ABCC7 p.Ile507Val
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PMID: 11025834
[PubMed]
Wang X et al: "Mutation in the gene responsible for cystic fibrosis and predisposition to chronic rhinosinusitis in the general population."
No.
Sentence
Comment
30
Analysis of CFTR Genes Genomic DNA samples extracted from the blood of participants were screened for 16 mutations (R117H, 621+1G→T, R334W, R347P, A455E, ⌬I507, ⌬F508, 1717-1 G→A, G542X, S549N, G551D, R553X, R560T, 3849+10 Kb C→T, W1282X, and N1303K) that account for 85% of CF alleles in the white population using the multiplex reverse dot hybridization system (Roche Molecular Systems, Alameda, Calif).16,17 This test also identified the 5T, 7T, and 9T variants of the splice acceptor site in intron 8 and F508C, I507V, and I506V (exon 10) polymorphisms of the CFTR gene.
X
ABCC7 p.Ile507Val 11025834:30:551
status: VERIFIED
PMID: 11388756
[PubMed]
Heim RA et al: "Improved detection of cystic fibrosis mutations in the heterogeneous U.S. population using an expanded, pan-ethnic mutation panel."
No.
Sentence
Comment
56
The 86-mutation assay distinguished ⌬F508 from the F508C, I506V, I506M, and I507V sequence variants.
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ABCC7 p.Ile507Val 11388756:56:83
status: NEW
PMID: 11994102
[PubMed]
Eaton TE et al: "Cystic fibrosis transmembrane conductance regulator gene mutations: do they play a role in the aetiology of allergic bronchopulmonary aspergillosis?"
No.
Sentence
Comment
55
Patients were also screened for CFTR variants in intron 8 (5T, 7T and 9T) and polymorphisms F508C, I506V and I507V.
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ABCC7 p.Ile507Val 11994102:55:109
status: NEW
PMID: 12089190
[PubMed]
Wang X et al: "Development and evaluation of a PCR-based, line probe assay for the detection of 58 alleles in the cystic fibrosis transmembrane conductance regulator (CFTR) gene."
No.
Sentence
Comment
68
Amplicon Size, bp Mutations (polymorphisms) Exon 13 598 2307 insA Intron 8, exon 09 548 A455E, 5T (7/9 T polymorphism) Exon 10 482 G480C, ⌬I507, ⌬F508 (F508C, I507V, I506V polymorphisms) Intron 10, exon 11 433 1717-1G3A, G542X, G551D, R553X, A559T, R560T Exon 19 420 R1162X, 3659delC Exon 21 397 N1303K Exon 20 359 S1255X, W1282X Exon 07 328 1078delT, R334W, R347P Exon 04, intron 4 288 R117H, 621ϩ1G3T Intron 14b 248 2789ϩ5G3A Intron 19 237 3849ϩ10kbC3T Exon 03 210 G85E, 405ϩ3A3C Intron 5 166 711ϩ1G3T Intron 16 139 3120ϩ1G3A Clinical Chemistry 48, No.
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ABCC7 p.Ile507Val 12089190:68:173
status: NEW88 The genotypes of each sample are as follows: lane 1, ϩ/ϩ (ϩ is the wild type); lane 2, 5T, R117H/3659delC; lane 3, G542X/ϩ; lane 4, I506V/ϩ; lane 5, I507V/ϩ; lane 6, F508C/⌬F508; lane 7, G85E/⌬F508; lane 8, 405ϩ3A3C/3120ϩ1G3C; lane 9, R117H/ϩ; lane 10, 621ϩ1G3T/⌬F508; lane 11, 711ϩ1G3T/⌬F508; lane 12, 1078delT/ϩ; lane 13, R334W/⌬F508; lane 14, R347P/⌬F508; lane 15, A455E/ϩ; lane 16, G480C/⌬F508; lane 17, ⌬I507/ϩ; lane 18, ⌬F508/ϩ; lane 19, 1717-1G3A/ϩ; lane 20, G542X/ϩ; lane 21, G551D/⌬F508; lane 22, R553X/ϩ; lane 23, R560T/⌬F508; lane 24, G551D/A559T; lane 25, 2307insA/ϩ; lane 26, 2789ϩ5G3A/⌬F508; lane 27, 3120ϩ1G3A/⌬F508; lane 28, R1162X/R1162X; lane 29, 3659delC/⌬F508; lane 30, 3849ϩ10kbC3T/⌬F508; lane 31, S1255X/⌬F508; lane 32, W1282X/G542X; lane 33, N1303K/ϩ.
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ABCC7 p.Ile507Val 12089190:88:179
status: NEW98 On the other hand, the ⌬F508 mutation is the most common CF allele, and three polymorphisms (I506V, I507V, and F508C) can interfere with hybridization of the wild-type oligonucleotide sequence.
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ABCC7 p.Ile507Val 12089190:98:107
status: NEW99 Thus, the presence of oligonucleotides corresponding to the three polymorphisms in the Research Prototype Cystic Fibrosis Assay-31 test avoids misdiagnosis of ⌬F508/I506V, I507V, or F508C compound heterozygotes.
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ABCC7 p.Ile507Val 12089190:99:179
status: NEW
No.
Sentence
Comment
36
F508C, I507V, I506V polymorphism exon 11 1717-1G → A, G542X, S549N, G551D, R553X, R560T exon 20 W1282X exon 21 N1303K intron 19 3849+10kb C → T Innogenetics assay: exon 3 394delTT, G85E, E60X exon/intron 4 621+1G-T, R117H exon 7 1078delT, R347P, R334W exon 13 2143delT, 2183AA-G, 2184delA exon 19 R1162X, 3659delC intron 5 711+5G-A intron8/exon 9 A455E,, 5T,7T,9T intron 14b 2789+5G-A intron 19 3849+10kb C-T Table 2: Genotypes of patients with mutations, final results Group 1) (patients with symptoms typical for/indicative of CF) No.
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ABCC7 p.Ile507Val 12437773:36:7
status: NEW
PMID: 15010427
[PubMed]
Strom CM et al: "Direct visualization of cystic fibrosis transmembrane regulator mutations in the clinical laboratory setting."
No.
Sentence
Comment
184
For example, wild-type probes for I506V and I507V share common sequences with the ⌬F508 probe, and ⌬I507 and F508C have identical wild-type sequence (see Table 2 in the online Data Supplement); this is not surprising because they detect mutations on three contiguous codons.
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ABCC7 p.Ile507Val 15010427:184:44
status: NEW185 As a consequence, when the ⌬F508/⌬F508 homozygous mutant sample was tested the F508C, ⌬I507, I506V, and I507V wild-type probes all lost activity, and in the case of the I506V/⌬F508 compound heterozygote, the I507V wild-type probe lost activity.
X
ABCC7 p.Ile507Val 15010427:185:125
status: NEWX
ABCC7 p.Ile507Val 15010427:185:236
status: NEW199 In this series, there were 17 ⌬F508 heterozygous patient samples, 1 ⌬F508 homozygous sample, 2 R117H heterozygous samples, and 1 heterozygous patient sample each for I148T, G542X, R553X, R347P, and 2789 ϩ 5GϾA, for a total of 26 mutant alleles. Additional mutant alleles detected in the control samples included three fixed control samples (⌬F508 homozygous, 5T/WT, 3659delC/⌬F508) on every plate and two heterozygous samples (R560T and 1078delT) and one heterozygous sample each for R334W, A455E, R347P, R117H, ⌬I507, I507V, G551D, and 1717-1GϾA as rotating controls.
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ABCC7 p.Ile507Val 15010427:199:566
status: NEW
PMID: 15173476
[PubMed]
Comeau AM et al: "Population-based newborn screening for genetic disorders when multiple mutation DNA testing is incorporated: a cystic fibrosis newborn screening model demonstrating increased sensitivity but more carrier detections."
No.
Sentence
Comment
78
DNA Amplification and colorimetric detection on linear array strips with Analyte Specific Reagents for a 16-mutation assay (gift from Roche Molecular Systems, Alameda, CA) and a 27-mutation assay (Linear Array CF-31; Roche Molecular Biochemicals, Indianapolis, IN) were used.20 For both panels, the DNA assay assessed only CFTR mutations; detection of polymorphisms was incorporated as a reflex test for confirmation of putative ⌬F508 homozygotes (assay for F508C, I506V, and I507V) or for genotype elucidation on detection of 2 mutations including R117H (assay for IVS8polyT 5/7/9T).
X
ABCC7 p.Ile507Val 15173476:78:483
status: NEW
PMID: 15371908
[PubMed]
Buyse IM et al: "Use of MALDI-TOF mass spectrometry in a 51-mutation test for cystic fibrosis: evidence that 3199del6 is a disease-causing mutation."
No.
Sentence
Comment
77
This assay also demonstrated heterozygosity for the G542X mutation, and reflex testing for the 5T variant at CFTR intron 8 showed a genotype of 7T/9T in this patient (data not Table 3 Description of the 16 multiplex assays designed to analyze 51 CFTR mutations Multiplex Mutations Exon 1 1078delT, G314E, R352Q, G330X 7 2 R347H, R347P, R334W, 1717-1A 7, 11 3 R553X, S549N, R1162X 11, 19 4 A559T, R560T, G551D 11 5 G542X, S549R, 621ϩ1T, Y122X 4, 11 6 W1282X, 3876delA, 3905insT, D1152H 18, 20 7 3849ϩ4G, 3659delC, 1898ϩ1A 12, 19 8 405ϩ1A, 405ϩ3C, 3120A, 3120ϩ1A 3, 16 9 394delTT, E60X, G85E 3 10 A455E, ⌬F508a 9, 10 11 G480C, Q493X, V520F 10 12 711ϩ1T, G178R, 3199del6 5, 17a 13 2143delT, 2184delA, K710X, F316L 7, 13 14 I148T, R117H, R117C 4 15 N1303K, 2789ϩ5A, 3849ϩ10kbT 14b, intron19, 21 16 ⌬I507a 10 17 5Tb intron 8 a F508C and I507V, I506V, I506M variants are tested for concurrently with the ⌬F508 and ⌬I507 assays respectively.
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ABCC7 p.Ile507Val 15371908:77:900
status: NEW
PMID: 15371909
[PubMed]
Edelmann L et al: "Cystic fibrosis carrier screening: validation of a novel method using BeadChip technology."
No.
Sentence
Comment
7
Key Words: cystic fibrosis, carrier screening, BeadChip technology Cystic fibrosis (CF) results from mutations in the CF transmembrane conductance regulator (CFTR) and is a common autosomal recessive disorder, particularly in individuals of Caucasian and Ashkenazi Jewish (AJ) ancestry.1,2 CF also affects individuals from other ethnic groups, including Hispanics, African Americans, and Asians with carrier frequencies ranging from 1in46to1in90.1 Morethan1000mutationshavebeendescribed in the CFTR gene and although many of them are private mutations, there are a number of mutations that are distributed worldwide and still others that are common to specific ethnic groups.3 In2001,theAmericanCollegesofMedicalGenetics(ACMG)and Obstetrics and Gynecologists (ACOG) established guidelines for prenatal carrier testing for CF that included a panel of 25 panethnic mutations with allele frequencies Ն 0.1% among CF patients inNorthAmerica.1,4 Inaddition,theyrecommendedthatcarriers of R117H be subsequently tested for the 5/7/9T polymorphic alleles in intron 8 and that individuals positive for delF508 and delI507 have reflex testing for interference from the benign variants F508C, I506V, and I507V.1 The ACMG/ACOG recommendations precipitated a dramatic increase in the number of CF tests performed in genetic testing laboratories.
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ABCC7 p.Ile507Val 15371909:7:1199
status: VERIFIED
PMID: 15784035
[PubMed]
Gallegos-Orozco JF et al: "Lack of association of common cystic fibrosis transmembrane conductance regulator gene mutations with primary sclerosing cholangitis."
No.
Sentence
Comment
55
CFTR Mutations and Associated Phenotype Classic Nonclassic Cystic Fibrosis Cystic Fibrosis Variant Normal 621 + 1G→T R117H G85E* 7T 711 + 1G→T R334W 5T† 9T 1078delT R347P M470V‡ F508C I507 A455E I507V F508 2789 + 5G → A I506V 1717 - 1G→A 3849 + 10kbC→T G542X G551D R553X R560T R1162X 3659delC W1282X N1303K * Classic cystic fibrosis and nonclassic cystic fibrosis.
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ABCC7 p.Ile507Val 15784035:55:223
status: NEW
PMID: 15860566
[PubMed]
Krafft AE et al: "Time-motion analysis of 6 cystic fibrosis mutation detection systems."
No.
Sentence
Comment
50
CFTR mutation detection system OLA, Ver. 3 INNO-LiPA CF Gold 1.0 Tag-It CF 40 ؉ 4 CF eMAP/ Bead Chip Invader Source Abbott (ABI/ Celera) Innogenetics Roche TM Biosciences BioArray Solutions Third Wave Assay type OLA Reverse slot-blot ASOa Reverse slot-blot ASO ASPE ASPE Invader technology Enzymatic reactions (n) Multiplex PCR (1); OLA (1) Multiplex PCR (2); SA-HRP (1) Multiplex PCR (1); SA-HRP (1) Multiplex PCR (1); Exo-SAP (1); ASPE (1) Multiplex PCR (1); Exo-SAP (2); ASPE (1) Cleavase (6) Special equipment ABI 3100 capillary electrophoresis Auto-LiPA I Gemini Twin shaking water bath Luminex 100 Array imaging system Tecan GENios plate reader Additional Mutations 7 11 6 16 12 Polymorphisms 5/7/9T 5/7/9T 5/7/9T Reflex tests required 5/7/9T Yes Nob Nob Nob Yes Yes I506V/I507V Yes Noc No No No Yes Automated allele calling Yes No No Yes Yes No a ASO, allele-specific oligonucleotides; SA-HRP, streptavidin-conjugated horseradish peroxidase; Exo-SAP, exonuclease plus shrimp alkaline phosphatase digestion.
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ABCC7 p.Ile507Val 15860566:50:785
status: NEW
PMID: 18716917
[PubMed]
George Priya Doss C et al: "A novel computational and structural analysis of nsSNPs in CFTR gene."
No.
Sentence
Comment
125
The nsSNPs which were predicted to be Table 1 List of nsSNPs that were predicted to be deleterious by SIFT and PolyPhen SNPs ID Alleles AA change Tolerance index PSIC rs1800072 G/A V11C 1.00 0.150 rs1800073 C/T R31C 0.18 2.288 rs1800074 A/T D44V 0.01 2.532 rs1800076 G/A R75Q 0.03 1.754 rs1800078 T/C L138P 0.01 2.192 rs35516286 T/C I148T 0.41 1.743 rs1800079 G/A R170H 0.05 1.968 rs1800080 A/G S182G 0.03 1.699 rs1800086 C/G T351S 0.30 1.600 rs1800087 A/C Q353H 0.03 2.093 rs4727853 C/A N417K 1.00 0.015 rs11531593 C/A F433L 0.65 0.694 rs1800089 C/T L467F 0.15 1.568 rs213950 G/A V470M 0.17 1.432 rs1800092 C/A/G I506M 0.00 1.574 rs1801178 A/G I507V 0.38 0.314 rs1800093 T/G F508C 0.00 3.031 rs35032490 A/G K532E 1.00 1.525 rs1800097 G/A V562I 0.13 0.345 rs41290377 G/C G576A 0.33 1.262 rs766874 C/T S605F 0.03 2.147 rs1800099 A/G S654G 0.03 1.611 rs1800100 C/T R668C 0.01 2.654 rs1800101 T/C F693L 0.61 0.895 rs1800103 A/G I807M 0.01 1.554 rs1800106 T/C Y903H 0.52 0.183 rs1800107 G/T S909I 0.10 1.624 rs1800110 T/C L967S 0.07 1.683 rs1800111 G/C L997F 0.24 1.000 rs1800112 T/C I1027T 0.03 1.860 rs1800114 C/T A1067V 0.04 1.542 rs36210737 T/A M1101K 0.05 2.637 rs35813506 G/A R1102K 0.52 1.589 rs1800120 G/T R1162L 0.00 2.038 rs1800123 C/T T1220I 0.22 0.059 rs34911792 T/G S1235R 0.45 1.483 rs11971167 G/A D1270N 0.12 1.739 rs4148725 C/T R1453W 0.00 2.513 Highly deleterious by SIFT and damaging by PolyPhen are indicated as bold deleterious in causing an effect in the structure and function of the protein by SIFT, PolyPhen and Pupasuite correlated well with experimental studies (Tsui 1992; Ghanem et al. 1994; Bienvenu et al. 1998) (Table 3).
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ABCC7 p.Ile507Val 18716917:125:645
status: NEW
PMID: 19372188
[PubMed]
Bickmann JK et al: "A novel approach to CFTR mutation testing by pyrosequencing-based assay panels adapted to ethnicities."
No.
Sentence
Comment
129
Furthermore, the PSQ-based first-level test avoids common pitfalls, as do the most recent assays: It correctly discriminates G551D and R553X, as well as I507del and F508del (Fig. 3; see Fig. 1 in the online Data Supplement), thus obviating reflex testing for benign sequence variations such as I506V, I507V, and F508C.
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ABCC7 p.Ile507Val 19372188:129:301
status: NEW148 Fig. 2 in the online Data Supplement illustrates the capability of the assay to discriminate I507del, F508del, 1677delTA, and the interfering benign variants I506V, I507V, and F508C.
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ABCC7 p.Ile507Val 19372188:148:165
status: NEW
PMID: 20393308
[PubMed]
Chandrasekharan S et al: "Impact of gene patents and licensing practices on access to genetic testing for cystic fibrosis."
No.
Sentence
Comment
184
I506V, I507V, and F508C are performed only as reflex tests for unexpected homozygosity for ⌬F508 and/or ⌬I507.
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ABCC7 p.Ile507Val 20393308:184:7
status: NEW
No.
Sentence
Comment
53
Given that 5% of the general population will test positive for the 5T polymorphism alone, this test is recommended only as a reflex to a positive R117H result.22,23 Non CF-causing variants, including I506V, I507V, and F508C, can mistakenly cause a false-positive result based on laboratory and testing methodologies.
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ABCC7 p.Ile507Val 20638569:53:207
status: NEW54 For example, in patients who screen positive for DF508 carrier status and for one of the aforementioned mutations, a false-positive test for DF508 homozygosity may be obtained, although the patient is an otherwise healthy individual.22 Although F508C has been associated with CBAVD, neither I506V nor I507V have been associated with any phenotypic manifestations of classical CF or CBAVD.24 Therefore, reflex testing for I506V, I507V, and F508C should be performed in any healthy individual who tests positive for DF508 or DI507 homozygosity, but these mutations should not be otherwise used for a priori testing.
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ABCC7 p.Ile507Val 20638569:54:301
status: NEWX
ABCC7 p.Ile507Val 20638569:54:428
status: NEW
PMID: 21474639
[PubMed]
Rohlfs EM et al: "Cystic fibrosis carrier testing in an ethnically diverse US population."
No.
Sentence
Comment
61
The mutation analysis discriminated between p.F508del and the benign polymorphisms p.F508C, p.I506V, and p.I507V.
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ABCC7 p.Ile507Val 21474639:61:107
status: NEW
PMID: 22427236
[PubMed]
Rosendahl J et al: "CFTR, SPINK1, CTRC and PRSS1 variants in chronic pancreatitis: is the role of mutated CFTR overestimated?"
No.
Sentence
Comment
140
Variant distribution in patients aged >20 and <20 years In younger patients, overall PRSS1 variants were 2.9-fold more common (>20 years: 9/239, 3.8%; <20 years: 46/421, 10.9%; p¼0.001, OR 3.1, 95% CI 1.5 to 6.5), whereas overall SPINK1 variants were similarly distributed (56/239, 23.4%; 73/421, Table 2 CFTR variants detected by melting curve analysis Gene Variant Patients Controls p Value OR (95% CI) CFTR (CF-causing, severe) p.F508del 44/660 (6.7%) 48/1758 (2.7%) <0.0001 2.5 (1.7 to 3.9) p.R117H (5T/7T) 2/660 (0.3%) 1/1758 (0.06%) NS e p.G542X 1/660 (0.2%) 1/1758 (0.06%) NS e c.1717-1G>A 3/660 (0.5%) 1/1758 (0.06%) NS e p.E585X 0/660 1/1758 (0.06%) NS e c.2183AA>G 0/660 1/1758 (0.06%) NS e p.R1158X 1/660 (0.2%) 0/1758 NS e p.R1162X 1/660 (0.3%) 0/1758 NS e p.N1303K 3/660 (0.5%) 0/1758 NS e Total 55/660 (8.3%) 53/1758 (3%) <0.0001 2.9 (2 to 4.3) CFTR (CF-causing mild) p.R117H (7T/7T) 13/660 (2%) 8/1758 (0.5%) 0.0009 4.4 (1.8 to 10.7) p.R117H (7T/9T) 3/660 (0.5%) 1/1758 (0.06%) NS e p.R347H 1/660 (0.2%) 0/1758 NS e p.R347P 1/660 (0.2%) 0/1758 NS e p.A455E 1/660 (0.2%) 0/1758 NS e c.2657+5G>A 1/660 (0.2%) 0/1758 NS e p.D1152H 3/660 (0.5%) 5/1758 (0.3%) NS e Total 23/660 (3.5%) 14/1758 (0.8%) <0.0001 4.5 (2.3 to 8.8) CFTR (non CF-causing) p.R74Q 2/660 (0.3%) 0/1758 NS e p.R75Q (het)* 29/660 (4.4%) 59/1758 (3.4%) NS e p.R75Q (hom)* 2/660 (0.3%) 1/1758 (0.06%) NS e p.Y84H 0/660 1/1758 (0.06%) NS e p.A120T 0/660 1/1758 (0.06%) NS e p.I148T* 4/660 (0.6%) 11/1758 (0.6%) NS e p.I507V 1/660 (0.2%) 2/1758 (0.1%) NS e p.F508C 1/660 (0.2%) 0/1758 NS e c.1716+12T>C 0/660 1/1758 (0.06%) NS e p.E528E (het)* 36/660 (5.5%) 82/1758 (4.7%) NS e p.E528E (hom)* 0/660 2/1758 (0.1%) NS e c.1898+8C>G 0/660 1/1758 (0.06%) NS e p.H667Y 1/660 (0.2%) 0/1758 NS e p.R668C 5/660 (0.8%) 3/1758 (0.2%) NS e p.G691R 0/660 1/1758 (0.06%) NS e p.L997F 5/660 (0.8%) 6/1758 (0.3%) NS e p.S1235R 10/660 (1.5%) 18/1758 (1.0%) NS e Total (excluded)* 25/660 (3.8%) 45/1758 (2.6%) NS e CFTR (CF-causing) Total (all) 78/660 (11.8%) 67/1758 (3.8%) <0.0001 3.4 (2.4 to 4.8) CFTR (all) Total (excluded)* 103/660 (15.6%) 112/1758 (6.4%) <0.0001 2.7 (2 to 3.6) The table is divided into three parts.
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ABCC7 p.Ile507Val 22427236:140:1500
status: NEW135 Variant distribution in patients aged >20 and <20 years In younger patients, overall PRSS1 variants were 2.9-fold more common (>20 years: 9/239, 3.8%; <20 years: 46/421, 10.9%; p&#bc;0.001, OR 3.1, 95% CI 1.5 to 6.5), whereas overall SPINK1 variants were similarly distributed (56/239, 23.4%; 73/421, Table 2 CFTR variants detected by melting curve analysis Gene Variant Patients Controls p Value OR (95% CI) CFTR (CF-causing, severe) p.F508del 44/660 (6.7%) 48/1758 (2.7%) <0.0001 2.5 (1.7 to 3.9) p.R117H (5T/7T) 2/660 (0.3%) 1/1758 (0.06%) NS e p.G542X 1/660 (0.2%) 1/1758 (0.06%) NS e c.1717-1G>A 3/660 (0.5%) 1/1758 (0.06%) NS e p.E585X 0/660 1/1758 (0.06%) NS e c.2183AA>G 0/660 1/1758 (0.06%) NS e p.R1158X 1/660 (0.2%) 0/1758 NS e p.R1162X 1/660 (0.3%) 0/1758 NS e p.N1303K 3/660 (0.5%) 0/1758 NS e Total 55/660 (8.3%) 53/1758 (3%) <0.0001 2.9 (2 to 4.3) CFTR (CF-causing mild) p.R117H (7T/7T) 13/660 (2%) 8/1758 (0.5%) 0.0009 4.4 (1.8 to 10.7) p.R117H (7T/9T) 3/660 (0.5%) 1/1758 (0.06%) NS e p.R347H 1/660 (0.2%) 0/1758 NS e p.R347P 1/660 (0.2%) 0/1758 NS e p.A455E 1/660 (0.2%) 0/1758 NS e c.2657+5G>A 1/660 (0.2%) 0/1758 NS e p.D1152H 3/660 (0.5%) 5/1758 (0.3%) NS e Total 23/660 (3.5%) 14/1758 (0.8%) <0.0001 4.5 (2.3 to 8.8) CFTR (non CF-causing) p.R74Q 2/660 (0.3%) 0/1758 NS e p.R75Q (het)* 29/660 (4.4%) 59/1758 (3.4%) NS e p.R75Q (hom)* 2/660 (0.3%) 1/1758 (0.06%) NS e p.Y84H 0/660 1/1758 (0.06%) NS e p.A120T 0/660 1/1758 (0.06%) NS e p.I148T* 4/660 (0.6%) 11/1758 (0.6%) NS e p.I507V 1/660 (0.2%) 2/1758 (0.1%) NS e p.F508C 1/660 (0.2%) 0/1758 NS e c.1716+12T>C 0/660 1/1758 (0.06%) NS e p.E528E (het)* 36/660 (5.5%) 82/1758 (4.7%) NS e p.E528E (hom)* 0/660 2/1758 (0.1%) NS e c.1898+8C>G 0/660 1/1758 (0.06%) NS e p.H667Y 1/660 (0.2%) 0/1758 NS e p.R668C 5/660 (0.8%) 3/1758 (0.2%) NS e p.G691R 0/660 1/1758 (0.06%) NS e p.L997F 5/660 (0.8%) 6/1758 (0.3%) NS e p.S1235R 10/660 (1.5%) 18/1758 (1.0%) NS e Total (excluded)* 25/660 (3.8%) 45/1758 (2.6%) NS e CFTR (CF-causing) Total (all) 78/660 (11.8%) 67/1758 (3.8%) <0.0001 3.4 (2.4 to 4.8) CFTR (all) Total (excluded)* 103/660 (15.6%) 112/1758 (6.4%) <0.0001 2.7 (2 to 3.6) The table is divided into three parts.
X
ABCC7 p.Ile507Val 22427236:135:1499
status: NEW
PMID: 16156102
[PubMed]
Dunbar SA et al: "Rapid screening for 31 mutations and polymorphisms in the cystic fibrosis transmembrane conductance regulator gene by Lminex xMAP suspension array."
No.
Sentence
Comment
27
I506C, I507V, and F508C are performed only as reflex tests for unexpected homozygosity for ΔF508 and/or ΔI507.
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ABCC7 p.Ile507Val 16156102:27:7
status: NEW104 Nucleotides were added to the 5' and 3' ends of the probe sequences to improve hybridization efficiency of the probe to its perfect-match target, thus 152 Dunbar and Jacobson Table 2 (Continued) Target Microsphere Probe sequence Modificationb Sequence 5' → 3' set 46B 1898+1G→A 5'-AmMC12 TATTTGAAAGATATGTTCTTTG 027 47B 3120+1G 5'-AmMC12 CTTCATCCAGGTATGTAAAAAT 043 48B 3120+1G→A 5'-AmMC12 CTTCATCCAGATATGTAAAAAT 055 Reflex panel R2B I506V 5'-AmMC12 CACCAAAGATGACATTTTC 009 R3B I507V 5'-AmMC12 CACCAAAGACGATATTTTC 021 R4B F508C 5'-AmMC12 AACACCACAGATGATATTT 024 R5B 5T 5'-AmMC12 TGTGTGTTTTTAACAGGG 029 R6B 7T 5'-AmMC12 GTGTGTTTTTTTAACAGG 033 R7C 9T 5'-AmMC12 GTGTGTTTTTTTTTAACAG 037 a The position and sequence of the mutation or variation is indicated in bold type. b 5'-Amino modifier C12.
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ABCC7 p.Ile507Val 16156102:104:497
status: NEW106 Table 3 Reverse Complementary Oligonucleotide Targetsa Target Target sequence Modification Sequence 5' → 3' Standard mutation panel C1b I507 & F508 5'-Biotin AAAATATCATCTTTGGTGTT C2 ΔI507 5'-Biotin AAAGAAAATATCTTTGGTGT C3 ΔF508 5'-Biotin AGAAAATATCATTGGTGTTT C4 W1282 5'-Biotin GGCTTTCCTCCACTGTTGC C5 W1282X 5'-Biotin GGCTTTCCTTCACTGTTGC C6 1717-1G 5'-Biotin TGGAGATGTCCTATTACCAA C7 1717-1G→A 5'-Biotin TGGAGATGTCTTATTACCAA C8 G542 5'-Biotin CCACCTTCTCCAAGAACTAT C9 G542X 5'-Biotin CCACCTTCTCAAAGAACTAT C10 G551 & R553 5'-Biotin CTTGCTCGTTGACCTCCACT C11 G551D 5'-Biotin CTTGCTCGTTGATCTCCACT C12 R553X 5'-Biotin CTTGCTCATTGACCTCCACT C13 R560 5'-Biotin AGTTATTCACCTTGATAAAG C14 R560T 5'-Biotin AGTTATTCACGTTGCTAAAG C15 R117 5'-Biotin CGCGATAGAGCGTTCCTCCT C16 R117H 5'-Biotin CGCGATAGAGTGTTCCTCCT C17 I148 5'-Biotin CTGCATTCCAATGTGATGAA C18 I148T 5'-Biotin CTGCATTCCAGTGTGATGAA C19 621+1G 5'-Biotin GGAAGTATTACCTTCTTATA C20 621+1G→T 5'-Biotin GGAAGTATTAACTTCTTATA C21 N1303 5'-Biotin TTAGAAAAAACTTGGATCCC C22 N1303K 5'-Biotin TTAGAAAAAAGTTGGATCCC C23 1078T 5'-Biotin CTCAGGGTTCTTTGTGGTGT C24 1078delT 5'-Biotin TCTCAGGGTTCTTGTGGTGT C25 R334 5'-Biotin AATCATCCTCCGGAAAATAT C26 R334W 5'-Biotin AATCATCCTCTGGAAAATAT C27 R347 5'-Biotin ATTGTTCTGCGCATGGCGGT C28 R347P 5'-Biotin ATTGTTCTGCCCATGGCGGT C29 711+1G 5'-Biotin TAGGTACATACTTCATCAAA C30 711+1G→T 5'-Biotin TAGGTACATAATTCATCAAA C31 G85 5'-Biotin TAAAAAGATTCCATAGAACA C32 G85E 5'-Biotin TAAAAAGATTTCATAGAACA C33 3849+10kbC 5'-Biotin ATTAAAATGGCGAGTAAGAC C34 3849+10kbC→T 5'-Biotin ATTAAAATGGTGAGTAAGAC C35 A455 5'-Biotin CAGTTGTTGGCGGTTGCTGG C36 A455E 5'-Biotin CAGTTGTTGGAGGTTGCTGG C37 R1162 5'-Biotin ATCTGTGAGCCGAGTCTTTA C38 R1162X 5'-Biotin ATCTGTGAGCTGAGTCTTTA (Continued) Rapid CF Screening by xMAPTM 153 Table 3 (Continued) Target Target sequence Modification Sequence 5' → 3' C39 3659C 5'-Biotin GGTAAACCTACCAAGTCAAC C40 3659delC 5'-Biotin AGGTAAACCTACAAGTCAAC C41 2789+5G 5'-Biotin ACATGGAATACTCACTTTCC C42 2789+5G→A 5'-Biotin ACATGGAATATTCACTTTCC C43 2184A 5'-Biotin AAGATTGTTTTTTTGTTTCT C44 2184delA 5'-Biotin AAGATTGTTTTTTGTTTCTG C45 1898+1G 5'-Biotin AAAGAACATACCTTTCAAAT C46 1898+1G→A 5'-Biotin AAAGAACATATCTTTCAAAT C47 3120+1G 5'-Biotin TTTTTACATACCTGGATGAA C48 3120+1G→A 5'-Biotin TTTTTACATATCTGGATGAA Reflex panel CR2 I506V 5'-Biotin GAAAATGTCATCTTTGGTGT CR3 I507V 5'-Biotin GAAAATATCGTCTTTGGTGT CR4 F508C 5'-Biotin AAAATATCATCTGTGGTGTT CR5 5T 5'-Biotin TCCCTGTTAAAAACACACAC CR6 7T 5'-Biotin CCCTGTTAAAAAAACACACA CR7 9T 5'-Biotin CCTGTTAAAAAAAAACACAC a The position and sequence of the mutation or variation is indicated in bold type. b Target C1 (I507 & F508) is also used in the reflex panel.
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ABCC7 p.Ile507Val 16156102:106:2401
status: NEW114 Using a small target DNA (approx 100-300 bp) minimizes the potential for steric hindrance to affect the xMAPTM Table 4 PCR Amplification Primers Size CFTR target Mutation(s) Primer 5' Modification Sequence 5' → 3' (bp) Exon 10 ΔI507, ΔF508, BE10U 5'-Biotin TTCTGTTCTCAGTTTTCCTGG 107 I506V, I507V, E10D None TTGGCATGCTTTGATGACG F508C Exon 20 W1282X E20U None TTGAGACTACTGAACACTGAAGG 126 BE20D 5'-Biotin TTCTGGCTAAGTCCTTTTGC Intron 10 1717-1G→A E11U None TCAGATTGAGCATACTAAAAGTGAC 89 BE11D2 5'-Biotin GAACTATATTGTCTTTCTCTGCAAAC Exon 11 G542X, G551D, E11U2 None AAGTTTGCAGAGAAAGACAATATAG 135 R553X, R560T BE11D 5'-Biotin GAATGACATTTACAGCAAATGC Exon 4 R117H E4U None TTTGTAGGAAGTCACCAAAGC 145 BE4D2 5'-Biotin GAGCAGTGTCCTCACAATAAAGAG Exon 4/intron 4 I148T, E4U2 None CTTCTCTTTATTGTGAGGACACTGC 169 621+1G→T BE4D 5'-Biotin ATGACATTAAAACATGTACGATACAG Exon 21 N1303K BE21U 5'-Biotin TGCTATAGAAAGTATTTATTTTTTCTGG 106 E21D None AGCCTTACCTCATCTGCAAC Exon 7 1078delT, BE7U 5'-Biotin GAACAGAACTGAAACTGACTCG 199 R334W, R347P E7D3 None CAGGGAAATTGCCGAGTG Intron 5 711+1G→T I5U None CAACTTGTTAGTCTCCTTTCC 99 BI5D2 5'-Biotin AGTTGTATAATTTATAACAATAGTGC Exon 3 G85E E3U None CTGGCTTCAAAGAAAAATCC 117 BE3D2 5'-Biotin TGAATGTACAAATGAGATCCTTACC Chromosome 7 3849+10kbC→T BC7U 5'-Biotin GACTTGTCATCTTGATTTCTGG 148 C7D None TTTGGTGCTAGCTGTAATTGC Exon 9 A455E BE9U 5'-Biotin TCACTTCTTGGTACTCCTGTCC 105 E9D None CAAAAGAACTACCTTGCCTGC Exon 19-I R1162X BE19U 5'-Biotin ATTGTGAAATTGTCTGCCATTC 167 E19Da None CAATAATCATAACTTTCGAGAGTTG Exon 19-II 3659delC BE19U2 5'-Biotin TTTAAGTTCATTGACATGCCAAC 91 E19Da None CAATAATCATAACTTTCGAGAGTTG Intron 14B 2789+5G→A I14BU None GTGTCTTGTTCCATTCCAGG 147 BI14BD 5'-Biotin TGGATTACAATACATACAAACATAGTGG Exon 13 2184delA E13U None AGATGCTCCTGTCTCCTGG 126 BE13D 5'-Biotin TGCACAATGGAAAATTTTCGTATAG Intron 12 1898+1G→A I12U None TTAGACTCTCCTTTTGGATACC 110 BI12D 5'-Biotin GTCTTTCTTTTATTTTAGCATGAGC Intron 16 3120+1G→A I16U None ATGACCTTCTGCCTCTTACC 118 BI16D 5'-Biotin ATGAAAACAAAATCACATTTGC Intron 8 5T/7T/9T I8U None TAATGGATCATGGGCCATGTGC 212 BI8D 5'-Biotin ACTGAAGAAGAGGCTGTCATCACC CFTR, cystic fibrosis transmembrane conductance regulator gene.
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ABCC7 p.Ile507Val 16156102:114:312
status: NEW124 The M1 reaction was also used for detection of the I506V, I507V, and F508C polymorphisms in the reflex panel.
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ABCC7 p.Ile507Val 16156102:124:58
status: NEW259 Table7(continued) 167 Table 8 Allelic Ratio Data for the Reflex Panela Genotype I507 & F508 I506V I507Vb F508C Exon 10 variants ΔF508/ΔF508c - - - - ΔF508/Normal 0.93 0.03 0.02 0.02 Normal/Normal 0.94 0.03 0.01 0.01 ΔI507/Normal 0.97 0.04 -0.03 0.01 I506V/Normal 0.45 0.01 -0.01 0.54 F508C/Normal 0.40 0.58 0.00 0.01 Intron 8 variants Genotype 5T 7T 9T 7T/7T -0.06 1.06 0.01 7T/7T -0.01 1.00 0.01 7T/7T -0.01 1.01 0.00 9T/9T 0.05 0.05 0.90 9T/9T 0.07 0.05 0.87 7T/9T 0.04 0.45 0.51 7T/9T 0.03 0.40 0.56 5T/7T 0.42 0.60 -0.01 5T/7T 0.45 0.59 -0.04 5T/9T 0.36 0.00 0.64 a Positive alleles are indicated in bold type. b Samples positive for the I507V allele were not available.
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ABCC7 p.Ile507Val 16156102:259:669
status: NEW
PMID: 9511935
[PubMed]
Bianchet MA et al: "Modeling of nucleotide binding domains of ABC transporter proteins based on a F1-ATPase/recA topology: structural model of the nucleotide binding domains of the cystic fibrosis transmembrane conductance regulator (CFTR)."
No.
Sentence
Comment
33
Importantly, missense mutations such as F508C, I506V and I507V are benign and do not cause the disease [Kobayashi et al. (1990)].
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ABCC7 p.Ile507Val 9511935:33:57
status: NEW
PMID: 22043142
[PubMed]
Lilley M et al: "Newborn screening for cystic fibrosis in Alberta: Two years of experience."
No.
Sentence
Comment
47
If indicated, testing includes reflex analysis for the following variants: 5/7/9T exon 9 splice acceptor tracts, F508C, I507V and I506V.
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ABCC7 p.Ile507Val 22043142:47:120
status: NEW
PMID: 26014425
[PubMed]
Girardet A et al: "The improvement of the best practice guidelines for preimplantation genetic diagnosis of cystic fibrosis: toward an international consensus."
No.
Sentence
Comment
76
For example, inability to confirm the variants in both parents may be found in cases with apparent homozygosity for a common or a rare variant: Nonpaternity Presence on the opposite allele of a large deletion, nonrevealed by routine tests Presence of a rare SNP in primer-binding sites or a rare DNA variant that causes failure of amplification and/or hybridization of a probe: for example, false homozygosity for p.Phe508del due to the presence of the variant F508C (c.1523T4G); false homozygosity for p.Ile507del due to the presence of p.Ile507Val (I597V) (c.1519A4G).
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ABCC7 p.Ile507Val 26014425:76:546
status: NEW