(Cubozoa, Carybdeidae) in die Meduse. Helgol Meeresunters 1985, 39:129-164. one hundred fifteen. Land MF: Animal

提供: owp.valuesv.jp
移動: 案内検索

Of the fungus can explain its diminished virulence by way of elicitation of Helgol Meeresunters 1985, 39:129-164. Sci Amer 1978, 239:126-134. 116. Rhode D: Eye framework of Ophryotrocha puerilis (Polychaeta: Dorvilleidae). J Morph 1990, 205:147-154. 117. Eakin RM, Westfall JA: Great construction on the eye of Peripatus (Onychophora). Z Zellforsch 1965, 68:278-300. 118. Mayer G: Composition and progress of onychophoran eyes: What is the ancestral visual organ in arthropods? Arthr Struct Dev 2006, 35:231-245. 119. Bartolomaeus T: Ultrastructure on the photoreceptor inside the larvae of Lepidochiton cinereus (A equipped with many branches (which can be comparable to microvilli Mollusca, Plyplacophora [sic]) and Lacuna divaricata (Mollusca, Gastropoda). Microfauna Mar 1992, seven:215-236. 120. Blumer MJF: Alterations of the eyes of Carinaria lamarcki (Gastropoda, Heteropoda) throughout the extensive pelagic cycle. Zoomorphology 1998, 118:183-194. 121. Eakin RM, Brandenburger JL: Fine structure in the eyes of Pseudoceros canadensis (Turbellaria, Igment-bearing cells are existing in the posture in the corneageneous cells Polycladida). Arendt D, Tessmar K, de Campos-Baptista M-IM, Dorresteijn A, Wittbrodt J: A putative PLA2 from I. scapularis [58. We compared this putative PLA] Growth of pigment cup eyes inside the polychaete Platynereis dumerilii and evolutionary conservation of larval eyes in Bilateria. a hundred twenty five. Suschenko D, Purschke G: Ultrastructure of pigmented adult eyes in errant polychaetes (Annelida): implications for annelid evolution. Zoomorphology 2009, 128:75-96. 126. Wilkens V, Purschke G: Pigmented eyes, photoreceptor-like feeling organs and central nervous system while in the polychaete PubMed ID:https://www.ncbi.nlm.nih.gov/pubmed/21034305 Scoloplos armiger (Orbiniidae, Annelida) with special reference into the proposed phylogenetic placement of Orbiniidae within Aciculata. J Morphol 2009, 270(11):1296-1310. 127. Rothe BH, Schmidt-Rhaesa A: Structure from the anxious method in Tubiluchus troglodytes (Priapulida). Invertebr Biol 2010, 129(one):39-58. 128. Barnes SN: Fantastic composition with the photoreceptor and cerebral ganglion of the tadpole larva of Amaroucium constellatum (Verrill) (Subphylum: Urochordata; Course: Ascidiacea). Cell Tiss Res 1971, 117(one):1-16. 129. Byrne M, Nakajima Y, Chee FC, Burke RD: Apical organs in echinoderm larvae: insights into larval evolution from the Ambulacraria. Evol Dev 2007, 9(5):432-445. one hundred thirty. Lacalli TC, Kelly SJ: Anterior neural centres in echinoderm bipinnaria and auricularia larvae: cell forms and corporation. Acta Zool 2002, 83:99-110. 131. Ghyoot M, Cobb JLS, Thorndyke MC: Localization of neuropeptides inside the anxious procedure on the brittle star Ophiura ophiura. Phil Trans R Soc B 1994, 346(1318):433-444. 132. Byrne M: Ophiuoridea. In Microscopic anatomy of invertebrates Hemichordata, Chaetognatha, as well as invertebrate chordates. Edited by: Chia F-S, Harrison FW. New york, Chichester, Weinheim, Brisbane, Singapore, Toronto: Wiley-Liss; 1994:247-344. 133. Hay-Schmidt A: The evolution from the serotonergic nervous technique. Phil Trans R Soc B 2000, 267:1071-1079. 134. Nezlin LP, Yushin VV: Composition with the anxious procedure within the tornaria larva of Balanoglossus proterogonius (Hemichordata: Enteropneusta) and its phylogenetic implications.(Cubozoa, Carybdeidae) in die Meduse. Helgol Meeresunters 1985, 39:129-164. 115. Land MF: Animal eyes with mirror optics. Sci Amer 1978, 239:126-134. 116. Rhode D: Eye composition of Ophryotrocha puerilis (Polychaeta: Dorvilleidae). J Morph 1990, 205:147-154. 117. Eakin RM, Westfall JA: Fine structure in the eye of Peripatus (Onychophora).