maenas (intertidal zone) and Segonzacia mesatlantica - Station ...

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242 BIBLIOGRAPHIE Griffiths, I. W. J. J. Thomson - the centenary of his discovery of the electron and of his invention of mass spectrometry. Rapid Commun. Mass Spectrom., 11(1) :pp 2–16, 1997. Gross, M. et R. Jaenicke. Proteins under pressure. The influence of high hydrostatic pressure on structure, function and assembly of proteins and protein complexes. Eur J Biochem, 221(2) :pp 617–30, 1994. Guadagnoli, J. A., A. M. Braun, S. P. Roberts, et C. L. Reiber. Environmental hypoxia influences hemoglobin subunit composition in the branchiopod crustacean Triops longicaudatus. J. Exp. Biol., 208(Pt 18) :pp 3543–51, 2005. Haas, F. D., J. F. L. van Breemen, E. J. Boekema, W. Keegstra, et E. F. J. van Bruggen. Comparative electron microscopy and image analysis of oxy-hemocyanin and deoxy-hemocyanin from the spiny lobster Panulirus interruptus. Ultramicroscopy, 49(1-4) :pp 426–435, 1993. Hagerman, L. et A. Szaniawska. Respiration, ventilation and circulation under hypoxia in the glacial relict Saduria (Mesidotea) entomon. M.E.P.S., 47 :pp 55–63, 1988. Hagerman, L. et B. Vismann. Effects of thiosulphate on haemocyanin oxygen affinity in the isopod Saduria entomon (L.) and the brown shrimp Crangon crangon (L.). J. Comp. Physiol. B, 169(8) :pp 549–554, 1999. Hagerman, L. et B. Vismann. Modulators of haemocyanin oxygen affinity in the hypoxia- and sulphide-tolerant Baltic isopod Saduria entomon (L.). J. Comp. Physiol. B, 171(8) :pp 695–9, 2001. Hagner-Holler, S., A. Schoen, W. Erker, J. H. Marden, R. Rupprecht, H. Decker, et T. Burmester. A respiratory hemocyanin from an insect. Proc Natl Acad Sci U S A, 101(3) :pp 871–4, 2004. Hartmann, H., B. Lohkamp, N. Hellmann, et H. Decker. The allosteric effector L-lactate induces a conformational change of 2x6-meric lobster hemocyanin in the oxy state as revealed by small angle X-ray scattering. J. Biol. Chem., 276(23) :pp 19954–19958, 2001. Hazes, B., K. A. Magnus, C. Bonaventura, J. Bonaventura, Z. Dauter, K. H. Kalk, et W. G. J. Hol. Crystal structure of deoxygenated Limulus polyphemus subunit-II hemocyanin at 2.18-Angstrom resolution - clues for a mechanism for allosteric regulation. Protein Science, 2(4) :pp 597–619, 1993. Herskovits, T. T. Recent aspects of the subunit organization and dissociation of hemocyanins. Comp. Biochem Physiol. B, 91(4) :597-611, 1988. Hessler, R. R. et P. A. Jumars. Abyssal community analysis from replicate box cores in the central North Pacific. Deep-sea Res., 21 :pp 185–209, 1974. Hessler, R. R. et H. L. Sanders. Faunal diversity in the deep-sea. Deep-sea Res., 14 :pp 65–78, 1967. Hessler, R. R., W. M. Smithey, M. A. Boudrias, C. H. Keller, R. A. Lutz, et J. J. Childress. Temporal change in megafauna at the Rose Garden hydrothermal vent. Deep-Sea Res., 35(10/11) :pp 1681– 1710, 1988. Hodgson, E. et J. I. Spicer. Subunit compositions of crustacean haemocyanins are species-specific : evidence from non-decapod species. Comp. Biochem. Physiol., 128A :pp 873–888, 2001.

BIBLIOGRAPHIE 243 Hourdez, S. Adaptations respiratoires des annélides polychètes de milieux abyssaux hypoxiques. thèse de doctorat, Université Pierre et Marie Curie, Paris VI, 2000. Hourdez, S. et F. H. Lallier. Adaptations to hypoxia in hydrothermal-vent and cold-seep invertebrates. Rev. Environ. Sci. Biotechnol., 6 :pp 143–159, 2007. Hourdez, S., F. H. Lallier, B. N. Green, et A. Toulmond. Hemoglobins from deep-sea hydrothermal vent scaleworms of the genus Branchipolynoe : a new type of quaternary structure. Proteins, 34(4) :427-34, 1999. Invernizzi, G., A. Natalello, M. Smalikova, et R. Grandori. Prontein-protein and protein-ligand interactions studied by electrospray-ionization mass spectrometry. Prot. Pept. Letters, 14(9) :pp 894– 902, 2007. Jeffrey, P. D., D. C. Shaw, et G. B. Treacy. Hemocyanin from the Australian freshwater crayfish Cherax destructor. Characterization of a dimeric subunit and its involvement in the formation of the 25S component. Biochemistry, 17(15) :pp 3078–3084, 1978. Johnson, B. A. Structure and function of the hemocyanin from a semi-terrestrial crab, Ocypode quadrata. J. Comp. Physiol. B, 157 :pp 501–509, 1987. Johnson, B. A., C. Bonaventura, et J. Bonaventura. Allosteric modulation of Callinectes sapidus hemocyanin by binding of L-lactate. Biochemistry, 23 :pp 872–878, 1984. Johnson, B. A., C. Bonaventura, et J. Bonaventura. Allostery in Callinectes sapidus hemocyanin : cooperative oxygen binding and interactions with L-lactate, calcium and protons. Biochemistry, 27 :pp 1995–2001, 1988. Johnson, B. A., J. Bonaventura, et C. Bonaventura. Determination of L-lactate binding stoichiometry and differences in allosteric interactions of structurally distinct homohexamers from Panulirus interruptus hemocyanin. Biochim. Biophys. Acta, 916 :pp 376–380, 1987. Karas, M. et F. Hillenkamp. Laser desorption ionization of proteins with molecular masses exceeding 10,000 daltons. Anal. Chem., 60(20) :pp 2299–2301, 1988. Katta, V. et B. T. Chait. Observation of the heme globin complex in native myoglobin by electrosprayionization mass spectrometry. J. Am. Chem. Soc., 113 :pp 8534–8535, 1991. Katz, B. Neuromuscular transmission in crabs. J. Physiol., 87 :pp 199–220, 1936. Kendrew, J. C., G. Bodo, H. M. Dintzis, R. G. Parrish, H. Wyckoff, et D. C. Philips. A threedimensional model of the myoglobin molecule obtained by X-ray analysis. Nature, 181 :pp 662– 666, 1958. Kiørboe, T. Formation and fate of marine snow : small-scale processes with large-scale implications. Sci. Mar., 65(suppl.2) :pp 57–71, 2001. Konermann, L., E. A. Silva, et O. F. Sogbein. Electrochemically induced pH changes resulting in protein unfolding in the ion source of an electrospray mass spectrometer. Anal. Chem., 73(20) :pp 4836–4844, 2001. Kuiper, H. A., L. Forlani, E. Chiancone, E. Antonini, M. Brunori, et J. Wyman. Multiple linkage in Panulirus interruptus hemocyanin. Biochemistry, 18(6) :pp 5849–, 1979.

Page 1 and 2: THESE DE DOCTORAT DE L’UNIVERSITE

Page 3: i Résumé / Abstract Réponse adap

Page 6 and 7: iv SOMMAIRE 4.2 Objectifs de l’é

Page 8 and 9: 2 CHAPITRE 1. INTRODUCTION Les éco

Page 10 and 11: 4 CHAPITRE 1. INTRODUCTION 1.1 Mili

Page 12 and 13: 6 CHAPITRE 1. INTRODUCTION Les prin

Page 14 and 15: 8 CHAPITRE 1. INTRODUCTION TAB. 1.1

Page 16 and 17: 10 CHAPITRE 1. INTRODUCTION et cycl

Page 18 and 19: FIG. 1.5 - Localisation des princip

Page 20 and 21: (a) FIG. 1.6 - Fonctionnement d’u

Page 22 and 23: 16 CHAPITRE 1. INTRODUCTION TAB. 1.

Page 24 and 25: 18 CHAPITRE 1. INTRODUCTION FIG. 1.

Page 26 and 27: 20 CHAPITRE 1. INTRODUCTION Différ


Page 30 and 31: 24 CHAPITRE 1. INTRODUCTION le mili

Page 32 and 33: 26 CHAPITRE 1. INTRODUCTION Capacit

Page 34 and 35: 28 CHAPITRE 1. INTRODUCTION TAB. 1.

Page 36 and 37: 30 CHAPITRE 1. INTRODUCTION 700 600

Page 38 and 39: 32 CHAPITRE 1. INTRODUCTION férent

Page 40 and 41: 34 CHAPITRE 1. INTRODUCTION (a) (b)



Page 46 and 47: 40 CHAPITRE 1. INTRODUCTION 1 P 50

Page 48 and 49: 42 CHAPITRE 1. INTRODUCTION presque

Page 50 and 51: 44 CHAPITRE 1. INTRODUCTION affecte



Page 56 and 57: 50 CHAPITRE 1. INTRODUCTION fure co

Page 58 and 59: 52 CHAPITRE 1. INTRODUCTION amélio

Page 60 and 61: 54 CHAPITRE 1. INTRODUCTION 1.5 Que

Page 62 and 63: 56 CHAPITRE 2. ESI-MS ET MALLS APPL








Page 78 and 79: The Structural Analysis of Large No















Page 108 and 109: 102 CHAPITRE 2. ESI-MS ET MALLS APP

Page 110 and 111: 104 CHAPITRE 3. STRUCTURE DE L’HC















Page 140 and 141: 134 CHAPITRE 4. PLASTICITÉ PHÉNOT
















Page 172 and 173: Dénaturant Natif



Page 178 and 179: 172 CHAPITRE 5. ADAPTATIONS RESPIRA






















Page 222 and 223: 216 CHAPITRE 6. CONCLUSION ET PERSP





Page 233 and 234: Annexe A Détermination des masses

Page 235 and 236: 229 10000 h280 .M h) h280−h337 80

Page 237 and 238: Annexe B Détermination des distrib

Page 239 and 240: 233 Modèle 2 : 2 sous-unités lég

Page 241 and 242: 235 1 0.9 0.8 6 s-u aléatoires 2 s

Page 243 and 244: Bibliographie Adair, G. S. The hemo

Page 245 and 246: BIBLIOGRAPHIE 239 Catalina, M. I.,

Page 247: BIBLIOGRAPHIE 241 Farmer, C. S., J.

Page 251 and 252: BIBLIOGRAPHIE 245 Mangum, C. P. Sub

Page 253 and 254: BIBLIOGRAPHIE 247 Rainer, J., C. P.

Page 255 and 256: BIBLIOGRAPHIE 249 Svedberg, T. et I

Page 257 and 258: BIBLIOGRAPHIE 251 Vanin, S., E. Neg

Page 259 and 260: Liste des figures 1.1 Cycle des mar

Page 261: LISTE DES FIGURES 255 4.17 Profils

Page 265 and 266: Table des matières Résumé Sommai

Page 267 and 268: TABLE DES MATIÈRES 261 4.3.5 Spect

Page 269 and 270: TABLE DES MATIÈRES 263 Table des m

maenas

chez

masses

complexes

subunits

mesatlantica

carcinus

subunit

malls

hemocyanin

segonzacia

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