Production of native and modified recombinant Der p 1 molecules in tobacco plants.

Background: As a complex molecule requiring post-translational processing, it has been difficult to produce the Der p 1 major allergen from the Dermatophagoides pteronyssinus house dust mite in a recombinant form.

Objective: Here, we tested whether transgenic tobacco plants are suitable to express Der p 1, either as a wild-type molecule or as variants lacking N-glycosylation sites (Gly(-)) and/or cysteine protease activity (Enz(-)). Methods Using Agrobacterium tumefaciens-based transformation, pro Der p 1 molecules bearing mutations within either the N-glycosylation sites (N34Q, N150Q) and/or the cysteine protease-active site (C132V) were expressed in tobacco plants.

Hydroxylated human homotrimeric collagen I in Agrobacterium tumefaciens-mediated transient expression and in transgenic tobacco plant.

Potential contamination of animal-derived collagen with pathogens has led to the demand for safe recombinant sources of this complex molecule. In continuation of our previous work [Ruggiero et al. (2000) FEBS Lett.

The role of proline beta 5(A2) in the functional properties of human adult hemoglobin.

The replacement of beta 5(A2)Pro by Arg in Hb Warwickshire appears to be without an effect on the functional properties of human Hb A, despite adding two external positive charges close to the central cavity of the hemoglobin tetramer, along the dyad axis. To clarify the role of this portion of the molecule involved in oxygen-linked anion binding, we have engineered the recombinant hemoglobin alpha 2 beta (2)5(A2)Pro-->Ala[rHb beta 5(A2)Pro-->Ala]. The rHb beta 5(A2)Pro-->Ala exhibits an increased oxygen affinity compared to Hb A, with normal heterotropic effects in standard conditions.