2015
Intraciliary Calcium Oscillations Initiate Vertebrate Left-Right Asymmetry
Yuan S, Zhao L, Brueckner M, Sun Z. Intraciliary Calcium Oscillations Initiate Vertebrate Left-Right Asymmetry. Current Biology 2015, 25: 556-567. PMID: 25660539, PMCID: PMC4469357, DOI: 10.1016/j.cub.2014.12.051.Peer-Reviewed Original ResearchConceptsLeft-right organizerLR developmentCiliary motilityVertebrate left–right asymmetryLeft-right signalingLive zebrafish embryosVertebrate developmentLeft-right asymmetryZebrafish embryosSensory ciliaPolycystin-2Signaling cascadesMolecular signalsMolecular mechanismsIntraciliary calciumCation channelsMotilityBilateral symmetryCalcium sinkCiliaCalcium oscillationsPKD2SignalingEmbryosExtracellular fluid
1997
Mutation of an axonemal dynein affects left–right asymmetry in inversus viscerum mice
Supp D, Witte D, Potter S, Brueckner M. Mutation of an axonemal dynein affects left–right asymmetry in inversus viscerum mice. Nature 1997, 389: 963-966. PMID: 9353118, PMCID: PMC1800588, DOI: 10.1038/40140.Peer-Reviewed Original ResearchConceptsAxonemal dynein heavy chain geneDynein heavy chain geneAsymmetric expression patternMicrotubule-based motorsEmbryonic day 7.5Vertebrate patterningLeft-right axisGenetic hierarchyLeft-right asymmetryEarly molecular mechanismsPositional cloningHeavy chain geneInversus viscerum (iv) mouseGene productsVisceral asymmetryAxonemal dyneinsSymmetrical embryosExpression patternsMolecular mechanismsLR determinationMolecular levelDay 7.5EmbryosLateralization defectsDynein