Gene/Protein
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Enzyme
Compound
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Gene/Protein
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Target Concepts:
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Query: UNIPROT:P04040 (
Catalase
)
3,577
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
We have defined a minimal Arabidopsis
CATALASE
3 (CAT3) promoter sufficient to drive evening-specific circadian transcription of a LUCIFERASE reporter gene. Deletion analysis and site-directed mutagenesis reveal a circadian response element, the evening element (EE: AAAATATCT), that is necessary for evening-specific transcription. The EE differs only by a single base pair from the CIRCADIAN CLOCK ASSOCIATED 1-binding site (
CBS
: AAAAAATCT), which is important for morning-specific transcription. We tested the hypothesis that the EE and the
CBS
specify circadian phase by site-directed mutagenesis to convert the CAT3 EE into a
CBS
. Changing the CAT3 EE to a
CBS
changes the phase of peak transcription from the evening to the morning in continuous dark and in light-dark cycles, consistent with the specification of phase by the single base pair that distinguishes these elements. However, rhythmicity of the
CBS
-containing CAT3 promoter is dramatically compromised in continuous light. Thus, we conclude that additional information normally provided in the context of a morning-specific promoter is necessary for full circadian activity of the
CBS
.
...
PMID:Phase-specific circadian clock regulatory elements in Arabidopsis. 1237 30
The modeling of growth and production of methanol oxidase (MOX) by Hansenula polymorpha
CBS
4732 has been studied to provide a mathematical description of such production processes. Two kinds of mathematical models were constructed for growth on methanol and on mixtures of methanol and glucose. The model for growth on methanol as the sole carbon source consists of kinetics expressions, a limited number of key steps incorporating substrate and production inhibition. This model was used to predict and simulate the culture dynamics at the start-up, the most critical step in continuous cultivation. The growth on mixtures of methanol and glucose was modeled assuming virtually independent metabolic pathways. The induction and production of MOX could be described by adaptation of various repression equations for various data from the literature. The models describe both experimental data and literature data on growth of H. polymorpha
CBS
4732 on glucose-methanol mixtures satisfactorily. All parameters for the induction-repression model for growth of H. polymorpha
CBS
4732 on glucose-methanol mixtures yielded evidence that a similar induction-repression pattern is involved in MOX production.
Catalase
, however, is repressed by a different mechanism.
...
PMID:Mathematical modeling of growth and production of alcohol oxidase by Hansenula polymorpha grown on methanol-glucose mixtures. 1858 47
