Heidy Contreras scite author profile

Heidy Contreras

4Publications

278Citation Statements Received

79Citation Statements Given

How they've been cited

252

262

How they cite others

214

Affiliations

University of Arizona, University of California, Irvine, University of La Verne

Publications

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Metabolic rate controls respiratory pattern in insects

Contreras

Bradley

2009

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SummaryThe majority of scientific papers on the subject of respiratory patterns in insects have dealt with the discontinuous gas-exchange cycle (DGC). The DGC is characterized by the release of bursts of CO 2 from the insect, followed by extended periods of spiracular closure. Several hypotheses have been put forward to explain the evolutionary origin and physiological function of this unusual respiratory pattern. We expand upon one of these (the oxidative damage hypothesis) to explain not only the occurrence of the DGC but also the mechanistic basis for the transition to two other well-characterized respiratory patterns: the cyclic pattern and the continuous pattern. We propose that the specific pattern employed by the insect at any given time is a function of the amount of oxygen contained in the insect at the time of spiracular closure and the aerobic metabolic rate of the insect. Examples of each type of pattern are shown using the insect Rhodnius prolixus. In addition, contrary to the expectations deriving from the hygric hypothesis, it is demonstrated that the DGC does not cease in Rhodnius in humid air.

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Neuronal expression of a single‐subunit yeast NADH–ubiquinone oxidoreductase (Ndi1) extends Drosophila lifespan

Bahadorani

Cho

et al. 2010

Aging Cell

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SummaryThe 'rate of living' theory predicts that longevity should be inversely correlated with the rate of mitochondrial respiration. However, recent studies in a number of model organisms, including mice, have reported that interventions that retard the aging process are, in fact, associated with an increase in mitochondrial activity. To better understand the relationship between energy metabolism and longevity, we supplemented the endogenous respiratory chain machinery of the fruit fly Drosophila melanogaster with the alternative single-subunit NADHubiquinone oxidoreductase (Ndi1) of the baker's yeast Saccharomyces cerevisiae. Here, we report that expression of Ndi1 in fly mitochondria leads to an increase in NADH-ubiquinone oxidoreductase activity, oxygen consumption, and ATP levels. In addition, exogenous Ndi1 expression results in increased CO 2 production in living flies. Using an inducible gene-expression system, we expressed Ndi1 in different cells and tissues and examined the impact on longevity. In doing so, we discovered that targeted expression of Ndi1 in fly neurons significantly increases lifespan without compromising fertility or physical activity. These findings are consistent with the idea that enhanced respiratory chain activity in neuronal tissue can prolong fly lifespan.

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Transitions in insect respiratory patterns are controlled by changes in metabolic rate

Contreras

Bradley

2010

Journal of Insect Physiology

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Episodes in insect evolution

Bradley

Briscoe

Brady

et al. 2009

Integrative and Comparative Biology

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This article derives from a society-wide symposium organized by Timothy Bradley and Adriana Briscoe and presented at the 2009 annual meeting of the Society for Integrative and Comparative Biology in Boston, Massachusetts. David Grimaldi provided the opening presentation in which he outlined the major evolutionary events in the formation and subsequent diversification of the insect clade. This presentation was followed by speakers who detailed the evolutionary history of specific physiological and/or behavioral traits that have caused insects to be both ecologically successful and fascinating as subjects for biological study. These include a review of the evolutionary history of the insects, the origins of flight, osmoregulation, the evolution of tracheal systems, the evolution of color vision, circadian clocks, and the evolution of eusociality. These topics, as covered by the speakers, provide an overview of the pattern and timing of evolutionary diversification and specialization in the group of animals we know as insects.

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Heidy Contreras

Metabolic rate controls respiratory pattern in insects

Neuronal expression of a single‐subunit yeast NADH–ubiquinone oxidoreductase (Ndi1) extends Drosophila lifespan

Transitions in insect respiratory patterns are controlled by changes in metabolic rate

Episodes in insect evolution

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