ABCC7 p.Asp110Tyr
| ClinVar: |
c.328G>C
,
p.Asp110His
D
, Pathogenic
c.328G>T , p.Asp110Tyr ? , not provided c.330C>A , p.Asp110Glu ? , not provided |
| CF databases: |
c.328G>C
,
p.Asp110His
D
, CF-causing ; CFTR1:
c.330C>A , p.Asp110Glu (CFTR1) ? , This mutation was detected by DGGE analysis followed by direct sequencing in two CF infants, a girl carrying [delta]F508 in the other chromosome and a boy carrying G542X in the other chromosome, both of Southern Italian origin (Sicilia region). It was never found in other 800 Italian CF chromosomes and in 100 control chromosomes from Italian population. The girl was diagnosed because of positive neonatal screening (persistent neonatal hypertrypsinemia), sweat chloride was 42, 57, and 68 mEq/l on repeated tests. Delayed meconium emission. No respiratory symptoms, pancreatic sufficiency and normal growth at 6 months. The boy presented at 6 months because of metabolic alkalemic diselectrolitemia and bronchiolitis. Neonatal screening was negative. Sweat chloride was 80, 70, 59 and 88 mEq/l on repeated occasions. At 2.5yrs, he is pancreatic sufficient, his growth is in the normal range and he presents no respiratory problems. This mutation was also reported by Aquino et al. (22/02/2000): It abolishes a Scrf I site. This substitution involves a quite conserved residue among species (N110 in the squale), in an intracellular loop. It doesn't affect the charge of the CFTR protein. It was found in an Italian CF patient with pancreatic sufficiency and bearing [delta]F508 on the other chromosome. No other mutation was found after analysis of 14 exons. The deleterious effect of D110E remains to be demonstrated. c.328G>T , p.Asp110Tyr (CFTR1) D , This mutation was found by SSCA and direct DNA sequencing in a CBAVD patient. (reported in Human Reproduction (2000) 15, 1476-1483). c.328G>A , p.Asp110Asn (CFTR1) ? , |
| Predicted by SNAP2: | A: D (91%), C: D (91%), E: D (85%), F: D (95%), G: D (95%), H: D (63%), I: D (95%), K: D (95%), L: D (95%), M: D (95%), N: D (85%), P: D (95%), Q: D (95%), R: D (95%), S: D (85%), T: D (95%), V: D (95%), W: D (95%), Y: D (95%), |
| Predicted by PROVEAN: | A: N, C: D, E: N, F: N, G: N, H: N, I: N, K: N, L: N, M: N, N: N, P: D, Q: N, R: N, S: N, T: N, V: N, W: D, Y: N, |
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[hide] Heterogeneity for mutations in the CFTR gene and c... Hum Reprod. 2000 Jul;15(7):1476-83. Casals T, Bassas L, Egozcue S, Ramos MD, Gimenez J, Segura A, Garcia F, Carrera M, Larriba S, Sarquella J, Estivill X
Heterogeneity for mutations in the CFTR gene and clinical correlations in patients with congenital absence of the vas deferens.
Hum Reprod. 2000 Jul;15(7):1476-83., [PMID:10875853]
Abstract [show]
Congenital absence of the vas deferens (CAVD) is a heterogeneous disorder, largely due to mutations in the cystic fibrosis (CFTR) gene. Patients with unilateral absence of the vas deferens (CUAVD) and patients with CAVD in association with renal agenesis appear to have a different aetiology to those with isolated CAVD. We have studied 134 Spanish CAVD patients [110 congenital bilateral absence of the vas deferens (CBAVD) and 24 CUAVD], 16 of whom (six CBAVD, 10 CUAVD) had additional renal anomalies. Forty-two different CFTR mutations were identified, seven of them being novel. Some 45% of the CFTR mutations were specific to CAVD, and were not found in patients with cystic fibrosis or in the general Spanish population. CFTR mutations were detected in 85% of CBAVD patients and in 38% of those with CUAVD. Among those patients with renal anomalies, 31% carried one CFTR mutation. Anomalies in seminal vesicles and ejaculatory ducts were common in patients with CAVD. The prevalence of cryptorchidism and inguinal hernia appeared to be increased in CAVD patients, as well as nasal pathology and frequent respiratory infections. This study confirms the molecular heterogeneity of CFTR mutations in CAVD, and emphasizes the importance of an extensive CFTR analysis in these patients. In contrast with previous studies, this report suggests that CFTR might have a role in urogenital anomalies.
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No. Sentence Comment
67 The abnormally migrating fragments were characterized by sequencing with the DyeDeoxy™ chain terminator method on an variant and another mutation (S50P, 2751ϩ3A→G, A1006E I. Description of the seven novel CFTR mutations and five polymorphisms in CAVD patients Mutation Location Nucleotide Amino acid Markers haplotype changes change (T)n-8CA-17bTA-M470V S50P exon 2 280 T→C Ser → Pro 5T/7T-16-31-ND D110Y exon 4 460 G→T Asp acid → Tyr 7T-17-7-V470 L383S exon 8 1280 T→C Leu → Ser 7T-16-7-M470 H484Y exon 10 1582 C→T His → Tyr no phase-M470 2751ϩ3A→G intron 14a 2751ϩ3 A→G - 5T-16-30-ND Q890R exon 15 2801 A→G Glu → Arg 7T-16-7/29-V470 P1021S exon 17a 3193 C→T Pro → Ser 7T-17-7-M470 Polymorphisms 104C/A 5ЈUTR - 296ϩ128G/C intron 3 - 741C/T exon 6a Ile203 no change 3195A/T exon 17a Pro1021 no change 3212T/C exon 17a Ile1027 no change CAVD ϭ congenital absence of the vas deferens; ND ϭ not determined; 5ЈUTR ϭ 5Ј untranslated region.
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ABCC7 p.Asp110Tyr 10875853:67:436
status: NEW95 CFTR genotypes in 24 patients with congenital unilateral absenceTable III. CFTR genotypes in 110 patients with congenital bilateral absence of the vas deferens of the vas deferens Mutations IVS8-6(T) n (%)Mutations IVS8-6(T) n (%) Two CFTR mutations 62 (56) Two CFTR mutations 5 (21) ∆F508/- 5T/9T 2 (8)∆F508/- 5T/9T 17 (15) G542X/- 5T/9T 6 (5) G542X/- 5T/9T 1 3732delA/- 5T/7T 1∆F508/L206W 9T/9T 6 (5) ∆F508/D1270NϩR74W 7T/9T 3 (3) L383S/- 5T/7T 1 One CFTR mutation 4 (17)∆F508/R117H 7T/7T 1 ∆F508/P1021S 7T/9T 1 ∆F508/-a 7T/9T 1 3732delA/-a 7T/7T 1∆F508/M952T 7T/9T 1 ∆F508/D110Y 7T/9T 1 Q890R/- 7T/7T 1 -/-a 5T/7T 1∆F508/S50P 5T/9T 1 ∆F508/2751ϩ3A→G 5T/9T 1 Negative CFTR mutations 15 (62) -/- 7T/7T 10 (42)G542X/R117H 7T/9T 1 G542X/2789ϩ5G→A 7T/9T 1 -/- 7T/9T 3 (12) -/- 9T/9T 2 (8)R117H/2789ϩ5G→A 7T/7T 1 R117H/712-1G→T 7T/9T 1 R117H/∆I507 7T/7T 1 aThree carrier patients with renal agenesis.
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ABCC7 p.Asp110Tyr 10875853:95:645
status: NEW[hide] Gender-sensitive association of CFTR gene mutation... Mol Hum Reprod. 2005 Aug;11(8):607-14. Epub 2005 Aug 26. Morea A, Cameran M, Rebuffi AG, Marzenta D, Marangon O, Picci L, Zacchello F, Scarpa M
Gender-sensitive association of CFTR gene mutations and 5T allele emerging from a large survey on infertility.
Mol Hum Reprod. 2005 Aug;11(8):607-14. Epub 2005 Aug 26., [PMID:16126774]
Abstract [show]
Human infertility in relation to mutations affecting the cystic fibrosis transmembrane regulator (CFTR) gene has been investigated by different authors. The role of additional variants, such as the possible forms of the thymidine allele (5T, 7T and 9T) of the acceptor splice site of intron 8, has in some instances been considered. However, a large-scale analysis of the CFTR gene and number of thymidine residues, alone and in combination, in the two sexes had not yet been addressed. This was the aim of this study. Two groups were compared, a control group of 20,532 subjects being screened for perspective reproduction, and the patient group represented by 1854 idiopathically infertile cases. Analyses involved PCR-based CFTR mutations assessment, reverse dot-blot IVS8-T polymorphism analyses, denaturing gradient gel electrophoresis (DGGE) and DNA sequencing. The expected 5T increase in infertile men was predominantly owing to the 5/9 genotypic class. The intrinsic rate of 5T fluctuated only slightly among groups, but some gender-related differences arose when comparing their association. Infertile men showed a significantly enriched 5T + CFTR mutation co-presence, distributed in the 5/9 and 5/7 classes. In contrast, females, from both the control and the infertile groups, showed a trend towards a pronounced reduction of such association. The statistical significance of the difference between expected and observed double occurrence of 5T + CFTR traits in women suggests, in line with other reports in the literature, a possible survival-hampering effect. Moreover, regardless of the 5T status, CFTR mutations appear not to be involved in female infertility. These results underline the importance of (i) assessing large sample populations and (ii) considering separately the two genders, whose genotypically opposite correlations with these phenomena may otherwise tend to mask each other.
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76 This test involved nine subjects from the infertile group, revealing the occurrence of the following rare mutations: E217G, T1054A, W356X, D443Y and 3667insTC in males and L997F and R297Q in females and 29 subjects from the control, in which we found: A1009T, D110Y, E826K, G1069R, G1130A, G194V, I556V, L320F, M348K, M82V, P1290T, R117C, R352W, R74W, S42F, S660T, S911R, S912L, T1086A, T582S, V920L and Y89C.
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ABCC7 p.Asp110Tyr 16126774:76:263
status: NEW[hide] Do common in silico tools predict the clinical con... Clin Genet. 2010 May;77(5):464-73. Epub 2009 Jan 6. Dorfman R, Nalpathamkalam T, Taylor C, Gonska T, Keenan K, Yuan XW, Corey M, Tsui LC, Zielenski J, Durie P
Do common in silico tools predict the clinical consequences of amino-acid substitutions in the CFTR gene?
Clin Genet. 2010 May;77(5):464-73. Epub 2009 Jan 6., [PMID:20059485]
Abstract [show]
Computational methods are used to predict the molecular consequences of amino-acid substitutions on the basis of evolutionary conservation or protein structure, but their utility in clinical diagnosis or prediction of disease outcome has not been well validated. We evaluated three popular computer programs, namely, PANTHER, SIFT and PolyPhen, by comparing the predicted clinical outcomes for a group of known CFTR missense mutations against the diagnosis of cystic fibrosis (CF) and clinical manifestations in cohorts of subjects with CF-disease and CFTR-related disorders carrying these mutations. Owing to poor specificity, none of tools reliably distinguished between individual mutations that confer CF disease from mutations found in subjects with a CFTR-related disorder or no disease. Prediction scores for CFTR mutations derived from PANTHER showed a significant overall statistical correlation with the spectrum of disease severity associated with mutations in the CFTR gene. In contrast, PolyPhen- and SIFT-derived scores only showed significant differences between CF-causing and non-CF variants. Current computational methods are not recommended for establishing or excluding a CF diagnosis, notably as a newborn screening strategy or in patients with equivocal test results.
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64 Mutations in the CFTR gene grouped by clinical category Cystic fibrosis CFTR-related disease No disease T338I D614G L320V V920L L90S M470V H199R S1251N I203M G550R P111A I148T Q1291H R560K L1388Q L183I R170H I1027T S549R D443Y P499A L1414S T908N R668C S549N A455E E1401K Q151K G27E I1234L Y563N R347P C866R S1118C P1290S R75Q A559T V520F P841R M469V E1401G P67L G85E S50Y E1409K R933G G458V G178R Y1032C R248T I980K G85V V392G L973P L137H T351S R334W I444S V938G R792G R560T R555G L1339F D1305E P574H V1240G T1053I D58G G551D L1335P I918M F994C S945L L558S F1337V R810G D1152H G1247R P574S R766M D579G W1098R H949R F200I R352Q L1077P K1351E M244K L206W M1101K D1154G L375F N1303K R1066C E528D D110Y R347H R1070Q A800G P1021S S549K A1364V V392A damaging` (is supposed to affect protein function or structure) and 'probably damaging` (high confidence of affecting protein function or structure).
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ABCC7 p.Asp110Tyr 20059485:64:693
status: NEW