The solution structure of human MICAL-1 calpolnin homology (CH) domain is composed of six alpha helices and one 3(10) helix. To study the unfolding of this domain, we carry out native-state hydrogen exchange, intrinsic fluorescence and far-UV circular dichroism experiments. The free energy of unfolding, DeltaG(H2O), is calculated to be 7.11+/-0.58 kcal mol(-1) from GuHCl denaturation at pH 6.5. Four cooperative unfolding units are found using native-state hydrogen exchange experiment. Forty-seven slow-exchange residues can be studied by native-state hydrogen exchange experiments. From the concentration dependence of exchange rates, free energy of amide hydrogen with solvent, DeltaG(HX) and m-value (sensitivity of exposure to denaturant) are obtained, which reveal four cooperative unfolding units. The slowest exchanging protons are distributed throughout the whole hydrophobic core of the protein, which might be the folding core. These results will help us understand the structure of MICAL-1 CH domain more deeply.