, Nutrition

Notes: Abstract We have generated transgenic maize seed containing β-glucuronidase(GUS) for commercial production. While many other investigators have demonstrated the expression of GUS as a scoreable marker, this is one of the first cases where a detailed characterization of the transgenic plants and the protein were performed which are necessary to use this as a commercial source of GUS. The recombinant β-glucuronidase was expressed at levels up to 0.7% of water-soluble protein from populations of dry seed, representing one of the highest levels of heterologous proteins reported for maize. Southern blot analysis revealed that one copy of the gene was present in the transformant with the highest level of expression. In seeds, the majority of recombinant protein was present in the embryo, and subcellular localization indicated that the protein was dispersed throughout the cytoplasm. The purified recombinant β-glucuronidase (GUS) was compared to native β-glucuronidase using SDS-PAGE and western blot analysis. The molecular mass of both the recombinant and native enzymes was 68 000 Da. N-terminal amino acid sequence of the recombinant protein was similar to the sequence predicted from the cloned Escherichia coli gene except that the initial methionine was cleaved from the recombinant GUS. The recombinant and native GUS proteins had isoelectric points (pI) from 4.8 to 5.0. The purified proteins were stable for 30 min at 25, 37, and 50 ° C. Kinetic analysis of the recombinant and native GUS enzymes using 4-methylumbelliferyl glucuronide (MUG) as the substrate was performed. Scatchard analysis of these data demonstrated that the recombinant enzyme had a Km of 0.20 mM and a Vmax of 0.29 mM MUG per hour, and the native enzyme had a Km and Vmax of 0.21 mM and 0.22 mM/h respectively. Using D-saccharic acid 1,4-lactone, which is an inhibitor of β-glucuronidase, the Ki of the native and recombinant enzymes was determined to be 0.13 mM. Thus, these data demonstrate that recombinant GUS is functionally equivalent to native GUS. We have demonstrated the expression of high levels of GUS can be maintained in stable germlines and have used an efficient recovery system where the final protein product, GUS, has been successfully purified. We describe one of the first model systems for the commercial production of a foreign protein which relies on plants as the bioreactor.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1009622429758

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