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Loss of allelic heterozygosity at a second locus on chromosome 11 in sporadic Wilms' tumor cells.

机译：散发的威尔姆斯肿瘤细胞中第11号染色体第二个基因座的等位基因杂合性丧失。

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Children with associated Wilms' tumor, aniridia, genitourinary malformations, and mental retardation (WAGR syndrome) frequently have a cytogenetically visible germ line deletion of chromosomal band 11p13. In accordance with the Knudson hypothesis of two-hit carcinogenesis, the absence of this chromosomal band suggests that loss of both alleles of a gene at 11p13 causes Wilms' tumor. Consistent with this model, chromosomes from sporadically occurring Wilms' tumor cells frequently show loss of allelic heterozygosity at polymorphic 11p15 loci, and therefore it has been assumed that allelic loss extends proximally to include 11p13. We report here that in samples from five sporadic Wilms' tumors, allelic loss occurred distal to the WAGR locus on 11p13. In cells from one tumor, mitotic recombination occurred distal to the gamma-globin gene on 11p15.5. Thus, allelic loss in sporadic Wilms' tumor cells may involve a second locus on 11p.

机译：伴有威尔姆斯氏肿瘤，无虹膜，泌尿生殖道畸形和智力低下（WAGR综合征）的儿童通常具有细胞遗传学上可见的染色体带11p13的种系缺失。根据克努森（Knudson）两次致癌的假说，该染色体条带的缺失表明11p13基因的两个等位基因的缺失会导致Wilms肿瘤。与该模型一致，来自偶发出现的威尔姆斯肿瘤细胞的染色体经常在多态11p15位点显示等位基因杂合性丧失，因此，已假定等位基因的缺失向近端延伸，包括11p13。我们在这里报告，在来自五个散发性威尔姆斯肿瘤的样本中，等位基因缺失发生在11p13的WAGR基因座的远端。在来自一种肿瘤的细胞中，有丝分裂重组发生在11p15.5的γ-珠蛋白基因的远端。因此，散发的威尔姆斯肿瘤细胞中的等位基因缺失可能涉及11p的第二个基因座。

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Reeve, A E; Sih, S A; Raizis, A M; Feinberg, A P;
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年度 1989
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正文语种 en
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专利

1. Loss of allelic heterozygosity at a second locus on chromosome 11 in sporadic Wilms' tumor cells. [J] . A E Reeve, S A Sih, A M Raizis, Molecular and Cellular Biology . 1989,第4期

机译：散发的威尔姆斯肿瘤细胞中第11号染色体第二个基因座的等位基因杂合性丧失。
2. Loss of heterozygosity analysis at different chromosome regions in wilms tumor confirms 1p allelic loss as a marker of worse prognosis: A study from the Italian association of pediatric hematology and oncology [J] . SpreaficoF., GambaB., MarianiL., The Journal of Urology . 2013,第1期

机译：Wilms肿瘤不同染色体区域的杂合性分析的丧失证实了1P的等位基因损失作为更差的预后的标志：意大利儿科血液学和肿瘤学协会的研究
3. Loss of heterozygosity for chromosomes 1p and 16q is an adverse prognostic factor in favorable-histology wilms tumor: a report from the national wilms tumor study group. [J] . Grundy PE, Breslow NE, Li S, Journal of Clinical Oncology . 2005,第29期

机译：1p和16q染色体杂合性的丧失是有利于组织学的野生型肿瘤的不良预后因素：国家野生型肿瘤研究小组的一份报告。
4. Analysis of DNMT1 Gene Polymorphisms in Sporadic Wilms Tumor [C] . Rui Bai, Xiao-li Hu, Lin-sheng Zhao, International conference on biotechnology, chemical and materials engineering . 2012

机译：散发性恶性肿瘤中DNMT1基因多态性的分析
5. Integrated mapping and gene analysis in regions showing loss of heterozygosity in human breast cancer in the short arm of Chromosome 1. [D] . Baptista, Pedro M.R.V. 2000

机译：在染色体1的短臂中显示人类乳腺癌杂合性缺失的区域中的综合作图和基因分析。
6. Loss of allelic heterozygosity at a second locus on chromosome 11 in sporadic Wilms tumor cells. [O] . A E Reeve, S A Sih, A M Raizis, 1989

机译：散发的威尔姆斯肿瘤细胞中第11号染色体第二个基因座的等位基因杂合性丧失。
7. Mutations/deletions of theWT1 gene, loss of heterozygosity on chromosome arms 11p and 11q, chromosome ploidy and histology in Wilms' tumors in Japan [O] . Hisaya Nakadate, Kinji Yokomori, Naoki Watanabe, 2001

机译：THR1基因的突变/缺失，染色体臂11P和11Q上的杂合性丧失，日本威尔姆斯肿瘤中的染色体倍增性和组织学
8. Defining the Smallest Common Region of Chromosome 17p That is Deleted in Sporadic Breast Tumors [R] . Merajver, S. D. 1998

机译：定义在散发性乳腺肿瘤中删除的染色体17p的最小共同区域

Loss of allelic heterozygosity at a second locus on chromosome 11 in sporadic Wilms' tumor cells.

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