mužný Podporovat Dokud ura3 marker Poštovní směrovací číslo rozprava Maestro
Part:BBa K2407301 - parts.igem.org
Adaptation of the Yeast URA3 Selection System to Gram-Negative Bacteria and Generation of a ΔbetCDE Pseudomonas putida Strain | Applied and Environmental Microbiology
Optimization of the URA-blaster disruption system in Candida guilliermondii: Efficient gene targeting using the URA3 marker - ScienceDirect
PDF] A Method for Gene Disruption That Allows Repeated Use of URA3 Selection in the Construction of Multiply Disrupted Yeast Strains | Semantic Scholar
Schematic representation of the protein-tagging via the URA3 gene... | Download Scientific Diagram
Outline and characterization of experimental system a, Scheme showing... | Download Scientific Diagram
pRS416
Recycling of a selectable marker with a self-excisable plasmid in Pichia pastoris | Scientific Reports
Bacterial one-hybrid system - Wikipedia
Addgene: M2660 ura3::LYS2 Disruptor Converter
Gateway Vectors for Efficient Artificial Gene Assembly In Vitro and Expression in Yeast Saccharomyces cerevisiae | PLOS ONE
BI216 EXAM 4 Flashcards | Quizlet
Counter-selectable marker for bacterial-based interaction trap systems | BioTechniques
Part:BBa K2407301 - parts.igem.org
Addgene: M4758 KanMX::URA3 Disruptor Converter
Molecular biology Transformation: introduction of DNA – Selectable marker – Spheroplasts, Li 2+ salts, electroporation Yeast plasmids are shuttle plasmids, - ppt download
Fig. 3. | Microbiology Society
Removing auto-activators from yeast-two-hybrid assays by conditional negative selection | Scientific Reports
A new strategy for seamless gene editing and marker recycling in Saccharomyces cerevisiae using lethal effect of Cwp1 - Hu - 2019 - MicrobiologyOpen - Wiley Online Library
A general cloning system to selectively isolate any eukaryotic or prokaryotic genomic region in yeast | BMC Genomics | Full Text
Marker-disruptive gene integration and URA3 recycling for multiple gene manipulation in Saccharomyces cerevisiae | SpringerLink
PDF] System of centromeric, episomal, and integrative vectors based on drug resistance markers for Saccharomyces cerevisiae. | Semantic Scholar
A new strategy for seamless gene editing and marker recycling in Saccharomyces cerevisiae using lethal effect of Cwp1 - Hu - 2019 - MicrobiologyOpen - Wiley Online Library
Quick and easy CRISPR engineering in Saccharomyces cerevisiae