Nucleotide binding and hydrolysis properties ofNeurospora crassacytosolic molecular chaperones, Hsp70 and Hsp80, heat-inducible members of the eukaryotic stress-70 and stress-90 families

Formation of a hetero-oligomeric complex between Hsp70 and Hsp80 of Neurospora crassa was observed previously by means of chemical crosslinking and enzyme-linked immunosorbent assays (ELISA). The present study documents the effect of nucleotides on the subunit structure of Hsp70 and Hsp80 by crosslinking with bifunctional reagents: glutaraldehyde, dimethyl adipimidate (DMA), and dimethyl suberimidate (DMS). The inter-protomer crosslinking of Hsp80 with DMA and DMS was suppressed by ATP and to a lesser extent by ADP, CTP, and NAD. Crosslinking of purified Hsp70 by glutaraldehyde yielded dimers and higher order oligomers. Binding of ATP, ADP, CTP, and NAD, but not NADH, led to a marked reduction in the yield of oligomers. Similarly, crosslinking by DMA and DMS was suppressed by ADP, ATP, and CTP. Both Hsp70 and Hsp80 exhibited intrinsic ATPase activity. Interestingly, ATP levels exceeding 25 µM resulted in pronounced inhibition of the ATPase activity of Hsp80 and 0.5 mM and 0.25 mM ATP led to a prolonged lag in the reaction. Addition of NAD resulted in the abolition of the lag period. The binding of 2-p-toluidinylnapthalene-6-sulfonate (TNS) to Hsp70 and its displacement by ATP and other nucleotides demonstrated the hydrophobic nature of the nucleotide-binding region.Key words: molecular chaperones; ATPase; Hsp70; Hsp80; Neurospora.

Purification and characterization of citrate synthase isoenzymes from Pseudomonas aeruginosa

Two types of citrate synthase (CS) have been purified from Pseudomonas aeruginosa, a ‘large’ form (CSI) and a ‘small’ form (CSII). The M(r)s of the CSI and CSII isoenzymes were determined to be 240,000 +/- 16,000 (mean +/- S.E.M.) and 80,300 +/- 3800 respectively. Chemical cross-linking of the native enzymes with either dimethyl suberimidate or glutaraldehyde followed by electrophoretic analysis by SDS/PAGE showed that CSI is a hexamer and CSII is a dimer. SDS/PAGE showed that CSI and CSII each consist of a single subunit type, of M(r) 42,000 +/- 2000 and M(r) 36,500 +/- 2000 respectively. CSI and CSII were also shown to be distinct kinetically, immunologically and in terms of their regulatory properties. It is suggested that the CS isoenzymes are products of different structural genes.