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ABSTRACT: We have performed an exhaustive characterization of the large Maf family of basic leucine zipper transcription factors in vertebrates using the genome data available, and studied the embryonic expression patterns of the four paralogous genes thus identified in Xenopus tropicalis. Our phylogenetic analysis shows that, in osteichthyans, the large Maf family contains four orthology classes, MafA, MafB, c-Maf and Nrl, which have emerged in vertebrates prior to the split between actinopterygians and sarcopterygians. It leads to the unambiguous assignment of the Xenopus laevis XLmaf gene, previously considered a MafA orthologue, to the Nrl class, the identification of the amphibian MafA and c-Maf orthologues and the identification of the zebrafish Nrl gene. The four X. tropicalis paralogues display partially redundant but nevertheless distinct expression patterns in the somites, developing hindbrain, pronephros, ventral blood island and lens. Comparisons with the data available in the mouse, chick and zebrafish show that these large Maf expression territories are highly conserved among osteichthyans but also highlight a number of differences in the timing of large Maf gene expression, the precise extent of some labelled territories and the combinations of paralogues transcribed in some organs. In particular, the availability of robust phylogenies leads to a reinterpretation of previous expression pattern comparisons, suggesting an important part for function shuffling within the gene family in the developing lens. These data highlight the importance of exhaustive characterizations of gene families for comparative analyses of the genetic mechanisms, which control developmental processes in vertebrates.
Archiv für Entwickelungsmechanik der Organismen 08/2005; 215(7):327-39. · 1.77 Impact Factor
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ABSTRACT: We have performed a detailed analysis of the expression pattern of the three gnathostome Otx classes in order to gain new insights into their functional evolution. Expression patterns were examined in the developing eye of a chondrichthyan, the dogfish, and an amniote, the chick, and compared with the capacity of paralogous proteins to induce a pigmented phenotype in cultured retina cells in cooperation with the bHLH-leucine zipper protein Mitf. This analysis indicates that each Otx class is characterized by highly specific and conserved expression features in the presumptive RPE, where Otx1 and Otx2, but not Otx5, are transcribed at optic vesicle stages, in the differentiating neural retina, where Otx2 and Otx5 show a conserved dynamic expression pattern, and in the forming ciliary process, a major site of Otx1 expression. Furthermore, the paralogous proteins of the dogfish and the mouse do not display any significant difference in their capacity to induce a pigmented phenotype, suggesting a functional equivalency in the specification and differentiation of the RPE. These data indicate that specific functions selectively involving each Otx orthology class were fixed prior to the gnathostome radiation and highlight the prominent role of regulatory changes in the functional diversification of the multigene family.
Developmental Biology 03/2005; 278(2):560-75. · 4.07 Impact Factor
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ABSTRACT: Despite the great morphological diversity of early embryos, the underlying mechanisms of gastrulation are known to be broadly conserved in vertebrates. However, a number of genes characterized as fulfilling an essential function in this process in several model organisms display no clear ortholog in mammalian genomes. We have devised an in silico phylogenomic approach, based on exhaustive similarity searches in vertebrate genomes and subsequent bayesian phylogenetic analyses, to identify such missing genes, presumed to be highly divergent. This approach has been used to identify mammalian orthologs of Not, an homeodomain containing gene previously characterized in Xenopus, chick and zebrafish as playing a critical role in the formation of the notochord. This attempt led to the identification of a highly divergent mammalian Not-related gene in the mouse, human and rat. The results from phylogenetic reconstructions, synteny analyses, expression pattern analyses in wild-type and mutant mouse embryos, and overexpression experiments in Xenopus embryos converge to confirm these genes as representatives of the Not family in mammals. The identification of the mammalian Not gene delivers an important component for the understanding of the genetics underlying notochord formation in mammals and its evolution among vertebrates. The phylogenomic method used to retrieve this gene thus provides a tool, which can complement or validate genome annotations in situations when they are weakly supported.
Gene Expression Patterns 12/2004; 5(1):11-22. · 2.02 Impact Factor
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ABSTRACT: We report the characterization of an Otx2 and an Otx5 orthologue in the urodele Pleurodeles waltl. These two genes, termed PwOtx2 and PwOtx5, share highly conserved expression domains with their gnathostome counterparts at tailbud stages, like the developing forebrain ( PwOtx2), or the embryonic eye and epiphysis ( PwOtx5). As in Xenopus laevis, both are also transcribed in the dorsal lip of the blastopore during gastrulation and in anterior parts of the neural plate during neurulation. In addition, PwOtx5 displays a prominent expression in the developing balancers and the lateral non-neural ectoderm during neurulation, from which they derive. By contrast, PwOtx2 expression remains undetectable in the balancers and their presumptive territory. These data suggest that PwOtx5, but not PwOtx2, may be involved in the differentiation and early specification of balancers. Comparisons of Otx5 expression patterns in P. waltland X. laevis embryos suggest that, as previously shown for Otx2, changes in the regulatory mechanisms controlling Otx5 early expression in the non-neural ectoderm may occur frequently among amphibians. These changes may be related to the rise of cement glands in anurans and of balancers in urodeles. This hypothesis could account for some similarities between the two organs, but does not support a homology relationship between them.
Archiv für Entwickelungsmechanik der Organismen 10/2002; 212(8):380-7. · 1.77 Impact Factor
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ABSTRACT: We report the characterization of three Emx genes in a chondrichthyan, the dogfish Scyliorhinus canicula. Comparisons of these genes with their osteichthyan counterparts indicate that the gnathostome Emx genes belong to three distinct orthology classes, each containing one of the dogfish genes and either the tetrapod Emx1 genes (Emx1 class), the osteichthyan Emx2 genes (Emx2 class) or the zebrafish Emx1 gene (Emx3 class). While the three classes could be retrieved from the pufferfish genome data, no indication of an Emx3-related gene in tetrapods could be found in the databases, suggesting that this class may have been lost in this taxon. Expression pattern comparisons of the three dogfish Emx genes and their osteichthyan counterparts indicate that not only telencephalic, but also diencephalic Emx expression territories are highly conserved among gnathostomes. In particular, all gnathostomes share an early, dynamic phase of Emx expression, spanning presumptive dorsal diencephalic territories, which involves Emx3 in the dogfish, but another orthology class, Emx2, in tetrapods. In addition, the dogfish Emx2 gene shows a highly specific expression domain in the cephalic paraxial mesoderm from the end of gastrulation and throughout neurulation, which suggests a role in the segmentation of the cephalic mesoderm.
Developmental Biology 08/2002; 247(2):390-404. · 4.07 Impact Factor
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ABSTRACT: We report the full-length coding sequence and the expression pattern during neurulation and early organogenesis of ScOtx5, a novel member of the Otx gene family in the dogfish Scyliorhinus canicula. Phylogenetic analyses confirm that ScOtx5 is closely related to the Xenopus XlOtx5/ 5bgenes, and also to the Crx genes characterized in mammals and zebrafish. This supports the hypothesis that these genes define a third gnathostome Otx orthology class. During neurulation, ScOtx5 transcripts are detected in the foregut diverticulum and the anterior neuroectoderm. At the onset of organogenesis, ScOtx5 is transcribed over a broad domain spanning the whole prosencephalon and mesencephalon, albeit with a much lower signal intensity than its paralogues Otx1 and Otx2. At later stages, four major expression sites are observed: the developing eye and epiphysis, the olfactory placodes and a broad epidermal domain in the dorsal part of the head. In the embryonic eye, the signal is first detected in the presumptive pigmented retina and slightly later in the adjacent outer layer of the neural retina, fated to photoreceptors. The comparison of this expression pattern with those of osteichthyan Otx genes suggests that a role in the specification of photoreceptors may correspond to a functional specialization of Otx5and Crx genes, fixed early in the gnathostome lineage, prior to the splitting of chondrichthyans and osteichthyans. In contrast, the roles played by ScOtx5 in the retinal pigmented epithelium or in the olfactory placodes may be fulfilled by different combinations of paralogous genes in other gnathostome taxa.
Archiv für Entwickelungsmechanik der Organismen 01/2002; 211(11):533-44. · 1.77 Impact Factor
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ABSTRACT: Using a degenerate PCR approach, we performed an exhaustive search of Otx genes in the reedfish Erpetoichthys calabaricus, the dogfish Scyliorhinus canicula, and the hagfish Myxine glutinosa. Three novel Otx genes were identified in each of these species, and their deduced protein sequences were determined over a large C-terminal fragment located immediately downstream of the homeodomain. Like their lamprey and osteichthyan counterparts, these nine genes display a tandem duplication of a 20--25-residue C-terminal domain, which appears to be a hallmark of all craniate Otx genes identified thus far, including the highly divergent Crx gene. Phylogenetic analyses show that, together with their osteichthyan counterparts, the dogfish and reedfish genes can be classified into three gnathostome orthology classes. Two of the three genes identified in each of these species belong to the Otx1 and Otx2 orthology classes previously characterized in osteichthyans. The third one unambiguously clusters with the Otx5/Otx5b genes recently characterized in Xenopus laevis, thus defining a novel orthology class. Our results also strongly suggest that the highly divergent Crx genes identified in humans, rodents, and oxen are the mammalian representatives of this third class. The hagfish genes display no clear relationships to the three gnathostome orthology classes, but one of them appears to be closely related to the LjOtxA gene, previously identified in Lampetra japonica. Taken together, these data support the hypothesis that the Otx multigene families characterized in craniates all derive from duplications of a single ancestral gene which occurred after the splitting of cephalochordates but prior to the gnathostome radiation. Using site-by-site sequence comparisons of the gnathostome Otx proteins, we also identified structural constraints selectively acting on each of the three gnathostome orthology classes. This suggests that specialized functions for each of these orthology classes were fixed in the gnathostome lineage prior to the splitting between osteichthyans and chondrichthyans.
Molecular Biology and Evolution 10/2001; 18(9):1668-78. · 5.55 Impact Factor
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ABSTRACT: Genetic and embryological experiments have demonstrated an essential role for the visceral endoderm in the formation of the forebrain; however, the precise molecular and cellular mechanisms of this requirement are poorly understood. We have performed lineage tracing in combination with molecular marker studies to follow morphogenetic movements and cell fates before and during gastrulation in embryos mutant for the homeobox gene Otx2. Our results show, first, that Otx2 is not required for proliferation of the visceral endoderm, but is essential for anteriorly directed morphogenetic movement. Second, molecules that are normally expressed in the anterior visceral endoderm, such as Lefty1 and Mdkk1, are not expressed in Otx2 mutants. These secreted proteins have been reported to antagonise, respectively, the activities of Nodal and Wnt signals, which have a role in regulating primitive streak formation. The visceral endoderm defects of the Otx2 mutants are associated with abnormal expression of primitive streak markers in the epiblast, suggesting that anterior epiblast cells acquire primitive streak characteristics. Taken together, our data support a model whereby Otx2 functions in the anterior visceral endoderm to influence the ability of the adjacent epiblast cells to differentiate into anterior neurectoderm, indirectly, by preventing them from coming under the influence of posterior signals that regulate primitive streak formation.
Development 04/2001; 128(5):753-65. · 6.60 Impact Factor
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ABSTRACT: Despite extensively divergent morphologies, the patterning of the embryonic brain is controlled by highly conserved genetic networks. Orthodenticle and empty spiracles-related homeodomain genes, which are expressed in insects as in vertebrates in anteriormost neuromeres of the embryonic brain, provide examples of such conservations. In gnathostomes, they form small multigene families, each containing three well-characterised orthology classes. In mice, paralogous genes play very different roles in the development of cephalic regions. Some of these roles are probably ancient and conserved in all chordates, while others, like the morphogenesis of gnathostomespecific characters, correspond to much more diversified functions. Genetic analyses in mice together with comparative analyses in a broad range of vertebrates provide new possibilities to investigate the molecular mechanisms which underlie these functional diversifications.
Journal de la Société de Biologie 02/2000; 194(2):81-6.
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ABSTRACT: Mechanisms of ITS2 excision from pre-rRNA remain largely elusive. In mammals, at least two endonucleolytic cleavages are involved, which result in the transient accumulation of precursors to 5.8S rRNA termed 8S and 12S RNAs. We have sequenced ITS2 in four new species of the Mus genus and investigated its secondary structure using thermodynamic prediction and comparative approach. Phylogenetic evidence supports an ITS2 folding organized in four domains of secondary structure extending from a preserved structural core. This folding is also largely conserved for the previously available mammalian ITS2 sequences, rat and human, despite their extensive sequence divergence relative to the Mus species. Conserved structural features include the structural core, containing the 3' end of 8S pre-rRNA within a single-stranded sequence, and a stem containing the 3' end of the 12S pre-rRNA species. A putative, phylogenetically preserved pseudoknot has been detected 1 nt downstream from the 12S 3' end. Two long complementarities have also been identified, in sequences conserved among vertebrates, between the pre-rRNA 32S and the snoRNA (small nucleolar RNA) U8 which is required for the excision of Xenopus ITS2. The first complementarity involves the 5.8S-ITS2 junction and 13 nt at the 5' end of U8, whereas the other one occurs between a mature 28S rRNA segment known to be required for ITS2 excision and positions 15-25 of snoRNA U8. These two potential interactions, in combination with ITS2 folding, could organize a functional pocket containing three cleavage sites and key elements for pre-rRNA processing, suggesting a chaperone role for the snoRNA U8.
Nucleic Acids Research 07/1999; 27(11):2271-82. · 8.03 Impact Factor
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D Acampora, S Mazan,
F Tuorto,
V Avantaggiato,
J J Tremblay,
D Lazzaro,
A di Carlo,
A Mariano,
P E Macchia,
G Corte,
V Macchia,
J Drouin,
P Brûlet,
A Simeone
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ABSTRACT: Genetic and molecular approaches have enabled the identification of regulatory genes critically involved in determining cell types in the pituitary gland and/or in the hypothalamus. Here we report that Otx1, a homeobox-containing gene of the Otx gene family, is postnatally transcribed and translated in the pituitary gland. Cell culture experiments indicate that Otx1 may activate transcription of the growth hormone (GH), follicle-stimulating hormone (betaFSH), luteinizing hormone (betaLH) and alpha-glycoprotein subunit (alphaGSU) genes. Analysis of Otx1 null mice indicates that, at the prepubescent stage, they exhibit transient dwarfism and hypogonadism due to low levels of pituitary GH, FSH and LH hormones which, in turn, dramatically affect downstream molecular and organ targets. Nevertheless, Otx1-/- mice gradually recover from most of these abnormalities, showing normal levels of pituitary hormones with restored growth and gonadal function at 4 months of age. Expression patterns of related hypothalamic and pituitary cell type restricted genes, growth hormone releasing hormone (GRH), gonadotropin releasing hormone (GnRH) and their pituitary receptors (GRHR and GnRHR) suggest that, in Otx1-/- mice, hypothalamic and pituitary cells of the somatotropic and gonadotropic lineages appear unaltered and that the ability to synthesize GH, FSH and LH, rather than the number of cells producing these hormones, is affected. Our data indicate that Otx1 is a new pituitary transcription factor involved at the prepubescent stage in the control of GH, FSH and LH hormone levels and suggest that a complex regulatory mechanism might exist to control the physiological need for pituitary hormones at specific postnatal stages.
Development 05/1998; 125(7):1229-39. · 6.60 Impact Factor
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ABSTRACT: We have identified a novel mouse member of the Wnt family, Wnt13. Among mouse Wnt genes, Wnt13 is most closely related to Wnt2. Sequence comparisons and chromosomal localization strongly suggest that Wnt13, rather than Wnt2, is the mouse orthologue of both the human WNT13 and Xenopus XWnt2 genes. Wnt13 is expressed in the embryonic mesoderm during gastrulation. At later stages, transcripts are detected in the dorsal midline of the diencephalon and mesencephalon, the heart primordia, the periphery of the lung bud and the otic and optic vesicles. These data suggest that Wnt13 function might partially overlap with those of other Wnt genes in the cell signaling mechanisms controlling mesoderm specification during gastrulation and some aspects of brain, heart and lung formation.
Mechanisms of Development 05/1998; 73(1):107-16. · 2.83 Impact Factor
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ABSTRACT: The morphogenesis of the brain and the differentiation of the neural structures are highly complex processes. A series of temporally and spatially regulated morphogenetic events gives rise to smaller areas that are phylogenetically, functionally and often morphogenetically different. Candidate genes for positional information and differentiation during morphogenesis have been isolated. Both in vivo inactivation in mice and impairment in human diseases revealed, that they are required in regional specification and/or correct cell-type induction. We have previously cloned and characterized the murine Otx1 gene, which is related to orthodenticle (otd), a homeobox-containing gene required for Drosophila head development. Expression data during murine embryogenesis and postnatal brain development support the idea that Otx1 could be required for correct brain and sense organs development. To decipher its role in vivo we produced null mice by replacing Otx1 with the lacZ gene. Otx1-/- mice showed spontaneous epileptic behaviour and multiple abnormalities affecting mainly the telencephalic temporal and perirhinal areas, the hippocampus, the mesencephalon and the cerebellum, as well as the acoustic and visual sense organs. Our findings indicate that the Otx1 gene product is required for proper brain functions.
Nature Genetics 11/1996; 14(2):218-22. · 35.53 Impact Factor
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ABSTRACT: We have replaced part of the mouse homeogene Otx2 coding region with the E. coli lacZ coding sequence, thus creating a null allele of Otx2. By 9.5 dpc, homozygous mutant embryos are characterized by the absence of forebrain and midbrain regions. From the early to midstreak stages, endomesodermal cells expressing lacZ fail to be properly localized anteriorly. In the ectodermal layer, lacZ transcription is progressively extinguished, being barely detectable by the late streak stage. These data suggest that Otx2 expression in endomesoderm and ectoderm is required for anterior neuroectoderm specification. In gastrulating heterozygous embryos, a post-transcriptional repression acts on lacZ transcripts in the ectoderm, but not in the external layer, suggesting that different post-transcriptional mechanisms control Otx2 expression in both layers.
Development 11/1995; 121(10):3279-90. · 6.60 Impact Factor
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ABSTRACT: The processing of pre-rRNA in eukaryotic cells involves a complex pattern of nucleolytic reactions taking place in preribosomes with the participation of several nonribosomal proteins and small nuclear RNAs. The mechanism of these reactions remains largely unknown, mainly because of the absence of faithful in vitro assays for most processing steps. We have developed a pre-rRNA processing system using the transient expression of ribosomal minigenes transfected into cultured mouse cells. Truncated mouse or human rRNA genes are faithfully transcribed under the control of mouse promoter and terminator signals. The fate of these transcripts is analyzed by the use of reporter sequences flanking the rRNA gene inserts. Both mouse and human transcripts, containing the 3' end of 18S rRNA-encoding DNA (rDNA), internal transcribed spacer (ITS) 1, 5.8S rDNA, ITS 2, and the 5' end of 28S rDNA, are processed predominantly to molecules coterminal with the natural mature rRNAs plus minor products corresponding to cleavages within ITS 1 and ITS 2. To delineate cis-acting signals in pre-rRNA processing, we studied series of more truncated human-mouse minigenes. A faithful processing at the 18S rRNA/ITS 1 junction can be observed with transcripts containing only the 60 3'-terminal nucleotides of 18S rRNA and the 533 proximal nucleotides of ITS 1. However, further truncation of 18S rRNA (to 8 nucleotides) or of ITS 1 (to 48 nucleotides) abolishes the cleavage of the transcript. Processing at the ITS 2/28S rRNA junction is observed with truncated transcripts lacking the 5.8S rRNA plus a major part of ITS 2 and containing only 502 nucleotides of 28S rRNA. However, further truncation of the 28S rRNA segment to 217 nucleotides abolishes processing. Minigene transcripts containing most internal sequences of either ITS 1 or ITS 2, but devoid of ITS/mature rRNA junctions, are not processed, suggesting that the cleavages in vivo within either ITS segment are dependent on the presence in cis of mature rRNA sequences. These results show that the major cis signals for pre-rRNA processing at the 18S rRNA/ITS 1 or the ITS2/28S rRNA junction involve solely a limited critical length of the respective mature rRNA and adjacent spacer sequences.
Molecular and Cellular Biology 07/1994; 14(6):4044-56. · 5.53 Impact Factor
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ABSTRACT: The juxtacentromeric region of the human chromosome 17 short arm (17p11.2-p12) contains genes involved in the Charcot-Marie-Tooth type 1A disease (CMT1A) and the Smith-Magenis syndrome (SMS). CMT1A is associated with a duplication of a short segment whereas SMS is linked to microdeletions, extending toward the centromere. We describe the construction and analysis of a 5 Mb YAC contig spanning the CMT1A duplicated segment and the distal part of four SMS microdeletions. We concluded that the YAC contig contains about 1Mb of genomic DNA which is deleted in the four SMS patients analysed. Moreover two YACs contain both STS deleted in SMS (U3) and STS duplicated in CMT1A (5H5), but the proximal breakpoint associated with the CMT1A duplication is not the same as the distal SMS breakpoint we studied. Finally we located five new STS in SMS deletion. Two of them, a microsatellite (D17S805(23)) and the gene coding for small nuclear RNA U3, have been localized in the contig we described. We may also note that snU3 is the first expressed sequence localized in an SMS deletion so far. The possible participation of this gene in the SMS phenotype is discussed.
Human Molecular Genetics 09/1993; 2(8):1235-43. · 7.64 Impact Factor
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ABSTRACT: rRNA processing pathways in humans have been reinvestigated through systematic Northern-blot hybridizations of HeLa cell nuclear RNA with a collection of digoxigenin-labeled rDNA probes from different regions of the human rDNA transcriptional unit. In addition to the known 45S, 41S, 32S and 21S pre-rRNA, two major pre-rRNA fractions were identified; a '30S' (about 5800 nucleotides) precursor to 18S rRNA containing an external transcribed spacer at the 5' end (ETS) and internal transcribed spacer (ITS) 1 sequences and a '12S' (about 950 nucleotides) precursor to 5.8S rRNA containing ITS 2 sequences. These pre-rRNA species do not react with probes located near the 3'-terminal segments of ITS 1 or ITS 2, thus suggesting that processive endonuclease cuts occur within ITS spacer sequences. The simultaneous occurrence of at least two alternative 45S pre-rRNA processing pathways is deduced, which correspond to a different temporal order of endonuclease attack at the sites located near the 5' end of 18S rRNA and within ITS 1. In-vivo labeling experiments with [14C]uridine revealed that inhibition of protein synthesis with cycloheximide abolishes the endonuclease cut at the 5' end of 18S rRNA and the formation of 41S pre-rRNA, while the cut within ITS 1 and the processing to 32S and '30S' pre-rRNA remains relatively unaltered.
European Journal of Biochemistry 03/1993; 212(1):211-5. · 3.58 Impact Factor
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ABSTRACT: U3 small nucleolar RNA, which participates in eukaryotic rRNA processing, is encoded by a small multigene family in mammals. In humans, the four to six gene copies code for an identical U3 RNA molecule; rodents, however, have two variant forms of these genes, U3A and U3B. We show that all U3 genes in humans map to a single chromosomal locus, 17p12-->-p11, which corresponds exactly to the region of mouse Chromosome 11 where the four U3B genes are clustered. By contrast, in mouse the unique U3A gene copy is not linked to the U3B gene cluster but maps to another chromosome (the B2-B4 region of Chromosome 10).
Cytogenetics and cell genetics 01/1993; 62(4):203-6.
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ABSTRACT: We have studied, at the electron microscope level, the reorganizations of nucleolar ultrastructure induced by actinomycin D (AMD) in different conditions of drug treatment associated with an inhibition of rRNA synthesis. We have analyzed in parallel the localizations of ribosomal genes, of their transcripts, of various pre-rRNA intermediates, as well as of U3 RNA and fibrillarin by in situ hybridization with nucleic acid probes and immunocytological detection on thin sections of human and mouse cells. Consistent with previous observations, dense fibrillar component (DFC) and granular component (GC) appear to contain distinct pre-rRNA species at different stages of their processing. DFC appears as a major site of U3 RNA accumulation, but a very substantial fraction of nucleolar U3 RNA is also found in GC, colocalizing with partially processed pre-rRNAs. Remarkably, the major nucleolar components retain their ultrastructural appearance when extensively depleted of their pre-rRNA moiety, and ribosomal genes are always detected over fibrillar center (FC), even after extended AMD treatments which result in the characteristic segregation of nucleolar components. Moreover, while for GC the U3 RNA and pre-rRNA contents evolve in parallel following the cessation of rRNA synthesis, a dramatic uncoupling is observed for DFC. The persistent presence of U3 RNA and fibrillarin after pre-rRNA depletion suggests that DFC could represent an anchorage site for U3 snRNPs, before their entering another cycle of pre-rRNA processing reactions.
European Journal of Cell Biology 07/1992; 58(1):149-62. · 2.81 Impact Factor
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ABSTRACT: Two markedly different forms of U3 RNA are present in mouse, the relative abundance of which largely depends upon the tissues. In all cases studied so far, the more abundant form is U3B, encoded by four previously characterized genes. We report here the isolation and analysis of the unique gene encoding the U3A variant, which completes the characterization of the mouse U3 multigene family. Comparisons with rat U3 genes indicate that the diversification of the A and B forms has predated the mouse/rat separation. The two forms of U3 RNA are submitted to similar, but not identical, primary and secondary structure constraints. As for the sequences flanking the RNA coding region, similar observations emerge for both types of genes: for each type, the 5' flanks are strongly conserved between mouse and rat, over at least the proximal 500 bp, whereas only about 30 bp of proximal 3' flanks are preserved, which include a signal for the formation of vertebrate U small nRNA 3' end. By contrast the 5' flanks of the two types of genes diverge extensively from each other, either in mouse or in rat, and could be involved in the differential expression of the two forms. Even over the few conserved motifs thought to be involved in the basic transcriptional control of vertebrate U small nRNA genes, the A and B forms of U3 genes exhibit specific differences maintained in the two rodent species.
European Journal of Biochemistry 06/1992; 205(3):1033-41. · 3.58 Impact Factor
