Sparking new frontiers: using in vivo electroporation for genetic manipulations.
about
Inactivation of a novel FGF23 regulator, FAM20C, leads to hypophosphatemic rickets in miceBoundary cap cells constrain spinal motor neuron somal migration at motor exit points by a semaphorin-plexin mechanism.Efficient expression of transgenes in adult zebrafish by electroporation."Zebrafishing" for novel genes relevant to the glomerular filtration barrierSelective gene expression by postnatal electroporation during olfactory interneuron neurogenesisR-cadherin is a Pax6-regulated, growth-promoting cue for pioneer axonsMethods, potentials, and limitations of gene delivery to regenerate central nervous system cellsTurning heads: development of vertebrate branchiomotor neurons.Gene transfer to pre-hematopoietic and committed hematopoietic precursors in the early mouse yolk sac: a comparative study between in situ electroporation and retroviral transduction.The temporal resolution of in vivo electroporation in zebrafish: a method for time-resolved loss of functionDevelopment of retroviral vectors for tissue-restricted expression in chicken embryonic gonadsPrecocious retinal neurons: Pax6 controls timing of differentiation and determination of cell typeExpression of FAM20C in the osteogenesis and odontogenesis of mouse.Cutting, pasting and painting: experimental embryology and neural development.Combination of in ovo electroporation and time-lapse imaging to study migrational events in chicken embryos.Electroporation and RNA interference in the rodent retina in vivo and in vitro.Controlled expression of transgenes introduced by in vivo electroporation.Using Fluorescent Markers to Estimate Synaptic Connectivity In Situ.Axonin-1/TAG-1 is required for pathfinding of granule cell axons in the developing cerebellumIn ovo RNAi opens new possibilities for temporal and spatial control of gene silencing during development of the vertebrate nervous system.A detailed description of an economical setup for electroporation of chick embryos in ovo.Cytoplasmic protein methylation is essential for neural crest migration.CHL1 cooperates with PAK1-3 to regulate morphological differentiation of embryonic cortical neurons.The molecular genetics of avian sex determination and its manipulation.Developmental imaging: the avian embryo hatches to the challenge.Evolution of a developmental mechanism: Species-specific regulation of the cell cycle and the timing of events during craniofacial osteogenesisTargeting olfactory bulb neurons using combined in vivo electroporation and Gal4-based enhancer trap zebrafish lines.In vivo electroporation of developing mouse retina.Effects of in ovo electroporation on endogenous gene expression: genome-wide analysis.Knockdown of ephrin-A5 expression by 40% does not affect motor axon growth or migration into the chick hindlimb.Hoxa-11 and Hoxa-13 are involved in repression of MyoD during limb muscle development.Efficient ectopic gene expression targeting chick mesoderm.Extracellular Engrailed participates in the topographic guidance of retinal axons in vivo.RNA-Seq analysis of differential gene expression in electroporated chick embryonic spinal cord.Chicken protocadherin-1 functions to localize neural crest cells to the dorsal root ganglia during PNS formation.Electroporation: an arsenal of application.Bone morphogenetic proteins regulate hinge point formation during neural tube closure by dynamic modulation of apicobasal polarity.Bone morphogenetic proteins regulate neural tube closure by interacting with the apicobasal polarity pathway.Matrix metalloproteinase (MMP) 9 transcription in mouse brain induced by fear learning.Avians as a model system of vascular development.
P2860
Q21092419-0F78AE86-52F3-4140-B2DC-62A0815E777CQ21203082-14CF2DC8-B011-4A44-9241-E2BBF395EB4FQ24816066-5C34BBBE-A0D9-4ECA-B30A-CA313542FDC2Q27010230-04F55EC3-5556-4D38-A3FB-309F2BF65950Q27302107-027CAD75-584B-4741-8581-FC300C148D06Q28507190-7E1F94C2-ED0B-4B60-B59E-2B731AACB979Q28766660-C23EC4E7-1801-4BF5-AA91-D21982F516EFQ30497143-6F815BE8-7E38-4404-8E61-063B4D583C54Q33289649-B9DA375A-1B6F-408E-999E-6D69E7EAC068Q33811969-797D31D7-F17B-4B95-87B7-07B091A947C7Q33864204-4A35E8CF-DF6D-40C4-BC94-2F7D96B23F0AQ34026421-4A295FC2-840F-4E22-AB86-C4C655598D34Q34126957-F648A8DC-9C8C-404F-A6A9-D5D4B5368F61Q34443631-4B5B153A-1152-4875-B7BF-0EB8120EED58Q35077409-17A76A32-1D42-42C2-B0E9-CA71F6A93F5CQ35120935-FEC37974-845B-402A-9EB4-5B17B0E3A4CFQ35574098-349167C8-293B-4E9D-8DC1-57B273274707Q36220438-848954DF-E71C-40DA-887A-C3AF65F354A8Q36569955-97797E08-8054-4A7E-AFA3-A75FAE13B488Q37331657-30BD3C49-49A8-4896-8CE5-D7762A596DC6Q37371572-9E19191C-1514-4FF7-BFCC-33B49084EA51Q37441314-02EDE7DF-5716-4283-8E20-3437DC6210D8Q37468709-36C32516-96A8-479F-A443-7F3CD1EDC1DFQ38083053-C4B5EAC6-D4BD-4C5F-A566-24FA82D5150BQ38125141-8F649241-1722-4474-A5F9-2E651FEAD7BBQ38269975-1CAC24AE-B7C0-4B02-A00B-51513CF5C499Q38332470-4B84355E-3538-4E49-A69B-AD85EF6E3632Q38758446-9F9CA6FE-E1BC-4C9B-B86E-7A0EC2C58462Q39756221-AD0BBAD2-9611-40E6-AC4E-16E19EF5A5F5Q40360107-1E3C7993-F03F-4F30-9D80-B428CE44B56FQ40602362-3C74F724-FFF0-43E4-8BBA-7C82642C557CQ40718999-23DA1887-011F-4C3E-B659-D94D26DEDD2DQ41848170-87CD59EE-C125-4596-8D31-721391FABD90Q41918164-6A1E4C26-B6F5-4172-B5AA-B235BFC0B8ABQ42005193-53C6E970-43AE-4B93-BF7A-9711907C5432Q42145586-C8D5EB1C-E592-40DB-B20E-6148E47D1CE8Q42422077-D5075474-AE5D-48F2-A940-D59447676609Q42491392-18AD20B8-EF48-4895-BA6F-D308EA110EB2Q42577559-B4428BB4-65CB-49AF-8DF8-C047A21BD8D0Q42586277-7F23DF5A-CDC8-40B6-9615-E46ACD2DB498
P2860
Sparking new frontiers: using in vivo electroporation for genetic manipulations.
description
2001 nî lūn-bûn
@nan
2001 թուականի Մայիսին հրատարակուած գիտական յօդուած
@hyw
2001 թվականի մայիսին հրատարակված գիտական հոդված
@hy
2001年の論文
@ja
2001年論文
@yue
2001年論文
@zh-hant
2001年論文
@zh-hk
2001年論文
@zh-mo
2001年論文
@zh-tw
2001年论文
@wuu
name
Sparking new frontiers: using in vivo electroporation for genetic manipulations.
@ast
Sparking new frontiers: using in vivo electroporation for genetic manipulations.
@en
Sparking new frontiers: using in vivo electroporation for genetic manipulations.
@nl
type
label
Sparking new frontiers: using in vivo electroporation for genetic manipulations.
@ast
Sparking new frontiers: using in vivo electroporation for genetic manipulations.
@en
Sparking new frontiers: using in vivo electroporation for genetic manipulations.
@nl
prefLabel
Sparking new frontiers: using in vivo electroporation for genetic manipulations.
@ast
Sparking new frontiers: using in vivo electroporation for genetic manipulations.
@en
Sparking new frontiers: using in vivo electroporation for genetic manipulations.
@nl
P2093
P356
P1476
Sparking new frontiers: using in vivo electroporation for genetic manipulations.
@en
P2093
P356
10.1006/DBIO.2001.0181
P407
P577
2001-05-01T00:00:00Z