Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: EC:3.4.16.2 (
PCP
)
3,761
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
WNT signals play key roles in carcinogenesis and embryogenesis through the specification of cell fate and polarity. Dishevelled (DVL) proteins are WNT signaling molecules implicated in beta-catenin pathway and
PCP
pathway. Xenopus Dapper and Frodo are Dvl-binding proteins, showing 89.8% total-amino-acid identity. Here, we identified and characterized human homologs of Xenopus Dapper and Frodo using bioinformatics. Human DAPPER1 gene was located within human genome draft sequence NT_025892.9 (nucleotide position 39378960-39387891 in the forward orientation), and human DAPPER2 gene within NT_007302.10 (nucleotide position 660279-672480 in the reverse orientation). DAPPER1 (799-amino-acids) and DAPPER2 (774-amino-acids) showed 28.8% total-amino-acid identity. Seven DAPPER homologous (DAPH) domains, including DAPH2 (leucine zipper), DAPH3 (serine rich) and DAPH7 (PDZ binding), were conserved between DAPPER1 and DAPPER2. Phylogenetic analysis of vertebrate Dapper proteins revealed that Xenopus Dapper and Frodo are orthologs of human DAPPER1. DAPPER1 mRNA was expressed in amnion, fetal brain, eye, heart, adult brain medulla, gastric cancer (signet ring cell features), RER+ colon tumor, acute lymphoblastic leukemia, germ cell tumor,
chondrosarcoma
, and parathyroid tumor. DAPPER2 mRNA was expressed in placenta, genitourinary tract tumor, and endometrial adenocarcinoma. DAPPER1 and DAPPER2 genes were mapped to human chromosome 14q22.3 and 6q27, respectively. Human chromosome 14q22.3 is deleted in astrocytoma, while human chromosome 6q27 is deleted in breast, ovarian, and gastric cancer. Based on evolutionary and functional conservation of WNT signaling molecules as well as human chromosomal localization, DAPPER1 and DAPPER2 genes are predicted to be potent cancer-associated genes.
...
PMID:Identification and characterization of human DAPPER1 and DAPPER2 genes in silico. 1263 86
WNT signals play key roles in carcinogenesis and embryogenesis through the specification of cell fate and polarity. Dishevelled proteins are implicated in the WNT - beta-catenin pathway and the WNT-
PCP
pathway. DAAM1/KIAA0666 is a Dishevelled-binding protein transducing WNT signals to the
PCP
pathway. Here, we identified and characterized DAAM2 gene by using bioinformatics. Uncharacterized FLJ34430 and KIAA0381 cDNAs were homologous to DAAM1. FLJ34430 was recombined with URB (XM_087331) in the 3'-region, and KIAA0381 was truncated in the 5'-region. Nucleotide sequence of DAAM2 cDNA was determined in silico by adding nucleotide position 1-793 of FLJ34430 onto the 5'-end of KIAA0381. DAAM2 gene consists of 27 exons, and gives rise to four splicing variants due to alternative splicing of alternative promoter type as well as of cassette exon type. DAAM2 gene was linked to the MOCS1 gene on human chromosome 6p21.3 with an interval less than 1 kb. DAAM2 mRNA was expressed in fetal heart, adult hypothalamus, eye, spinal cord, lung, prostate, kidney, and also in glioblastoma, oligodendroglioma, melanoma, mammary adenocarcinoma and
chondrosarcoma
. DAAM2 was a 1077-amino-acid protein with Formin-homology FH1 and FH2 domains, which showed 68.9% total-amino-acid identity with DAAM1. Among Formin-homology proteins, FDD (Formin-like, Diaphanous, Daam) domain was conserved in FMNL1/FMNL/KW-13, FMNL2/KIAA1902/FHOD2, DIAPH1, DIAPH2, DAAM1 and DAAM2, but not in Fmn1, Fmn2, FHOD1 and Grid2ip. Therefore, it was concluded that FMNL1, FMNL2, DIAPH1, DIAPH2, DAAM1 and DAAM2 proteins constitute the Formin-homology FDD subfamily.
...
PMID:Identification and characterization of human DAAM2 gene in silico. 1263 87
Mammalian limb development is driven by the integrative input from several signaling pathways; a failure to receive or a misinterpretation of these signals results in skeletal defects. The brachydactylies, a group of overlapping inherited human hand malformation syndromes, are mainly caused by mutations in BMP signaling pathway components. Two closely related forms, Brachydactyly type B2 (BDB2) and BDB1 are caused by mutations in the BMP antagonist Noggin (NOG) and the atypical receptor tyrosine kinase ROR2 that acts as a receptor in the non-canonical Wnt pathway. Genetic analysis of Nog and Ror2 functional interaction via crossing Noggin and Ror2 mutant mice revealed a widening of skeletal elements in compound but not in any of the single mutants, thus indicating genetic interaction. Since ROR2 is a non-canonical Wnt co-receptor specific for Wnt-5a we speculated that this phenotype might be a result of deregulated Wnt-5a signaling activation, which is known to be essential for limb skeletal elements growth and patterning. We show that Noggin potentiates activation of the Wnt-5a-Ror2-Disheveled (Dvl) pathway in mouse embryonic fibroblast (MEF) cells in a Ror2-dependent fashion. Rat
chondrosarcoma
chondrocytes (RCS), however, are not able to respond to Noggin in this fashion unless growth arrest is induced by FGF2. In summary, our data demonstrate genetic interaction between Noggin and Ror2 and show that Noggin can sensitize cells to Wnt-5a/Ror2-mediated non-canonical Wnt signaling, a feature that in cartilage may depend on the presence of active FGF signaling. These findings indicate an unappreciated function of Noggin that will help to understand BMP and Wnt/
PCP
signaling pathway interactions.
...
PMID:A Novel Role for the BMP Antagonist Noggin in Sensitizing Cells to Non-canonical Wnt-5a/Ror2/Disheveled Pathway Activation. 2852 67
