The bZIP Region of the Plant Transcription Factor Opaque-2 Forms Stable
Homodimers in Solution and Retains Its Helical Structure upon Subunit
Dissociation†
posted on 2004-04-27, 00:00authored byVitor Hugo Moreau, Alba C. da Silva, Rodrigo M. P. Siloto, Ana Paula Valente, Adilson Leite, Fábio C. L. Almeida
Opaque-2 (O2) is a plant bZIP transcription factor that regulates the expression of α and β
prolamines, the main storage proteins in seeds of cereals such as maize and Coix. One of the main processes
modulating O2 activity is the heterodimerization with other bZIP transcription factors, but the primary
mechanism underlying the partner choice is still unknown. In this paper, we have characterized the bZIP
domain of O2 by nuclear magnetic resonance (NMR), circular dichroism (CD), and size-exclusion
chromatography. Results obtained from CD measurements suggested that the native O2bZIP has about
40 of its 49 leucine-zipper residues in helical structure, while the DNA-binding domain is completely
unstructured. Diffusion-ordered NMR spectroscopy and size-exclusion chromatography showed that O2
forms homodimers in solution. Thermal denaturation experiments indicate that O2 reversibly undergoes
dissociation and unfolding in a process that is fully dependent on the protein concentration. Subunit
dissociation of O2bZIP dimers, upon dilution of the protein, led to partially folded monomers that retained
∼80% of the native CD ellipticity at 222 nm. We believe that the existence of partially folded monomers
could decrease the entropic penalty for helix formation involved in the DNA binding and in the subunit
association of O2bZIP. Stabilization of partially folded monomers may also play a significant role in the
dimerization of O2 with other bZIP transcription factors and, consequently, can be important for the
regulation of the biological functions of O2 in plants.