Novel Reticular Calcium Binding Protein Is Purified on Taipoxin Columns

Abstract: We identified, by affinity chromatography, two putative binding proteins for the presynaptic snake venom toxin taipoxin. We have previously characterized one of these proteins [neuronal pentraxin (NP)] as a neuronally secreted protein with homology to acute-phase proteins. Here we report the identification of the second protein as a 49-kDa lumenal calcium binding protein that we have named taipoxin-associated calcium binding protein 49 (TCBP-49). This protein contains six EF-hand putative calcium binding domains and the carboxyl-terminal sequence His-Asp-Glu-Leu (HDEL), identical to the yeast endoplasmic reticulum retention signal. Message for this protein is present in brain, liver, muscle, heart, kidney, and testis. Antibodies to this protein label reticular organelles of neurons and glia. This localization and the specific enrichment of native and recombinant TCBP-49 on columns of immobilized taipoxin raise the possibility that this protein interacts with internalized taipoxin, perhaps mediating its activation. The availability of pure TCBP-49 will allow direct tests of whether TCBP-49 alters the integrity of the oligomeric structure, phospholipase activity, or toxicity of taipoxin.     

A molecular phylogeny of the Cephalaspidea sensu lato (Gastropoda: Euthyneura): Architectibranchia redefined and Runcinacea reinstated

The monophyly and phylogenetic relationships of the Cephalaspidea sensu lato ( sensu   Burn and Thompson 1998 ) have been investigated by means of Bayesian, parsimony and distance analyses of nuclear (18S rRNA and 28S rRNA) and mitochondrial cytochrome oxidase I (COI) genes.
Results revealed the presence of three monophyletic groups among the Cephalaspidea s. l. (i) Architectibranchia ( sensu   Haszprunar 1985 , in part: including Acteonidae and Aplustridae, but excluding Diaphanidae), (ii) Cephalaspidea including Diaphanidae but not Runcinidae (both previously of uncertain systematic affinity), and (iii) Runcinacea.
The monophyly of the architectibranch families Acteonidae (represented by Acteon and Pupa ) and Aplustridae ( Hydatina and Micromelo ); of the runcinacean family Runcinidae ( Runcina ); and of the cephalaspidean families Aglajidae ( Chelidonura , Aglaja , Odontoglaja , Navanax and Philinopsis ), Bullidae ( Bulla ), Gastropteridae ( Siphopteron and Sagaminopteron ), Haminoeidae ( Atys , Haminoea , Phanerophthalmus and Smaragdinella, but not Ventomnestia ), and Retusidae ( Retusa and Pyrunculus , but not Volvulella ) is suggested. The families Scaphandridae ( Scaphander ) and Rhizoridae ( Volvulella ) are reinstated as valid. A new phylogenetic classification of the Cephalaspidea is proposed.     

Regeneration of neural crest derivatives in the <Emphasis Type="Italic">Xenopus</Emphasis>tadpole tail

Background  

After amputation of the Xenopus tadpole tail, a functionally competent new tail is regenerated. It contains spinal cord, notochord and muscle, each of which has previously been shown to derive from the corresponding tissue in the stump. The regeneration of the neural crest derivatives has not previously been examined and is described in this paper.