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| Skeletal dysplasia v1.192 | IFT81 |
Eleanor Williams changed review comment from: Associated with Short-rib thoracic dysplasia 19 with or without polydactyly (#617895) in OMIM PMID: 27666822 - Duran et al 2016 - 2 cases. Family 1 - male infant (R98-443) with features consistent with Asphyxiating thoracic dystrophy (ATD). The radiographic abnormalities included midface hypoplasia, dolichocephaly, a prominent occiput , short ribs, handlebar clavicles and short, curved appendicular bones, with the upper limbs particularly abnormally shaped. There was no polydactyly on either the hands or feet. They identified compound heterozygosity for two variants: p.Leu29Phe and p.Arg512*. Family 2 - fetus (R13-147A) suspected to have SRPS by prenatal ultrasonography. Postnatal radiographs showed dolichocephaly, a prominent occiput, midface hypoplasia, a very small thorax with shortened horizontal ribs, markedly short long bones with rounded metaphyses and marked hypoplasia of the radii, ulnae, tibiae and fibulae. Other radiographic features included small iliac bones and postaxial polydactyly of all extremities. They identified compound heterozygosity for variants in IFT81: p.Leu262 and p.Leu435del). Cultured chondrocytes from one patient showed decreased levels of transcript. Mutant cells produced elongated cilia, had altered hedgehog signaling, had increased post-translation modification of tubulin, and showed evidence of destabilization of additional anterograde transport complex components PMID: 26275418 - Perrault et al 2015 - identified a homozygous mutation in IFT81 affecting an obligatory donor splice site in an individual with nephronophthisis and polydactyly (c.1188+1G-A). The variant has been classified as a VUS in OMIM as its contribution to nephronophthisis-related ciliopathy has not be confirmed. Only candidate gene sequencing of IFT-B complex proteins was found. A variant in IFT81 (c.2015_2019delACCGG) was also found in a second unrelated child with retinal dystrophy and intellectual disability (no skeletal phenotype) suggestive of a ciliopathy however 9 additional rare homozygous variants were found and so this variant has also been classified as a VUS in OMIM. PMID: 28460050 - Dharmat et al 2017 - Compound heterozygous mutations in IFT81 were identified in a nonsyndromic Cone rod dystrophy proband. PMID: 30080953 - Pettersson et al 2018 - a homozygous tandem duplication of exon 9 and 10 in IFT81 in a boy with Jeune syndrome, or short-rib thoracic dysplasia (SRTD). The duplication was predicted to disrupt the ORF and cause a truncation of the peptide sequence. He had narrow thorax, short arms, brachydactyly and short stature. Western blot analysis did not detect any wild-type IFT81 protein in fibroblasts from the patient with the IFT81 duplication, but only a shorter isoform of IFT81 that was also present in the normal control samples. Summary - 2 cases with SNVs and strong skeletal phenotype, one with some functional data. 3rd case with polydactyly the only skeletal component of the phenotype. 4th case with tandem duplication of 2 exons. ; to: Associated with Short-rib thoracic dysplasia 19 with or without polydactyly (#617895) in OMIM PMID: 27666822 - Duran et al 2016 - 2 cases. Family 1 - male infant (R98-443) with features consistent with Asphyxiating thoracic dystrophy (ATD). The radiographic abnormalities included midface hypoplasia, dolichocephaly, a prominent occiput , short ribs, handlebar clavicles and short, curved appendicular bones, with the upper limbs particularly abnormally shaped. There was no polydactyly on either the hands or feet. They identified compound heterozygosity for two variants: p.Leu29Phe and p.Arg512*. Family 2 - fetus (R13-147A) suspected to have SRPS by prenatal ultrasonography. Postnatal radiographs showed dolichocephaly, a prominent occiput, midface hypoplasia, a very small thorax with shortened horizontal ribs, markedly short long bones with rounded metaphyses and marked hypoplasia of the radii, ulnae, tibiae and fibulae. Other radiographic features included small iliac bones and postaxial polydactyly of all extremities. They identified compound heterozygosity for variants in IFT81: p.Leu262 and p.Leu435del). Cultured chondrocytes from one patient showed decreased levels of transcript. Mutant cells produced elongated cilia, had altered hedgehog signaling, had increased post-translation modification of tubulin, and showed evidence of destabilization of additional anterograde transport complex components PMID: 26275418 - Perrault et al 2015 - identified a homozygous mutation in IFT81 affecting an obligatory donor splice site in an individual with nephronophthisis and polydactyly (c.1188+1G-A). The variant has been classified as a VUS in OMIM as its contribution to nephronophthisis-related ciliopathy has not be confirmed. Only candidate gene sequencing of IFT-B complex proteins was found. A variant in IFT81 (c.2015_2019delACCGG) was also found in a second unrelated child with retinal dystrophy and intellectual disability (no skeletal phenotype) suggestive of a ciliopathy however 9 additional rare homozygous variants were found and so this variant has also been classified as a VUS in OMIM. PMID: 28460050 - Dharmat et al 2017 - Compound heterozygous mutations in IFT81 were identified in a nonsyndromic Cone rod dystrophy proband. PMID: 30080953 - Pettersson et al 2018 - a homozygous tandem duplication of exon 9 and 10 in IFT81 in a boy with Jeune syndrome, or short-rib thoracic dysplasia (SRTD). The duplication was predicted to disrupt the ORF and cause a truncation of the peptide sequence. He had narrow thorax, short arms, brachydactyly and short stature. Western blot analysis did not detect any wild-type IFT81 protein in fibroblasts from the patient with the IFT81 duplication, but only a shorter isoform of IFT81 that was also present in the normal control samples. Summary - 2 cases with SNVs and strong skeletal phenotype, one with some functional data. 3rd case with polydactyly the only skeletal component of the phenotype and the variant classified as a VUS. 4th case with tandem duplication of 2 exons which is predicted to result in a truncated protein. |
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| Skeletal dysplasia v1.192 | IFT81 |
Eleanor Williams changed review comment from: Associated with Short-rib thoracic dysplasia 19 with or without polydactyly (#617895) in OMIM PMID: 27666822 - Duran et al 2016 - 2 cases. Family 1 - male infant (R98-443) with features consistent with Asphyxiating thoracic dystrophy (ATD). The radiographic abnormalities included midface hypoplasia, dolichocephaly, a prominent occiput , short ribs, handlebar clavicles and short, curved appendicular bones, with the upper limbs particularly abnormally shaped. There was no polydactyly on either the hands or feet. They identified compound heterozygosity for two variants: p.Leu29Phe and p.Arg512*. Family 2 - fetus (R13-147A) suspected to have SRPS by prenatal ultrasonography. Postnatal radiographs showed dolichocephaly, a prominent occiput, midface hypoplasia, a very small thorax with shortened horizontal ribs, markedly short long bones with rounded metaphyses and marked hypoplasia of the radii, ulnae, tibiae and fibulae. Other radiographic features included small iliac bones and postaxial polydactyly of all extremities. They identified compound heterozygosity for variants in IFT81: p.Leu262 and p.Leu435del). Cultured chondrocytes from one patient showed decreased levels of transcript. Mutant cells produced elongated cilia, had altered hedgehog signaling, had increased post-translation modification of tubulin, and showed evidence of destabilization of additional anterograde transport complex components PMID: 26275418 - Perrault et al 2015 - identified a homozygous mutation in IFT81 affecting an obligatory donor splice site in an individual with nephronophthisis and polydactyly. The variant has been classified as a VUS in OMIM as its contribution to nephronophthisis-related ciliopathy has not be confirmed. PMID: 28460050 - Dharmat et al 2017 - Compound heterozygous mutations in IFT81 were identified in a nonsyndromic Cone rod dystrophy proband. PMID: 30080953 - Pettersson et al 2018 - a homozygous tandem duplication of exon 9 and 10 in IFT81 in a boy with Jeune syndrome, or short-rib thoracic dysplasia (SRTD). The duplication was predicted to disrupt the ORF and cause a truncation of the peptide sequence. He had narrow thorax, short arms, brachydactyly and short stature. Western blot analysis did not detect any wild-type IFT81 protein in fibroblasts from the patient with the IFT81 duplication, but only a shorter isoform of IFT81 that was also present in the normal control samples. Summary - 2 cases with SNVs and strong skeletal phenotype, one with some functional data. 3rd case with polydactyly the only skeletal component of the phenotype. 4th case with tandem duplication of 2 exons. ; to: Associated with Short-rib thoracic dysplasia 19 with or without polydactyly (#617895) in OMIM PMID: 27666822 - Duran et al 2016 - 2 cases. Family 1 - male infant (R98-443) with features consistent with Asphyxiating thoracic dystrophy (ATD). The radiographic abnormalities included midface hypoplasia, dolichocephaly, a prominent occiput , short ribs, handlebar clavicles and short, curved appendicular bones, with the upper limbs particularly abnormally shaped. There was no polydactyly on either the hands or feet. They identified compound heterozygosity for two variants: p.Leu29Phe and p.Arg512*. Family 2 - fetus (R13-147A) suspected to have SRPS by prenatal ultrasonography. Postnatal radiographs showed dolichocephaly, a prominent occiput, midface hypoplasia, a very small thorax with shortened horizontal ribs, markedly short long bones with rounded metaphyses and marked hypoplasia of the radii, ulnae, tibiae and fibulae. Other radiographic features included small iliac bones and postaxial polydactyly of all extremities. They identified compound heterozygosity for variants in IFT81: p.Leu262 and p.Leu435del). Cultured chondrocytes from one patient showed decreased levels of transcript. Mutant cells produced elongated cilia, had altered hedgehog signaling, had increased post-translation modification of tubulin, and showed evidence of destabilization of additional anterograde transport complex components PMID: 26275418 - Perrault et al 2015 - identified a homozygous mutation in IFT81 affecting an obligatory donor splice site in an individual with nephronophthisis and polydactyly (c.1188+1G-A). The variant has been classified as a VUS in OMIM as its contribution to nephronophthisis-related ciliopathy has not be confirmed. Only candidate gene sequencing of IFT-B complex proteins was found. A variant in IFT81 (c.2015_2019delACCGG) was also found in a second unrelated child with retinal dystrophy and intellectual disability (no skeletal phenotype) suggestive of a ciliopathy however 9 additional rare homozygous variants were found and so this variant has also been classified as a VUS in OMIM. PMID: 28460050 - Dharmat et al 2017 - Compound heterozygous mutations in IFT81 were identified in a nonsyndromic Cone rod dystrophy proband. PMID: 30080953 - Pettersson et al 2018 - a homozygous tandem duplication of exon 9 and 10 in IFT81 in a boy with Jeune syndrome, or short-rib thoracic dysplasia (SRTD). The duplication was predicted to disrupt the ORF and cause a truncation of the peptide sequence. He had narrow thorax, short arms, brachydactyly and short stature. Western blot analysis did not detect any wild-type IFT81 protein in fibroblasts from the patient with the IFT81 duplication, but only a shorter isoform of IFT81 that was also present in the normal control samples. Summary - 2 cases with SNVs and strong skeletal phenotype, one with some functional data. 3rd case with polydactyly the only skeletal component of the phenotype. 4th case with tandem duplication of 2 exons. |
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| Skeletal dysplasia v1.192 | IFT81 |
Eleanor Williams changed review comment from: Associated with Short-rib thoracic dysplasia 19 with or without polydactyly (#617895) in OMIM PMID: 27666822 - Duran et al 2016 - 2 cases. Family 1 - male infant (R98-443) with features consistent with Asphyxiating thoracic dystrophy (ATD). The radiographic abnormalities included midface hypoplasia, dolichocephaly, a prominent occiput , short ribs, handlebar clavicles and short, curved appendicular bones, with the upper limbs particularly abnormally shaped. There was no polydactyly on either the hands or feet. They identified compound heterozygosity for two variants: p.Leu29Phe and p.Arg512*. Family 2 - fetus (R13-147A) suspected to have SRPS by prenatal ultrasonography. Postnatal radiographs showed dolichocephaly, a prominent occiput, midface hypoplasia, a very small thorax with shortened horizontal ribs, markedly short long bones with rounded metaphyses and marked hypoplasia of the radii, ulnae, tibiae and fibulae. Other radiographic features included small iliac bones and postaxial polydactyly of all extremities. They identified compound heterozygosity for variants in IFT81: p.Leu262 and p.Leu435del). Cultured chondrocytes from one patient showed decreased levels of transcript. Mutant cells produced elongated cilia, had altered hedgehog signaling, had increased post-translation modification of tubulin, and showed evidence of destabilization of additional anterograde transport complex components PMID: 26275418 - Perrault et al 2015 - identified a homozygous mutation in IFT81 affecting an obligatory donor splice site in an individual with nephronophthisis and polydactyly. The variant has been classified as a VUS in OMIM as its contribution to nephronophthisis-related ciliopathy has not be confirmed. PMID: 28460050 - Dharmat et al 2017 - Compound heterozygous mutations in IFT81 were identified in a nonsyndromic Cone rod dystrophy proband. PMID: 30080953 - Pettersson et al 2018 - a homozygous tandem duplication of exon 9 and 10 in IFT81 in a boy with Jeune syndrome, or short-rib thoracic dysplasia (SRTD). He had narrow thorax, short arms, brachydactyly and short stature. Western blot analysis did not detect any wild-type IFT81 protein in fibroblasts from the patient with the IFT81 duplication, but only a shorter isoform of IFT81 that was also present in the normal control samples. Summary - 2 cases with SNVs and strong skeletal phenotype, one with some functional data. 3rd case with polydactyly the only skeletal component of the phenotype. 4th case with tandem duplication of 2 exons. ; to: Associated with Short-rib thoracic dysplasia 19 with or without polydactyly (#617895) in OMIM PMID: 27666822 - Duran et al 2016 - 2 cases. Family 1 - male infant (R98-443) with features consistent with Asphyxiating thoracic dystrophy (ATD). The radiographic abnormalities included midface hypoplasia, dolichocephaly, a prominent occiput , short ribs, handlebar clavicles and short, curved appendicular bones, with the upper limbs particularly abnormally shaped. There was no polydactyly on either the hands or feet. They identified compound heterozygosity for two variants: p.Leu29Phe and p.Arg512*. Family 2 - fetus (R13-147A) suspected to have SRPS by prenatal ultrasonography. Postnatal radiographs showed dolichocephaly, a prominent occiput, midface hypoplasia, a very small thorax with shortened horizontal ribs, markedly short long bones with rounded metaphyses and marked hypoplasia of the radii, ulnae, tibiae and fibulae. Other radiographic features included small iliac bones and postaxial polydactyly of all extremities. They identified compound heterozygosity for variants in IFT81: p.Leu262 and p.Leu435del). Cultured chondrocytes from one patient showed decreased levels of transcript. Mutant cells produced elongated cilia, had altered hedgehog signaling, had increased post-translation modification of tubulin, and showed evidence of destabilization of additional anterograde transport complex components PMID: 26275418 - Perrault et al 2015 - identified a homozygous mutation in IFT81 affecting an obligatory donor splice site in an individual with nephronophthisis and polydactyly. The variant has been classified as a VUS in OMIM as its contribution to nephronophthisis-related ciliopathy has not be confirmed. PMID: 28460050 - Dharmat et al 2017 - Compound heterozygous mutations in IFT81 were identified in a nonsyndromic Cone rod dystrophy proband. PMID: 30080953 - Pettersson et al 2018 - a homozygous tandem duplication of exon 9 and 10 in IFT81 in a boy with Jeune syndrome, or short-rib thoracic dysplasia (SRTD). The duplication was predicted to disrupt the ORF and cause a truncation of the peptide sequence. He had narrow thorax, short arms, brachydactyly and short stature. Western blot analysis did not detect any wild-type IFT81 protein in fibroblasts from the patient with the IFT81 duplication, but only a shorter isoform of IFT81 that was also present in the normal control samples. Summary - 2 cases with SNVs and strong skeletal phenotype, one with some functional data. 3rd case with polydactyly the only skeletal component of the phenotype. 4th case with tandem duplication of 2 exons. |
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| Skeletal dysplasia v1.192 | IFT81 | Eleanor Williams changed review comment from: Additional publication - PMID: 30080953 Pettersson et al 2018 - a homozygous tandem duplication of exon 9 and 10 in IFT81 in a boy with Jeune syndrome, or short-rib thoracic dysplasia (SRTD). Western blot analysis did not detect any wild-type IFT81 protein in fibroblasts from the patient with the IFT81 duplication, but only a shorter isoform of IFT81 that was also present in the normal control samples.; to: Additional publication - PMID: 30080953 Pettersson et al 2018 - a homozygous tandem duplication of exon 9 and 10 in IFT81 in a boy with Jeune syndrome, or short-rib thoracic dysplasia (SRTD). The duplication was predicted to disrupt the ORF and cause a truncation of the peptide sequence. Western blot analysis did not detect any wild-type IFT81 protein in fibroblasts from the patient with the IFT81 duplication, but only a shorter isoform of IFT81 that was also present in the normal control samples. | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
| Skeletal dysplasia v1.167 | IFT81 |
Eleanor Williams changed review comment from: Associated with Short-rib thoracic dysplasia 19 with or without polydactyly (#617895) in OMIM PMID: 27666822 - Duran et al 2016 - 2 cases. Family 1 - male infant (R98-443) with features consistent with Asphyxiating thoracic dystrophy (ATD). The radiographic abnormalities included midface hypoplasia, dolichocephaly, a prominent occiput , short ribs, handlebar clavicles and short, curved appendicular bones, with the upper limbs particularly abnormally shaped. There was no polydactyly on either the hands or feet. They identified compound heterozygosity for two variants: p.Leu29Phe and p.Arg512*. Family 2 - fetus (R13-147A) suspected to have SRPS by prenatal ultrasonography. Postnatal radiographs showed dolichocephaly, a prominent occiput, midface hypoplasia, a very small thorax with shortened horizontal ribs, markedly short long bones with rounded metaphyses and marked hypoplasia of the radii, ulnae, tibiae and fibulae. Other radiographic features included small iliac bones and postaxial polydactyly of all extremities. They identified compound heterozygosity for variants in IFT81: p.Leu262 and p.Leu435del). Cultured chondrocytes from one patient showed decreased levels of transcript. Mutant cells produced elongated cilia, had altered hedgehog signaling, had increased post-translation modification of tubulin, and showed evidence of destabilization of additional anterograde transport complex components PMID: 26275418 - Perrault et al 2015 - identified a homozygous mutation in IFT81 affecting an obligatory donor splice site in an individual with nephronophthisis and polydactyly. The variant has been classified as a VUS in OMIM as its contribution to nephronophthisis-related ciliopathy has not be confirmed. PMID: 28460050 - Dharmat et al 2017 - Compound heterozygous mutations in IFT81 were identified in a nonsyndromic Cone rod dystrophy proband. Summary - 2 cases, one with some functional data. 3rd case with polydactyly the only skeletal component of the phenotype; to: Associated with Short-rib thoracic dysplasia 19 with or without polydactyly (#617895) in OMIM PMID: 27666822 - Duran et al 2016 - 2 cases. Family 1 - male infant (R98-443) with features consistent with Asphyxiating thoracic dystrophy (ATD). The radiographic abnormalities included midface hypoplasia, dolichocephaly, a prominent occiput , short ribs, handlebar clavicles and short, curved appendicular bones, with the upper limbs particularly abnormally shaped. There was no polydactyly on either the hands or feet. They identified compound heterozygosity for two variants: p.Leu29Phe and p.Arg512*. Family 2 - fetus (R13-147A) suspected to have SRPS by prenatal ultrasonography. Postnatal radiographs showed dolichocephaly, a prominent occiput, midface hypoplasia, a very small thorax with shortened horizontal ribs, markedly short long bones with rounded metaphyses and marked hypoplasia of the radii, ulnae, tibiae and fibulae. Other radiographic features included small iliac bones and postaxial polydactyly of all extremities. They identified compound heterozygosity for variants in IFT81: p.Leu262 and p.Leu435del). Cultured chondrocytes from one patient showed decreased levels of transcript. Mutant cells produced elongated cilia, had altered hedgehog signaling, had increased post-translation modification of tubulin, and showed evidence of destabilization of additional anterograde transport complex components PMID: 26275418 - Perrault et al 2015 - identified a homozygous mutation in IFT81 affecting an obligatory donor splice site in an individual with nephronophthisis and polydactyly. The variant has been classified as a VUS in OMIM as its contribution to nephronophthisis-related ciliopathy has not be confirmed. PMID: 28460050 - Dharmat et al 2017 - Compound heterozygous mutations in IFT81 were identified in a nonsyndromic Cone rod dystrophy proband. PMID: 30080953 - Pettersson et al 2018 - a homozygous tandem duplication of exon 9 and 10 in IFT81 in a boy with Jeune syndrome, or short-rib thoracic dysplasia (SRTD). He had narrow thorax, short arms, brachydactyly and short stature. Western blot analysis did not detect any wild-type IFT81 protein in fibroblasts from the patient with the IFT81 duplication, but only a shorter isoform of IFT81 that was also present in the normal control samples. Summary - 2 cases with SNVs and strong skeletal phenotype, one with some functional data. 3rd case with polydactyly the only skeletal component of the phenotype. 4th case with tandem duplication of 2 exons. |
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| Skeletal dysplasia v1.167 | IFT81 |
Eleanor Williams commented on gene: IFT81: Associated with Short-rib thoracic dysplasia 19 with or without polydactyly (#617895) in OMIM PMID: 27666822 - Duran et al 2016 - 2 cases. Family 1 - male infant (R98-443) with features consistent with Asphyxiating thoracic dystrophy (ATD). The radiographic abnormalities included midface hypoplasia, dolichocephaly, a prominent occiput , short ribs, handlebar clavicles and short, curved appendicular bones, with the upper limbs particularly abnormally shaped. There was no polydactyly on either the hands or feet. They identified compound heterozygosity for two variants: p.Leu29Phe and p.Arg512*. Family 2 - fetus (R13-147A) suspected to have SRPS by prenatal ultrasonography. Postnatal radiographs showed dolichocephaly, a prominent occiput, midface hypoplasia, a very small thorax with shortened horizontal ribs, markedly short long bones with rounded metaphyses and marked hypoplasia of the radii, ulnae, tibiae and fibulae. Other radiographic features included small iliac bones and postaxial polydactyly of all extremities. They identified compound heterozygosity for variants in IFT81: p.Leu262 and p.Leu435del). Cultured chondrocytes from one patient showed decreased levels of transcript. Mutant cells produced elongated cilia, had altered hedgehog signaling, had increased post-translation modification of tubulin, and showed evidence of destabilization of additional anterograde transport complex components PMID: 26275418 - Perrault et al 2015 - identified a homozygous mutation in IFT81 affecting an obligatory donor splice site in an individual with nephronophthisis and polydactyly. The variant has been classified as a VUS in OMIM as its contribution to nephronophthisis-related ciliopathy has not be confirmed. PMID: 28460050 - Dharmat et al 2017 - Compound heterozygous mutations in IFT81 were identified in a nonsyndromic Cone rod dystrophy proband. Summary - 2 cases, one with some functional data. 3rd case with polydactyly the only skeletal component of the phenotype |
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| Skeletal dysplasia v1.166 | IFT52 |
Eleanor Williams changed review comment from: Associated with Short-rib thoracic dysplasia 16 with or without polydactyly (#617102) in OMIM. PMID: 26880018 - Girisha et al. 2016 - 1 case. A child from a consanguineous family who had short stature, narrow thorax, short hands and feet, postaxial polydactyly of hands, pigmentary retinopathy, small teeth and skeletal dysplasia. Whole-exome sequencing revealed a homozygous nonsense variant p.R142* in IFT52. This variant was not found in homozygous state in the 1000Genome project, the Exome Variant Server, the Exome Aggregation Consortium database, CentoMD and exome database of a local NGS service provider. The parents are heterozygous carriers. PMID: 27466190 - Zhang et al 2016 - 1 case. A non-consanguineous family with two fetuses affected by short-rib polydactyly syndrome (SRPS). Radiographic findings, taken at 20 and 23 weeks of gestation, respectively, were consistent between the two fetuses and showed undermineralized skulls, narrow thoraces with moderately shortened ribs and sharp angulations of some lower thoracic ribs, a flat appearance to the acetabular roofs, reverse campomelia of the humeri, mildly bent femurs, and no polydactyly. In one proband compound heterozygosity for two variants was found - a 1bp deletion leading to a frameshift and premature stop codon and a missense variant (c.878delT, pLeu293AlafsX21 and c.595G > A, p.Ala199Thr). One variant was inherited from each of the parents. The IFT52 mutant cells synthesized a significantly reduced amount of IFT52 protein, leading to reduced synthesis of IFT74, IFT81, IFT88 and ARL13B, other key anterograde complex members. Ciliogenesis was also disrupted in the mutant cells, with a 60% reduction in the presence of cilia on mutant cells and loss of cilia length regulation for the cells with cilia. PMID: 30242358 - Chen et al. 2018 - 1 case. A child from a consangiuneous family of Hui ethnicity was referred to the clinic with nystagmus and severe visual impairment since infancy also presented with severe growth retardation and mild mental retardation. She had narrow chest with short ribs and micromelic limbs. sandal gap in her right foot and dental dysplasia was also noticed. She was found to have a homozygous variation, IFT52 c.556A>G (p.T186A). This was absent in the two unaffected siblings. PMID: 31042281 - Dupont et al 2019 - report a family with compound heterogyzous variants (one missense, one causing an inframe mutation that results in less efficient splicing) in IFT52 in two foetuses in which a short rib polydactyly syndrome phenotype is described. One variant is inherited from each of the parents. One fetus also had Tortuous ureters and left pelviectasis. They also report another family in which a fetus with only a renal phenotype and a homozygous variant in IFT52 was identified.; to: Associated with Short-rib thoracic dysplasia 16 with or without polydactyly (#617102) in OMIM. PMID: 26880018 - Girisha et al. 2016 - 1 case. A child from a consanguineous family who had short stature, narrow thorax, short hands and feet, postaxial polydactyly of hands, pigmentary retinopathy, small teeth and skeletal dysplasia. Whole-exome sequencing revealed a homozygous nonsense variant p.R142* in IFT52. This variant was not found in homozygous state in the 1000Genome project, the Exome Variant Server, the Exome Aggregation Consortium database, CentoMD and exome database of a local NGS service provider. The parents are heterozygous carriers. PMID: 27466190 - Zhang et al 2016 - 1 case. A non-consanguineous family with two fetuses affected by short-rib polydactyly syndrome (SRPS). Radiographic findings, taken at 20 and 23 weeks of gestation, respectively, were consistent between the two fetuses and showed undermineralized skulls, narrow thoraces with moderately shortened ribs and sharp angulations of some lower thoracic ribs, a flat appearance to the acetabular roofs, reverse campomelia of the humeri, mildly bent femurs, and no polydactyly. In one proband compound heterozygosity for two variants was found - a 1bp deletion leading to a frameshift and premature stop codon and a missense variant (c.878delT, pLeu293AlafsX21 and c.595G > A, p.Ala199Thr). One variant was inherited from each of the parents. The IFT52 mutant cells synthesized a significantly reduced amount of IFT52 protein, leading to reduced synthesis of IFT74, IFT81, IFT88 and ARL13B, other key anterograde complex members. Ciliogenesis was also disrupted in the mutant cells, with a 60% reduction in the presence of cilia on mutant cells and loss of cilia length regulation for the cells with cilia. PMID: 30242358 - Chen et al. 2018 - 1 case. A child from a consangiuneous family of Hui ethnicity was referred to the clinic with nystagmus and severe visual impairment since infancy also presented with severe growth retardation and mild mental retardation. She had narrow chest with short ribs and micromelic limbs. sandal gap in her right foot and dental dysplasia was also noticed. She was found to have a homozygous variation, IFT52 c.556A>G (p.T186A). This was absent in the two unaffected siblings. PMID: 31042281 - Dupont et al 2019 - report a family with compound heterogyzous variants (one missense, one causing an inframe mutation that results in less efficient splicing) in IFT52 in two foetuses in which a short rib polydactyly syndrome phenotype is described. One variant is inherited from each of the parents. One fetus also had Tortuous ureters and left pelviectasis. They also report another family in which a fetus with only a renal phenotype and a homozygous variant in IFT52 was identified. Summary - 3 cases plus a 4th with a milder skeletal phenotype. |
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| Skeletal dysplasia v1.166 | IFT52 |
Eleanor Williams commented on gene: IFT52: Associated with Short-rib thoracic dysplasia 16 with or without polydactyly (#617102) in OMIM. PMID: 26880018 - Girisha et al. 2016 - 1 case. A child from a consanguineous family who had short stature, narrow thorax, short hands and feet, postaxial polydactyly of hands, pigmentary retinopathy, small teeth and skeletal dysplasia. Whole-exome sequencing revealed a homozygous nonsense variant p.R142* in IFT52. This variant was not found in homozygous state in the 1000Genome project, the Exome Variant Server, the Exome Aggregation Consortium database, CentoMD and exome database of a local NGS service provider. The parents are heterozygous carriers. PMID: 27466190 - Zhang et al 2016 - 1 case. A non-consanguineous family with two fetuses affected by short-rib polydactyly syndrome (SRPS). Radiographic findings, taken at 20 and 23 weeks of gestation, respectively, were consistent between the two fetuses and showed undermineralized skulls, narrow thoraces with moderately shortened ribs and sharp angulations of some lower thoracic ribs, a flat appearance to the acetabular roofs, reverse campomelia of the humeri, mildly bent femurs, and no polydactyly. In one proband compound heterozygosity for two variants was found - a 1bp deletion leading to a frameshift and premature stop codon and a missense variant (c.878delT, pLeu293AlafsX21 and c.595G > A, p.Ala199Thr). One variant was inherited from each of the parents. The IFT52 mutant cells synthesized a significantly reduced amount of IFT52 protein, leading to reduced synthesis of IFT74, IFT81, IFT88 and ARL13B, other key anterograde complex members. Ciliogenesis was also disrupted in the mutant cells, with a 60% reduction in the presence of cilia on mutant cells and loss of cilia length regulation for the cells with cilia. PMID: 30242358 - Chen et al. 2018 - 1 case. A child from a consangiuneous family of Hui ethnicity was referred to the clinic with nystagmus and severe visual impairment since infancy also presented with severe growth retardation and mild mental retardation. She had narrow chest with short ribs and micromelic limbs. sandal gap in her right foot and dental dysplasia was also noticed. She was found to have a homozygous variation, IFT52 c.556A>G (p.T186A). This was absent in the two unaffected siblings. PMID: 31042281 - Dupont et al 2019 - report a family with compound heterogyzous variants (one missense, one causing an inframe mutation that results in less efficient splicing) in IFT52 in two foetuses in which a short rib polydactyly syndrome phenotype is described. One variant is inherited from each of the parents. One fetus also had Tortuous ureters and left pelviectasis. They also report another family in which a fetus with only a renal phenotype and a homozygous variant in IFT52 was identified. |
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| Skeletal dysplasia v1.166 | IFT81 | Eleanor Williams Publications for gene: IFT81 were set to 27666822; 26275418; 28460050 | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
| Skeletal dysplasia v1.155 | IFT81 | Eleanor Williams commented on gene: IFT81: Additional publication - PMID: 30080953 Pettersson et al 2018 - a homozygous tandem duplication of exon 9 and 10 in IFT81 in a boy with Jeune syndrome, or short-rib thoracic dysplasia (SRTD). Western blot analysis did not detect any wild-type IFT81 protein in fibroblasts from the patient with the IFT81 duplication, but only a shorter isoform of IFT81 that was also present in the normal control samples. | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
| Skeletal dysplasia v1.153 | IFT81 |
Eleanor Williams Added phenotypes Short-rib thoracic dysplasia 19 with or without polydactyly -617895 for gene: IFT81 Publications for gene IFT81 were changed from 26275418; 28460050; 27666822 to 27666822; 26275418; 28460050 |
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| Skeletal dysplasia v1.147 | IFT81 | Tracy Lester reviewed gene: IFT81: Rating: AMBER; Mode of pathogenicity: ; Publications: 26275418, 28460050, 27666822; Phenotypes: Short-rib thoracic dysplasia 19 with or without polydactyly -617895; Mode of inheritance: BIALLELIC, autosomal or pseudoautosomal | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
| Skeletal dysplasia v1.146 | IFT81 | Eleanor Williams reviewed gene: IFT81: Rating: AMBER; Mode of pathogenicity: ; Publications: ; Phenotypes: ; Mode of inheritance: | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
| Skeletal dysplasia v1.145 | IFT81 |
Eleanor Williams Source NHS GMS was added to IFT81. Rating Changed from Green List (high evidence) to Green List (high evidence) |
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| Skeletal dysplasia | IFT81 | Arianna Tucci classified IFT81 as green | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
| Skeletal dysplasia | IFT81 | Arianna Tucci added IFT81 to panel | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
| Skeletal dysplasia | IFT81 | Arianna Tucci reviewed IFT81 | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||