Amino acid substitutions within the analogous nucleotide binding loop (P-loop) of aminoglycoside 3'-phosphotransferase-II

• 1.1. Oligonucleotide-directed mutagenesis of APH(3')-II was used to investigate the functions of key amino acids in the P-loop analogous motif of the enzyme.
• 2.2. The mutations of Gly205 → Glu, Gly210 → Ala and Arg211 → Pro considerably reduced the resistance of the resulting strains to KM and to related drugs, e.g. G418.
• 3.3. Similarly, enzyme activity in the crude extracts of these mutants was substantially reduced as well as the enzyme's affinity for Mg²⁺ ATP.
• 4.4. Alternatively substitutions at a highly conserved basic residue (Arg211 → Lys and Arg211 → His) were not sufficient for the enzyme to sustain the activity at a level comparable to that of the wildtype.
• 5.5. Moreover, an Arg211 → His mutation drastically reduced affinity of the enzyme for Mg²⁺ ATP.
• 6.6. This argues the importance of Arg211 residue in contributing to the formation of the P-loop structure in addition to its involvement in phosphoryl transfer reaction.
• 7.7. Computer analysis of the secondary structure predicted that the APH(3')-II loop connects a β -strand to an α-helix and that the above mutations caused varying degrees of structural distortions at the corresponding regions of the protein.