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  • Akazawa H, Komuro I. 2005. Cardiac transcription factor Csx/Nkx2–5: its role in cardiac development and diseases. Pharmacol Ther 107: 252268.
  • Amsellem J, Nicaise G. 1980. Ultrastructural study of muscle cells and their connections in the digestive tract of Sepia officinalis. J Submicrosc Cytol 12: 219231.
  • Azpiazu N, Frasch M. 1993. tinman and bagpipe: two homeo box genes that determine cell fates in the dorsal mesoderm of Drosophila. Genes Dev 7: 13251340.
  • Ballowitz E. 1892. Ueber den feineren Bau der Muskelsubstanzen. 1. Muskelfaser der Cephalopoden. Arch Mikrosc Anat 29: 291324.
  • Baugh LR, Hunter CP. 2006. MyoD, modularity, and myogenesis: conservation of regulators and redundancy in C. elegans. Genes Dev 20: 33423346.
  • Bodmer R. 1993. The gene tinman is required for specification of the heart and visceral muscles in Drosophila. Development 118: 719729.
  • Bodmer R, Jan LY, Jan YN. 1990. A new homeobox-containing gene, msh-2, is transiently expressed early during mesoderm formation of Drosophila. Development 110: 661669.
  • Boletzky Sv. 1978. Gut development in cephalopods: a correction. Rev Suisse Zool 85: 379380.
  • Boletzky Sv. 1987. Ontogenetic and phylogenetic aspects of the cephalopod circulatory system. Experientia 43: 478483.
  • Boletzky Sv. 1988a. Cephalopod development and evolutionary concepts. In: ClarkeMR, TruemanER, editors. Paleontology and neontology of cephalopods 12. San Diego: Academic Press, Inc. p 185202.
  • Boletzky Sv. 1988b. Characteristics of Cephalopod embryogenesis. In: WiedmannJ, KullmannJ, editors. Cephalopods - present and past. Stuttgart: Schweizerbart′sche Verlagsbuchhandlung. p 167179.
  • Boletzky Sv. 2006. The Sepia egg: a showcase of cephalopod embryology. Vie et milieu - Life and Environment 56: 191201.
  • Brand T. 2003. Heart development: molecular insights into cardiac specification and early morphogenesis. Dev Biol 258: 119.
  • Bruneau BG. 2002. Transcriptional regulation of vertebrate cardiac morphogenesis. Circ Res 90: 509519.
  • Buckingham M, Bajard L, Chang T, Daubas P, Hadchouel J, Meilhac S, Montarras D, Rocancourt D, Relaix F. 2003. The formation of skeletal muscle: from somite to limb. J Anat 202: 5968.
  • Buckingham M, Meilhac S, Zaffran S. 2005. Building the mammalian heart from two sources of myocardial cells. Nat Rev Genet 6: 826835.
  • Budelmann BU. 1997. Cephalopoda. In: HarrisonW, KohnA, editors. Microscopic anatomy of invertebrates 6A, Mollusca. Part II. New-York: Wiley-Liss. p 119414.
  • Cripps RM, Olson EN. 2002. Control of cardiac development by an evolutionarily conserved transcriptional network. Dev Biol 246: 1428.
  • Elliott DA, Solloway MJ, Wise N, Biben C, Costa MW, Furtado MB, Lange M, Dunwoodie S, Harvey RP. 2006. A tyrosine-rich domain within homeodomain transcription factor Nkx2–5 is an essential element in the early cardiac transcriptional regulatory machinery. Development 133: 13111322.
  • Fukushige T, Brodigan TM, Schriefer LA, Waterston RH, Krause M. 2006. Defining the transcriptional redundancy of early bodywall muscle development in C. elegans: evidence for a unified theory of animal muscle development. Genes Dev 20: 33953406.
  • Gajewski K, Fossett N, Molkentin JD, Schulz RA. 1999. The zinc finger proteins Pannier and GATA4 function as cardiogenic factors in Drosophila. Development 126: 56795688.
  • Gonzalez-Santander R, Socastro Garcia-Blanco E. 1972. Ultrastructure of the obliquely striated or pseudostriated muscle fibres of the cephalopods: Sepia, Octopus and Eledone. J Submicrosc Cytol 4: 233245.
  • Grimaldi A, Tettamanti G, Brivio MF, Valvassori R, De Eguileor M. 2004a. Differentiation of slow and fast fibers in tentacles of Sepia officinalis (Mollusca). Dev Growth Differ 46: 181193.
  • Grimaldi A, Tettamanti G, Rinaldi L, Brivio MF, Castellani D, de Eguileor M. 2004b. Muscle differentiation in tentacles of Sepia officinalis (Mollusca) is regulated by muscle regulatory factors (MRF) related proteins. Dev Growth Differ 46: 8395.
  • Harvey RP. 1996. NK-2 homeobox genes and heart development. Dev Biol 178: 203216.
  • Hochner B, Shomrat T, Fiorito G. 2006. The octopus: a model for a comparative analysis of the evolution of learning and memory mechanisms. Biol Bull 210: 308317.
  • Kawaguti S, Ikemoto N. 1957a. Electron microscopy of the smooth muscle from the body wall of the earthworms, Pheretima cimmunissima and Eisenia fœtida. Biol J Okayama Univ 3: 223238.
  • Kawaguti S, Ikemoto N. 1957b. Electron microscopy of the smooth muscle of a cuttlefish, Sepia esculenta. Biol J Okayama Univ 3: 196208.
  • Kier WM. 1985. The musculature of squid arms and tentacles: ultrastructural evidence for functional differences. J Morphol 185: 223239.
  • Kier WM. 1989. The fin musculature of cuttlefish and squid (Mollusca, Cephalopoda): morphology and mechanics. J Zool Lond 217: 2338.
  • Kier WM. 1991. Squid cross-striated muscle: the evolution of a specialized muscle fiber type. Bull Mar Sci 49: 389403.
  • Kier WM. 1996. Muscle development in squid: ultrastructural differentiation of a specialized muscle fiber type. J Morphol 229: 271288.
  • Kier WM, Schachat FH. 2008. Muscle specialization in the squid motor system. J Exp Biol 211: 164169.
  • Kier WM, Thompson JT. 2003. Muscle arrangement, function and specialization in recent coleoids. Berl Palaobiol Abh 3: 2935.
  • Kim Y, Nirenberg M. 1989. DrosophilaNK-homeobox genes. Proc Natl Acad Sci U S A 86: 77167720.
  • Kling G, Schipp R. 1987. Comparative ultrastructural and cytochemical analysis of the cephalopod systemic heart and its innervation. Experientia 43: 502511.
  • Larroux C, Fahey B, Degnan SM, Adamski M, Rokhsar DS, Degnan BM. 2007. The NK homeobox gene cluster predates the origin of Hox genes. Curr Biol 17: 706710.
  • Lemaire J. 1970. Table de développement embryonnaire de Sepia Officinalis L. (Mollusque Céphalopode). Bull Soc Zool France 95: 773782.
  • Lints TJ, Parsons LM, Hartley L, Lyons I, Harvey RP. 1993. Nkx-2.5: a novel murine homeobox gene expressed in early heart progenitor cells and their myogenic descendants. Development 119: 419431.
  • Lowy J, Millman B. 1962. Mechanical properties of smooth muscles of cephalopod molluscs. J Physiol 160: 353363.
  • Lyons I, Parsons LM, Hartley L, Li R, Andrews JE, Robb L, Harvey RP. 1995. Myogenic and morphogenetic defects in the heart tubes of murine embryos lacking the homeo box gene Nkx2–5. Genes Dev 9: 16541666.
  • Marceau F. 1904. Sur le mécanisme de la contraction des fibres musculaires lisses dites à double striation oblique ou à fibrilles spiralées et en particulier de celles des muscles adducteurs des Lamellibranches. C R Acad Sci Paris 139: 7072.
  • Millman B. 1967. Mechanism of contraction in molluscan muscle. Am Zool 7: 583591.
  • Naef A. 1923. Die Cephalopoden (Systematik). In: Fauna e Flora del Golfo di Napoli Monografia n°35, Teil 1-1. Bardi (Roma). Berlin: Friedländer & Sons. 863 p.
  • Naef A. 1928. Die Cephalopoden (Embryologie). In: Fauna e Flora del Golfo di Napoli Monografia n°35, Teil I-2. Bardi (Roma). Berlin: Friedländer & Sons. 364 p.
  • Okkema PG, Fire A. 1994. The Caenorhabditis elegans NK-2 class homeoprotein CEH-22 is involved in combinatorial activation of gene expression in pharyngeal muscle. Development 120: 21752186.
  • Okkema PG, Ha E, Haun C, Chen W, Fire A. 1997. The Caenorhabditis elegans NK-2 homeobox gene ceh-22 activates pharyngeal muscle gene expression in combination with pha-1 and is required for normal pharyngeal development. Development 124: 39653973.
  • Olson EN. 2006. Gene regulatory networks in the evolution and development of the heart. Science 313: 19221927.
  • Packard A. 1972. Cephalopods and fish: the limits of convergence. Biol Rev 47: 241307.
  • Pilon M, Morck C. 2005. Development of Caenorhabditis elegans pharynx, with emphasis on its nervous system. Acta Pharmacol Sin 26: 396404.
  • Reger J. 1964. The fine structure of the fibrillar network and sarcoplasmic reticulum in smooth muscle cells of Ascaris lumbricoides (var, suum). J Ultrastruct Res 10: 4857.
  • Rosenbluth J. 1965. Ultrastructural organization of obliquely striated muscle fibers in Ascaris lumbricoides. J Cell Biol 25: 495515.
  • Schipp R. 1987. General morphological and functional characteristics of the cephalopod circulatory system. An introduction. Experientia 43: 474477.
  • Schipp R, Schäfer A. 1969. Vergleichende elektronenmikroskopische Untersuchungen an den zentralen Herzorganen von Cephalopoden (Sepia officinalis). Die Feinstruktur des Herzens. Z Zellforsch 98: 576598.
  • Tapscott SJ. 2005. The circuitry of a master switch: Myod and the regulation of skeletal muscle gene transcription. Development 132: 26852695.
  • Wells M, Smith P. 1987. The performance of the octopus circulatory system: a triumph of engineering over design. Experientia 43: 487499.
  • Williamson R, Chrachri A. 2007. A model biological neural network: the cephalopod vestibular system. Philos Trans R Soc Lond B Biol Sci 362: 473481.
  • Yin Z, Frasch M. 1998. Regulation and function of tinman during dorsal mesoderm induction and heart specification in Drosophila. Dev Genet 22: 187200.
  • Zaffran S, Frasch M. 2002. Early signals in cardiac development. Circ Res 91: 457469.
  • Zaffran S, Reim I, Qian L, Lo PC, Bodmer R, Frasch M. 2006. Cardioblast-intrinsic tinman activity controls proper diversification and differentiation of myocardial cells in Drosophila. Development 133: 40734083.