Premium
Ammonium‐dependent respiratory increase is dependent on the cytochrome pathway in Arabidopsis thaliana shoots
Author(s) -
HACHIYA TAKUSHI,
WATANABE CHIHIRO K.,
BOOM CAROLINA,
THOLEN DANNY,
TAKAHARA KENTARO,
KAWAIYAMADA MAKI,
UCHIMIYA HIROFUMI,
UESONO YUKIFUMI,
TERASHIMA ICHIRO,
NOGUCHI KO
Publication year - 2010
Publication title -
plant, cell and environment
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 2.646
H-Index - 200
eISSN - 1365-3040
pISSN - 0140-7791
DOI - 10.1111/j.1365-3040.2010.02189.x
Subject(s) - ammonium , respiration , cytochrome c oxidase , arabidopsis thaliana , shoot , biochemistry , respiratory chain , chemistry , respiratory system , atpase , biology , biophysics , botany , enzyme , gene , anatomy , mutant , organic chemistry
ABSTRACT Oxygen uptake rates are increased when concentrated ammonium instead of nitrate is used as sole N source. Several explanations for this increased respiration have been suggested, but the underlying mechanisms are still unclear. To investigate possible factors responsible for this respiratory increase, we measured the O 2 uptake rate, activity and transcript level of respiratory components, and concentration of adenylates using Arabidopsis thaliana shoots grown in media containing various N sources. The O 2 uptake rate was correlated with concentrations of ammonium and ATP in shoots, but not related to the ammonium assimilation. The capacity of the ATP‐coupling cytochrome pathway (CP) and its related genes were up‐regulated when concentrated ammonium was sole N source, whereas the ATP‐uncoupling alternative oxidase did not influence the extent of the respiratory increase. Our results suggest that the ammonium‐dependent increase of the O 2 uptake rate can be explained by the up‐regulation of the CP, which may be related to the ATP consumption by the plasma‐membrane H + ‐ATPase.