We
present a real-time study of protein crystallization of bovine
β-lactoglobulin in the presence of CdCl<sub>2</sub> using small-angle
X-ray scattering and optical microscopy. From observing the crystallization
kinetics, we propose the following multistep crystallization mechanism
that is consistent with our data. In the first step, an intermediate
phase is formed, followed by the nucleation of crystals within the
intermediate phase. During this period, the number of crystals increases
with time, but the crystal growth is slowed down by the surrounding
dense intermediate phase due to the low mobility. In the next step,
the intermediate phase is consumed by nucleation and slow growth,
and the crystals are exposed to the dilute phase. In this stage, the
number of crystals becomes nearly constant, whereas the crystals grow
rapidly due to access to the free protein molecules in the dilute
phase. This real-time study not only provides evidence for a two-step
nucleation process for protein crystallization but also elucidates
the role and the structural signature of the metastable intermediate
phase in this process
