maenas (intertidal zone) and Segonzacia mesatlantica - Station ...
maenas (intertidal zone) and Segonzacia mesatlantica - Station ... maenas (intertidal zone) and Segonzacia mesatlantica - Station ...
248 BIBLIOGRAPHIE Sanglier, S., E. Leize, A. V. Dorsselaer, et F. Zal. Comparative ESI-MS study of approximately 2.2 MDa native hemocyanins from deep-sea and shore crabs : from protein oligomeric state to biotope. J Am Soc Mass Spectrom, 14(5) :pp 419–29, 2003. Sanna, M. T., A. Olianas, M. Castagnola, L. Sollai, B. Manconi, S. Salvadori, B. Giardina, et M. Pellegrini. Oxygen-binding modulation of hemocyanin from the slipper lobster Scyllarides latus. Comp Biochem Physiol B Biochem Mol Biol, 139(2) :pp 261–8, 2004. Sarrazin, J. et P. M. Sarradin. MoMARETO : a cruise dedicated to the spatio-temporal dynamics and the adaptations of hydrothermal vent fauna on the Mid-Atlantic Ridge. InterRidge News, 15 :pp 24–33, 2006. Seamonds, B. R., R. E. Forster, et A. J. Gottleib. Heterogeneity of the hemoglobin from the common bloodwormoGlycera dibranchiata. J. Biol. Chem., 246 :pp 1700–1705., 1971. Sibuet, M. et K. Olu. Biogeography, biodiversity and fluid dependence of deep-sea cold-seep communities at active and passive margins. Deep-Sea Research, 45(II) :pp 517–567, 1998. Sick, H. et K. Gersonde. Method of continuous registration of O 2 binding curves of hemoproteins by means of a diffusion chamber. Anal. Biochem., 32 :pp 362–376, 1969. Silva, J. L., M. Villas-Boas, C. F. S. Bonafé, et N. C. Meireilles. Anomalous pressure dissociation of large protein aggregates. Lack of concentration dependence and irreversibility at extreme degrees of dissociation of extracellular hemoglobin. J. Biol. Chem., 264 :pp 15863–15868., 1989. Siuzdak, G., B. Bothner, M. Yeager, C. Brugidou, C. M. Fauquet, K. Hoey, et C. M. Chang. Mass spectrometry and viral analysis. Chem. Biol., 3(1) :pp 45–48, 1996. Smith, C. R. et A. R. Baco. Ecology of whale falls at the deep-sea floor. Oceanography and Marine Biology, 41 :pp 311–354, 2003. Smith, C. R., F. C. D. Leo, A. F. Bernardino, A. K. Sweetman, et P. M. Arbizu. Abyssal food limitation, ecosystem structure and climate change. Trends Ecol. Evol., 23(9) :pp 518–528, 2008. Spicer, J. I. et E. Hodgson. Structural basis for salinity-induced alteration in oxygen binding by haemocyanin from the estuarine amphipod Chaetogammarus marinus (L.). Physiol Biochem Zool, 76(6) :pp 843–9, 2003. Spicer, J. I. et J.-O. Strömberg. Diel vertical migration and the haemocyanin of krill Meganyctiphanes norvegica. Mar. Ecol. Prog. Ser., 238 :pp 153–162, 2002. Stöcker, W., U. Raeder, M. M. C. Bijlholt, T. Wichertjes, E. F. J. van Bruggen, et J. Markl. The quaternary structure of four crustacean two-hexameric hemocyanins : immunocorrelation, stoichiometry, reassembly and topology of individual subunits. J. Comp. Physiol. B, 158 :pp 271–289, 1988. Struck, T. H., N. Schult, T. Kusen, E. Hickman, C. Bleidorn, D. McHugh, et K. M. Halanych. Annelid phylogeny and the status of Sipuncula and Echiura. BMC Evol Biol, 7(1) :p 57, 2007. Svedberg, T. Sedimentation constants, molecular weights and isoelectric points of the respiratory proteins. J. Biol. Chem., 103 :pp 311–325., 1933. Svedberg, T. et I. B. Eriksson. The molecular weight of erythrocruorin I. J. Am. Chem. Soc., 55 :pp 2834–2841, 1933a.
BIBLIOGRAPHIE 249 Svedberg, T. et I. B. Eriksson. The molecular weight of erythrocruorin II. J. Am. Chem. Soc., 56 :pp 1700–1705, 1933b. Tahallah, N., R. H. H. van den Heuvel, W. A. M. van den Berg, C. S. Maier, W. J. van Berkel, et A. J. R. Heck. Cofactor-dependent assembly of the flavoenzyme vanillyl-alcohol oxidase. J. Biol. Chem., 277(39) :pp 36425–36432, 2002. Tanaka, K., H. Waki, Y. Ido, S. Akita, Y. Yoshida, et T. Yoshida. Protein and polymer analyses up to m/z 100 000 by laser ionization time-of-flight mass spectrometry. Rapid Commun. Mass Spectrom., 2(20) :pp 151–153, 1988. Tang, X. J., C. F. Brewer, S. Saha, I. V. Chernushevich, W. Ens, et K. G. Standing. Investigation of protein-protein noncovalent interactions in soybean agglutinin by electrospray ionization time-offlight mass spectrometry. Rapid Commun. Mass Spectrom., 8 :pp 750–754, 1994. Taylor, A. C., C. M. Astall, et R. J. A. Atkinson. A comparative study of the oxygen transporting properties of the haemocyanin of five species of thalassinidean mud-shrimps. J. Exp. Mar. Biol. Ecol., 244 :pp 265–83, 2000. Taylor, A. C., A. R. Johns, R. J. A. Atkinson, et C. R. Bridges. Effects of sulfide and thiosulphate on the respiratory properties of the haemocyanin of the benthic crustaceans Calocaris macandreae Bell, Nephrops norvegicus (L.), and Carcinus maenas (L.). Journal of Experimental Marine Biology and Ecology, 233 :pp 163–170, 1999. Tentori, E. et A. P. M. Lockwood. Haemolymph magnesium levels in some oceanic Crustacea. Comp. Biochem. Physiol. [A], 95A(4) :pp 545–548, 1990. Terwilliger, N. B. Molecular structure of the extracellular heme proteins. C. Mangum, Editeur, Blood and tissue oxygen carriers, Advances in comparative and environmental physiology, pp 193–229. Springer-Verlag, Berlin, 1992. Terwilliger, N. B. Functional adaptations of oxygen-transport proteins. J. Exp. Biol., 201(Pt 8) :pp 1085–98, 1998. Terwilliger, N. B. et A. C. Brown. Ontogeny of hemocyanin function in the dungeness crab Cancer magister - the interactive effects of developmental stage and divalent cations on hemocyanin oxygenation properties. J. Exp. Biol., 183 :pp 1–13, 1993. Terwilliger, N. B. et K. Dumler. Ontogeny of decapod crustacean hemocyanin : effects of temperature and nutrition. J. Exp. Biol., 204(Pt 5) :pp 1013–1020, 2001. Terwilliger, N. B. et M. Ryan. Ontogeny of crustacean respiratory proteins. Amer. Zool., 41 :pp 1057–1067, 2001. Terwilliger, N. B., M. Ryan, et M. R. Phillips. Crustacean hemocyanin gene family and microarray studies of expression change during eco-physiological stress. Int. Comp. Biol., 46(6) :pp 991–999, 2006. Terwilliger, N. B., M. C. Ryan, et D. Towle. Evolution of novel functions : cryptocyanin helps build new exoskeleton in Cancer magister. J Exp Biol, 208(Pt 13) :pp 2467–74, 2005. Terwilliger, N. B. et R. C. Terwilliger. Changes in the subunit structure of Cancer magister hemocyanin during larval development. J. Exp. Zool., 221 :pp 181–191, 1982.
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- Page 247 and 248: BIBLIOGRAPHIE 241 Farmer, C. S., J.
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248 BIBLIOGRAPHIE<br />
Sanglier, S., E. Leize, A. V. Dorsselaer, et F. Zal. Comparative ESI-MS study of approximately 2.2<br />
MDa native hemocyanins from deep-sea <strong>and</strong> shore crabs : from protein oligomeric state to biotope.<br />
J Am Soc Mass Spectrom, 14(5) :pp 419–29, 2003.<br />
Sanna, M. T., A. Olianas, M. Castagnola, L. Sollai, B. Manconi, S. Salvadori, B. Giardina, et M. Pellegrini.<br />
Oxygen-binding modulation of hemocyanin from the slipper lobster Scyllarides latus. Comp<br />
Biochem Physiol B Biochem Mol Biol, 139(2) :pp 261–8, 2004.<br />
Sarrazin, J. et P. M. Sarradin. MoMARETO : a cruise dedicated to the spatio-temporal dynamics <strong>and</strong><br />
the adaptations of hydrothermal vent fauna on the Mid-Atlantic Ridge. InterRidge News, 15 :pp<br />
24–33, 2006.<br />
Seamonds, B. R., R. E. Forster, et A. J. Gottleib. Heterogeneity of the hemoglobin from the common<br />
bloodwormoGlycera dibranchiata. J. Biol. Chem., 246 :pp 1700–1705., 1971.<br />
Sibuet, M. et K. Olu. Biogeography, biodiversity <strong>and</strong> fluid dependence of deep-sea cold-seep communities<br />
at active <strong>and</strong> passive margins. Deep-Sea Research, 45(II) :pp 517–567, 1998.<br />
Sick, H. et K. Gersonde. Method of continuous registration of O 2 binding curves of hemoproteins by<br />
means of a diffusion chamber. Anal. Biochem., 32 :pp 362–376, 1969.<br />
Silva, J. L., M. Villas-Boas, C. F. S. Bonafé, et N. C. Meireilles. Anomalous pressure dissociation of<br />
large protein aggregates. Lack of concentration dependence <strong>and</strong> irreversibility at extreme degrees<br />
of dissociation of extracellular hemoglobin. J. Biol. Chem., 264 :pp 15863–15868., 1989.<br />
Siuzdak, G., B. Bothner, M. Yeager, C. Brugidou, C. M. Fauquet, K. Hoey, et C. M. Chang. Mass<br />
spectrometry <strong>and</strong> viral analysis. Chem. Biol., 3(1) :pp 45–48, 1996.<br />
Smith, C. R. et A. R. Baco. Ecology of whale falls at the deep-sea floor. Oceanography <strong>and</strong> Marine<br />
Biology, 41 :pp 311–354, 2003.<br />
Smith, C. R., F. C. D. Leo, A. F. Bernardino, A. K. Sweetman, et P. M. Arbizu. Abyssal food limitation,<br />
ecosystem structure <strong>and</strong> climate change. Trends Ecol. Evol., 23(9) :pp 518–528, 2008.<br />
Spicer, J. I. et E. Hodgson. Structural basis for salinity-induced alteration in oxygen binding by<br />
haemocyanin from the estuarine amphipod Chaetogammarus marinus (L.). Physiol Biochem Zool,<br />
76(6) :pp 843–9, 2003.<br />
Spicer, J. I. et J.-O. Strömberg. Diel vertical migration <strong>and</strong> the haemocyanin of krill Meganyctiphanes<br />
norvegica. Mar. Ecol. Prog. Ser., 238 :pp 153–162, 2002.<br />
Stöcker, W., U. Raeder, M. M. C. Bijlholt, T. Wichertjes, E. F. J. van Bruggen, et J. Markl. The quaternary<br />
structure of four crustacean two-hexameric hemocyanins : immunocorrelation, stoichiometry,<br />
reassembly <strong>and</strong> topology of individual subunits. J. Comp. Physiol. B, 158 :pp 271–289, 1988.<br />
Struck, T. H., N. Schult, T. Kusen, E. Hickman, C. Bleidorn, D. McHugh, et K. M. Halanych. Annelid<br />
phylogeny <strong>and</strong> the status of Sipuncula <strong>and</strong> Echiura. BMC Evol Biol, 7(1) :p 57, 2007.<br />
Svedberg, T. Sedimentation constants, molecular weights <strong>and</strong> isoelectric points of the respiratory<br />
proteins. J. Biol. Chem., 103 :pp 311–325., 1933.<br />
Svedberg, T. et I. B. Eriksson. The molecular weight of erythrocruorin I. J. Am. Chem. Soc., 55 :pp<br />
2834–2841, 1933a.
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