Mutations in the TSC2 gene: analysis of the complete coding sequence using the protein truncation test (PTT)

Bakel, I. Van; Sepp, Tiina; Ward, Susannah; Yates, John R.; Green, Andrew J.

doi:10.1093/hmg/6.9.1409

Cited by 54 publications

(28 citation statements)

References 14 publications

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“…On the other hand, germline mutation was detected in one (4.5%) of 22 patients with sporadic LAM, whereas the majority of patients with sporadic LAM had neither of TSC1 nor TSC2 germline mutations. Our detection rate of germline mutations in patients with TSC-LAM appears to be almost identical to that of several studies on mutation analysis in patients with TSC (Au et al 1998;Jones et al 1997;Kwiatkowska et al 1998;Van Bakel et al 1997;Wilson et al 1996;Yamashita et al 2000) but lower than that of other studies (Cheadle et al 2000;Dabora et al 2001;Jones et al 1999;Niida et al 1999;Strizheva et al 2001). The detection rate varies widely from 37% to 83%, depending on the screening method used.…”

Section: Discussionsupporting

confidence: 79%

Mutation analysis of the TSC1 and TSC2 genes in Japanese patients with pulmonary lymphangioleiomyomatosis

et al. 2002

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Section: Discussionsupporting

confidence: 79%

Mutation analysis of the TSC1 and TSC2 genes in Japanese patients with pulmonary lymphangioleiomyomatosis

et al. 2002

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“…146 Mutations including large deletions in TSC2 (tuberous sclerosis 2), located at 16p13.3, are found in patients with tuberous sclerosis, indicating its role to act as a tumor suppressor. 147 E-cadherin, the CDH1 gene (16q22.1, cadherin 1) has been suggested to act as a tumor/invasion suppressor for sporadic infiltrative lobular breast carcinomas. 148 H-cadherin, the CDH13 gene (16q24.2-q23, cadherin 13), has been reported to be inactivated due to deletions and hypermethylations in lung cancer.…”

Section: Chromosome 16mentioning

confidence: 99%

DNA Copy Number Losses in Human Neoplasms

Knuutila

Aalto

Autio

et al. 1999

The American Journal of Pathology

393

305

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This review summarizes reports of recurrent DNA sequence copy number losses in human neoplasms detected by comparative genomic hybridization. Recurrent losses that affect each of the chromosome arms in 73 tumor types are tabulated from 169 reports. The tables are available online at http:// www.amjpathol.org and http://www.helsinki.fi/ϳlgl _www/CMG.html. The genes relevant to the lost regions are discussed for each of the chromosomes. The review is supplemented also by a list of known and putative tumor suppressor genes and DNA repair genes (see Table 1 , online). Losses are found in all chromosome arms , but they seem to be relatively rare at 1q , 2p , 3q , 5p , 6p , 7p , 7q , 8q , 12p , and 20q. Losses and their minimal common overlapping areas that were present in a great proportion of the 73 tumor entities reported in Table 2 (see online) are (in descending order of frequency): 9p23-p24 (48%) , 13q21 (47%) , 6q16 (44%) , 6q26-q27 (44%) , 8p23 (37%), 18q22-q23 (37%) , 17p12-p13 (34%) , 1p36.1 (34%), 11q23 (33%) , 1p22 (32%) , 4q32-qter (31%) , 14q22-q23 (25%) , 10q23 (25%) , 10q25-qter (25%) ,15q21 (23%) , 16q22 (23%) , 5q21 (23%) , 3p12-p14 (22%), 22q12 (22%) , Xp21 (21%) , Xq21 (21%) , and 10p12 ( Knowledge of chromosomal deletions has significantly contributed to the detection of tumor suppressor genes, since the inactivation of one allele, according to the twohit hypothesis, often results from a deletion on the chromosomal level.

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“…Previously established methods to identify small mutations in the TSC genes include single-stranded conformation gel analysis (SSCP) [Au et al 1998;Jones et al, 1999], heteroduplex analysis (HD) [Jones et al, 1999], two-dimensional electrophoresis with denaturing gradient gel electrophoresis (DGGE; for TSC1 only) [Dabora et al, 1998], protein truncation test (PTT) [van Bakel et al, 1997;Benit et al, 1999;Mayer et al, 1999], and the recently developed denaturing high-performance liquid chromatography (DHPLC) [Choy et al, 1999;Dabora et al, 2001]. For large deletions and rearrangements, pulsed-field gel electrophoresis, Southern blot analysis [European Tuberous Sclerosis Consortium, 1993;Longa et al, 2001], and long-range PCR (for TSC2 only) [Dabora et al, 2000] have been described.…”

Section: Introductionmentioning

confidence: 99%

Analysis of 65 tuberous sclerosis complex (TSC) patients byTSC2DGGE,TSC1/TSC2MLPA, andTSC1long-range PCR sequencing, and report of 28 novel mutations

Rendtorff

Bjerregaard

Frödin³

et al. 2005

Hum. Mutat.

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Tuberous sclerosis complex (TSC) is a severe autosomal-dominant disorder characterized by the development of benign tumors (hamartomas) in many organs. It can lead to intellectual handicap, epilepsy, autism, and renal or heart failure. An inactivating mutation in either of two tumor-suppressor genes-TSC1 and TSC2-is the cause of this syndrome, with TSC2 mutations accounting for 80-90% of all mutations. Molecular diagnosis of TSC is challenging, since TSC1 and TSC2 consist of 21 and 41 coding exons, respectively, and the mutation spectrum is very heterogeneous. Here we report a new approach for detecting mutations in TSC: a denaturing gradient gel electrophoresis (DGGE) analysis for small TSC2 mutations, a multiplex ligation-dependent probe amplification (MLPA) analysis for large deletions and duplications in TSC1 or TSC2, and a long-range PCR/sequencing-based analysis for small TSC1 mutations. When applied in this order, the three methods provide a new sensitive and time- and cost-efficient strategy for the molecular diagnosis of TSC. We analyzed 65 Danish patients who had been clinically diagnosed with TSC, and identified pathogenic mutations in 51 patients (78%). These included 36 small TSC2 mutations, four large deletions involving TSC2, and 11 small TSC1 mutations. Twenty-eight of the small mutations are novel. For the missense mutations, we established a functional assay to demonstrate that the mutations impair TSC2 protein function. In conclusion, the strategy presented may greatly help small- and medium-sized laboratories in the pre- and postnatal molecular diagnosis of TSC.

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Mutations in the TSC2 gene: analysis of the complete coding sequence using the protein truncation test (PTT)

Cited by 54 publications

References 14 publications

Mutation analysis of the TSC1 and TSC2 genes in Japanese patients with pulmonary lymphangioleiomyomatosis

Mutation analysis of the TSC1 and TSC2 genes in Japanese patients with pulmonary lymphangioleiomyomatosis

DNA Copy Number Losses in Human Neoplasms

Analysis of 65 tuberous sclerosis complex (TSC) patients byTSC2DGGE,TSC1/TSC2MLPA, andTSC1long-range PCR sequencing, and report of 28 novel mutations

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