1. A platform for rapid exploration of aging and diseases in a naturally short-lived vertebrate.

    Cell 160(5):1013 (2015) PMID 25684364 PMCID PMC4344913

    Aging is a complex process that affects multiple organs. Modeling aging and age-related diseases in the lab is challenging because classical vertebrate models have relatively long lifespans. Here, we develop the first platform for rapid exploration of age-dependent traits and diseases in vertebr...
  2. A platform for rapid exploration of aging and diseases in a naturally short-lived vertebrate.

    Cell 160(5):1013 (2015) PMID 25684364 PMCID PMC4344913

    Aging is a complex process that affects multiple organs. Modeling aging and age-related diseases in the lab is challenging because classical vertebrate models have relatively long lifespans. Here, we develop the first platform for rapid exploration of age-dependent traits and diseases in vertebr...
  3. A Platform for Rapid Exploration of Aging and Diseases in a Naturally Short-Lived Vertebrate

    Cell 160(5):1013 (2015)

    Aging is a complex process that affects multiple organs. Modeling aging and age-related diseases in the lab is challenging because classical vertebrate models have relatively long lifespans. Here, we develop the first platform for rapid exploration of age-dependent traits and diseases ...
  4. A platform for rapid exploration of aging and diseases in a naturally short-lived vertebrate.

    Cell 160(5):1013 (2015) PMID 25684364

    Aging is a complex process that affects multiple organs. Modeling aging and age-related diseases in the lab is challenging because classical vertebrate models have relatively long lifespans. Here, we develop the first platform for rapid exploration of age-dependent traits and diseases in vertebr...
  5. Crude oil impairs cardiac excitation-contraction coupling in fish.

    Science 343(6172):772 (2014) PMID 24531969

    Crude oil is known to disrupt cardiac function in fish embryos. Large oil spills, such as the Deepwater Horizon (DWH) disaster that occurred in 2010 in the Gulf of Mexico, could severely affect fish at impacted spawning sites. The physiological mechanisms underlying such potential cardiotoxic ef...
  6. Crude oil impairs cardiac excitation-contraction coupling in fish.

    Science 343(6172):772 (2014) PMID 24531969

    Crude oil is known to disrupt cardiac function in fish embryos. Large oil spills, such as the Deepwater Horizon (DWH) disaster that occurred in 2010 in the Gulf of Mexico, could severely affect fish at impacted spawning sites. The physiological mechanisms underlying such potential cardiotoxic ef...
  7. Crude Oil Impairs Cardiac Excitation-Contraction Coupling in Fish

    Biophysical Journal 106(2):732a (2014)

  8. Crude Oil Impairs Cardiac Excitation-Contraction Coupling in Fish

    Biophysical Journal 106(2):732a (2014)