Gene/Protein
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Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
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Target Concepts:
Gene/Protein
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Query: UMLS:C0016382 (
flushing
)
6,387
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Eastin, Jerry D. (U.S. Army Chemical Corps, Frederick, Md.) and Curtis B. Thorne. Carbon dioxide fixation in Bacillus anthracis J. Bacteriol. 85:410-417. 1963.-Virulent strains of Bacillus anthracis require a concentration of CO(2) greater than that of the normal atmosphere (air) for the production of capsular material (glutamyl polypeptide); avirulent strains may produce no polypeptide or may produce polypeptide in air. Fixation of C(14)O(2) by each of the three types tested resulted in labeling of
aspartic acid
, glycine, glutamic acid, succinic acid, and an unidentified organic acid. C(14) was detected in
aspartic acid
after less than 30 sec of exposure of cells to C(14)O(2). Subsequent
flushing
of the cells with C(12)O(2) displaced C(14) from
aspartic acid
but not from the other labeled intermediates. Aspartic acid appears to be closely associated with the primary CO(2)-fixation product, and the data suggest a fairly direct carbon pathway from CO(2) to
aspartic acid
(oxaloacetic acid) to glutamic acid to glutamyl polypeptide.
...
PMID:CARBON DIOXIDE FIXATION IN BACILLUS ANTHRACIS. 1656 95
The (12)CO2- and (14)CO2-exchange of illuminated corn leaf discs were measured at normal (21%) and low (1%) oxygen. After periods of exposure to (14)CO2 or to (14)CO2 followed by (12)CO2, the discs were killed and the specific activities of some metabolites were determined. At both O2 concentrations the specific activity of 3-PGA increased and decreased rapidly during the first 5 min of (14)CO2-feeding or (12)CO2-
flushing
but did not equilibrate with that of the CO2 in the assimilation chamber even after 15 min. The specific activity of
aspartic acid
also showed bimodal kinetics during both feeding and
flushing
. The specific activities of 3-phosphoglyceric acid (3-PGA),
aspartic acid
and alanine were higher at 1% O2 than at 21% O2, but glycine and serine were lower in specific activity at 1% O2. The results are in agreement with the proposed initial fixation of CO2 into C4-dicarboxylic acids and subsequent transfer of this carbon to 3-PGA. Indirect evidence supports the idea that at 21% O2, CO2 was produced by the corn leaf discs in the light and was refixed into C4-dicarboxylic acids. At 1% O2, the photorespiratory process could also have been active although the flux of carbon through the glycolate pathway was probably smaller than at 21% O2.
...
PMID:Changes in specific radioactivities of corn-leaf metabolites during photosynthesis in (14)CO 2 and (12)CO 2 at normal and low oxygen. 2444 50
