Chlorella starch branching enzyme II (BEII) can complement the function of BEIIb in rice endosperm.

In monocots, starch branching enzyme II (BEII) was functionally differentiated into BEIIa and BEIIb after separation from the dicots, and in cereals BEIIb plays a distinct role in amylopectin biosynthesis in the endosperm. The present study was conducted to examine to what extent a green algal BEII has an overlapping function with BEIIb in starch biosynthesis by introducing the Chlorella BEII gene into an amylose-extender (ae) mutant of rice. Chlorella BEII was found to complement the contribution of the rice endosperm BEIIb to the structures of amylopectin and starch granules because these mutated phenotypes were recovered almost completely to those of the wild type by the expression of Chlorella BEII. When the recombinant BE enzymes were incubated with the rice ae amylopectin, the branching pattern of Chlorella BEII was much more similar to that of rice BEIIb rather than rice BEIIa. Detailed analyses of BE reaction products suggests that BEIIb and Chlorella BEII only transfer chains with a degree of polymerization (DP) of 6 and 7, whereas BEIIa preferably transfers short chains with a DP of about 6-11. These results show that the Chlorella BEII is functionally similar to rice BEIIb rather than BEIIa.

Agitated depression successfully treated with electroconvulsive therapy combined with steroid cover in a patient with Addison's disease.

We report the case of a 70-year-old man with Addison's disease who developed severe agitated depression resulting in life-threatening medical conditions. The depression was treated safely with electroconvulsive therapy (ECT) combined with steroid cover. Administration of steroid cover just before each ECT session may increase safety of the ECT procedure in psychiatric patients with Addison's disease.

Variation in storage alpha-glucans of the Porphyridiales (Rhodophyta).

Storage glucans were analyzed in the Porphyridiales which include the most primitive and phylogenetically diverged species in the Rhodophyta, to understand early evolution of the glucan structure in the Rhodophyta. The storage glucans of both Galdieria sulphuraria and Cyanidium caldarium consisted of glycogen, while those of Rhodosorus marinus, Porphyridium purpureum, P. sordidum and Rhodella violacea could be defined as semi-amylopectin. X-ray diffraction analysis of the glucans demonstrated variation in the crystalline structure: the patterns in P. purpureum and R. violacea were of A- and B-types, respectively, while alpha-glucans of R. marinus and P. sordidum displayed structures with lower crystallinity. Electron microscopic observations indicated that the alpha-glucans of P. sordidum consisted of two kinds of granules; a minor component of more dense granules with crystalline leaflets and a major component of softer ones without crystalline structure. Gel permeation chromatography showed that all the species containing the semi-amylopectin-type glucans also contained amylose, although the relative amounts of this fraction were different depending on the species. Our results are consistent with two distinct evolution scenarios defined either by the independent acquisition of semi-crystalline starch-like structures in the different plant lineages or more probably by the loss of starch and reversion to glycogen synthesis in cyanidian algae growing in hot and acid environments.

Granule-bound starch synthase cDNA in Chlorella kessleri 11 h: cloning and regulation of expression by CO(2) concentration.

The cDNA for the granule-bound starch synthase (GBSS; ADP-glucose-starch glucosyltransferase, EC 2.4.1.21) of Chlorella kessleri 11 h was isolated and characterized. CkGBSS encodes a 609-amino acid polypeptide (65,627 Da) that includes an N-terminal hydrophobic signal peptide of 55 amino acids. The deduced amino acid sequence of the mature CkGBSS polypeptide shares a greater identity (65%) to that of the GBSS protein of Chlamydomonas reinhardtii, than to those of vascular plant species, but does not have the extra-long C-terminal sequence found in C. reinhardtii. When CO(2 )concentration was decreased from 3 to 0.04% (air level) in light, the levels of CkGBSS mRNA, CkGBSS protein, and GBSS activity increased. Under this condition, pyrenoid and pyrenoid starch developed, and the relative amount of amylose in starch increased. These observations suggest that low CO(2) level up-regulates GBSS biosynthesis at the transcriptional level.