Irradiation of cells or extracts of Corynebacterium sp. N-774 with light increased nitrile hydratase activity. The effective wavelength was about 370 nm, i.e., the near-ultraviolet region. When stored at 0 °C in the dark, the enzyme activity of cells gradually decreased, and most of the lost activity could be restored by irradiation with light.
The culture conditions for Rhodococcus sp. N-774 cells showing high nitrile hydratase activity and the reaction conditions for acrylamide production by the resting cells were optimized. Thiamine was essential for the growth of the strain. Yeast extract and Fe2 + or Fe3 + remarkably promoted the formation of nitrile hydratase of the cells. The reaction proceeded optimally at temperatures below 30°C. Incubation for 1 hr at above 40°C resulted in inactivation of the enzyme. Through reaction at a temperature as low as 0°C, the inhibition and inactivation of the enzyme activity by the substrate, acrylonitrile, and the product, acrylamide, were remarkably reduced, and higher accumulation of acrylamide could be attained. Under the optimal conditions, a more than 20% (w/v) acrylamide solution was obtained with a conversion yield of nearly 100%. Thus, the aqueous acrylamide solution obtained showed a high enough quality for use for the commercial preparation of polyacrylamide.
The blood clam Barbatia virescens has a heterodimeric hemoglobin in erythrocytes. Interestingly, the congeneric clams B. reeveana and B. lima contain quite different hemoglobins: tetramer and polymeric hemoglobin consisting of unusual didomain chain. The complete amino acid sequence of chain I of B. virescens has been determined. The sequence was mainly determined from CNBr peptides and their subpeptides, and the alignment of the peptides was confirmed by sequencing of PCR-amplified cDNA for B. virescens chain I. The cDNA-derived amino acid sequence matched completely with the sequence proposed from protein sequencing. B. virescens chain I is composed of 156 amino acid residues, and the molecular mass was calculated to be 18,387 D, including a heme group. The sequence of B. virescens chain I showed 35-42% sequence identity with those of the related clam Anadara trapezia and the congeneric clam B. reeveana. An evolutionary tree for Anadara and Barbatia chains clearly indicates that all of the chains are evolved from one ancestral globin gene, and that the divergence of chains has occurred in each clam after the speciation. The evolutionary rate for clam hemoglobins was estimated to be about four times faster than that of vertebrate hemoglobin. We suggest that blood clam hemoglobin is a physiologically less important molecule when compared with vertebrate hemoglobins, and so it evolved rapidly and resulted in a remarkable diversity in quaternary and subunit structure within a relatively short period.
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