about
CCM2-CCM3 interaction stabilizes their protein expression and permits endothelial network formationA modular toolset for recombination transgenesis and neurogenetic analysis of DrosophilaParallel in vivo DNA assembly by recombination: experimental demonstration and theoretical approachesKnockin' on pHeaven's door: a fast and reliable high-throughput compatible zero-background cloning procedure.One-step generation of error-prone PCR libraries using Gateway® technology.An asymmetric PCR-based, reliable and rapid single-tube native DNA engineering strategy.Ribosomal binding site switching: an effective strategy for high-throughput cloning constructions.Protein-responsive ribozyme switches in eukaryotic cells.An efficient procedure for marker-free mutagenesis of S. coelicolor by site-specific recombination for secondary metabolite overproduction.A simple and effective method for construction of Escherichia coli strains proficient for genome engineering.Hot Fusion: an efficient method to clone multiple DNA fragments as well as inverted repeats without ligase.Genome Sequencing of Autism-Affected Families Reveals Disruption of Putative Noncoding Regulatory DNA.Tobacco pollen tubes - a fast and easy tool for studying lipid droplet association of plant proteins.A Kelch Domain-Containing F-Box Coding Gene Negatively Regulates Flavonoid Accumulation in Muskmelon.ABI5-binding proteins (AFPs) alter transcription of ABA-induced genes via a variety of interactions with chromatin modifiers.An alternative approach in Gateway(®) cloning when the bacterial antibiotic selection cassettes of the entry clone and destination vector are the same.A versatile zero background T-vector system for gene cloning and functional genomics.Nuclear Localization of Integrin Cytoplasmic Domain-associated Protein-1 (ICAP1) Influences β1 Integrin Activation and Recruits Krev/Interaction Trapped-1 (KRIT1) to the Nucleus.Fuzzy regions in an intrinsically disordered protein impair protein-protein interactions.
P2860
Q28650415-BBBB34C4-7D7F-448B-97EE-D2F26A05FFAEQ28728801-FACF7847-99A7-459E-8755-938EB1E32E30Q30536933-ACDA0319-1E84-4503-90F4-FC6ED7AA2165Q31151104-C41236CE-8E4C-43CE-AE41-3793A4DD1ECFQ34144831-C3B8D28B-1448-4D17-B4D5-117B32251BF0Q34329333-F6660DDF-E704-4948-9E5F-152F65ABFF9EQ34491091-4D7E6D16-AF37-49CB-BF7E-91EC10FE0AAFQ34510072-1FA5B7AC-1745-484A-9E13-55B49C55158CQ34586433-2A6F689F-40E1-45E6-8220-85B23A3A4AEFQ35152640-7FB5C899-5CED-4F54-A078-DB3ABF89D0D5Q35536578-2D1EBEFD-2C95-4BD5-9582-06EE3857DE50Q36473412-67212510-D985-453C-9B27-3366D816621DQ39108691-8BF528EC-4F5C-4342-8CB1-BE35172FB57EQ40551543-169256F1-3C42-430F-A4C5-E341E9E36FE6Q43524175-AEB7767B-E7FE-4AA8-98BB-1505A0CF1626Q45887363-2AB77E02-84A5-4806-AC07-FE025BF21530Q47915310-929A9360-59D8-4ABC-A53E-F53C0DF5DBBCQ48127718-60CAA914-4527-4EEA-B7F3-EFCC9D860843Q50922689-0C881610-FB26-45CA-81B0-CC0B0648A9AE
P2860
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
Rapid one-step recombinational cloning.
@en
type
label
Rapid one-step recombinational cloning.
@en
prefLabel
Rapid one-step recombinational cloning.
@en
P2093
P2860
P356
P1476
Rapid one-step recombinational cloning.
@en
P2093
Brian Hauge
Changlin Fu
Daniel R Wehr
Janice Edwards
P2860
P356
10.1093/NAR/GKN167
P407
P577
2008-04-19T00:00:00Z