The Quest to Understand the Basis and Mechanisms that Control Expression of Introduced Transgenes in Crop Plants.
about
Epigenetic silencing in transgenic plantsSeedUSoon: A New Software Program to Improve Seed Stock Management and Plant Line Exchanges between Research LaboratoriesIntroduction of the rd29A:AtDREB2A CA gene into soybean (Glycine max L. Merril) and its molecular characterization in leaves and roots during dehydration.Insights into the regenerative property of plant cells and their receptivity to transgenesis: wheat as a research case study.Combinatorial genetic transformation generates a library of metabolic phenotypes for the carotenoid pathway in maize.Novel Chitinase Gene LOC_Os11g47510 from Indica Rice Tetep Provides Enhanced Resistance against Sheath Blight Pathogen Rhizoctonia solani in Rice.Cost-effective production of a vaginal protein microbicide to prevent HIV transmission.Functional analysis of three BrMYB28 transcription factors controlling the biosynthesis of glucosinolates in Brassica rapa.Reference genes for accurate gene expression analyses across different tissues, developmental stages and genotypes in rice for drought tolerance.Recombinant plant-derived pharmaceutical proteins: current technical and economic bottlenecks.Molecular and functional characterization of cry1Ac transgenic pea lines.The Mammalian Peptide Adrenomedullin Acts as a Growth Factor in Tobacco Plants.Tailoring tobacco hairy root metabolism for the production of stilbenes.Molecular Analyses of Transgenic Plants.The distribution of cotransformed transgenes in particle bombardment-mediated transformed wheat.Multigene engineering of starch biosynthesis in maize endosperm increases the total starch content and the proportion of amylose.Functional characterization of the recombinant HIV-neutralizing monoclonal antibody 2F5 produced in maize seeds
P2860
Q26781219-30848018-E739-43DF-B82B-B5197CFE8F67Q28818746-C16B4493-EFE5-4F3F-9E84-441C81E046C9Q30392579-01DE3D5B-700C-4FE7-8841-2DB24FBDC8B1Q30394208-8F53DFD3-64DE-4589-8898-5E3FDD03A255Q33384604-B998381C-345C-41D7-BEBA-A3DC355DA955Q33600270-F754752C-A304-484B-8BC0-9E0E40CE9642Q36499053-AB9B14F9-20A2-4EA8-9409-97E9B798BE5CQ36615149-C84D9558-6875-41D3-AECA-483B6B3ECA23Q37104385-423F344A-BE2F-4A87-939D-05DE8053EBE2Q38232409-73A5BD71-2E9F-4A04-9AB6-F3A1BF21DA4EQ38808681-20A7960B-EDB3-4337-B66F-EEDFDC57A6D5Q41848195-5D862929-2519-4073-81AE-402868D2AA02Q47103388-D0737E1E-1692-4230-A28A-1271AC0DCFE2Q50238326-B509698D-8CEB-494C-A5E9-879DE41A17ABQ50559167-58734660-1F25-4F8B-AB3C-B76053565E77Q50933591-52FF850A-1702-46D6-811C-D54D4423D496Q57522803-E5890F54-C317-4123-971D-9C9D9B2FA74E
P2860
The Quest to Understand the Basis and Mechanisms that Control Expression of Introduced Transgenes in Crop Plants.
description
2006 nî lūn-bûn
@nan
2006年の論文
@ja
2006年論文
@yue
2006年論文
@zh-hant
2006年論文
@zh-hk
2006年論文
@zh-mo
2006年論文
@zh-tw
2006年论文
@wuu
2006年论文
@zh
2006年论文
@zh-cn
name
The Quest to Understand the Ba ...... ced Transgenes in Crop Plants.
@en
The Quest to Understand the Ba ...... ced Transgenes in Crop Plants.
@nl
type
label
The Quest to Understand the Ba ...... ced Transgenes in Crop Plants.
@en
The Quest to Understand the Ba ...... ced Transgenes in Crop Plants.
@nl
prefLabel
The Quest to Understand the Ba ...... ced Transgenes in Crop Plants.
@en
The Quest to Understand the Ba ...... ced Transgenes in Crop Plants.
@nl
P2093
P2860
P50
P356
P1476
The Quest to Understand the Ba ...... ced Transgenes in Crop Plants.
@en
P2093
Ajay Kohli
Eva Stoger
Pablo Gonzalez Melendi
P2860
P304
P356
10.4161/PSB.1.4.3195
P577
2006-07-01T00:00:00Z