- Home
- » Tags
- » Repressor LexA
Top View
- DNA Damage Responses in Prokaryotes: Regulating Gene Expression, Modulating Growth Patterns, and Manipulating Replication Forks
- Genome Insights of the Plant-Growth Promoting Bacterium Cronobacter Muytjensii JZ38 with Volatile-Mediated Antagonistic Activity Against Phytophthora Infestans
- Imaging Lexa Degradation in Cells Explains Regulatory Mechanisms and Heterogeneity of the SOS Response
- INFORMATION to USERS the Quality of This Reproduction Is
- Structural and Functional Dynamics of Staphylococcus Aureus Biofilms
- Chapter 773 Umud and Umud
- Helper Phage Capsid Size Redirection by Staphylococcal Pathogenicity Island Sapi1 Involves Internal Scaffolding Proteins
- UC Santa Barbara UC Santa Barbara Electronic Theses and Dissertations
- Bacteriophage 434 Hex Protein Prevents Reca-Mediated Repressor Autocleavage
- Design and Characterization of Lexa Dimer Interface Mutants
- Evolució Del Motiu D'unió Dela Proteïna
- Genes Regulated by the Escherichia Coli SOS Repressor Lexa Exhibit Heterogenous Expression Simona Kamenšek1, Zdravko Podlesek1, Osnat Gillor2, Darja Žgur-Bertok1*
- (12) United States Patent (10) Patent No.: US 9,394,571 B2 Ramseier Et Al
- UV Induction of Coliphage 186: Prophage Induction As an SOS Function (Lexa/SOS Rose/Noiducbe Cophas/Anrepror) IAIN LAMONT*, ANTHONY M
- Spatial and Temporal Organization of Reca in the Escherichia Coli
- Combating Drug Resistance by Targeting Lexa, a Regulator of Bacterial Evolution
- Luciane Schons Da Fonseca
- Mutant Lexa Proteins with Specific Defects in Autodigestion (Self-Processing Reactions/Lexa Repressor/Specific Cleavage/Proteolysis/Reca-Mediated Cleavage) DONALD P
- Global Expression Analysis of Deinococcus Radiodurans' Response to Ionizing Radiation: Irre Is a Novel Regulator of This Response Ashlee M
- Identification of Accessory Subunits That Interact with the Sensory Neurone-Specific Sodium Channel, SNS (Nayl.8)
- Spatial and Temporal Organization of Reca in the Escherichia Coli 2 DNA-Damage Response
- The Structure and Mechanism of Bacterial Type I Signal Peptidases a Novel Antibiotic Target Mark Paetzela, Ross E
- The Kinetic and Molecular Basis for the Interaction of Lexa and Activated Reca Revealed by a Fluorescent Amino Acid Probe
- Orientation of the Lexa DNA-Binding Motif on Operator DNA As Inferred
- Studies of Nε-Lysine Acetylation Modification on Escherichia Coli Topoisomerase I Qingxuan Zhou Florida International University, [email protected]
- Metagenomic Investigation of Dehalococcoidia Used for Bioremediation of Groundwater and Soil Contaminated with Chlorinated Ethenes and Ethanes
- Medical Glossary
- Handbook of Proteolytic Enzymes Second Edition Volume 2 Cysteine, Serine and Threonine Peptidase S
- Development of a Fluorescent Repressor Operator System (FROS) Based on Lexa for DNA Labeling in Live Cells
- The Lexa Regulated Genes of the Clostridium Difficile. BMC Microbiology 2014 14:88
- Spatial and Temporal Organization of Reca in the Escherichia Coli DNA-Damage Response Harshad Ghodke University of Wollongong, [email protected]
- Bioinformatic Mapping of a More Precise Aspergillus Niger Degradome Zixing Dong1,4*, Shuangshuang Yang2,4 & Byong H
- Bold Indicates Differences in Gene Content
- Spatial and Temporal Organization of Reca in the Escherichia Coli