Biochemical characterization of recombinant factor IX.

Mature human factor IX is a 55,000-d glycoprotein with a modular domain structure and numerous posttranslational modifications. A recombinant form of human factor IX (rFIX) has been produced from a Chinese hamster ovary cell line that was engineered for high-level protein processing and expression. To ensure that the recombinant molecule contains the requisite structural and functional features of the plasma-derived form, rFIX was subjected to detailed biochemical and biophysical characterization.

Sequence specificity of trinucleoside diphosphate binding to polymerized tobacco mosaic virus protein.

The binding of trinucleoside diphosphates to long helical rods of tobacco mosaic virus (TMV) protein is shown to depend on base sequence, 5' AAG 3' binding being the strongest of the 25 trinucleoside diphosphate sequences measured. As TMV has a stoichiometry of three nucleotides per protein subunit, the sequence of TMV RNA suggested to be the nucleation site for self-assembly of the virus has three possible binding frames. From our binding constant data the most likely frame is predicted and shown to have two contiguous AAG sequences in a hairpin loop region.

Studies on the mechanism of assembly of tobacco mosaic virus.

Sedimentation and proton binding studies on the endothermic self-association of tobacco mosaic virus (TMV) protein indicate that the so-called "20S" sedimenting protein is an interaction system involving at least the 34-subunit two-turn yield cylindrical disk aggregate and the 49-subunit three-turn helical rod. The pH dependence of this overall equilibrium suggests that disk formation is proton-linked through the binding of protons to the two-turn helix which is not present as significant concentrations near pH 7. There is a temperature-induced intramolecular conformation change in the protein leading to a difference spectrum which is complete in 5 x 10(-6) s at pH 7 and 20 degrees C and is dominated at 300 nm by tryptophan residues.

Kinetics and mechanism of tobacco mosaic virus assembly: direct measurement of relative rates of incorporation of 4S and 20S protein.

The mechanism of assembly of tobacco mosaic virus has been investigated under conditions in which the rates of incorporation of the 4S and 20S proteins can each be directly measured by analytical centfrifugation. Under these conditions, pH 6.5, 6.