LYON – mitochondria mammals birds lizard – UCP

Reptilian uncoupling protein: functionality and expression in sub-zero temperatures

Author(s): Rey B (Rey, Benjamin)1, Sibille B (Sibille, Brigitte)1, Romestaing C (Romestaing, Caroline)1, Belouze M (Belouze, Maud)1, Letexier D (Letexier, Dominique)1, Servais S (Servais, Stephane)1, Barre H (Barre, Herve)1, Duchamp C (Duchamp, Claude)1, Voituron Y (Voituron, Yann)1,2

Source: JOURNAL OF EXPERIMENTAL BIOLOGY    Volume: 211    Issue: 9    Pages: 1456-1462    Published: MAY 1 2008

Times Cited: 1 References: 51 Citation Map

Abstract: Here we report the partial nucleotide sequence of a reptilian uncoupling protein (repUCP) gene from the European common lizard ( Lacerta vivipara). Overlapping sequence analysis reveals that the protein shows 55%, 72% and 77% sequence homology with rat UCP1, UCP2 and UCP3, respectively, and 73% with bird and fish UCPs. RepUCP gene expression was ubiquitously detected in 4 degrees C cold-acclimated lizard tissues and upregulated in muscle tissues by a 20 h exposure to sub-zero temperatures in a supercooling state or after thawing. In parallel, we show an increase in the co-activators, peroxisome proliferator-activated receptor gamma coactivator-1 alpha (PGC-1 alpha) and peroxisome proliferator-activated receptors ( PPAR), mRNA expression, suggesting that the mechanisms regulating UCP expression may be conserved between mammals (endotherms) and reptiles (ectotherms). Furthermore, mitochondria extracted from lizard skeletal muscle showed a guanosine diphosphate (GDP)-sensitive non phosphorylating respiration. This last result indicates an inhibition of extra proton leakage mediated by an uncoupling protein, providing arguments that repUCP is functional in lizard tissues. This result is associated with a remarkable GDP-dependent increase in mitochondrial endogenous H2O2 production. All together, these data support a physiological role of the repUCP in superoxide limitation by lizard mitochondria in situations of stressful oxidative reperfusion following a re-warming period in winter.

colibri effectue 80 battements d’aile par seconde (soit 4800 par minutes)

http://fr.answers.yahoo.com/question/index?qid=20071016065908AADxOV4

Grâce à leurs ailes capables de 75 battements à la seconde en vol normal, ils peuvent atteindre des vitesses de 45 km/h en soufflerie.

Sources :

http://www.espacepourlesespeces.ca/jonct…

• Certains peuvent atteindre 200, mais en général c’est 100.

  Sources :

  http://oizo-exotik.alldiscussion.net
  http://honda-land.miniville.fr
• 8 à 80 fois par seconde= 420 à 4200par minute

  Sources :

  http://fr.wikipedia.org/wiki/Trochilidae…
• 100 battements par seconde soit 6000 par minutes

  http://www.ushuaia.com/hommes/realisateu…

• Il existe tellement de sortes de colibri (319 espèce à ce jour) !
  Pour un vol régulier, le colibri effectue 80 battements d’aile par seconde (soit 4800 par minutes) mais peut atteindre 200 battements par seconde (soit 12000 par minute) pour un vol en plongée.
  C’est quand même pas rien !

  Voilà pour l’info !

  Sources :

  http://www.coq.qc.ca/info_oiseaux/colibr…