SENSITIVITY OF HemA MUTANT Escherichia coli CELLS TO INACTIVATION BY NEAR‐UV LIGHT DEPENDS ON THE LEVEL OF SUPPLEMENTATION WITH δ‐AMINOLEVULINIC ACID

— Four strains carrying all four possible combinations of the alleles nur, nur + , uvr A6 and uvr A + were transduced to hemA8 . The hemA8 mutation blocks the synthesis of δ‐aminolevulinic acid (δ‐ALA), one of the first steps in the synthesis of porphyrin and, ultimately, cytochromes essential for aerobic respiration. The cells were grown either with or without δ‐ALA and treated with broad‐spectrum near‐ultraviolet light (NUV; 300–400 nm). hemA8 defective cells grown without δ‐ALA were resistant to inactivation by NUV while hemA8 cells were sensitive to such inactivation when supplemented with δ‐ALA. The sensitivity to NUV inactivation conferred by the nur gene was retained in the hemA8 derivatives. The sensitivity of such cells to NUV inactivation can be controlled by varying the level of δ‐ALA supplementation. The level of δ‐ALA supplementation did not influence the sensitivity of the cells to inactivation by far‐UV light (FUV; 200–300 nm). The near‐UV sensitivity of hemA + cells was not significantly altered when grown with δ‐ALA suppiementation suggesting that endogenously formed δ‐ALA supports the normal, regulated level of porphyrin synthesis. These results can be interpreted to mean that porphyrin components of the respiratory chain in E. coli represent chromophores involved specifically in broad‐spectrum NUV inactivating events.