排序方式: 共有10条查询结果,搜索用时 437 毫秒
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So MT Leon TY Cheng G Tang CS Miao XP Cornes BK Diem NN Cui L Ngan ES Lui VC Wu XZ Wang B Wang H Yuan ZW Huang LM Li L Xia H Zhu D Liu J Nguyen TL Chan IH Chung PH Liu XL Zhang R Wong KK Sham PC Cherny SS Tam PK Garcia-Barcelo MM 《PloS one》2011,6(12):e28986
Rare (RVs) and common variants of the RET gene contribute to Hirschsprung disease (HSCR; congenital aganglionosis). While RET common variants are strongly associated with the commonest manifestation of the disease (males; short-segment aganglionosis; sporadic), rare coding sequence (CDS) variants are more frequently found in the lesser common and more severe forms of the disease (females; long/total colonic aganglionosis; familial).Here we present the screening for RVs in the RET CDS and intron/exon boundaries of 601 Chinese HSCR patients, the largest number of patients ever reported. We identified 61 different heterozygous RVs (50 novel) distributed among 100 patients (16.64%). Those include 14 silent, 29 missense, 5 nonsense, 4 frame-shifts, and one in-frame amino-acid deletion in the CDS, two splice-site deletions, 4 nucleotide substitutions and a 22-bp deletion in the intron/exon boundaries and 1 single-nucleotide substitution in the 5' untranslated region. Exonic variants were mainly clustered in RET the extracellular domain. RET RVs were more frequent among patients with the most severe phenotype (24% vs. 15% in short-HSCR). Phasing RVs with the RET HSCR-associated haplotype suggests that RVs do not underlie the undisputable association of RET common variants with HSCR. None of the variants were found in 250 Chinese controls. 相似文献
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Ngan ES Shum CK Poon HC Sham MH Garcia-Barcelo MM Lui VC Tam PK 《Biochimica et biophysica acta》2008,1783(3):467-478
Enteric neural crest cells (NCC) are multipotent progenitors which give rise to neurons and glia of the enteric nervous system (ENS) during fetal development. Glial cell line-derived neurotrophic factor (GDNF)/RET receptor tyrosine kinase (Ret) signaling is indispensable for their survival, migration and differentiation. Using microarray analysis and isolated NCCs, we found that 45 genes were differentially expressed after GDNF treatment (16 h), 29 of them were up-regulated including 8 previously undescribed genes. Prokineticin receptor 1 (PK-R1), a receptor for Prokineticins (Prok), was identified in our screen and shown to be consistently up-regulated by GDNF in enteric NCCs. Further, PK-R1 was persistently expressed at a lower level in the enteric ganglions of the c-Ret deficient mice when compared to that of the wild-type littermates. Subsequent functional analysis showed that GDNF potentiated the proliferative and differentiation effects of Prok-1 by up-regulating PK-R1 expression in enteric NCCs. In addition, expression analysis and gene knock-down experiments indicated that Prok-1 and GDNF signalings shared some common downstream targets. More importantly, Prok-1 could induce both proliferation and expression of differentiation markers of c-Ret deficient NCCs, suggesting that Prok-1 may also provide a complementary pathway to GDNF signaling. Taken together, these findings provide evidence that Prok-1 crosstalks with GDNF/Ret signaling and probably provides an additional layer of signaling refinement to maintain proliferation and differentiation of enteric NCCs. 相似文献
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Maria M. Alves Yunia Sribudiani Rutger W.W. Brouwer Jeanne Amiel Guillermo Antiñolo Salud Borrego Isabella Ceccherini Aravinda Chakravarti Raquel M. Fernández Maria-Mercè Garcia-Barcelo Paola Griseri Stanislas Lyonnet Paul K. Tam Wilfred F.J. van IJcken Bart J.L. Eggen Gerard J. te Meerman Robert M.W. Hofstra 《Developmental biology》2013
Finding genes for complex diseases has been the goal of many genetic studies. Most of these studies have been successful by searching for genes and mutations in rare familial cases, by screening candidate genes and by performing genome wide association studies. However, only a small fraction of the total genetic risk for these complex genetic diseases can be explained by the identified mutations and associated genetic loci. In this review we focus on Hirschsprung disease (HSCR) as an example of a complex genetic disorder. We describe the genes identified in this congenital malformation and postulate that both common ‘low penetrant’ variants in combination with rare or private ‘high penetrant’ variants determine the risk on HSCR, and likely, on other complex diseases. We also discuss how new technological advances can be used to gain further insights in the genetic background of complex diseases. Finally, we outline a few steps to develop functional assays in order to determine the involvement of these variants in disease development. 相似文献
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We report here on the mapping of a cDNA encoding for human cysteine-rich heart protein (HCRHP), a counterpart of the murine cysteine-rich intestinal protein CRIP. By somatic cell hybrid analysis and radiation hybrid mapping, we have located the geneCRIP1(HGMW-approved symbol) on the subcentromeric region of the q arm of human chromosome 7, flanking a deletion associated with Williams syndrome. 相似文献
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Lin Jiang Hui Jiang Sheng Dai Ying Chen Youqiang Song Clara
Sze-Man Tang Shirley Yin-Yu Pang Shu-Leong Ho Binbin Wang Maria-Mercedes Garcia-Barcelo Paul Kwong-Hang Tam Stacey
S Cherny Mulin
Jun Li Pak Chung Sham Miaoxin Li 《Nucleic acids research》2022,50(6):e34
Identifying rare variants that contribute to complex diseases is challenging because of the low statistical power in current tests comparing cases with controls. Here, we propose a novel and powerful rare variants association test based on the deviation of the observed mutation burden of a gene in cases from a baseline predicted by a weighted recursive truncated negative-binomial regression (RUNNER) on genomic features available from public data. Simulation studies show that RUNNER is substantially more powerful than state-of-the-art rare variant association tests and has reasonable type 1 error rates even for stratified populations or in small samples. Applied to real case-control data, RUNNER recapitulates known genes of Hirschsprung disease and Alzheimer''s disease missed by current methods and detects promising new candidate genes for both disorders. In a case-only study, RUNNER successfully detected a known causal gene of amyotrophic lateral sclerosis. The present study provides a powerful and robust method to identify susceptibility genes with rare risk variants for complex diseases. 相似文献
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Kotaka M Ngai SM Garcia-Barcelo M Tsui SK Fung KP Lee CY Waye MM 《Journal of cellular biochemistry》1999,72(2):279-285
We characterized a human cDNA clone encoding a 36-kDa carboxyl terminal LIM domain protein with a PDZ domain at the amino terminal. This full-length cDNA clone has a predicted open reading frame (ORF) of 329 amino-acid residues. The ORF of this cDNA encodes the human homolog of rat CLP36, and the putative protein is named human 36-kDa carboxyl terminal LIM domain protein (hCLIM1, nomenclature approved by the HUGO/GDB Nomenclature Committee). The hCLIM1 probe was used to hybridize with poly(A)+ RNA of various human tissues. Strong signals were detected in heart and skeletal muscle; moderate signals were detected in spleen, small intestine, colon, placenta, and lung; weaker levels were detected in liver, thymus, kidney, prostate, and pancreas; and no observable signals were detected in brain, testis, ovary, and peripheral blood leukocytes. The hCLIM1 gene was studied by fluorescence in situ hybridization (FISH), somatic cell hybrid analysis, and radiation hybrid mapping, and it is located at the human chromosome 10q26. 相似文献
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Belinda K. Cornes Clara S. Tang Thomas Y. Y. Leon Kenneth J. W. S. Hui Man-Ting So Xiaoping Miao Stacey S. Cherny Pak C. Sham Paul K. H. Tam Maria-Merce Garcia-Barcelo 《PloS one》2010,5(6)
Background
Hirschsprung''s disease (HSCR) is a congenital disorder associated with the lack of intramural ganglion cells in the myenteric and sub-mucosal plexuses along varying segments of the gastrointestinal tract. The RET gene is the major gene implicated in this gastrointestinal disease. A highly recurrent mutation in RET (RETR114H) has recently been identified in ∼6–7% of the Chinese HSCR patients which, to date, has not been found in Caucasian patients or controls nor in Chinese controls. Due to the high frequency of RETR114H in this population, we sought to investigate whether this mutation may be a founder HSCR mutation in the Chinese population.Methodology and Principal Findings
To test whether all RETR114 were originated from a single mutational event, we predicted the approximate age of RETR114H by applying a Bayesian method to RET SNPs genotyped in 430 Chinese HSCR patients (of whom 25 individuals had the mutation) to be between 4–23 generations old depending on growth rate. We reasoned that if RETR114H was a founder mutation then those with the mutation would share a haplotype on which the mutation resides. Including SNPs spanning 509.31 kb across RET from a recently obtained 500 K genome-wide dataset for a subset of 181 patients (14 RETR114H patients), we applied haplotype estimation methods to determine whether there were any segments shared between patients with RETR114H that are not present in those without the mutation or controls. Analysis yielded a 250.2 kb (51 SNP) shared segment over the RET gene (and downstream) in only those patients with the mutation with no similar segments found among other patients.Conclusions
This suggests that RETR114H is a founder mutation for HSCR in the Chinese population. 相似文献9.
Laura E. Kuil Katherine C. MacKenzie Clara S. Tang Jonathan D. Windster Thuy Linh Le Anwarul Karim Bianca M. de Graaf Robert van der Helm Yolande van Bever Cornelius E. J. Sloots Conny Meeussen Dick Tibboel Annelies de Klein Ren M. H. Wijnen Jeanne Amiel Stanislas Lyonnet Maria-Merc Garcia-Barcelo Paul K. H. Tam Maria M. Alves Alice S. Brooks Robert M. W. Hofstra Erwin Brosens 《PLoS genetics》2021,17(8)
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Tang CS Ngan ES Tang WK So MT Cheng G Miao XP Leon TY Leung BM Hui KJ Lui VH Chen Y Chan IH Chung PH Liu XL Wong KK Sham PC Cherny SS Tam PK Garcia-Barcelo MM 《Human genetics》2012,131(1):67-76
Hirschsprung disease (HSCR, congenital colon aganglionosis) is a relatively common complex genetic condition caused by abnormal development of the enteric nervous system (ENS). Through a recent genome-wide association study conducted on Chinese HSCR patients, we identified a new HSCR contributing locus, neuregulin 1 (NRG1; 8p12), a gene known to be involved in the development of the ENS. As genes in which disease-associated common variants are found are to be considered as candidates for the search of deleterious rare variants (RVs) in the coding sequences, we sequenced the NRG1 exons of 358 sporadic HSCR patients and 333 controls. We identified a total of 13 different heterozygous RVs including 8 non-synonymous (A28G, E134K, V266L, H347Y, P356L, V486M, A511T, P608A) and 3 synonymous amino acid substitutions (P24P, T169T, L483L), a frameshift (E239fsX10), and a c.503-4insT insertion. Functional analysis of the most conserved non-synonymous substitutions, H347Y and P356L, showed uneven intracellular distribution and aberrant expression of the mutant proteins. Except for T169T and V486M, all variants were exclusive to HSCR patients. Overall, there was a statistically significant over-representation of NRG1 RVs in HSCR patients (p?=?0.008). We show here that not only common, but also rare variants of the NRG1 gene contribute to HSCR. This strengthens the role of NRG1. 相似文献
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