Development of a capillary zone electrophoresis method for rapid determination of human globin chains in α and ß-thalassemia subjects.

Thalassemia is an inherited autosomal recessive blood disorder characterized by the underproduction of globin chains as a consequence of globin gene defects, resulting in malfunctioning red blood cells and oxygen transport. Analysis of globin chains is an important aspect of thalassemia research. In this study we developed a capillary zone electrophoresis (CZE) method for human globin determination in the diagnosis of thalassemia and hemoglobin variants. To demonstrate the utility of this approach, α/ß area ratios were determined for samples from 310 thalassemia patients and healthy controls. The separation was performed on uncoated capillary with simple preparation. Distinct globin peaks were resolved in 17 min, and coefficients of variation (CV) for migration time and areas ranged from 0.37%-1.69% and 0.46%-6.71%, respectively. Receiver operating characteristic (ROC) curve analysis of the α/ß area ratios gave 100% sensitivity and specificity for indicating ß-TI/TM, and 100% sensitivity and 97.4% specificity for Hb H disease. Hemoglobin G-Honolulu (Hb G-Honolulu) and Hb Westmead (Hb WS) were successfully detected using this CZE method. This automated methodology is simple, rapid and cost-effective for the fast determination of human globin chains, which could be an important diagnostic tool in the field of hemoglobinopathies.

Autoinduction, purification, and characterization of soluble α-globin chains of crocodile (Crocodylus siamensis) hemoglobin in Escherichia coli.

We have established a method to express soluble heme-bound recombinant crocodile (Crocodylus siamensis) α-globin chain holo-protein in bacteria (Escherichia coli) using an autoinduction system without addition of exogenous heme. This is the first time that heme-bound crocodile α-globin chains have been expressed in bacteria without in vitro heme reconstitution. The observed molecular mass of purified recombinant α-globin is consistent with that calculated from the primary amino acid sequence of native crocodile (C. siamensis) α-globin. Both the monomeric and the dimeric protein configuration formed by intermolecular disulfide bond could be purified as soluble protein. Spectroscopic characterization [UV-visible, circular dichroism (CD), and electron paramagnetic resonance (EPR)] of purified recombinant α-globin demonstrates nearly identical properties as reported for hemoglobin and myoglobin isolated from other organisms. For comparison, cyanide and nitric oxide binding of purified α-globin was also investigated. These results suggested that C. siamensis α-globin expressed in E. coli was folded correctly with proper incorporation of the heme cofactor. The expression method we now describe can facilitate production and isolation of individual globin chains in order to further study the mechanism and assembly of crocodile hemoglobin.