Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
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 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

The frizzled (fz) signaling/signal transduction pathway controls planar cell polarity in both vertebrates and invertebrates. Previous data implicated Rho1 as a component of the fz pathway in Drosophila but it was unclear how it functioned. The existence of a G Protein Binding-Formin Homology 3 (GBD-FH3) domain in Multiple Wing Hairs, a downstream component of the pathway suggested that Rho1 might function by binding to and activating Mwh. We re-examined the role of Rho1 in wing planar polarity and found that it had multiple functions. Aberrant Rho1 activity led to changes in the number of hairs formed, changes in cell shape and F-actin and changes in cellular junctions. Experiments that utilized Rho effector loop mutations argued that these phenotypes were mediated by effects of Rho1 on the cytoskeleton and not by effects on transcription. We found strong positive genetic interactions between Rho1 and mwh, that Rho1 regulated the accumulation of Mwh protein and that these two proteins could be co-immunoprecipitated. The Mwh GBD:FH3 domain was sufficient for co-immunoprecipitation with Rho1, consistent with this domain mediating the interaction. However, further experiments showed that Rho1 function in wing differentiation was not limited to interacting with Mwh. We established by genetic experiments that Rho1 could influence hair morphogenesis in the absence of mwh and that the disruption of Rho1 activity could interfere with the zig zag accumulation pattern of upstream fz pathway proteins. Thus, our results argue that in addition to its interaction with Mwh Rho1 has functions in wing planar polarity that are parallel to and upstream of fz. The upstream function may be an indirect one and associated with the requirement for normal apical basal polarity and adherens junctions for the accumulation of PCP protein complexes.
 ...
PMID:Rho1 has multiple functions in Drosophila wing planar polarity. 1957 1