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- Kemkemer, Claus, et al.
(författare)
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Enrichment of brain-related genes on the mammalian X chromosome is ancient and predates the divergence of synapsid and sauropsid lineages
- 2009
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Ingår i: Chromosome Research. - : Springer Science and Business Media LLC. - 0967-3849 .- 1573-6849. ; 17:6, s. 811-820
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Tidskriftsartikel (refereegranskat)abstract
- Previous studies have revealed an enrichment of reproduction- and brain-related genes on the human X chromosome. In the present study, we investigated the evolutionary history that underlies this functional specialization. To do so, we analyzed the orthologous building blocks of the mammalian X chromosome in the chicken genome. We used Affymetrix chicken genome microarrays to determine tissue-selective gene expression in several tissues of the chicken, including testis and brain. Subsequently, chromosomal distribution of genes with tissue-selective expression was determined. These analyzes provided several new findings. Firstly, they showed that chicken chromosomes orthologous to the mammalian X chromosome exhibited an increased concentration of genes expressed selectively in brain. More specifically, the highest concentration of brain-selectively expressed genes was found on chicken chromosome GGA12, which shows orthology to the X chromosomal regions with the highest enrichment of non-syndromic X-linked mental retardation (MRX) genes. Secondly, and in contrast to the first finding, no enrichment of testis-selective genes could be detected on these chicken chromosomes. These findings indicate that the accumulation of brain-related genes on the prospective mammalian X chromosome antedates the divergence of sauropsid and synapsid lineages 315 million years ago, whereas the accumulation of testis-related genes on the mammalian X chromosome is more recent and due to adaptational changes.
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- Meunier, Dominique, et al.
(författare)
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Expression Analysis of Proline Rich 15 (Prr15) in Mouse and Human Gastrointestinal Tumors
- 2011
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Ingår i: Molecular Carcinogenesis. - : Wiley. - 0899-1987 .- 1098-2744. ; 50:1, s. 8-15
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Tidskriftsartikel (refereegranskat)abstract
- Proline rich 15 (Prr15), which encodes a protein of unknown function, is expressed almost exclusively in postmitotic cells both during fetal development and in adult tissues, such as the intestinal epithelium and the testis. To determine if this specific expression is lost in intestinal neoplasias, we examined Prr15 expression by in situ hybridization (ISH) on mouse intestinal tumors caused by different gene mutations, and on human colorectal cancer (CRC) samples. Prr15/PRR15 expression was consistently observed in mouse gastrointestinal (GI) tumors caused by mutations in the Apc gene, as well as in several advanced stage human CRCs. In contrast, no Prr15 expression was detected in intestinal tumors derived from mice carrying mutations in the Smad3, Smad4, or Cdkn1b genes. These findings, combined with the fact that a majority of sporadic human CRCs carry APC mutations, strongly suggest that the expression of Prr15/PRR15 in mouse and human GI tumors is linked, directly or indirectly, to the absence of the APC protein or, more generally, to the disruption of the Wnt signaling pathway.
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- Singh, Umashankar, et al.
(författare)
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Carboxypeptidase E in the mouse placenta
- 2006
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Ingår i: Differentiation. - : Elsevier BV. - 0301-4681 .- 1432-0436. ; 74:9-10, s. 648-660
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Tidskriftsartikel (refereegranskat)abstract
- Carboxypeptidase E (CPE) has important functions in processing of endocrine pro-peptides, such as pro-insulin, pro-opiomelanocortin, or pro-gonadotropin-releasing hormone, as evidenced by the hyperpro-insulinemia, obesity, and sterility of Cpe mutant mice. Down-regulation of Cpe in enlarged placentas of interspecific hybrid (interspecies hybrid placental dysplasia (IHPD)) and cloned mice suggested that reduced CPE enzyme and receptor activity could underlie abnormal placental phenotypes. In this study, we have explored the role of Cpe in murine placentation by determining its expression at various stages of gestation, and by phenotypic analysis of Cpe mutant placentas. Our results show that Cpe and Carboxypeptidase D (Cpd), another carboxypeptidase with a very similar function, are strictly co-localized in the mouse placenta from late mid-gestation to term. We also show that absence of CPE causes a sporadic but striking placental phenotype characterized by an increase in giant and glycogen cell numbers and giant cell hypertrophy. Microarray-based transcriptional pro. ling of Cpe mutant placentas identified only a very small number of genes with altered expression, including Dtprp, which belongs to the prolactin gene family. Concordant deregulation of Cpe and Cpd in abnormal placentas of interspecies hybrids before the onset of IHPD phenotype and recapitulation of some phenotypes of IHPD hyperplastic placentas in Cpe mutant placentas suggests that these two genes are causally involved in IHPD and may function as speciation genes in the genus Mus.
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| 6. |
- Tian, Geng, et al.
(författare)
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Expression and function of the LIM homeobox containing genes Lhx3 and Lhx4 in the mouse placenta
- 2008
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Ingår i: Developmental Dynamics. - : Wiley. - 1058-8388 .- 1097-0177. ; 237:5, s. 1517-1525
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Tidskriftsartikel (refereegranskat)abstract
- The LIM homeobox containing genes of the LIM-3 group, Lhx3 and Lhx4, are critical for normal development. Both genes are involved in the formation of the pituitary and the motoneuron system and loss of either gene causes perinatal lethality. Previous studies had shown that Lhx3 is overexpressed in hyperplastic placentas of mouse interspecies hybrids. To determine the role of LHX3 in the mouse placenta, we performed expression and function analyses. Our results show that Lhx3 exhibits specific spatial and temporal expression in the mouse placenta. However, deletion of Lhx3 does not produce a placental phenotype. To test whether this is due to functional substitution by Lhx4, we performed a phenotype analysis of Lhx3-/-; Lhx4-/- double-mutant placentas. A subset of Lhx3-/-; Lhx4-/- placentas exhibited abnormal structure of the labyrinth. However, absence of both LIM-3 genes did not interfere with placental transport nor consistently with expression of target genes such as Gnrhr. Thus, LHX3 and LHX4 appear to be dispensable for placental development and function.
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| 9. |
- Yu, Yang, 1970-
(författare)
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Molecular Mechanisms Underlying Abnormal Placentation in the Mouse
- 2007
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Doktorsavhandling (övrigt vetenskapligt/konstnärligt)abstract
- Placental development can be disturbed by various factors, such as mutation of specific genes or maternal diabetes. Our previous work on interspecies hybrid placental dysplasia (IHPD) and two additional models of placental hyperplasia, cloned mice and Esx1 mutants, showed that many genes are deregulated in placental dysplasia. Two of these candidate placentation genes, Cpe and Lhx3, were further studied. We performed in situ hybridization to determine their spatio-temporal expression in the placentas and placental phenotypes were analyzed in mutant mice. Our results showed that the placental phenotype in Cpe mutant mice mimics some IHPD phenotypes. Deregulated expression of Cpe and Cpd, a functionally equivalent gene, prior to the manifestation of the IHPD phenotype, indicated that Cpe and Cpd are potentially causative genes in IHPD. Lhx3 mutants lacked any placental phenotype. Deletion of Lhx3 and Lhx4 together caused an inconsistent placental phenotype which did not affect placental lipid transport function or expression of Lhx3/Lhx4 target genes. Down regulation of Lhx3/Lhx4 did not rescue the placental phenotype of AT24 mice and hence could be excluded as causative genes in IHPD. Analysis of placental development in diabetic mice showed that severe maternal diabetes resulted in fetal intrauterine growth restriction (IUGR) without any change in placental weight and lipid transport function. The diabetic placentas however exhibited abnormal morphology. Gene expression profiling identified some genes that might contribute to diabetic pathology. In another study, it was found that the heterochromatin protein CBX1 is required for normal placentation, as deletion of the gene caused consistent spongiotrophoblast and labyrinthine phenotypes. Gene expression profiling and spatio-temporal expression analysis showed that several genes with known function in placental development were deregulated in the Cbx1 null placenta.
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