brachydactyly/tyrosine

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Distinct mutations in the receptor tyrosine kinase gene ROR2 cause brachydactyly type B.

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Brachydactyly type B (BDB) is an autosomal dominant skeletal disorder characterized by hypoplasia/aplasia of distal phalanges and nails. Recently, heterozygous mutations of the orphan receptor tyrosine kinase (TK) ROR2, located within a distinct segment directly after the TK domain, have been shown

Dominant mutations in ROR2, encoding an orphan receptor tyrosine kinase, cause brachydactyly type B.

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Inherited limb malformations provide a valuable resource for the identification of genes involved in limb development. Brachydactyly type B (BDB), an autosomal dominant disorder, is the most severe of the brachydactylies and characterized by terminal deficiency of the fingers and toes. In the

Hoxd13 and Hoxa13 directly control the expression of the EphA7 Ephrin tyrosine kinase receptor in developing limbs.

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Hoxa and Hoxd genes, related to the Drosophila Abd-B gene, display regionally restricted expression patterns and are necessary for the formation of the limb skeletal elements. Hox genes encode transcription factors, which are supposed to control the expression of a series of downstream target genes,

Wnt-ligand-dependent interaction of TAK1 (TGF-beta-activated kinase-1) with the receptor tyrosine kinase Ror2 modulates canonical Wnt-signalling.

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Mutations in the receptor tyrosine kinase Ror2 account for Brachydactyly type B and Robinow Syndrome. We have identified two novel factors interacting with the Ror2 intracellular domain. TAK1 (TGF-beta activated kinase 1), a MAP3K, interacts with Ror2 and phosphorylates its intracellular

The receptor tyrosine kinase Ror2 associates with the melanoma-associated antigen (MAGE) family protein Dlxin-1 and regulates its intracellular distribution.

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The mammalian Ror family receptor tyrosine kinases, Ror1 and Ror2, play crucial roles in developmental morphogenesis. Although the functions of Ror1 and Ror2 are redundant, Ror2 exhibits more specific functions during development. We show that when expressed in mammalian cells, Ror2, but not Ror1,

A new subtype of brachydactyly type B caused by point mutations in the bone morphogenetic protein antagonist NOGGIN.

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Brachydactyly type B (BDB) is characterized by terminal deficiency of fingers and toes, which is caused by heterozygous truncating mutations in the receptor tyrosine kinase-like orphan receptor 2 (ROR2) in the majority of patients. In a subset of ROR2-negative patients with BDB, clinically defined

Expression and function of the Ror-family receptor tyrosine kinases during development: lessons from genetic analyses of nematodes, mice, and humans.

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Receptor tyrosine kinases (RTKs) play crucial roles in various developmental processes. Ror-family RTKs are characterized by the intracellular tyrosine kinase domains, highly related to those of the Trk-family RTKs, and by the extracellular Frizzled-like cysteine-rich domains (CRDs) and Kringle

A novel single-base deletion in ROR2 causes atypical brachydactyly type B1 with cutaneous syndactyly in a large Chinese family.

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Mutations in ROR2, encoding the receptor tyrosine kinase-like orphan receptor 2, cause two distinct skeletal diseases: autosomal dominant brachydactyly type B1 (BDB1) and autosomal recessive Robinow syndrome. In a large Chinese family with a limb phenotype, consisting of atypical BDB1 and cutaneous

Corneal changes, hyperkeratosis, short stature, brachydactyly, and premature birth: a new autosomal dominant syndrome.

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We report on an autosomal dominant syndrome consisting of unique corneal epithelial changes, diffuse palmoplantar hyperkeratosis, distal onycholysis, brachydactyly, short stature, premature birth, and dental problems. This condition has been present in seven persons in three generations of one

A new mutation in the gene ROR2 causes brachydactyly type B1.

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Brachydactyly type B, an autosomal dominant disorder that is characterized by hypoplasia of the distal phalanges and nails, can be divided into brachydactyly type B1 (BDB1) and brachydactyly type B2 (BDB2). BDB1 is caused by mutations in the receptor tyrosine kinase gene ROR2, which maps to

Mutation screening in candidate genes in four Chinese brachydactyly families.

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Autosomal dominant brachydactyly (BD) is a skeletal disorder with several subtypes, including brachydactyly type A1 (BDA1) and brachydactyly type B1 (BDB1). Mutations in Indian hedgehog (IHH) are usually associated with BDA1, whereas heterozygous mutations in receptor tyrosine kinase-like orphan

Receptor tyrosine kinase-like orphan receptor 2 (ROR2) and Indian hedgehog regulate digit outgrowth mediated by the phalanx-forming region.

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Elongation of the digit rays resulting in the formation of a defined number of phalanges is a process poorly understood in mammals, whereas in the chicken distal mesenchymal bone morphogenetic protein (BMP) signaling in the so-called phalanx-forming region (PFR) or digit crescent (DC) seems to be

Interdigital Hyperplasia in Holstein Cattle Is Associated With a Missense Mutation in the Signal Peptide Region of the Tyrosine-Protein Kinase Transmembrane Receptor Gene.

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Bovine interdigital hyperplasia (IH) is a typical disease of the foot with varying prevalence depending on age, breed, and environmental factors resulting in different degrees of lameness. In studies based on assessments of claw health status at time of hoof trimming and applying genetic-statistical

Novel domains of expression for orphan receptor tyrosine kinase Ror2 in the human and mouse reproductive system.

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BACKGROUND The noncanonical Wnt receptor and tyrosine kinase Ror2 has been associated with recessive Robinow syndrome (RRS) and dominant brachydactyly type B1. The phenotypes of mouse mutants implicate Ror2 in the development of the heart, lungs, bone, and craniofacial structures, which are affected

A nonsense mutation in the gene ROR2 underlying autosomal dominant brachydactyly type B.

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Brachydactyly type B1 (BDB1), an autosomal dominant condition characterized by terminal deficiency of the fingers and toes, results from mutations in the gene ROR2 encoding a receptor tyrosine kinase. In addition to BDB1, mutations in the gene ROR2 also cause a more severe form of skeletal

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