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Protein phosphatase modulation of the intercellular junctional communication: importance in cardiac myocytes 总被引:7,自引:0,他引:7
The rhythmic contraction of a four-chambered heart is a highly co-ordinated process, requiring the sequential activation of pacemaker cells and the propagation of activity throughout the whole myocardium. Gap-junctional channels, providing enclosed conduits for direct cell-to-cell transfer of ions and small molecules between adjacent cells, allow depolarising currents to flow from excited to non-excited regions of the network and a gradual spreading of the action potential. Gap-junctional channels are dodecamers of transmembrane proteins belonging in chordates to the connexin (Cx) family. In mammalian hearts, cardiomyocytes most prominently express junctional channels built of three Cxs: Cx40, Cx43 and Cx45. As with the great majority of Cx, they are phosphoproteins and exist under different phosphorylated levels. Phosphorylation, a widespread post-translational modification of proteins, is a primary means of mediating signal transduction events that control numerous cellular processes via a highly regulated dynamic interplay of protein kinases (PKs) and protein phosphatases (PPs). These processes appear implicated in the regulation of gap-junctional communication at several stages of the Cx lifecycle, including intracellular Cx trafficking, connexon assembly and disassembly, Cx degradation as well as the gating of gap-junction channels, but the underlying mechanisms remain poorly understood. Although PKs have an established role in this process, less is known about the involvement of PPs. The present review examines the roles played by protein dephosphorylation catalysers in the regulation of the gap-junctional communication in general, with a special focus on the junctional communication between cardiac cells. 相似文献
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In terms of number of species, perciform (perch-like) fishes are one of the most diversified groups of modern vertebrates.
Within this group, the family Cichlidae is best known for its spectacular adaptive radiation in the great lakes of East Africa.
The molecular tool kit used in the study of this radiation includes the major histocompatibility complex (Mhc) genes. To refine this tool, information about the organization of the Mhc regions is badly needed. In this study, the first step was taken toward providing such information for the Mhc class one regions of Oreochromis niloticus, a representative species of the tilapiine branch of the Cichlidae, for which good bacterial artificial chromosome library
is available. Screening of the library with class I gene probes led to the identification and isolation of 31 class-I-positive
clones. Sequencing of one of these clones and partial characterization of the remaining clones for the presence of class I
exons resulted in the construction of two contigs representing the class I region of this species as well as identification
of seven additional class-I-positive singleton clones. The O. niloticus genome was shown to contain at least 28 class I genes or gene fragments. The shorter of the two contigs was approximately
330 kb long and contained eight class I genes/gene fragments; the longer contig encompassed 1,200 kb of sequence and contained
minimally 17 class I genes/gene fragments; three additional class I genes were found to be borne by a clone that might be
part of the shorter contig.
Electronic supplementary material Supplementary material is available in the online version of this article at and is accessible for authorized users.
This work had been carried out in part at the Max-Planck-Institut für Biologie, Abteilung Immungenetik, Tübingen, Germany
(A.S., R.D., N.T., S.S., and J.K.).
The sequences reported in this paper have been deposited in the GenBank database (accession nos. AB270803–AB270897). 相似文献
915.
Studies here describe expression and sequence of several new bovine T cell receptor gamma (TRG) genes to yield a total of 11 TRG variable (TRGV) genes (in eight subgroups) and six TRG constant (TRGC) genes. Publicly available genomic sequences were annotated to show their placement. Homologous TRG genes in cattle and sheep were assigned, using four accepted criteria. New genes described here include the bovine TRGC6, TRGV2, and TRGV4, homologues of ovine TRGC4, TRGV2, and TRGV4, respectively. The bovine Vγ7 and BTGV1 clones (previously TRGV4 and TRGV2, respectively) were reassigned to new subgroups TRGV7 and TRGV8, respectively, with approval by the IMGT Nomenclature Committee. Three TRGV subgroups (TRGV5, TRGV6, and TRGV8) were further designated as TRGV5-1 and TRGV5-2, TRGV6-1 and TRGV6-2, and TRGV8-1 and TRGV8-2 because each subgroup is comprised of two mapped genes. The complete sequence of bovine TRGC5 is also reported, for which a limited number of nucleotides was previously available, and shown to be most closely related to ovine TRGC5. Analysis of circulating γδ T cells revealed that rearrangement of TRGV genes with TRGC genes is largely dictated by their proximity within one of the six genomic V-J-C cassettes, with all TRG genes expressed by bovine peripheral blood γδ T cells. Cattle are useful models for γδ T cell biology because they have γδ T cells that respond to isopentenylpyrophosphate (IPP) antigens, while mice do not, and some bovine TRGV genes cluster closely with human genes.Nucleotide sequence data reported are available in the DDBJ/EMBL/GenBank database under the accession numbers DQ179591, DQ179592, DQ179593, and DQ179594. 相似文献
916.
Major histocompatibility complex (MHC) class I genes play a crucial role in the immune defence against intracellular pathogens. An important evolutionary strategy is to generate and maintain a high level of diversity in these genes. Humans express three highly polymorphic classical MHC class I genes (HLA-A, HLA-B and HLA-C). In contrast, some species, for example rat and rhesus macaque, maintain diversity by generation of haplotypes that vary considerably with regard to the number and combination of transcribed genes. Cattle appear to use both strategies. We show that various combinations of six apparently classical genes, three of which are highly polymorphic, are transcribed on different haplotypes. Although additional sequences were identified in both cDNA and gDNA, it was not possible to assign them to any of these defined genes. Most were highly divergent or were non-classical class I genes. Thus, we found little evidence for frequent duplication and deletion of classical class I genes as reported in some other species. However, the maintenance of class I diversity in cattle may involve limited gene shuffling and deletion, possibly as a result of unequal crossing-over within the class I region.The first two authors made an equal contribution to this work. 相似文献
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