Red blood with blue-blood ancestry: Intriguing structure of a snail hemoglobin
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J. Markl | B. Hanelt | C. Adema | B. Lieb | W. Gebauer | S. Saenz | S. Braun | Andreas G Martin | K. Dimitrova | H. Kang | Hio-Sun Kang | H. Kang
[1] N. Terwilliger,et al. Functional and Phylogenetic Analyses of Phenoloxidases from Brachyuran (Cancer magister) and Branchiopod (Artemia franciscana, Triops longicaudatus) Crustaceans , 2006, The Biological Bulletin.
[2] D. Karanja,et al. Origin and diversification of the human parasite Schistosoma mansoni , 2005, Molecular ecology.
[3] David Posada,et al. ProtTest: selection of best-fit models of protein evolution , 2005, Bioinform..
[4] J. Markl,et al. cDNA Sequence, Protein Structure, and Evolution of the Single Hemocyanin from Aplysia californica, an Opisthobranch Gastropod , 2004, Journal of Molecular Evolution.
[5] Thomas B. Kepler,et al. Diversification of Ig Superfamily Genes in an Invertebrate , 2004, Science.
[6] H. Boer,et al. Haemoglobin producing cells in freshwater snails , 2004, Zeitschrift für Zellforschung und Mikroskopische Anatomie.
[7] I. Torriani,et al. Small angle x-ray scattering of the hemoglobin from Biomphalaria glabrata. , 2003, Biopolymers.
[8] J. Markl,et al. Rhogocytes (pore cells) as the site of hemocyanin biosynthesis in the marine gastropod Haliotis tuberculata , 2001, Cell and Tissue Research.
[9] K. V. van Holde,et al. Structures of two molluscan hemocyanin genes: Significance for gene evolution , 2001, Proceedings of the National Academy of Sciences of the United States of America.
[10] S N Vinogradov,et al. Nonvertebrate hemoglobins: functions and molecular adaptations. , 2001, Physiological reviews.
[11] H. Decker,et al. Tyrosinase/catecholoxidase activity of hemocyanins: structural basis and molecular mechanism. , 2000, Trends in biochemical sciences.
[12] H. Stark,et al. Structure of a molluscan hemocyanin didecamer (HtH1 from Haliotis tuberculata) at 12 A resolution by cryoelectron microscopy. , 2000, Journal of molecular biology.
[13] T. Suzuki,et al. Isolation and cDNA-derived amino acid sequences of hemoglobin and myoglobin from the deep-sea clam Calyptogena kaikoi. , 2000, Biochimica et biophysica acta.
[14] J. Markl,et al. The Sequence of a Gastropod Hemocyanin (HtH1 from Haliotis tuberculata)* , 2000, The Journal of Biological Chemistry.
[15] Leo X. Liu,et al. Characterization of the Myoglobin and Its Coding Gene of the Mollusc Biomphalaria glabrata * , 1998, The Journal of Biological Chemistry.
[16] M. Santoro,et al. Structure of the extracellular hemoglobin of Biomphalaria glabrata , 1998 .
[17] M. Santoro,et al. The myoglobin and the hemoglobin of Biomphalaria glabrata, an evidence of gene duplications. , 1998, Memorias do Instituto Oswaldo Cruz.
[18] J. Thompson,et al. The CLUSTAL_X windows interface: flexible strategies for multiple sequence alignment aided by quality analysis tools. , 1997, Nucleic acids research.
[19] Roderic D. M. Page,et al. TreeView: an application to display phylogenetic trees on personal computers , 1996, Comput. Appl. Biosci..
[20] J. Stein,et al. Hemoglobin in the symbiont-harboring gill of the marine gastropod Alviniconcha hessleri. , 1995, The Biological bulletin.
[21] J. Harris,et al. Electron microscopy and biochemical characterization of a 350-kDa annular hemolymph protein from the keyhole limpet Megathura crenulata. , 1994, European journal of biochemistry.
[22] T. T. Herskovits,et al. The molecular weight and subunit organization of Helisoma trivolvis (Say) hemoglobin: light-scattering and scanning transmission electron microscopic studies. , 1994, Comparative biochemistry and physiology. Biochemistry and molecular biology.
[23] S. Kaushik,et al. Apparent amino acid availability and plasma free amino acid levels in Siberian sturgeon (Acipenser baeri) , 1994 .
[24] Michael J. Benton,et al. The fossil record 2 , 1993 .
[25] C. Mangum. Oxygen transport in invertebrates. , 1985, The American journal of physiology.
[26] A. M. Afonso,et al. Purification and characterization of the glycopeptide II from the hemoglobin of Biomphalaria glabrata , 1985 .
[27] M. Nascimento,et al. The hemoglobin of the snail Biomphalaria glabrata. The absence of sulfhydryl groups (SH), presence of disulfide bonds (SS), and their relation to ligand properties☆ , 1982 .
[28] P. Winston,et al. The effects of salinity and pH on the activity and oxygen consumption of Brachionus plicatilis (rotatoria) , 1978 .
[29] E. Schabtach,et al. Extracellular hemoglobin of the clam, Cardita borealis (conrad): An unusual polymeric hemoglobin , 1978 .
[30] J. Bonaventura,et al. Oxygen binding domains of Helisoma trivolvis hemoglobin. , 1977, Biochimica et biophysica acta.
[31] E. Schabtach,et al. The quaternary structure of a molluscan (Helisoma trivolvis) extracellular hemoglobin. , 1976, Biochimica et biophysica acta.
[32] A. M. Afonso,et al. Characterization of the hemoglobin of Biomphalaria glabrata as a glycoprotein. , 1976, Biochimica et biophysica acta.
[33] E. Wood,et al. Physicochemical properties of Planorbis corneus erythrocruorin. , 1975, The Biochemical journal.
[34] M. Gomez,et al. Isolation and physicochemical properties of the hemoglobin of biomphalaria glabrata (Mollusca, Planorbidae) , 1973 .