Evolutionary relationship between human and mouse immunoglobulin kappa light chain variable region genes

Similar to the Igh-V multigene family, the human or mouse Igk-V repertoirer is a distorted continuum of homologous genes that may be grouped into families displaying >80% nucleic acid sequence similarity among their members. systematic interspecies sequence comparisons reveal that most human Igk-V gene families exhibit clear homology to mouse Ogk-V families (sequence similarity >74%). A hypothetical phylogenetic tree of Igk-V genes predicts that a minimum of seven Igk-V genes/families predate mammalian radiation. In two cases, several interrelated mouse Igk-V families exhibit phylogenetic equidistance with just one human Igk-V family, implying a more pronounced divergence for the elevated number of Igk-V gene families in the mouse. Mouse-human Igk-V comaprisons, moreover, illustrate how expansion, contraction, and perhaps deletion of Igk-V gene families shape the Igk-V repertoire during mammalian evolution.     

Lysosomal enzymes produced by immobilized Tetrahymena thermophila

Summary The ciliated protozoon Tetrahymena thermophila was immobilized for production of secreted lysosomal enzymes in two ways. Cells entrapped in solid Ca-alginate spheres survived but were unable to grow and multiply. However, when encapsulated in hollow Ca-alginate spheres Tetrahymena multiplied well, reaching 0.9 × 10⁷ cells/ml. These immobilized cells secreted large amounts of lysosomal enzymes when the medium was changed daily. This system was transferred to a reactor scale using a conical bubble column reactor for semicontinuous cultivation of the encapsulated cells. Under these conditions -glucosidase, -glucosidase, -hexosaminidase and acid phosphatase were produced for at least 4 weeks. The hollow spheres were stable for 3 months and contained living and secreting Tetrahymena cells during this time. Immobilized T. thermophila cells can thus serve as a good source for production of commercially interesting enzymes. Offprint requests to: A. Tiedtke     

Characterization of a glyphosate-insensitive 5-enolpyruvylshikimic acid-3-phosphate synthase

A glyphosate (N-[phosphonomethyl]glycine)-insensitive 5-enolpyruvylshikimic acid-3-phosphate (EPSP) synthase has been purified from a strain of Klebsiella pneumoniae which is resistant to this herbicide [(1984) Arch. Microbiol. 137, 121-123] and its properties compared with those of the glyphosate-sensitive EPSP synthase of the parent strain. The apparent K_m values of the insensitive enzyme for phosphoenolpyruvate (PEP) and shikimate 3-phosphate (S-3-P) were increased 15.6- and 4.3-fold, respectively, as compared to those of the sensitive enzyme, and significant differences were found for the optimal pH and temperature, as well as the isoelectric points of the two enzymes. While PEP protected both enzymes against inactivation by N-ethylmaleimide, 3-bromopyruvate, and phenylglyoxal, glyphosate protected only the sensitive enzyme.     

An autoradiographic and cytophotometric study of oogenesis in a pulmonate snail,Planorbarius corneus

Summary The spatial and temporal patterns of macromolecular syntheses in oocytes and somatic auxiliary cells of the snail Planorbarius corneus have been investigated by autoradiography and cytophotometry. Oogenesis has been divided into three stages, comprising early meiosis up to diplotene (stage I), previtellogenetic growth phase (stage II), and vitellogenesis (stage III). No DNA synthesis was found in any oocyte stage. In stage-I oocytes, only nucleoli were found labelled with ³H-uridine. Oocyte nuclei of stage II and III actively synthesize RNA in nucleoli and chromosomes. The most intense incorporation of uridine in chromatin probably occurs during the previtellogenesis — vitellogenesis transition period during which cytological findings suggest well developed lampbrush chromosomes. RNA synthesis in amphinucleoli of stage-III oocytes is restricted to basophilic nucleolar parts, whereas acidophilic parts (protein bodies) neither synthesize nor store RNA. During vitellogenesis oocytes incorporate amino acids into yolk platelet proteins. Radioactive proteins are found in yolk platelet precursors 5 h after injection of the tracer and in yolk platelets 3 h thereafter. The labelling pattern suggests that oocytes synthesize certain hitherto unidentified yolk components. No evidence for the participation of follicle cells in synthesis and transport of vitellogenic proteins has been obtained from autoradiography. Cytological findings suggest an important role for these cells in oogenesis. They are highly active in RNA and protein synthesis. Cellular differentiation is accompanied by polyploidization of the nuclei which attain a highest DNA content of 256 c. Polyploidization probably occurs in incremental steps as indicated by complete endomitotic chromosomal cycles. Autoradiographs show that, during vitellogenesis, oocytes do not incorporate significant amounts of glucose, and only certain follicle cells were labelled with glucose, probably indicating the synthesis of glycogen.