Distribution of the pentose phosphate pathway in living organisms

## Abstract Diatoms contribute a large proportion to the worldwide primary production and are particularly effective in fixing carbon dioxide. Possibly because diatom plastids originate from a secondary endocytobiosis, their cellular structure is more complex and metabolic pathways are rearranged w

The in vivo dynamics of the pentose phosphate pathway has been studied with transient experiments in continuous culture of Saccaromyces cerevisiae. Rapid sampling was performed with a special sampling device after disturbing the steady state with a pulse of glucose. The time span of observation was

A list of the genera of living organisms known or believed to contain luminous species is provided in the Appendix, in a systematic context. The constraints on the accuracy of such a list and some aspects of the apparent distribution of bioluminescence are discussed.

Using a novel radio-respirometer, the relative activity of the pentose phosphate pathway has been determined at various stages of development of the chick embryo, by comparing the recovery of Cl402 from glucose labeled in position one (G-1) to that from glucose labeled in position six (G-6). Respiro

## Abstract Neurons are thought to be particularly vulnerable cells against reactive oxygen and nitrogen species (RONS) damage (nitrosative stress), due in part to their weak antioxidant defense and low ability to compensate energy homeostasis. Intriguingly, nitrosative stress efficiently stimulate