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Items: 13

1.

Shifts in metabolic fuel use coincide with maximal rates of ventilation and body surface rewarming in an arousing hibernator.

Regan MD, Chiang E, Martin SL, Porter WP, Assadi-Porter FM, Carey HV.

Am J Physiol Regul Integr Comp Physiol. 2019 Jun 1;316(6):R764-R775. doi: 10.1152/ajpregu.00379.2018. Epub 2019 Apr 10.

PMID:
30969844
2.

Don't throw the fish out with the respirometry water.

Regan MD, Mandic M, Dhillon RS, Lau GY, Farrell AP, Schulte PM, Seibel BA, Speers-Roesch B, Ultsch GR, Richards JG.

J Exp Biol. 2019 Mar 28;222(Pt 6). pii: jeb200253. doi: 10.1242/jeb.200253. No abstract available.

3.

Can variation among hypoxic environments explain why different fish species use different hypoxic survival strategies?

Mandic M, Regan MD.

J Exp Biol. 2018 Oct 31;221(Pt 21). pii: jeb161349. doi: 10.1242/jeb.161349. Review.

4.

Synthetic torpor: A method for safely and practically transporting experimental animals aboard spaceflight missions to deep space.

Griko Y, Regan MD.

Life Sci Space Res (Amst). 2018 Feb;16:101-107. doi: 10.1016/j.lssr.2018.01.002. Epub 2018 Jan 12. Review.

PMID:
29475515
5.

Metabolic depression and the evolution of hypoxia tolerance in threespine stickleback, Gasterosteus aculeatus.

Regan MD, Gill IS, Richards JG.

Biol Lett. 2017 Nov;13(11). pii: 20170392. doi: 10.1098/rsbl.2017.0392.

6.

Rates of hypoxia induction alter mechanisms of O2 uptake and the critical O2 tension of goldfish.

Regan MD, Richards JG.

J Exp Biol. 2017 Jul 15;220(Pt 14):2536-2544. doi: 10.1242/jeb.154948. Epub 2017 May 5.

7.

Calorespirometry reveals that goldfish prioritize aerobic metabolism over metabolic rate depression in all but near-anoxic environments.

Regan MD, Gill IS, Richards JG.

J Exp Biol. 2017 Feb 15;220(Pt 4):564-572. doi: 10.1242/jeb.145169. Epub 2016 Dec 2.

8.

Ambient CO2, fish behaviour and altered GABAergic neurotransmission: exploring the mechanism of CO2-altered behaviour by taking a hypercapnia dweller down to low CO2 levels.

Regan MD, Turko AJ, Heras J, Andersen MK, Lefevre S, Wang T, Bayley M, Brauner CJ, Huong do TT, Phuong NT, Nilsson GE.

J Exp Biol. 2016 Jan;219(Pt 1):109-18. doi: 10.1242/jeb.131375.

9.

Characterizing the metabolic capacity of the anoxic hagfish heart.

Gillis TE, Regan MD, Cox GK, Harter TS, Brauner CJ, Richards JG, Farrell AP.

J Exp Biol. 2015 Dec;218(Pt 23):3754-61. doi: 10.1242/jeb.125070. Epub 2015 Oct 20.

10.

Osmoregulatory bicarbonate secretion exploits H(+)-sensitive haemoglobins to autoregulate intestinal O2 delivery in euryhaline teleosts.

Cooper CA, Regan MD, Brauner CJ, De Bastos ES, Wilson RW.

J Comp Physiol B. 2014 Oct;184(7):865-76. doi: 10.1007/s00360-014-0844-x. Epub 2014 Aug 27.

11.

A simple and affordable calorespirometer for assessing the metabolic rates of fishes.

Regan MD, Gosline JM, Richards JG.

J Exp Biol. 2013 Dec 15;216(Pt 24):4507-13. doi: 10.1242/jeb.093500. Epub 2013 Sep 26.

12.

The evolution of Root effect hemoglobins in the absence of intracellular pH protection of the red blood cell: insights from primitive fishes.

Regan MD, Brauner CJ.

J Comp Physiol B. 2010 Jun;180(5):695-706. doi: 10.1007/s00360-010-0450-5. Epub 2010 Mar 6.

PMID:
20213180
13.

The transition in hemoglobin proton-binding characteristics within the basal actinopterygian fishes.

Regan MD, Brauner CJ.

J Comp Physiol B. 2010 Apr;180(4):521-30. doi: 10.1007/s00360-009-0438-1. Epub 2010 Jan 1.

PMID:
20044754

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