maenas (intertidal zone) and Segonzacia mesatlantica - Station ...
maenas (intertidal zone) and Segonzacia mesatlantica - Station ...
maenas (intertidal zone) and Segonzacia mesatlantica - Station ...
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244 BIBLIOGRAPHIE<br />
Laberge, M. et T. Yonetani. Molecular dynamics simulations of hemoglobin A in different states<br />
<strong>and</strong> bound to DPG : effector-linked perturbation of tertiary conformations <strong>and</strong> HbA concerted<br />
dynamics. Biophys. J., 94 :pp 2737–2751, 2008.<br />
Lallier, F. Adaptation de la fonction de transport de l’oxygène par l’hémocyanine en milieu hypoxique<br />
: étude chez la crevette Penaeus japonicus et le crabe Carcinus <strong>maenas</strong>. thèse de doctorat,<br />
Université de Bordeaux I, 1988. Thèse.<br />
Lallier, F. H., F. Boitel, et J. P. Truchot. The effect of ambient oxygen <strong>and</strong> temperature on haemolymph<br />
L-lactate <strong>and</strong> urate concentrations in the shore crab Carcinus <strong>maenas</strong>. Comp. Biochem. Physiol.,<br />
86 A :pp 255–260., 1987.<br />
Lallier, F. H., L. Camus, F. Chausson, et J. P. Truchot. Structure <strong>and</strong> function of hydrothermal vent<br />
crustacean haemocyanin : an update. Cah Biol Mar, 39(3-4) :pp 313–316, 1998.<br />
Lallier, F. H. et J. P. Truchot. Hemolymph oxygen transport during environmental hypoxia in the<br />
shore crab, Carcinus <strong>maenas</strong>. Respir. Physiol., 77 :pp 323–336, 1989.<br />
Lallier, F. H. et J. P. Truchot. Hemocyanin oxygen-binding properties of a deep-sea hydrothermal<br />
vent shrimp : evidence for a novel cofactor. J. Exp. Zool., 277 :pp 357–364, 1997.<br />
Lallier, F. H. et P. J. Walsh. Urate does not accumulate in the haemolymph of exercised blue crabs,<br />
Callinectes sapidus. J. Exp. Biol., 154 :pp 581–585, 1990.<br />
Legendre, P. et M. J. Anderson. Distance-based redundancy analysis : testing multispecies responses<br />
in multifactorial ecological experiments. Ecol. Monogr., 69(1) :pp 1–24, 1999.<br />
Legendre, P. et L. Legendre. Numerical ecology, 2nd English edition. Elsevier, Amsterdam, 1998.<br />
Levy, E. D., E. B. Erba, C. V. Robinson, et S. A. Teichmann. Assembly reflects evolution of protein<br />
complexes. Nature, 453 :pp 1262–1265, 2008.<br />
Lieb, B. et C. Todt. Hemocyanin in mollusks-a molecular survey <strong>and</strong> new data on hemocyanin genes<br />
in Solenogastres <strong>and</strong> Caudofoveata. Mol. Phylogenet. Evol., 2008.<br />
Lister, C. R. B. On the thermal balance of a mid-ocean ridge. Geophysical Journal International,<br />
26(5) :pp 515–535, 1972.<br />
Lonsdale, P. F. Clustering of suspension-feeding macrobenthos near abyssal hydrothermal vents at<br />
oceanic spreading centers. Deep-Sea Res., 24 :pp 857–863, 1977.<br />
Magnus, K. A. Hemocyanins from arthropods <strong>and</strong> molluscs. H<strong>and</strong>book of metalloproteins, 2006.<br />
Magnus, K. A., B. Hazes, H. Tonthat, C. Bonaventura, J. Bonaventura, et W. G. J. Hol. Crystallographic<br />
analysis of oxygenated <strong>and</strong> deoxygenated states of arthropod hemocyanin shows unusual<br />
differences. Proteins - Structure Function <strong>and</strong> Genetics, 19(4) :pp 302–309, 1994.<br />
Mangum, C. P. Respiratory function of the red blood cell hemoglobin of six animal phyla. Adv. Comp.<br />
Physiol., 13 :pp 117–149, 1992.<br />
Mangum, C. P. Subunit composition of hemocyanins of Callinectes sapidus : phenotypes from naturally<br />
hypoxic waters <strong>and</strong> isolated oligomers. Comp. Biochem. Physiol. Biochem. Mol. Biol.,<br />
108(4) :pp 537–541, 1994.