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Target Concepts:
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Query: UMLS:C0038187 (
starvation
)
24,951
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Growth of Halobacterium halobium under illumination with limiting aeration induces bacteriorhodopsin formation and renders the cells capable of photophosphorylation. Cells depleted of endogenous reserves by a
starvation
treatment were used to investigate the means by which energy is coupled to the active transport of [14C]proline, -leucine, and -histidine. Proline was readily accumulated by irradiated cells under anaerobiosis even when the photophosphorylation was abolished by the adenosine triphosphatase inhibitor N,N'-dicyclohexylcarbodimiide (DCCD). The uptake of proline in the dark was limited except when the cells were allowed to accumulate adenosine 5'-triphosphate (ATP) by prior light exposure or by the oxidation of glycerol. DCCD inhibited this dark uptake. These findings essentially support
Mitchell
's chemiosmotic theory of active transport. The driving force is apparently the proton-motive force developed when protons are extruded from irradiated bacteriorhodopsin or by the dydrolysis of ATP by membrane adenosine triphosphatase. Carbonylcyanide m-chlorophenylhydrazone (CCCP), a proton permeant known to abolish membrane potential, was a strong inhibitor of proline uptake. Leucine transport was also apparently driven by proton-motive force, although its kinetic properties differed from the proline system. Histidine transport is apparently not a chemiosmotic system. Dark- or light-exposed cells show comparable initial rats of histidine uptake, and these processes were only partially inhibited by DCCD or CCCP. The histidine system apparently does not utilize ATP per se since comparable rates of uptake were exhibited by cells of differing intracellular ATP levels. Irradiated cells did effect a greater total accumulation of histidine than dark-exposed cells. These findings suggest that ATP is needed for sustained transport.
...
PMID:Energy coupling in the active transport of amino acids by bacteriohodopsin-containing cells of Halobacterium holobium. 12 52
The two regulatory pathways appear to come together at the IME1 gene. It is clearly regulated by mating type and induced by
starvation
as well. Overexpression of IME1 completely overcomes MAT defects but may not circumvent all nutritional control. Kassir et al. (1988) found that overexpression of IME1 allowed sporulation in the presence of glucose and nitrogen. They also have found a meiotic level of message in temperature-sensitive cdc25 diploids shifted to high temperature in rich medium (Simchen and Kassir, 1989). Smith and
Mitchell
(1989) found that overexpression of IME1 induced an early meiotic event (recombination) in rich medium, but later meiotic events did not occur (i.e., they detected no spore formation).
Mitchell
(personal communication) has suggested that the difference may be due to differences in the amount of nitrogen present in the two experiments. Thus, while it is clear that IME1 is a necessary positive regulator of meiosis, responding both to mating type and nutritional conditions, it is not clear if it is sufficient. It is possible that other genes are involved in the response to
starvation
. One interpretation is that a separate nutritional control is exerted for events starting with meiosis I. Much of the regulatory pathway that allows yeast cells to enter meiosis has been determined. As in the case in many sensory transduction pathways, the initial signal for
starvation
is not yet known, nor is the nature of the proposed downstream phosphorylated effector. Given the power of yeast molecular genetics, answers to both these questions seem attainable. Another area that remains unclear is the difference between responses to nitrogen
starvation
versus carbon source. Many of the experiments discussed above do not address this question. The strategies used by yeast may be utilized in the developmental decisions used by other, more complex eukaryotes. Certainly several of the gene products involved in nutritional control in yeast have homologies in mammalian systems. For example, the human H-ras gene can substitute for yeast RAS; the relationship is sufficiently close that dominant Ha-ras mutations that inhibit CDC25 have been found (Powers et al., 1989). Furthermore, these dominant Ha-ras mutations have the appropriate phenotype in mammalian cells, suggesting the presence of a CDC25-like protein. Although the major components of mating type control appear to have been defined, the mechanism of the RME1-IME transcriptional control remains to be determined.(ABSTRACT TRUNCATED AT 400 WORDS)
...
PMID:Dual regulation of meiosis in yeast. 218 88
In February and March, 1973, 566 U.S. military prisoners (POWs) were released from North Vietnam. These men had been POWs for a period of time between 2 months and 9 years, with a mean incarceration of 4.44 years. They had faced physical and psychological stress similar to that experienced by POWs from previous wars:
starvation
, disease, inadequate shelter, lack of medical care, interrogations and torture (Deaton, Burge, Richlin & Latrownik, 1977;
Mitchell
, 1991). By definition, such prison conditions constituted a traumatic experience (Deaton et al., 1977). However, a unique stress for our POWs in North Vietnam was the additional trauma of solitary confinement. This paper reviews the coping and "time killing" activities of U.S. Navy Vietnam POWs who experienced solitary confinement and tortuous interrogation. This paper also reports the physical and psychological adjustment of our POWs following their release from captivity. Suggestions are made regarding the revision of the curriculum for captivity survival training programs such as Survival, Evasion, Resistance, and Escape (SERE) school.
...
PMID:Self-hypnosis training and captivity survival. 903 97
