Your search keyword '"Ralf, Sudbrak"' showing total 5 results

1. Nephrocystin-5, a ciliary IQ domain protein, is mutated in Senior-Loken syndrome and interacts with RPGR and calmodulin

Author

John A. Sayer, Paul Coucke, Shirley He, Jan Hellemans, Melissa Tippens, Benjamin Margolis, Edgar A. Otto, Richard Reinhardt, Pamela A. Raymond, Anand Swaroop, Andreas Kispert, Friedhelm Hildebrandt, Motoyuki Tsuda, Bart Loeys, Isao Kawakami, John F. O'Toole, Heymut Omran, Concepción Lillo, PL Beales, Anita Imm, David S. Williams, Boris Utsch, David Jimeno, Takehiro Kusakabe, Massimo Attanasio, Hemant Khanna, Shuling Fan, Juliana Helou, Ulla Muerb, Jo Hill, Ralf Sudbrak, Anne De Paepe, and Sven Klages

Subjects

Male, Positional cloning, Molecular Sequence Data, Senior–Løken syndrome, Biology, Calmodulin, Nephronophthisis, Two-Hybrid System Techniques, Retinitis pigmentosa, Genetics, medicine, Humans, Amino Acid Sequence, Eye Proteins, Cilium, Ciliary transition zone, Syndrome, Retinitis pigmentosa GTPase regulator, Blotting, Northern, medicine.disease, eye diseases, Pedigree, RPGRIP1L, Mutation, Calmodulin-Binding Proteins, Female

Abstract

Nephronophthisis (NPHP) is the most frequent genetic cause of chronic renal failure in children(1-3). Identification of four genes mutated in NPHP subtypes 1- 4 (refs. 4- 9) has linked the pathogenesis of NPHP to ciliary functions(9). Ten percent of affected individuals have retinitis pigmentosa, constituting the renal-retinal Senior-Loken syndrome (SLSN). Here we identify, by positional cloning, mutations in an evolutionarily conserved gene, IQCB1 (also called NPHP5), as the most frequent cause of SLSN. IQCB1 encodes an IQ-domain protein, nephrocystin-5. All individuals with IQCB1 mutations have retinitis pigmentosa. Hence, we examined the interaction of nephrocystin-5 with RPGR (retinitis pigmentosa GTPase regulator), which is expressed in photoreceptor cilia and associated with 10-20% of retinitis pigmentosa. We show that nephrocystin-5, RPGR and calmodulin can be coimmunoprecipitated from retinal extracts, and that these proteins localize to connecting cilia of photoreceptors and to primary cilia of renal epithelial cells. Our studies emphasize the central role of ciliary dysfunction in the pathogenesis of SLSN.

Published

2005

2. Variation in genome-wide mutation rates within and between human families

Author

Javier Herrero, Harold Swerdlow, Rajini Haraksingh, Christopher Hartl, Laura Clarke, Ryan Mills, David N. Cooper, Carlos Torroja, Daniel MacArthur, Carlos D. Bustamante, Tatiana Borodina, Ralf Sudbrak, Philip Rosenstiel, Eugene Kulesha, Klaudia Walter, Simon Myers, Jonathan Sebat, Eric Stone, Kiran Garimella, Rajesh Radhakrishnan, Sarah Lindsay, William McLaren, Vadim Zalunin, Andrew Clark, Rasko Leinonen, Thomas Keane, Stephen Keenan, and Andreas Dahl

Subjects

Male, Genetics, Mutation, Mutation rate, Genome, Human, DNA Mutational Analysis, Chromosome Mapping, Genetic Variation, Germline mosaicism, Biology, medicine.disease_cause, Polymerase Chain Reaction, Genome, Article, Germline, Germline mutation, medicine, Humans, Family, Female, Human genome, Gene, Germ-Line Mutation

Abstract

J.B.S. Haldane proposed in 1947 that the male germline may be more mutagenic than the female germline. Diverse studies have supported Haldane's contention of a higher average mutation rate in the male germline in a variety of mammals, including humans. Here we present, to our knowledge, the first direct comparative analysis of male and female germline mutation rates from the complete genome sequences of two parent-offspring trios. Through extensive validation, we identified 49 and 35 germline de novo mutations (DNMs) in two trio offspring, as well as 1,586 non-germline DNMs arising either somatically or in the cell lines from which the DNA was derived. Most strikingly, in one family, we observed that 92% of germline DNMs were from the paternal germline, whereas, in contrast, in the other family, 64% of DNMs were from the maternal germline. These observations suggest considerable variation in mutation rates within and between families.

Published

2011

3. Mutation of BSND causes Bartter syndrome with sensorineural deafness and kidney failure

Author

Frank Beekmann, Martin Konrad, Nicola Jeck, Irina Maier-Lutz, Maria J. Schürmann, Delphine Feldmann, David V. Milford, Andrea Fekete, Andreas Kispert, Heymut Omran, Ralf Sudbrak, Ralf Birkenhäger, Eva Maria Ruf, Corinne Antignac, Edgar A. Otto, Nine V A M Knoers, Friedhelm Hildebrandt, Daniel Landau, and Martin Vollmer

Subjects

Male, medicine.medical_specialty, Positional cloning, Hearing Loss, Sensorineural, Elucidation of hereditary disorders and their molecular diagnosis, DNA Mutational Analysis, Molecular Sequence Data, Locus (genetics), Bartter syndrome, Kidney, Mice, Chloride Channels, Internal medicine, Prenatal Diagnosis, Genetics, medicine, Animals, Humans, RNA, Messenger, Renal Insufficiency, Cloning, Molecular, Loss function, In Situ Hybridization, Polymorphism, Single-Stranded Conformational, CLCNKB, biology, Gene Expression Profiling, Kidney metabolism, Bartter Syndrome, Membrane Proteins, Exons, medicine.disease, Physical Chromosome Mapping, Phenotype, medicine.anatomical_structure, Endocrinology, Haplotypes, Chromosomes, Human, Pair 1, Mutation, biology.protein, Female, Opheldering van erfelijke ziekten en hun moleculaire diagnostiek

Abstract

Item does not contain fulltext Antenatal Bartter syndrome (aBS) comprises a heterogeneous group of autosomal recessive salt-losing nephropathies. Identification of three genes that code for renal transporters and channels as responsible for aBS has resulted in new insights into renal salt handling, diuretic action and blood-pressure regulation. A gene locus of a fourth variant of aBS called BSND, which in contrast to the other forms is associated with sensorineural deafness (SND) and renal failure, has been mapped to chromosome 1p. We report here the identification by positional cloning, in a region not covered by the human genome sequencing projects, of a new gene, BSND, as the cause of BSND. We examined ten families with BSND and detected seven different mutations in BSND that probably result in loss of function. In accordance with the phenotype, BSND is expressed in the thin limb and the thick ascending limb of the loop of Henle in the kidney and in the dark cells of the inner ear. The gene encodes a hitherto unknown protein with two putative transmembrane alpha-helices and thus might function as a regulator for ion-transport proteins involved in aBS, or else as a new transporter or channel itself.

Published

2001

4. Mutations in a novel gene, NPHP3, cause adolescent nephronophthisis, tapeto-retinal degeneration and hepatic fibrosis

Author

Richard Reinhardt, Julia Hoefele, Norbert Gretz, Heymut Omran, Bernhard Schermer, Corinne Antignac, Andreas Volz, Andreas Kispert, Manfred Fliegauf, Gürsel Sasmaz, Heike Olbrich, Gerd Walz, Friedhelm Hildebrandt, Ute Trauer, Thomas Benzing, Edgar A. Otto, Matthias T.F. Wolf, and Ralf Sudbrak

Subjects

Retinal degeneration, Adult, Liver Cirrhosis, Male, Pathology, medicine.medical_specialty, DNA, Complementary, Adolescent, Molecular Sequence Data, Biology, Senior–Løken syndrome, Transfection, Cell Line, Mice, Nephronophthisis, Genetics, Polycystic kidney disease, medicine, Missense mutation, Animals, Humans, Child, Adaptor Proteins, Signal Transducing, Polycystic Kidney, Autosomal Recessive, Cystic kidney, Cerebellar ataxia, Membrane Proteins, Proteins, Kidney Diseases, Cystic, medicine.disease, Recombinant Proteins, Cytoskeletal Proteins, Mutation, Female, medicine.symptom, Hepatic fibrosis, Retinitis Pigmentosa

Abstract

Nephronophthisis (NPHP), a group of autosomal recessive cystic kidney disorders, is the most common genetic cause of progressive renal failure in children and young adults. NPHP may be associated with Leber congenital amaurosis, tapeto-retinal degeneration, cerebellar ataxia, cone-shaped epiphyses, congenital oculomotor apraxia and hepatic fibrosis. Loci associated with an infantile type of NPHP on 9q22-q31 (NPHP2), juvenile types of NPHP on chromosomes 2q12-q13 (NPHP1) and 1p36 (NPHP4) and an adolescent type of NPHP on 3q21-q22 (NPHP3) have been mapped. NPHP1 and NPHP4 have been identified, and interaction of the respective encoded proteins nephrocystin and nephrocystin-4 has been shown. Here we report the identification of NPHP3, encoding a novel 1,330-amino acid protein that interacts with nephrocystin. We describe mutations in NPHP3 in families with isolated NPHP and in families with NPHP with associated hepatic fibrosis or tapeto-retinal degeneration. We show that the mouse ortholog Nphp3 is expressed in the node, kidney tubules, retina, respiratory epithelium, liver, biliary tract and neural tissues. In addition, we show that a homozygous missense mutation in Nphp3 is probably responsible for the polycystic kidney disease (pcy) mouse phenotype. Interventional studies in the pcy mouse have shown beneficial effects by modification of protein intake and administration of methylprednisolone, suggesting therapeutic strategies for treating individuals with NPHP3.

Published

2003

5. Mutations in DNAH5 cause primary ciliary dyskinesia and randomization of left–right asymmetry

Author

Maimoona A. Zariwala, Michael R. Knowles, Friedhelm Hildebrandt, Heike Olbrich, Alexander Völkel, Heymut Omran, Andreas Kispert, Hannah M. Mitchison, Ralf Sudbrak, Hans Lehrach, Nikolaus Konietzko, Richard Reinhardt, M Meeks, Eddie M. K. Chung, Peadar G. Noone, Gürsel Sasmaz, Andreas Volz, Steffen Hennig, and Karsten Häffner

Subjects

Male, medicine.medical_specialty, Mucociliary clearance, Biology, Mice, Internal medicine, otorhinolaryngologic diseases, Genetics, medicine, Animals, Humans, Cilia, Body Patterning, Primary ciliary dyskinesia, Kartagener Syndrome, Molecular Motor Proteins, Cilium, Dyneins, Inner dynein arm, Situs Inversus, medicine.disease, Situs inversus, Endocrinology, Mutation, Ciliary Motility Disorders, Female, Outer dynein arm

Abstract

Primary ciliary dyskinesia (PCD, MIM 242650) is characterized by recurrent infections of the respiratory tract due to reduced mucociliary clearance and by sperm immobility. Half of the affected offspring have situs inversus (reversed organs), which results from randomization of left-right (LR) asymmetry. We previously localized to chromosome 5p a PCD locus containing DNAH5, which encodes a protein highly similar to the Chlamydomonas gamma-dynein heavy chain. Here we characterize the full-length 14-kb transcript of DNAH5. Sequence analysis in individuals with PCD with randomization of LR asymmetry identified mutations resulting in non-functional DNAH5 proteins.

Published

2002