Specific gene silencing by artificial MicroRNAs in Physcomitrella patens: an alternative to targeted gene knockouts.
about
A nematode demographics assay in transgenic roots reveals no significant impacts of the Rhg1 locus LRR-Kinase on soybean cyst nematode resistance.Epitope-tagged protein-based artificial miRNA screens for optimized gene silencing in plantsSystem for stable β-estradiol-inducible gene expression in the moss Physcomitrella patens.Stable transformation and reverse genetic analysis of Penium margaritaceum: a platform for studies of charophyte green algae, the immediate ancestors of land plants.Undesired small RNAs originate from an artificial microRNA precursor in transgenic petunia (Petunia hybrida).Modification of Seed Oil Composition in Arabidopsis by Artificial microRNA-Mediated Gene SilencingMoss-made pharmaceuticals: from bench to bedside.Role of RNA interference (RNAi) in the Moss Physcomitrella patens.Sliced microRNA targets and precise loop-first processing of MIR319 hairpins revealed by analysis of the Physcomitrella patens degradome.Functional Roles of microRNAs in Agronomically Important Plants-Potential as Targets for Crop Improvement and Protection.MicroRNAs in the moss Physcomitrella patens.ABA in bryophytes: how a universal growth regulator in life became a plant hormone?MicroRNA-mediated gene regulation: potential applications for plant genetic engineering.Artificial microRNA mediated gene silencing in plants: progress and perspectives.Role of microRNAs in plant drought tolerance.PpASCL, a moss ortholog of anther-specific chalcone synthase-like enzymes, is a hydroxyalkylpyrone synthase involved in an evolutionarily conserved sporopollenin biosynthesis pathway.Engineering viroid resistance.Reduction of EPSP synthase in transgenic wild turnip (Brassica rapa) weed via suppression of aroA.Reduction in carotenoid levels in the marine diatom Phaeodactylum tricornutum by artificial microRNAs targeted against the endogenous phytoene synthase gene.Transient expression of artificial microRNAs targeting Grapevine fanleaf virus and evidence for RNA silencing in grapevine somatic embryos.A Viral Satellite DNA Vector (TYLCCNV) for Functional Analysis of miRNAs and siRNAs in Plants.Efficient and Inducible Use of Artificial MicroRNAs in Marchantia polymorpha.A gene responsible for prolyl-hydroxylation of moss-produced recombinant human erythropoietin.A loop-to-base processing mechanism underlies the biogenesis of plant microRNAs miR319 and miR159.Virus-based microRNA expression for gene functional analysis in plants.Expression of artificial microRNAs in tomato confers efficient and stable virus resistance in a cell-autonomous manner.Multiple artificial microRNAs targeting conserved motifs of the replicase gene confer robust transgenic resistance to negative-sense single-stranded RNA plant virus.Resistance to Wheat streak mosaic virus generated by expression of an artificial polycistronic microRNA in wheat.Artificial microRNA interference targeting AT(1a) receptors in paraventricular nucleus attenuates hypertension in rats.Improved method for constructing plant amiRNA vectors with blue-white screening and MAGIC.Artificial miRNA-mediated down-regulation of two monolignoid biosynthetic genes (C3H and F5H) cause reduction in lignin content in jute.
P2860
Q33597138-056E2B86-0CE3-478A-90F3-9C6D1BF44927Q34398300-469AE759-BF4E-4681-AC68-B1515E09EF10Q35006493-6B0D1BE7-F32B-4A7D-88A9-2B197E2F0510Q35059574-50357E8A-97B6-4926-9CCB-0872E38CFEE6Q35181606-CF174946-96CB-4E74-B68B-098D074B25A5Q36128815-85F123E0-ED4D-40AF-8DFD-5C985DDF9737Q36530505-3F143675-DB1C-4C7B-A7C4-4FFE9E94B563Q36590084-0DABBAD2-F843-4EA0-AEF0-F2769F93319BQ37426596-A127C43E-CF98-497F-BA68-15678D891994Q37714513-7A8F22F1-B50E-493F-947F-F26A4E04D622Q37849651-D8175D47-BF85-4361-BAAB-401B02E2E4A9Q37854520-0C04AE3D-661B-4F14-958C-35199CDEDC23Q38114844-AA2BFAE9-FD42-4ADD-BA7B-7AFA15598D77Q38229285-21DF06B6-015E-4FB2-8BC4-DD8ABBE167A6Q38316312-FE760620-161F-44E2-9CE5-94D3D4D41B03Q38332279-AFB8968C-11D9-4690-A994-19E1A050A1F4Q38352690-B8B42F47-7551-4FE6-AAA8-95ED2051CDE0Q39134671-FADBB2AC-692E-40A6-95F5-DB07F875D245Q39134809-A4C25BC7-4F98-43E1-8E24-E3E6DA10783AQ39639544-2E5AAF6A-4897-4702-BAA3-16B2D5566667Q40323006-DE1733EC-7227-4765-8E5A-97B7A84424D1Q40943054-F0157580-580B-4C27-9D6E-B2F586374097Q42044055-334BE61F-2D5C-41A0-89D4-7D15C8DE9F71Q42958295-51C3B598-AA2E-4DAA-BD25-A0D8741C21ECQ43101031-ABD3DA84-A882-43F8-A155-0BDA3445415AQ44254175-A1523A22-9C90-448D-BA9D-08FC945EC992Q45363201-499BA5C6-75AC-49CA-855B-FD5E28C0CC24Q45363584-FFC2A5BD-4551-4276-8A55-7D3F26D117F1Q45873654-7095712D-B830-48F6-B0B6-2BBD1AF5ABF3Q46384986-6F89E8AD-0AD4-4EEC-BFC0-E4E78408931DQ51691379-0F755E78-06E7-4104-A0FB-1C62BCDEA4E9
P2860
Specific gene silencing by artificial MicroRNAs in Physcomitrella patens: an alternative to targeted gene knockouts.
description
2008 nî lūn-bûn
@nan
2008年の論文
@ja
2008年学术文章
@wuu
2008年学术文章
@zh-cn
2008年学术文章
@zh-hans
2008年学术文章
@zh-my
2008年学术文章
@zh-sg
2008年學術文章
@yue
2008年學術文章
@zh
2008年學術文章
@zh-hant
name
Specific gene silencing by art ...... ve to targeted gene knockouts.
@en
Specific gene silencing by art ...... ve to targeted gene knockouts.
@nl
type
label
Specific gene silencing by art ...... ve to targeted gene knockouts.
@en
Specific gene silencing by art ...... ve to targeted gene knockouts.
@nl
prefLabel
Specific gene silencing by art ...... ve to targeted gene knockouts.
@en
Specific gene silencing by art ...... ve to targeted gene knockouts.
@nl
P2860
P50
P356
P1433
P1476
Specific gene silencing by art ...... ve to targeted gene knockouts.
@en
P2093
Ralf Reski
Wolfgang Frank
P2860
P304
P356
10.1104/PP.108.128025
P407
P577
2008-08-27T00:00:00Z