about
Metabolic heterogeneity during preimplantation development: the missing link?Implications of Epigenetic Variability within a Cell Population for "Cell Type" ClassificationSingle cells get together: High-resolution approaches to study the dynamics of early mouse developmentCell fate inclination within 2-cell and 4-cell mouse embryos revealed by single-cell RNA sequencingFate mapping reveals origin and dynamics of lymph node follicular dendritic cells.Esrrb-Cre excises loxP-flanked alleles in early four-cell embryos.Gene Expression Noise Enhances Robust Organization of the Early Mammalian Blastocyst.Connectomics: comprehensive approaches for whole-brain mapping.Zebrabow: multispectral cell labeling for cell tracing and lineage analysis in zebrafish.Origin of cellular asymmetries in the pre-implantation mouse embryo: a hypothesis.Heterogeneity in Oct4 and Sox2 Targets Biases Cell Fate in 4-Cell Mouse Embryos.Improved tools for the Brainbow toolboxBrainbow: new resources and emerging biological applications for multicolor genetic labeling and analysisInverted light-sheet microscope for imaging mouse pre-implantation development.Identification of T cell clones without the need for sequencing.Human stem cells from single blastomeres reveal pathways of embryonic or trophoblast fate specification.Polyclonal breast cancer metastases arise from collective dissemination of keratin 14-expressing tumor cell clusters.Defining Clonal Color in Fluorescent Multi-Clonal TrackingMulticolor fate mapping of Langerhans cell homeostasis.Totipotency: what it is and what it is notReporter mouse lines for fluorescence imaging.Concise review: understanding clonal dynamics in homeostasis and injury through multicolor lineage tracing.Developmental plasticity, cell fate specification and morphogenesis in the early mouse embryo.Theory and Practice of Lineage Tracing.Imaging Neural Architecture in Brainbow Samples.The Role of Maternal-Effect Genes in Mammalian Development: Are Mammalian Embryos Really an Exception?Vertebrate Axial Patterning: From Egg to Asymmetry.Bimodal behaviour of interfollicular epidermal progenitors regulated by hair follicle position and cycling.The Vascular Wall: a Plastic Hub of Activity in Cardiovascular Homeostasis and Disease.Clonal analyses in the anterior pre-placodal region: implications for the early lineage bias of placodal progenitors.Differential regulation of H3S10 phosphorylation, mitosis progression and cell fate by Aurora Kinase B and C in mouse preimplantation embryos.Deficiency of microRNA miR-34a expands cell fate potential in pluripotent stem cells.Development of the anterior-posterior axis is a self-organizing process in the absence of maternal cues in the mouse embryo.Bimodal skin progenitors-a matter of place and time.The first cell-fate decision of mouse preimplantation embryo development: integrating cell position and polarity.Genetic mosaics and time-lapse imaging identify functions of histone H3.3 residues in mouse oocytes and embryos.Symmetry breaking in the early mammalian embryo: the case for quantitative single-cell imaging analysis.Specification of trophoblast from embryonic stem cells exposed to BMP4.Expected advances in human fertility treatments and their likely translational consequences.Rainbow-Seq: Combining Cell Lineage Tracing with Single-Cell RNA Sequencing in Preimplantation Embryos
P2860
Q22337135-A13D6502-4053-4131-9AC3-F794CDA68912Q26770736-A77494E2-A902-4649-BF32-08B2362593FFQ28081131-CA71363D-A408-4C52-91B0-BA13FFBD424CQ28397019-C63F2F4B-0A39-47F9-9013-ED62C6F159DBQ30579711-CDB58F31-9D1D-4C3D-8287-FF8B5B472DC4Q30700197-B86878B1-ABC0-449C-8198-9AF22C4A449AQ30837669-ABF08536-21EC-406E-8838-56DC7E5DDAF9Q30881247-7F241319-5BF6-493D-A306-6BBFC4B52ED6Q34350239-705D5316-BDB7-4EC8-98E7-9B454F0F2BF2Q34436917-CA25E4F9-E266-424E-8D77-1F0163EE3752Q34519843-3E61ADDC-E3CC-42C7-9325-8F95C1804ABCQ34653786-A5DEA362-7EC2-4CAB-A843-C1A0286C77DCQ35050861-A9E6F45E-3CEE-47BB-A28C-86E8FB511CC5Q35866491-D35DEEC2-2B29-42BA-B309-EF2A19BDF5E8Q36029433-4D15DA91-DD7A-4BDD-BCEA-9DA8B5CEAD76Q36462510-EDF87CC6-9A83-4472-BB2D-6C6643D1BCE7Q36607592-A9FB58DE-62A0-4F0B-8A22-BBB357DC60F3Q36793118-D8F4557F-D92D-4617-B8AE-A12F4E419585Q37125737-97AC1246-6F5F-4F28-A0ED-7F44E1C6FE75Q37710687-8B359989-8A13-4274-B346-11BDEEDA35B8Q38102041-41DDFF52-16BF-47B9-9689-4EB329C1648AQ38239029-04C25815-391F-4653-BFAF-E56CF4D7F0C2Q38263164-48806626-7E0A-447E-90BA-D53A16FCF1FAQ38568827-C5D63EF5-7B34-4B63-8A2D-091A9F553D92Q38620979-04528573-08D8-4A9F-88FE-07D4A4732F26Q38739786-3A151E5F-28D6-4D4E-9684-B4D57A760DF7Q38782671-D1E89994-FE44-4F75-B120-D0445F77C80CQ39232109-5DECBFC5-3FF5-4086-B136-64FC1700615FQ39255920-CA7AE7A7-C223-435C-9E7F-32736CEF2411Q40156374-FFD7DA37-7264-459E-989B-458823F9FC30Q41462589-B02B57BE-EE03-41D3-AA5F-4022A448A58DQ42003193-2E336E47-EDEC-47B3-AC62-AFABAAAB51B2Q43142171-EAA08DE3-4F1D-4B7E-9DCF-3C2D2F306A9FQ46095277-21151269-A260-4AF3-9749-D68867652166Q47100959-4796C653-9595-41F7-A2AD-2755C25C2871Q48137626-BBB44BD4-2CF0-424E-971F-713129B9AD10Q50567511-89FC4CD3-28BB-46B8-BB20-7FC9B42732CDQ51148958-806882B6-9F02-44FD-8367-54D2ECD55F11Q55491545-38C53693-B462-43D6-A4C4-F9785E32D945Q58772659-E076B74F-31B4-4433-8406-5D05A533F675
P2860
description
2012 nî lūn-bûn
@nan
2012年の論文
@ja
2012年論文
@yue
2012年論文
@zh-hant
2012年論文
@zh-hk
2012年論文
@zh-mo
2012年論文
@zh-tw
2012年论文
@wuu
2012年论文
@zh
2012年论文
@zh-cn
name
Developmental bias in cleavage-stage mouse blastomeres.
@ast
Developmental bias in cleavage-stage mouse blastomeres.
@en
type
label
Developmental bias in cleavage-stage mouse blastomeres.
@ast
Developmental bias in cleavage-stage mouse blastomeres.
@en
prefLabel
Developmental bias in cleavage-stage mouse blastomeres.
@ast
Developmental bias in cleavage-stage mouse blastomeres.
@en
P2093
P2860
P50
P1433
P1476
Developmental bias in cleavage-stage mouse blastomeres
@en
P2093
Alan Lenarcic
Derin B Keskin
Inna Tabansky
Jacqueline Rosains
Jeff W Lichtman
Joshua R Sanes
José Rivera-Feliciano
Kevin Eggan
Ryan W Draft
P2860
P356
10.1016/J.CUB.2012.10.054
P407
P577
2012-11-21T00:00:00Z