Protein hormones: detection and extraction of functional forms from alkaline polyacrylamide gels

Separation of proteins with a molecular mass difference of 2 kDa utilizing preparative double-inverted gradient polyacrylamide gel electrophoresis under nonreducing conditions: Application to the isolation of 24 kDa human growth hormone

A method for separating proteins with a molecular mass difference of 2 kDa using SDS-PAGE under nonreducing conditions is presented. A sample mixture containing several human growth hormone (hGH) isoforms was initially separated on a weak anion-exchange column. Fractions rich in 24 kDa hGH as determined by analytical SDS-PAGE were pooled and further separated by cation-exchange chromatography. The fractions pooled from the cation-exchange chromatography contained two hGH isoforms with a 2 kDa molecular mass difference according to SDS-PAGE analysis, 22 and 24 kDa hGH. The 22 and 24 kDa hGH were separated using continuous-elution preparative double-inverted gradient PAGE (PDG-PAGE) under nonreducing conditions. The preparative electrophoresis gel was composed of three stacked tubular polyacrylamide matrices, a 4% stacking gel, a 13-18% linear gradient gel, and a 15-10% linear inverted gradient gel. Fractions containing purified 24 kDa hGH were pooled and Western blot analysis displayed immunoreactivity to antihGH antibodies. PDG-PAGE provides researchers with an electrophoretic technique to preparatively purify proteins under nonreducing conditions with molecular mass differences of 2 kDa.

The tammar wallaby major plasma serpin: partial characterization including the sequence of the reactive site region

1. The putative equivalent of the human major plasma serpin (alpha 1-proteinase inhibitor or alpha 1-antitrypsin) in the tammar wallaby (Macropus eugenii) has been further characterized by structural (peptide and immunopeptide mapping and sequence studies) and functional analyses revealing close homology of the wallaby proteins to human alpha 1-proteinase inhibitor. 2. A sixth allele, Pi J, was detected and its products characterized in terms of pI, Mr, inhibitory spectra and terminal sialic acid content. 3. A recently-developed electrophoretic in situ oxidation/binding method was adapted to provide protein suitable for sequence analysis of the N-terminus and reactive site region including assignment of the P1 and P'1 residues. 4. All sequence analyses were performed on proteins or peptides (approximately Mr 3500) blotted onto polybrene treated GF/C or polyvinylidene difluoride membrane respectively. 5. The P5 to P'4 residues of the reactive centre are identical with those of the human inhibitor thereby allowing the wallaby inhibitor also to be classified as a METserpin. 6. The P1 methionine is presumably responsible for the oxidation sensitivity observed in the electrophoretic in situ functional assay for the wallaby inhibitor. 7. The plasma concentration of the wallaby inhibitor is similar to that reported for human alpha 1-proteinase inhibitor.