Extraction and antioxidant capacity of mycosporine-like amino acids from red algae in Japan.

Mycosporine-like amino acids (MAAs) are the natural UV-absorbing compounds with antioxidant activity found in microalgae and macroalgae. We collected red algae Asparagopsis taxiformis, Meristotheca japonica, and Polysiphonia senticulosa from Nagasaki, where UV radiation is more intense than in Hokkaido, and investigated the effect of UV radiation on MAA content. It was suggested that A. taxiformis and M. japonica contained shinorine and palythine, while UV-absorbing compound in P. senticulosa could not be identified. The amounts of these MAAs were lower compared to those from Hokkaido. Despite an increase in UV radiation in both regions from February to April, MAA contents of red algae from Nagasaki slightly decreased while those from Hokkaido significantly decreased. This difference was suggested the amount of inorganic nitrogen in the ocean. Antioxidant activity of MAAs increased under alkaline conditions. The extract containing MAAs from P. senticulosa showed the highest antioxidant activity among 4 red algae.

Metal binding ability of metallothionein-3 expressed in Escherichia coli.

Metallothionein-3/growth inhibitory factor is a brain-specific member of the metallothionein gene family, and impairs the survival and neurite formation of cultured neurons. Metallothionein-3 can bind heavy metals such as Zn, Cu, or Cd almost in the same way as other metallothionein family. However, its biological function as growth inhibitory factor apparently distinguishes metallothionein-3 from other metallothioneins. To better understanding of the relationship between the growth inhibitory activity of metallothionein-3 and metals bound to metallothionein-3, the metal-binding ability of metallothionein-3 was analyzed in comparison with those of metallothionein-1 and -2. The metal-binding ability of metallothionein-3 was evaluated by pH titration and 5-5' dithiobis (2-nitrobenzoic) acid (DTNB) analysis as compared with those of the other metallothioneins. The affinity of metal ions for metallothionein-3 was indicated as follows, Cu>Cd>Zn, same as metallothionein-1 and -2. However, the affinity of metallothionein-3 to Cu was much higher than that of metallothionein-1 and -2. The strong affinity to Cu of metallothionein-3 might be related to its growth inhibitory activity.