Chris Opsomer scite author profile

An efficient method for the construction of multiple mutations in a sequential manner is described. It is based on the gapped duplex DNA approach to oligonucleotide-directed mutagenesis (Kramer et al. 1984, Nucl. Acids Res. 12, 9441-9456) and a set of newly constructed phasmid vectors. These are characterized by the following features. Presence of the phage fl replication origin permits ready conversion to the single stranded DNA form. An amber mutation within, alternatively, the bla or cat gene provides a means for ready selection of the strand into which the mutagenic oligonucleotide has been incorporated. By means of the alternating antibiotic resistance markers any number of mutations can be constructed in consecutive rounds of mutagenesis. The optional presence of gene expression signals allows the direct overproduction of structurally altered proteins without re-cloning. Both the mutagenesis and expression aspects were tested using the lacZ gene as a model.

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The similarities of bar and pat gene products make them equally applicable for plant engineers

Wehrmann

et al. 1996

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The bar and pat genes, isolated from different Streptomyces species, both encode a phosphinothricin acetyltransferase (PAT) and are widely applied in plant genetic engineering. The genes were expressed in Escherichia coli and the corresponding proteins were purified and used for functional and structural comparison. Both proteins are homodimers regardless of whether they are expressed in microorganisms or in plants. They have comparable molecular weights and show immuno-cross-reactivity to their respective polyclonal antisera. The enzymes have a similar substrate affinity towards L-phosphinothricin and do not acetylate any of the other L-amino acids tested. In model digestion experiments using simulated human gastric fluids, their enzymatic activity is decreased within seconds, accompanied by a rapid and complete breakdown of both proteins. These data demonstrate the structural and functional equivalence of the PAT proteins, which is also reflected in the comparable performance of transgenic plants carrying the bar or pat gene.

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Baucher

Bernard-Vailhé²,

Chabbert

et al. 1999

211

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To improve the digestibility of the forage crop alfalfa (Medicago sativa L.), cinnamyl alcohol dehydrogenase (CAD), which catalyses the last step in the biosynthesis of the lignin monomers, was down-regulated by using an antisense approach. A subset of six transgenic lines with reduced CAD activity and control lines were analysed when grown in the greenhouse and in the field. The down-regulation of the CAD enzyme was associated with a red coloration of the stem. The lignin quantity remained unchanged, but the lignin composition, as determined by thioacidolysis, was altered. The highest reduction of CAD activity was associated with a lower syringyl/guaiacyl (S/G) ratio and a lower S+G yield, mainly because of a decreased amount of S units. An increase in in situ disappearance of dry matter and of cell wall residue was detected in one of the transgenic lines grown in the greenhouse, and for two of the lines grown in the field the rate of disappearance of dry matter slightly improved. Furthermore, these two lines had a higher solubility in alkali as shown by the lower yield of saponified residue. This study opens perspectives for improving forage crop digestibility by the modulation of enzymes involved in lignin biosynthesis.

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Quantitative analysis of the contribution of Glu46 and Asn98 to the guanosine specificity of ribonuclease T1

Steyaert¹,

Opsomer²,

Wyns³

et al. 1991

Biochemistry

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In the crystal structure of the ribonuclease T1 (RNase T1; EC 3.1.27.3)-2'-GMP complex the hydrogen-bonding potential of the guanine base is saturated [Arni, R., Heinemann, U., Tokuoka, R., & Saenger, W. (1988) J. Biol. Chem. 263, 15358-15368]. The oxygens of the Glu46 carboxylate and the Asn98 main-chain carbonyl act as hydrogen-bond acceptors for the N(1)H-C(2)-N(2)H2 part of the base. We measured the transesterification kinetics of wild-type and Glu46Ala RNase T1 using the GpU, IpU, and XpU series of analogous substrates. We found that the N(1)H---Glu46 O epsilon 1, the N(2)H---Glu46 O epsilon 2, and the N(2)H---Asn98 O hydrogen bonds have an apparent contribution of 2.7, 1.1, and 1.2 kcal/mol to the interaction energy of the enzyme and the transition state of the substrate. Wild-type RNase T1 discriminates guanine from nonionized xanthine (a guanine analogue in which the exocyclic amino group is replaced by an oxygen) by about 4.4 kcal/mol. Loss of the specific hydrogen bonds with the exocyclic amino group of the guanine base accounts for 2.4 kcal/mol of this discrimination energy; 2.0 kcal/mol is due to unfavorable non-H-bonded oxygen-oxygen contacts in the enzyme-xanthine complex. A pH dependence study shows that the deprotonated form of xanthine (i.e., the 6-keto-2-enolate anion; pKa = 5.4) is far less preferred, if not excluded, as substrate by wild-type RNase T1; this may be attributed to an electrostatic repulsion of the negatively charged xanthine by the Glu46 carboxylate group.

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Inhibition of Fungal Disease Development in Plants by Engineering Controlled Cell Death

et al. 1995

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Chris Opsomer

Efficient oligonucleotide-directed construction of mutations in expression vectors by the gapped duplex DNA method using alternating selectable markers

The similarities of bar and pat gene products make them equally applicable for plant engineers

Untitled

Quantitative analysis of the contribution of Glu46 and Asn98 to the guanosine specificity of ribonuclease T1

Inhibition of Fungal Disease Development in Plants by Engineering Controlled Cell Death

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