Reminiscences, collaborations and reflections.

This is a personal account by a semi old-timer who completed his official term as a professor of plant biochemistry at Nagoya University in Japan in 1992. My university student life began soon after the World War II (1948). I shared the hardships of many in my age group, in that life was difficult during my college years. I was fortunate to have the opportunity of studying in the USA on a Fulbright scholarship first at Purdue University (1955-1956), and then at the University of California, Berkeley (1956-1957). My graduate study and postdoctoral training in the new world were vitally refreshing and stimulating, which gave me the impetus for becoming a natural scientist associated with academic institutions. Consciously and subconsciously I was impressed by the friendly and liberal atmosphere surrounding young students as well as senior scholars in the United States. But more importantly, I was inspired by the critical and competitive minds prevailing among these people.The appointment as a biochemist at the International Rice Research Institute (IRRI) in the Philippines (1962-1964) was the real start of my professional career. The work was continued upon my return to Nagoya to become a staff member of the Research Institute for Biochemical Regulation (1964-1992). Throughout the years, my major research interest has covered photosynthesis as a whole, involving photosynthetic CO2-fixation (RuBisCO), carbohydrate metabolism, e.g. starch biosynthesis and breakdown (α-amylase), and metabolic regulation, which are interrelated in the basic metabolism of plant cells.I shall briefly describe in this article highlights from my studies and discoveries made and I shall also discuss their possible significance in plant metabolism, with the hope that it does not contradict my sense of humility: They are (a) discovery of ADPG in plants and its role in starch biosynthesis; (b) structure-function relationship of RuBisCO proteins, in particular on heterologous recombination of their subunits of plant-type enzyme molecules derived from the prokaryotic photosynthetic bacteria; (c) molecular evolution of RuBisCO genes; (d) mode of actions (formation, intracellular transport and secretion) of rice seed α-amylase and its structural characteristics (distinctive glycosylation), and (e) DNA methylation and regulatory mechanism of photosynthesis gene expression in plastids (amyloplasts). In each step of my research, I shared joy, excitement, disappointment, and agony with my colleagues, an experience that may be common to all researchers. Although it is now becoming well recognized among the scientific community in Japan, I want to point out that interaction of multinational scientific minds in the laboratory produces a vital and creative atmosphere for performance of successful research. I experienced and realized this important fact in my earlier days in the USA and the Philippines. Inasmuch as I believe that this is the most crucial element for any research laboratory to possess, I fondly remember the friendships gained with numerous overseas visitors and collaborators who have contributed immensely to our work.