ABCMdb

ABCC7 p.Leu1227Ser

ClinVar:	c.3680T>C , p.Leu1227Ser ? , not provided
CF databases:	c.3680T>C , p.Leu1227Ser (CFTR1) ? , This missense mutation in CFTR exon 19 was detected by DGGE and identified by direct sequencing. This nucleotide change T->C at position 3812 (L1227S) in exon 19 was associated with a CUAVD phenotype.
Predicted by SNAP2:	A: D (71%), C: D (59%), D: D (91%), E: D (85%), F: D (59%), G: D (85%), H: D (80%), I: N (61%), K: D (85%), M: N (53%), N: D (80%), P: D (85%), Q: D (75%), R: D (85%), S: D (80%), T: D (75%), V: N (78%), W: D (80%), Y: D (75%),
Predicted by PROVEAN:	A: D, C: D, D: D, E: D, F: D, G: D, H: D, I: N, K: D, M: N, N: D, P: D, Q: D, R: D, S: D, T: D, V: N, W: D, Y: D,

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[hide] Molecular screening of the CFTR gene in men with a... Mol Hum Reprod. 2000 Dec;6(12):1063-7. Jezequel P, Dubourg C, Le Lannou D, Odent S, Le Gall JY, Blayau M, Le Treut A, David V
Molecular screening of the CFTR gene in men with anomalies of the vas deferens: identification of three novel mutations.
Mol Hum Reprod. 2000 Dec;6(12):1063-7., [PMID:11101688]

Abstract [show]
Many studies have shown that congenital absence of the vas deferens (CAVD) is a genital cystic fibrosis transmembrane conductance regulator (CFTR)-mediated phenotype, with a broad spectrum of abnormalities causing male infertility. The genotype of these patients includes mutations in the CFTR gene, e.g. DeltaDeltaF508, R117H and the T5 allele; all of which are commonly found in CAVD. In this study we have screened the entirety of CFTR gene in 47 males with anomalies of the vas deferens: 37 cases of congenital bilateral absence of the vas deferens, three cases of congenital unilateral absence of the vas deferens and seven cases of obstructive azoospermia with hypoplastic vas deferens. Among the 94 chromosomes studied, 65 mutations, of which three are novel (2789+2insA, L1227S, 4428insGA), were identified. The majority of patients (63.8%) had two detectable CFTR gene mutations. Furthermore, high frequencies of the DeltaDeltaF508 mutation (44.7%), the T5 allele (36.2%) and R117H mutation (19.1%) were observed.

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4 Among the 94 chromosomes studied, 65 mutations, of which three are novel (2789⍣2insA, L1227S, 4428insGA), were identified. Login to comment
53 Genetic analysis Three novel mutations were identified: 2789ϩ2insA, L1227S and 4428insGA. Login to comment
60 Tworegions (1, 2, 5, 6a, 6b, 7, 10, 11, 12, 14a, 14b, 15, 16, 17a, 17b, 18, 20, 22, 23, 24) were amplified with a GC-clamp primer and six exons mutations were found in 31.9% of patients, 31.9% had one Table I. Summary of the clinical and biological findings of a population of men with congenital bilateral absence of the vas deferens (CBAVD, n ϭ 37), congenital unilateral absence of the vas deferens (CUAVD, n ϭ 3) and obstructive azoospermia (Obs A, n ϭ 7) Patient Phenotype Surgical Age Weight Height Sweat test Other clinical CFTR exploration (years) (kg) (m) (Cl- mEq/l) manifestation genotype 1 CBAVD ϩ 40 63 1.72 72 ∆F508/T5 2 CBAVD ϩ 31 66 1.76 40 L1227S/3272-26A→G 3 CBAVD ϩ 29 ∆F508/T5 4 CBAVD 29 sinusitis -/- 5 CBAVD 32 50 1.60 ∆F508/T5 6 CBAVD 35 64 1.66 ∆F508/T5 7 CBAVD ϩ 28 ∆F508/R117H 8 CBAVD ϩ 34 69 1.80 24 ∆F508/R117H 9 CBAVD ϩ 35 65 1.70 R117H/T5 10 CBAVD ϩ 32 50 1.70 31 asthma ∆F508/T5 11 CBAVD ϩ 26 left hydrocele T5/- 12 CBAVD ϩ 23 left varicocele, G551D/T5 asthma, anosmia 13 CBAVD ϩ 29 ∆F508/T5 14 CBAVD ϩ 36 63 1.64 52 ∆F508/R117H 15 CBAVD ϩ 37 60 1.76 ∆F508/T5 16 CBAVD ϩ 34 70 1.65 24 ∆F508/A1067V 17 CBAVD 35 61 1.73 42 ∆F508/R117H 18 CBAVD 25 72 1.82 86 2183AA→G/T5 19 CBAVD 28 88 1.76 7 -/- 20 CBAVD ϩ 29 ∆F508/T5 21 CBAVD 31 48 epididymite -/- 22 CBAVD 28 ∆F508/T5 23 CBAVD ϩ 32 68 1.76 36 flatulence ∆F508/R1070W 24 CBAVD ϩ 31 64 1.76 39 R1162X/T5 25 CBAVD 30 17 asthma R117H/L375F 26 CBAVD ϩ 36 62 1.70 ∆F508/R1070W 27 CBAVD 30 6 -/- 28 CBAVD 35 85 1.70 R1070W/- 29 CBAVD 39 bronchectasis -/- 30 CBAVD ϩ 29 ∆F508/- 31 CBAVD 31 bronchectasis, -/- deafness 32 CBAVD ϩ 26 asthma, otitis -/- 33 CBAVD ϩ 28 allergy -/- 34 CBAVD 37 36 R117H/- 35 CBAVD 33 -/- 36 CBAVD ϩ 30 64 1.68 R117H/T5 37 CBAVD ϩ 37 71 1.78 31 pancreatitis, 621ϩ1G→T/I980K alcoholism 38 CUAVD 43 62 1.68 40 allergy G542X/R1070W 39 CUAVD ϩ 35 allergy ∆F508/R117H 40 CUAVD ϩ 34 hydrocele L375F/G551D 41 Obs A ϩ 32 26 T5/- 42 Obs A 23 60 sinusitis ∆F508/2789ϩ2insA 43 Obs A ϩ 25 80 sinusitis, chronic ∆F508/4428insGA 44 Obs A ϩ 30 bronchitis -/- anosmia 45 Obs A 29 50 -/- 46 Obs A 29 75 1.77 ∆F508/T5 47 Obs A ϩ 30 82 1.66 -/- mutation and the T5 allele, 10.7% had only one mutation and clinical palpation. Login to comment
73 This mutation creates a stop codon 43 nucleotides 26 ∆F508/R1070W (TG)10T9/(TG)10T7 downstream leading to the deletion of 33 C-terminus amino 16 ∆F508/A1067V (TG)10T9/(TG)10T7 acids of the CFTR protein including the TRL-COOH domain.42 ∆F508/2789ϩ2insA (TG)10T9/(TG)10T7 43 ∆F508/4428insGA (TG)10T9/(TG)11T7 This highly conserved proteic site is a perfect match for the 25 R117H/L375F (TG)10T7/(TG)10T7 binding consensus domain of the Naϩ-Hϩ exchanger regulatory 38 G542X/R1070W (TG)10T9/(TG)11T7 factor (NHE-RF), a cytoplasmic phosphoprotein that may play40 L375F/G551D (TG)10T7/(TG)10T7 37 621ϩ1G→T/I980K (TG)10T9/(TG)10T9 an important regulatory role in CFTR function (Wang et al., 2 L1227S/3272-26A→G (TG)10T9/(TG)12T7 1998). Login to comment
92 Since L1227S was associated with the 3272-26A→G mild mutation, it is difficult to judge the possibility of CF mutations in close relatives, for whom the Kanavakis, E., Tzetis, M., Antoniadi, T. et al. (1998) Cystic fibrosis mutationrisk of having a child presenting a pathological CFTR-mediated screening in CBAVD patients and men with obstructive azoospermia or phenotype is higher than for the general population. Login to comment

[hide] Molecular characterization of the cystic fibrosis ... Genet Med. 2007 Mar;9(3):163-72. Grangeia A, Sa R, Carvalho F, Martin J, Girodon E, Silva J, Ferraz L, Barros A, Sousa M
Molecular characterization of the cystic fibrosis transmembrane conductance regulator gene in congenital absence of the vas deferens.
Genet Med. 2007 Mar;9(3):163-72., [PMID:17413420]

Abstract [show]
PURPOSE: Approximately 20% of patients with congenital absence of the vas deferens remain without two mutations identified. We applied a strategy of serial screening steps to 45 patients with congenital absence of the vas deferens and characterized cystic fibrosis transmembrane conductance regulator gene mutations in all cases. METHODS: DNA samples of 45 patients with congenital absence of the vas deferens were screened by successive different molecular genetics approaches. RESULTS: Initial screening for the 31 most frequent cystic fibrosis mutations, IVS8 poly(TG)m, poly(T)n, and M470V polymorphisms, identified 8 different mutations in 40 patients (88.9%). Extensive cystic fibrosis transmembrane conductance regulator gene analysis by denaturing gradient gel electrophoresis, denaturing high-performance liquid chromatography, and DNA sequencing detected 17 further mutations, of which three were novel. Cystic fibrosis transmembrane conductance regulator gene rearrangements were searched by semiquantitative fluorescent multiplex polymerase chain reaction, which detected a CFTRdele2,3 (21 kb) large deletion and confirmed two homozygous mutations. Overall, 42 patients (93.3%) had two mutations and 3 patients (6.7%) had one mutation detected. CONCLUSIONS: The present screening strategy allowed a higher mutation detection rate than previous studies, with at least one cystic fibrosis transmembrane conductance regulator gene mutation found in all patients with congenital absence of the vas deferens.

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93 DeltaF508 was the second most common mutation, representing 21 (23.3%) of total alleles, followed by R334W (6, Table 1 CFTR gene mutations and polymorphisms in patients with congenital absence of the vas deferens Mutation Location Nucleotide alteration Effect Method 1 CFTRdele2,3 Exons 2-3 Deletion of exons 2 and 3 Frameshift QFM-PCR 2 R117H Exon 4 G¡A at 482 AA substitution 31 mutation panel 3 P205S Exon 6a C¡T at 745 AA substitution DGGE/dHPLC 4 L206W Exon 6a T¡G at 749 AA substitution DGGE/dHPLC 5 R258G Exon 6b A¡G at 904 AA substitution DGGE/dHPLC 6 R334W Exon 7 C¡T at 1132 AA substitution 31 mutation panel 7 T5 allele Intron 8 Deletion of 2T at 1342-12 to -6 Aberrant splicing DGGE/DNA sequencing 8 P439S Exon 9 C¡T at 1447 AA substitution DGGE/dHPLC 9 D443Ya Exon 9 G¡T at 1459 AA substitution DGGE/dHPLC 10 I507del Exon 10 Deletion of 3 bp at 1648-1653 AA deletion 31 mutation panel 11 DeltaF508 Exon 10 Deletion of 3 bp at 1652-1655 AA deletion 31 mutation panel 12 G542X Exon 11 G¡T at 1756 Truncation 31 mutation panel 13 V562I Exon 12 G¡A at 1816 AA substitution DGGE/dHPLC 14 G576Aa Exon 12 G¡C at 1859 Aberrant splicing DGGE/dHPLC 15 D614G Exon 13 A¡G at 1973 AA substitution DGGE/dHPLC 16 R688Ca Exon 13 C¡T at 2134 AA substitution DGGE/dHPLC 17 V754M Exon 13 G¡A at 2392 AA substitution DGGE/dHPLC 18 E831X Exon 14a G¡T at 2623 Truncation DGGE/dHPLC 19 3272-26AϾG Intron 17a A¡G at 3272-26 Aberrant splicing DGGE/dHPLC 20 2789ϩ5G¡A Intron 14b G¡A at 2789ϩ5 Aberrant splicing 31 mutation panel 21 V1108L Exon 17b G¡C at 3454 AA substitution DGGE/dHPLC 22 L1227S Exon 19 T¡C at 3812 AA substitution DGGE/dHPLC 23 S1235R Exon 19 T¡G at 3837 AA substitution DGGE/dHPLC 24 P1290S Exon 20 C¡T at 4000 AA substitution DGGE/dHPLC 25 N1303K Exon 21 C¡G at 4041 AA substitution 31 mutation panel 26 E1401K Exon 23 G¡A at 4333 AA substitution DGGE/dHPLC Polymorphisms 1 TG repeats Intron 8 9-13 copies at 1342-12 to -35 Sequence variation DGGE/DNA sequencing 2 M470V Exon 10 A or G at 1540 Sequence variation DNA sequencing 3 125G/C Exon 1 G¡C at 125 Sequence variation DGGE/dHPLC 4 1001ϩ11T/C Intron 6b C¡4T at 1001ϩ11 Sequence variation DGGE/dHPLC 5 1716G/A Exon 10 G¡A at 1716 Sequence variation DGGE/dHPLC 6 1899-136T/G Intron 12 T¡G at 1899-136 Sequence variation DGGE/dHPLC 7 T854T Exon 14a T¡G at 2694 Sequence variation DGGE/dHPLC 8 3601-65C/A Intron 18 C¡A at 3601-65 Sequence variation DGGE/dHPLC 9 4521G/A Exon 24 G¡A at 4521 Sequence variation DGGE/dHPLC QFM-PCR, semiquantitative fluorescent multiplex polymerase chain reaction; bp, base pair; DGGE, denaturing gradient gel electrophoresis; dHPLC, denaturing high-performance liquid chromatography. Login to comment
101 The missense M470V polymorphism was evaluated in all 45 pa- tientswithCAVD(Table2).TheallelicfrequencyoftheM470variant Table 2 CFTR genotypes identified in patients with congenital absence of the vas deferens CFTR mutation genotypes [(TG)mTn] genotype M470V Patients N % DeltaF508 (TG)10T9 (TG)12T5 M V 11 24.4 DeltaF508 (TG)10T9 (TG)11T5 M M 1 2.2 DeltaF508 R117H (TG)10T9 (TG)10T7 M M 2 4.4 G542X (TG)10T9 (TG)12T5 M V 2a 4.4 DeltaF508 R334W (TG)10T9 (TG)11T7 M V 1 2.2 DeltaF508 D443Y-G576A-R668C (TG)10T9 (TG)10T7 M M 1 2.2 DeltaF508 D614G (TG)10T9 (TG)11T7 M V 1 2.2 DeltaF508 E831X (TG)10T9 (TG)11T7 M V 1 2.2 DeltaF508 L1227S (TG)10T9 (TG)11T7 M M 1 2.2 DeltaF508 E1401K (TG)10T9 (TG)11T7 M V 1 2.2 I507del D614G (TG)11T7 (TG)10T7 M V 1 2.2 N1303K L206W (TG)10T9 (TG)9T9 M M 1 2.2 R117H P205S (TG)11T7 (TG)10T7 M V 1 2.2 R117H R334W (TG)10T7 (TG)11T7 M V 1 2.2 R334W P439S (TG)11T7 (TG)11T7 M V 1 2.2 R334W R334Wb (TG)11T7 (TG)11T7 V V 1 2.2 R334W V562I (TG)11T7 (TG)11T5 V M 1 2.2 D443Y-G576A-R668C 3272-26A¡G (TG)10T7 (TG)10T7 M M 1 2.2 G576A-R668C V754Mb (TG)10T7 (TG)11T7 M M 1 2.2 S1235R S1235Rb (TG)13T5 (TG)13T5 M M 1 2.2 2789ϩ5G¡A S1235Rb (TG)10T7 (TG)13T5 M M 1 2.2 3272-26A¡G P1290S (TG)11T7 (TG)10T7 M V 1 2.2 P205S (TG)11T7 (TG)12T5 V V 1 2.2 G576A-R668C b (TG)10T7 (TG)11T5 M M 1 2.2 V1108L b (TG)11T7 (TG)11T5 V M 1 2.2 N1303K (TG)10T9 (TG)12T5 M V 1 2.2 3272-26A¡G b (TG)10T7 (TG)12T5 M V 1 2.2 CFTRdele2,3 b (TG)11T7 (TG)13T5 V M 1 2.2 b (TG)11T5 (TG)12T5 M V 1 2.2 b (TG)13T5 (TG)12T5 M V 1 2.2 DeltaF508 - (TG)10T9 (TG)11T7 M V 1a 2.2 L206W -b (TG)9T9 (TG)11T7 M V 1 2.2 R258G -b (TG)11T7 (TG)11T7 V V 1 2.2 a CUAVD. Login to comment
110 Large Table 3 Allelic frequencies of CFTR mutations in patients with congenital absence of the vas deferens CBAVD CUAVD Total Patients 42 3 45 Alleles 84 6 90 Mutations N % N % N % 1 T5 allele 26a 31 2 33.3 28 31.1 2 DeltaF508 20 23.8 1 16.7 21 23.3 3 R334W 6a 7.1 0 0 6 6.7 4 R117H 4 4.8 0 0 4 4.4 5 G576A 4b 4.8 0 0 4 4.4 6 R688C 4b 4.8 0 0 4 4.4 7 S1235R 3a 3.6 0 0 3 3.3 8 3272-26A¡G 3 3.6 0 0 3 3.3 9 P205S 2 2.4 0 0 2 2.2 10 L206W 2 2.4 0 0 2 2.2 11 D443Y 2b 2.4 0 0 2 2.2 13 D614G 2 2.4 0 0 2 2.2 14 N1303K 2 2.4 0 0 2 2.2 12 G542X 0 0 2 33.3 2 2.2 15 R258G 1 1.2 0 0 1 1.1 16 P439S 1 1.2 0 0 1 1.1 17 I507del 1 1.2 0 0 1 1.1 18 V562I 1 1.2 0 0 1 1.1 19 V754M 1 1.2 0 0 1 1.1 20 E831X 1 1.2 0 0 1 1.1 21 2789ϩ5G¡A 1 1.2 0 0 1 1.1 22 V1108L 1 1.2 0 0 1 1.1 23 L1227S 1 1.2 0 0 1 1.1 24 P1290S 1 1.2 0 0 1 1.1 25 E1401K 1 1.2 0 0 1 1.1 26 CFTRdele2,3 1 1.2 0 0 1 1.1 CBAVD, congenital bilateral absence of the vas deferens; CUAVD, congenital unilateral absence of the vas deferens. Login to comment

[hide] Association of cystic fibrosis genetic modifiers w... Fertil Steril. 2010 Nov;94(6):2122-7. Epub 2010 Jan 25. Havasi V, Rowe SM, Kolettis PN, Dayangac D, Sahin A, Grangeia A, Carvalho F, Barros A, Sousa M, Bassas L, Casals T, Sorscher EJ
Association of cystic fibrosis genetic modifiers with congenital bilateral absence of the vas deferens.
Fertil Steril. 2010 Nov;94(6):2122-7. Epub 2010 Jan 25., [PMID:20100616]

Abstract [show]
OBJECTIVE: To investigate whether genetic modifiers of cystic fibrosis (CF) lung disease also predispose to congenital bilateral absence of the vas deferens (CBAVD) in association with cystic fibrosis transmembrane conductance regulator (CFTR) mutations. We tested the hypothesis that polymorphisms of transforming growth factor (TGF)-beta1 (rs 1982073, rs 1800471) and endothelin receptor type A (EDNRA) (rs 5335, rs 1801708) are associated with the CBAVD phenotype. DESIGN: Genotyping of subjects with clinical CBAVD. SETTING: Outpatient and hospital-based clinical evaluation. PATIENT(S): DNA samples from 80 subjects with CBAVD and 51 healthy male controls from various regions of Europe. This is one of the largest genetic studies of this disease to date. INTERVENTION(S): None. MAIN OUTCOME MEASURE(S): Genotype analysis. RESULT(S): For single nucleotide polymorphism (SNP) rs 5335, we found increased frequency of the CC genotype among subjects with CBAVD. The difference was significant among Turkish patients versus controls (45.2% vs. 19.4%), and between all cases versus controls (36% vs. 15.7%). No associations between CBAVD penetrance and polymorphisms rs 1982073, rs 1800471, or rs 1801708 were observed. CONCLUSION(S): Our findings indicate that endothelin receptor type A polymorphism rs 5335 may be associated with CBAVD penetrance. To our knowledge, this is the first study to investigate genetic modifiers relevant to CBAVD.

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68 Portuguese CFTR alleles Spanish CFTR alleles Turkish CFTR alleles 5T 22 F508del 11 5T 20 F508del 14 5T 9 D1152H 14 R334W 5 D443Ya 3 D110H 3 R117H 3 G576Aa 3 F508del 2 S1235R 3 R668Ca 3 3041-11del7 2 N1303K 2 G542X 2 1767del6 2 P205S 2 R117H 2 2789þ5G>A 2 D614G 2 V232D 2 CFTRdele2(ins186) 2 G542X 1 L997F 1 3120þ1G>A 1 L206W 1 H609R 1 G1130A 1 V562I 1 N1303H 1 M952I 1 I507del 1 L206W 1 365insT 1 3272-26A>G 1 3272-26A/G 1 E585X 1 2789þ5G>A 1 L15P 1 2752-15C>G 1 G576Aa 1 R347H 1 R334Q 1 R668Ca 1 2689insG 1 R347H 1 CFTRdele2,3 1 R1070W 1 E831X 1 L1227S 1 I 1027T 1 R1070W 1 E831X 1 3272-26A>G 1 L997F 1 I853F 1 A349V 1 6T 1 Note: CFTR ¼ cystic fibrosis transmembrane conductance regulator. Login to comment