Three novel human sequences showing striking homology to the recently described bovine Ca 2+ /calmodulin kinase II-dependent epithelial chloride channel bCaCC have been identified in an expressed sequence tags database. Full-length clones were isolated using a 5P P RACE approach. The encoded predicted proteins display 65% overall homology to bCaCC. Tissue expression patterns of the corresponding genes, designated as hCaCC-1, -2 and -3, appear to be highly restricted, with the first two genes primarily expressed in the digestive tract. Another original feature as compared to the CaCC family members is the fact that hCaCC-2 also shows expression in the brain. Taken together these findings demonstrate the existence of several CaCC-like genes in humans, some of which display distinct tissue specificity patterns within the CaCC subfamily of chloride channels.z 1999 Federation of European Biochemical Societies.
A new member of the two transmembrane domain potassium (K + ) channel family was identified and isolated from a human brain cDNA library. The cDNA clone contains an open reading frame which encodes a 360 amino acid sequence with a characteristic P domain flanked by two hydrophobic regions representing the membrane spanning segments. The closest homologue of this gene product is the inwardly rectifying potassium channel subunit, Kir1.2 (identity approximately 42%). Northern blot analysis of human tissues with a selective cDNA probe for this new K + subunit showed a single major transcript of 3.4 kb predominantly expressed at high levels in small intestine, with lower levels in stomach, kidney and brain. The main regions of expression in the central nervous system were medulla, hippocampus and corpus callosum. cRNA-injected oocytes and transiently transfected HEK293 cells expressed a K + conductance which displays an inward rectification. This conductance is blocked by cesium and barium but is insensitive to tolbutamide and diazoxide even upon co-transfection of this novel subunit with the plasmid encoding the sulfonylurea receptor SUR1. Taken together, these results demonstrate that we have isolated and characterized a novel K + channel subunit belonging to the inwardly rectifying K + (Kir) channel family to which, upon homology classification, we have given the nomenclature Kir7.1.z 1998 Federation of European Biochemical Societies.
The rotund (rn) locus ofDrosophila melanogaster at cytogenetic position 84D3,4 has been isolated and cloned on the basis of the mutant phenotpe: an absence of structures in the subdistal regions of the appendages. The shortened appendages are the consequence of a localized cell death in the imaginal discs, precursors of the adult appendages. Physical characterization of the rn locus has demonstrated that it is relatively large, occupying a minimum of 50 kb. There are two major transcripts of 1.7 kb (ml.7) and 5.3 kb (m5.3). We present here the sequence analysis of ml.7 and its putative product, rnprotl.7, and show that rnprotl.7 is similar to the product of the human n-chimaerin gene, which is expressed in brain and testes. Recently, the GAP activity of n-chimaerin was demonstrated and shown to be specific for the Rac subfamily of the Ras oncoproteins. The Rac proteins have been implicated in the regulation of secretory processes. In addition to being expressed in the imaginal discs, the ml.7 racGAP transcript was detected in developmentally specific germ line cells of the testes, the primary spermatocytes.
The rotund (rn) mutation in Drosophila is unique in that its phenotype is limited to the deletion of specific distal parts, though not the extremities, of all adult appendages. We have cloned the rn gene, located at cytogenetic position 84D3,4, by chromosomal walking. The functional rn unit, defined genetically by the localization of 13 noncomplementing rn alleles, covers -50 kb of DNA. Despite different developmental profiles, two transcript size classes (1.7 and 5.3 kb) from this region show an indistinguishable pattern of spatial expression in the imaginal discs at the white pupa stage. There is a high correlation between the specificity of the mutant phenotype and the accumulation of transcripts in the presumptive distal regions of the cuticleforming epithelial cells of the affected discs; it is, in fact, the first gene reported whose expression is localized with respect to the proximo distal-forming axis. For both transcripts, we have also found, uniquely in the wing disc, expression limited to the anterior region of the mesodermally derived adepithelial cells, which contribute to the muscles of the thorax. The imaginal discs of Drosophila melanogaster are the primordia of the adult cuticular structures of the head, thorax, genitalia, and analia. The discs form as invaginations of the ectoderm from cells set aside at the blastoderm stage. They grow during the larval stages and then evaginate and differentiate during pupation. Each disc gives rise to a specific part of the adult. Of the 19 imaginal discs, 14 give rise to structures that we consider appendages on the basis of their morphology: the wings, legs, halteres, antennae, and the proboscis. Several lines of evidence suggest that the mechanisms of pattern formation in these discs are similar. Their fate maps at the third-instar larval stage show that they are organized according to a concentric plan, the center of the disc giving rise to the distal tip of the appendage and the more peripheral parts to progressively more proximal structures. (For a review of disc development, see Bryant 1978). Finally, the combined results from studies of cell sorting {Garcia-Bellido 1966; Tobler 1966), disc regeneration (Haynie 19821, and several homeotic mutants (Postlethwait and Schneiderman 19711 suggest that the same signals are used in all these discs to specify a cell's relative position, a conclusion consistent with Wolpert's theory of positional information (1969, 1971).The segmentation of the embryo of Drosophila is established by a stepwise process that subdivides the anteroposterior axis into segmental units within which ~Corresponding author. pattem is subsequently formed (Scott and O'Farrell 1986}. In the discs, both the polar coordinate [French et al. 19761 and secondary embryonic field (Meinhardt 1983} models propose that pattern is ultimately elaborated along the proximo-distal axis. Genetic evidence supporting this hypothesis is provided by the decapentaplegic (dpp} (Spencer et al. 19821 and wingless (wg) (Baker 19881 hypomorphic mutations. Mutati...
Thrombopoietin (TPO) is a haematopoietic growth factor responsible for megakaryocyte progenitor proliferation and differentiation. It belongs to the four-helix-bundle cytokine family and exerts its biological effects through binding to a specific receptor, c-Mpl. With the use of site-directed mutagenesis we have generated 20 TPO mutants. Each of the TPO mutants was produced in a eukaryotic expression system and the mutants' ability to induce the proliferation of factor-dependent c-Mpl-expressing megakaryoblastic M-O7e cells was compared with that of wild-type TPO. Among the mutations studied, 10 lead to a significant decrease in TPO bioactivity. Of these ten residues, three are located in helix A of the protein (Arg10, Lys14 and Arg17) and four in helix D (His133, Gln132, Lys138 and Phe141), indicating that in TPO, as in other cytokines, these two helices are important for functional cytokine/receptor interactions. Surprisingly, mutant Arg10-->Ala (R10A) lacked any proliferative activity, despite the fact that this mutation was recently reported to have no effect on TPO/c-Mpl binding in a TPO phage ELISA [Pearce, Potts, Presta, Bald, Fendly and Wells (1997) J. Biol. Chem. 272, 20595-20602]. The lack of M-O7e proliferation is probably due to an inability of R10A mutant to promote receptor dimerization and thus receptor activation. Moreover we found that the Arg10 and Arg17 residues of TPO seem to be specific determinants for TPO/c-Mpl recognition. We also demonstrate that the O-glycosylation site located at position 110 of TPO is not necessary for the bioactivity of the cytokine.
InDrosophila imaginal discs, pattern formation requires the activity of three positional information systems, antero-posterior (A/P), dorso-ventral (D/V) and proximo-distal (P/D). Three genes,Decapentaplegic, Distal-less androtund (rn), involved in pattern formation along the P/D axis have been characterized. Thern gene is required in a sub-distal region, localized at a similar position along the P/D axis in all appendages; it encodes two major transcripts, m1.7 and m5.3, both expressed in the central region of all the major imaginal discs. The present study of these transcripts in severalrn mutant favours m5.3 as encodingrn morphogenetic function in the imaginal discs. The fine characterization of its distribution partitions all major imaginal discs in domains along the P/D axis. The ventral and dorsal discs appear to be similarly but not identically organized: two P/D domains are evident in the wing and haltere discs whilst the leg and antenna discs appear to be composed of at least three. We also show that m5.3 is sex-regulated in the genital disc and thatrn function is required for proper development of a sub-distal structure of the female genitalia. This suggests that the primordia of the female genitalia may be organized in a similar way to the other imaginal discs, and strongly supports the hypothesis thatrn function is specific to pattern formation along the P/D axis and that it may be involved in the establishment or maintenance of this pattern.
The rotund (rn) locus of Drosophila melanogaster at cytogenetic position 84D3,4 has been isolated and cloned on the basis of the mutant phenotype: an absence of structures in the subdistal regions of the appendages. The shortened appendages are the consequence of a localized cell death in the imaginal discs, precursors of the adult appendages. Physical characterization of the rn locus has demonstrated that it is relatively large, occupying a minimum of 50 kb. There are two major transcripts of 1.7 kb (m1.7) and 5.3 kb (m5.3). We present here the sequence analysis of m1.7 and its putative product, rnprot1.7, and show that rnprot1.7 is similar to the product of the human n-chimaerin gene, which is expressed in brain and testes. Recently, the GAP activity of n-chimaerin was demonstrated and shown to be specific for the Rac subfamily of the Ras oncoproteins. The Rac proteins have been implicated in the regulation of secretory processes. In addition to being expressed in the imaginal discs, the m1.7 racGAP transcript was detected in developmentally specific germ line cells of the testes, the primary spermatocytes.
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