1 nese resulted in the high level synthesis of
acetone carboxylase (
15-20% soluble protein), which, upo
2 Acetone carboxylases (
ACs) catalyze the conversion of su
3 In the absence of CO2,
acetone carboxylase catalyzed the acetone-dependent hydr
4 Acetone carboxylase-
catalyzed proton-deuteron exchange w
5 Bacterial
acetone carboxylase catalyzes the ATP-dependent carboxyl
6 Acetone carboxylase catalyzes the carboxylation of aceto
7 Acetone carboxylase did not have inorganic pyrophosphata
8 Acetone carboxylase exhibited a Vmax for acetone carboxy
9 involvement of transcriptional enhancers in
acetone carboxylase gene expression in gram-negative ace
10 ator (AcxR) for acetone-dependent growth and
acetone carboxylase gene expression.
11 tance of manganese in Rhodobacter capsulatus
acetone carboxylase has been established through a combi
12 n Py2, the only other organism from which an
acetone carboxylase has been purified.
13 EPR analysis of purified
acetone carboxylase indicates the presence of a mononucl
14 Acetone carboxylase is the key enzyme of bacterial aceto
15 In this study, the
acetone carboxylase of the purple nonsulfur photosynthet
16 Acetone carboxylase purified from cells grown with 50 mi
17 ce (urease and amidase), acetone metabolism (
acetone carboxylase),
resistance to oxidative stress (th
18 and acnB in steady-state behavioural assays,
acetone carboxylase subunit (acxC) mutant behaviour was
19 The genes encoding the
acetone carboxylase subunits were identified by transpos
20 emical, molecular, and genetic properties of
acetone carboxylase suggest it represents a fundamentall
21 In this study,
acetone carboxylase,
the enzyme catalyzing this reaction
22 amide gel electrophoresis suggested that the
acetone carboxylase was composed of three subunits with
23 Acetone carboxylase was comprised of three polypeptides
24 A nucleotide-dependent
acetone carboxylase was partially purified from cell ext
25 Manganese in
acetone carboxylase was tightly bound and not removed up
26 This work has identified an
acetone carboxylase with a novel nucleotide usage and br