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891.
High-resolution mapping of quantitative trait loci in outbred mice 总被引:21,自引:0,他引:21
Screening the whole genome of a cross between two inbred animal strains has proved to be a powerful method for detecting genetic loci underlying quantitative behavioural traits, but the level of resolution offered by quantitative trait loci (QTL) mapping is still too coarse to permit molecular cloning of the genetic determinants. To achieve high-resolution mapping, we used an outbred stock of mice for which the entire genealogy is known. The heterogeneous stock (HS) was established 30 years ago from an eight-way cross of C57BL/6, BALB/c, RIII, AKR, DBA/2, I, A/J and C3H inbred mouse strains. At the time of the experiment reported here, the HS mice were at generation 58, theoretically offering at least a 30-fold increase in resolution for QTL mapping compared with a backcross or an F2 intercross. Using the HS mice we have mapped a QTL influencing a psychological trait in mice to a 0.8-cM interval on chromosome 1. This method allows simultaneous fine mapping of multiple QTLs, as shown by our report of a second QTL on chromosome 12. The high resolution possible with this approach makes QTLs accessible to positional cloning. 相似文献
892.
Lanford PJ Lan Y Jiang R Lindsell C Weinmaster G Gridley T Kelley MW 《Nature genetics》1999,21(3):289-292
The mammalian cochlea contains an invariant mosaic of sensory hair cells and non-sensory supporting cells reminiscent of invertebrate structures such as the compound eye in Drosophila melanogaster. The sensory epithelium in the mammalian cochlea (the organ of Corti) contains four rows of mechanosensory hair cells: a single row of inner hair cells and three rows of outer hair cells. Each hair cell is separated from the next by an interceding supporting cell, forming an invariant and alternating mosaic that extends the length of the cochlear duct. Previous results suggest that determination of cell fates in the cochlear mosaic occurs via inhibitory interactions between adjacent progenitor cells (lateral inhibition). Cells populating the cochlear epithelium appear to constitute a developmental equivalence group in which developing hair cells suppress differentiation in their immediate neighbours through lateral inhibition. These interactions may be mediated through the Notch signalling pathway, a molecular mechanism that is involved in the determination of a variety of cell fates. Here we show that genes encoding the receptor protein Notch1 and its ligand, Jagged 2, are expressed in alternating cell types in the developing sensory epithelium. In addition, genetic deletion of Jag2 results in a significant increase in sensory hair cells, presumably as a result of a decrease in Notch activation. These results provide direct evidence for Notch-mediated lateral inhibition in a mammalian system and support a role for Notch in the development of the cochlear mosaic. 相似文献
893.
Mutations in ATP2A2, encoding a Ca2+ pump, cause Darier disease 总被引:16,自引:0,他引:16
Sakuntabhai A Ruiz-Perez V Carter S Jacobsen N Burge S Monk S Smith M Munro CS O'Donovan M Craddock N Kucherlapati R Rees JL Owen M Lathrop GM Monaco AP Strachan T Hovnanian A 《Nature genetics》1999,21(3):271-277
Darier disease (DD) is an autosomal-dominant skin disorder characterized by loss of adhesion between epidermal cells (acantholysis) and abnormal keratinization. Recently we constructed a 2.4-Mb, P1-derived artificial chromosome contig spanning the DD candidate region on chromosome 12q23-24.1. After screening several genes that mapped to this region, we identified mutations in the ATP2A2 gene, which encodes the sarco/endoplasmic reticulum Ca2(+)-ATPase type 2 isoform (SERCA2) and is highly expressed in keratinocytes. Thirteen mutations were identified, including frameshift deletions, in-frame deletions or insertions, splice-site mutations and non-conservative missense mutations in functional domains. Our results demonstrate that mutations in ATP2A2 cause DD and disclose a role for this pump in a Ca(2+)-signalling pathway regulating cell-to-cell adhesion and differentiation of the epidermis. 相似文献
894.
895.
896.
Genomic instability in Gadd45a-deficient mice. 总被引:19,自引:0,他引:19
M C Hollander M S Sheikh D V Bulavin K Lundgren L Augeri-Henmueller R Shehee T A Molinaro K E Kim E Tolosa J D Ashwell M P Rosenberg Q Zhan P M Fernández-Salguero W F Morgan C X Deng A J Fornace 《Nature genetics》1999,23(2):176-184
Gadd45a-null mice generated by gene targeting exhibited several of the phenotypes characteristic of p53-deficient mice, including genomic instability, increased radiation carcinogenesis and a low frequency of exencephaly. Genomic instability was exemplified by aneuploidy, chromosome aberrations, gene amplification and centrosome amplification, and was accompanied by abnormalities in mitosis, cytokinesis and growth control. Unequal segregation of chromosomes due to multiple spindle poles during mitosis occurred in several Gadd45a -/- cell lineages and may contribute to the aneuploidy. Our results indicate that Gadd45a is one component of the p53 pathway that contributes to the maintenance of genomic stability. 相似文献
897.
898.
899.
CACP, encoding a secreted proteoglycan, is mutated in camptodactyly-arthropathy-coxa vara-pericarditis syndrome. 总被引:3,自引:0,他引:3
J Marcelino J D Carpten W M Suwairi O M Gutierrez S Schwartz C Robbins R Sood I Makalowska A Baxevanis B Johnstone R M Laxer L Zemel C A Kim J K Herd J Ihle C Williams M Johnson V Raman L G Alonso D Brunoni A Gerstein N Papadopoulos S A Bahabri J M Trent M L Warman 《Nature genetics》1999,23(3):319-322
Altered growth and function of synoviocytes, the intimal cells which line joint cavities and tendon sheaths, occur in a number of skeletal diseases. Hyperplasia of synoviocytes is found in both rheumatoid arthritis and osteoarthritis, despite differences in the underlying aetiologies of the two disorders. We have studied the autosomal recessive disorder camptodactyly-arthropathy-coxa vara-pericarditis syndrome (CACP; MIM 208250) to identify biological pathways that lead to synoviocyte hyperplasia, the principal pathological feature of this syndrome. Using a positional-candidate approach, we identified mutations in a gene (CACP) encoding a secreted proteoglycan as the cause of CACP. The CACP protein, which has previously been identified as both 'megakaryocyte stimulating factor precursor' and 'superficial zone protein', contains domains that have homology to somatomedin B, heparin-binding proteins, mucins and haemopexins. In addition to expression in joint synovium and cartilage, CACP is expressed in non-skeletal tissues including liver and pericardium. The similarity of CACP sequence to that of other protein families and the expression of CACP in non-skeletal tissues suggest it may have diverse biological activities. 相似文献
900.
Laping NJ 《Cellular and molecular life sciences : CMLS》1999,56(5-6):371-377
Hepatocyte growth factor (HGF) is an injury-released growth factor with diverse effects on epithelial and endothelial cells. These effects include proliferation, migration, extracellular matrix production and tubulogenesis. These activities allow HGF to function as an organizer of repair processes that bring about restoration of tubular function following renal injury. However, while HGF has been demonstrated to accelerate recovery of renal function after an acute insult, prolonged exposure to elevated levels of HGF can reduce renal function and may contribute to progressive renal disease. This review will describe the cellular activities of HGF, how they pertain to renal repair and the therapeutic application of regulating HGF activity in acute versus chronic renal disease. 相似文献