Project description:The primary cilium is a sensory organelle, receiving signals from the external environment and relaying them into the cell. Mutations in proteins required for transport in the primary cilium lead to ciliopathies, a group of genetic disorders that commonly lead to the malformation of organs such as the kidney, liver and eyes and skeletal deformation. Motor proteins dynein-2 and kinesin-2 mediate retrograde and anterograde transport in the cilium. WDR34, a dynein-2 intermediate chain, is required for the maintenance of cilia function. Here, we investigated WDR34 mutations, some as compound mutations with other dynein-2 or IFT proteins, identified in Jeune syndrome, Short-Rib Polydactyly Syndrome or Asphyxiating thoracic dysplasia patients by stably expressing the mutant proteins in WDR34 knockout cells. WDR34 mutations led to different spectrums of phenotypes. Here, we have used quantitative proteomics demonstrated changes in dynein-2 assembly. These data re[resent pilot experiments subsequently developed fully and deposited as PXD032758.

Project description:To identify those proteins interacting with the cytoplasmic dynein-2 using mammalian cell lines stably expressing GFP-tagged intermediate chain subunits, WDR34 (DYNC2I2) or WDR60 (DYNC2I1).

Project description:To identify those proteins interacting with the cytoplasmic dynein-2 using mammalian cell lines stably expressing GFP-tagged intermediate chain subunits, WDR34 (DYNC2I2) or WDR60 (DYNC2I1).

Project description:To identify those proteins interacting with the cytoplasmic dynein-2 using mammalian cell lines stably expressing GFP-tagged intermediate chain subunits, WDR34 (DYNC2I2) or WDR60 (DYNC2I1).

Project description:To identify those proteins interacting with the cytoplasmic dynein-2 using mammalian cell lines stably expressing HA-tagged intermediate chain subunits, WDR34 (DYNC2I2) or WDR60 (DYNC2I1).

Project description:To identify those proteins interacting with the cytoplasmic dynein-2 using mammalian cell lines stably expressing HA-tagged intermediate chain subunits, WDR34 (DYNC2I2) or WDR60 (DYNC2I1).

Project description:To identify those proteins interacting with the cytoplasmic dynein-2 using mammalian cell lines stably expressing HA-tagged intermediate chain subunits, WDR34 (DYNC2I2) or WDR60 (DYNC2I1).

Project description:Analysis of proteins interactiong with the trucated form of the cytoplasmic dynein-2 intermediate chain WDR34-Q158* using GFP-trap

Project description:Affinity isolation of proteins interacting with dynein-2 intermediate chains WDR34 and WDR6 in both WT and WDR34/WDR60 knockout cell lines0

Project description:Dysfunctional motile cilia result in primary ciliary dyskinesia (PCD), a genetically heterogeneous disorder characterized by chronic oto-sino-pulmonary disease, infertility, and laterality defects. Mutations in dynein axonemal assembly factors (DNAAF), that facilitate the assembly of dynein arms in the cytoplasm before transport into the cilium, cause PCD. Sperm-associated antigen 1 (SPAG1) is a DNAAF; however, SPAG1’s precise role in dynein assembly is unknown. Here, we identify a novel 60 kDa SPAG1 isoform that can partially compensate for the absence of full-length SPAG1 to assemble normal outer dynein arms, leading to phenotypic variability in PCD subjects with SPAG1 mutations. Our data shows that SPAG1 interacts with DNAAF, dynein chains, and components of the R2TP complex, and SPAG1 is necessary for axonemal dynein arm assembly by facilitating the folding and/or binding of the dynein heavy chains to the intermediate chain complex.