about
A Perspective on Hypericum perforatum Genetic TransformationPlants as Factories for Human Pharmaceuticals: Applications and ChallengesGrand challenges in space synthetic biologyWhen plant virology met Agrobacterium: the rise of the deconstructed clonesIdentification of a Novel (-)-5-Epieremophilene Synthase from Salvia miltiorrhiza via Transcriptome MiningOnce for All: A Novel Robust System for Co-expression of Multiple Chimeric Fluorescent Fusion Proteins in Plants.Functional characterization and reconstitution of ABA signaling components using transient gene expression in rice protoplastsRewiring carotenoid biosynthesis in plants using a viral vector.Nattokinase: An Oral Antithrombotic Agent for the Prevention of Cardiovascular Disease.Recent developments in therapeutic protein expression technologies in plants.Non-canonical Translation in Plant RNA Viruses.Synthetic biology for production of natural and new-to-nature terpenoids in photosynthetic organisms.Synthetic plant virology for nanobiotechnology and nanomedicineAdvances in methods for identification and characterization of plant transporter function.Reconceptualizing cancer immunotherapy based on plant production systems.A potyvirus vector efficiently targets recombinant proteins to chloroplasts, mitochondria and nuclei in plant cells when expressed at the amino terminus of the polyprotein.Unearthing a sesterterpene biosynthetic repertoire in the Brassicaceae through genome mining reveals convergent evolutionAssembly and Purification of Polyomavirus-Like Particles from Plants.Modulating secretory pathway pH by proton channel co-expression can increase recombinant protein stability in plants.Genetic engineering approach using early Vinca alkaloid biosynthesis genes led to increased tryptamine and terpenoid indole alkaloids biosynthesis in differentiating cultures of Catharanthus roseus.Diverged Plant Terpene Synthases Reroute the Carbocation Cyclization Path towards the Formation of Unprecedented 6/11/5 and 6/6/7/5 Sesterterpene Scaffolds.Repurposing Plant Virus Nanoparticles.PLANT BIOCHEMISTRY. Fighting cancer while saving the mayapple.A conditional silencing suppression system for transient expression.
P2860
Q26742151-526908A0-E519-4B0C-A681-01DD46CB9F93Q26775069-017A764C-9B0B-49A2-80EA-BDEB6672F46FQ26775307-6E22991F-C1DA-4665-B2DF-767D74483E66Q28083891-28DDDC5D-49B9-424C-AAE5-B523A7712C3AQ33601330-54B4AC9B-9938-4F35-9789-C165FF57C1C5Q33813190-0527835E-BBB5-414C-ABB7-C37FEB6B9851Q35916198-A1369DBC-98E0-41A0-89C0-29A3069DBEC2Q37615352-A770D681-8155-48B9-A847-6A82B7985BC2Q37729075-9771466E-803B-43BB-86F6-C86B3FBABEE7Q38261152-0B7B7CF1-4032-4E01-B85D-7FE0A41C84BAQ38692480-42D58590-5813-4D80-BF04-60DE3E7CCB15Q38729831-8C199D59-2EFE-43BA-937E-30D303C3B2C1Q39081725-5D7C50D8-9C4A-46E8-B8A6-D7985A94AB0FQ39284049-E907CBDD-93EF-4B38-AF5B-69FE07B305C4Q40051873-39AE6DCC-3846-4129-9972-A1BCE656095EQ41120942-E2A537E7-F526-478D-8765-26FE2A9E1222Q41148213-D5900DCC-612C-4AA5-9F11-E7ABB4458384Q41582566-9F58AAC3-2E3F-45C5-ADCB-62B998DC0D1CQ42145689-E102A05A-BDBE-4B5D-9FF1-F646EA719FA4Q43167607-066AAC18-DD34-4B74-A05D-912C56020630Q46428354-9B611AC0-BBB9-438E-AEE2-83BF4423D048Q50002181-B9926E28-B0BC-4020-BA5E-4CFFF0E5C3B8Q51723602-79EA7B7B-36E8-40E5-928D-0D7D947F95B0Q55301970-5AD0CF1D-4D27-4A9F-89B8-09F9D9C98735
P2860
description
2014 nî lūn-bûn
@nan
2014 թուականի Մարտին հրատարակուած գիտական յօդուած
@hyw
2014 թվականի մարտին հրատարակված գիտական հոդված
@hy
2014年の論文
@ja
2014年論文
@yue
2014年論文
@zh-hant
2014年論文
@zh-hk
2014年論文
@zh-mo
2014年論文
@zh-tw
2014年论文
@wuu
name
Transient expressions of synthetic biology in plants
@ast
Transient expressions of synthetic biology in plants
@en
type
label
Transient expressions of synthetic biology in plants
@ast
Transient expressions of synthetic biology in plants
@en
prefLabel
Transient expressions of synthetic biology in plants
@ast
Transient expressions of synthetic biology in plants
@en
P2860
P1476
Transient expressions of synthetic biology in plants
@en
P2093
George P Lomonossoff
P2860
P356
10.1016/J.PBI.2014.02.003
P577
2014-03-12T00:00:00Z