DOCSLIB.ORG
Explore
Sign Up
Log In
Upload
Search
Home
» Tags
» Guanylyltransferase
Guanylyltransferase
Mrna Vaccine Era—Mechanisms, Drug Platform and Clinical Prospection
Yeast Genome Gazetteer P35-65
Genome-Scale Fitness Profile of Caulobacter Crescentus Grown in Natural Freshwater
Differences in the Formation Mechanism of Giant Colonies in Two Phaeocystis Globosa Strains
The Role of the Salvage Pathway in Nucleotide Sugar Biosynthesis
Supplementary Information
Download This Article PDF Format
Structure of the Guanylyltransferase Domain of Human Mrna Capping Enzyme
GDP-Mannose Pyrophosphorylase Is a Genetic Determinant of Ammonium Sensitivity in Arabidopsis Thaliana
Structural Studies of Three Enzymes: Telomerase, the Methyltransferase Cobj and Pectate Lyase
The Metabolic Building Blocks of a Minimal Cell Supplementary
The Flavivirus NS5 Protein Is a True RNA Guanylyltransferase That Catalyzes a Two-Step Reaction to Form the RNA Cap Structure
O O2 Enzymes Available from Sigma Enzymes Available from Sigma
Bioprospecting for Microorganisms and Enzymes with Biorefining Potential
Identification of the Guanylyltransferase Region and Active Site in Reovirus Mrna Capping Protein Λ2
Regulation of RNA Stability by Terminal Nucleotidyltransferases
Reaction Mechanism of Mrna Guanylyltransferase from Rat Liver
Mechanistic Insights Into a Reverse Polymerase
Top View
39-To-59 Polymerization by the Thg1 Superfamily
5 -Capping Enzymes Are Targeted to Pre-Mrna by Binding to The
MEMORIAL SLOAN-KETTERING CANCER CENTER Curriculum
Hydrogen-Bonding Residues at the Asymmetric Dimer Site of Trnahis Guanylyltransferase and Their Contributions to Oligomeric State and Activity
Supplementary Figure
Curriculum Vitae Stewart Shuman, MD, Ph.D. Address
Characterization of a Mimivirus RNA Cap Guanine-N2 Methyltransferase
Regulation of Mrna Cap Methylation Victoria H
Row Labels Gene Name GLU 1 GLU 2 GLU 3 RF 1 RF 2 RF 3
Springer Handbook of Enzymes
Are Shown B Gene Numbera
Diphosphate-L-Fucose Production in Recombinant Escherichia Coli
In Vitro Transcription (IVT) Enzyme Technical Guide
Identification of Guanylyltransferase Activity in the SARS-Cov-2 RNA Polymerase
Structure-Guided Mutational Analysis of T4 RNA Ligase 1
Characterization of an ATP-Dependent DNA Ligase Encoded by Chlorella Virus PBCV-1
The Messenger RNA Decapping and Recapping Pathway in Trypanosoma
Trna Guanylyltransferase from Saccharomyces Structure Relies on Residues −1 and 73 but Is Dependent on the RNA Context
Telomerase, the Methyltransferase Cobj and Pectate Lyase To, Teng Teng
RNA Ligase Rtcb Splices 3′-Phosphate and 5′-OH Ends Via Covalent Rtcb-(Histidinyl)-GMP and Polynucleotide-(3′)Pp(5′)G Intermediates
Trna Guanylyltransferase Catalyzes a 3 -5 Polymerization Reaction That Is
Structural Insights Into RNA Recognition by the Chikungunya Virus Nsp2 Helicase
Arabidopsis Cyt1 Mutants Are Deficient in a Mannose-1-Phosphate Guanylyltransferase and Point to a Requirement of N-Linked Glycosylation for Cellulose Biosynthesis
From Methanocaldococcus Jannaschii: Insights Into GTP Binding and Dimerization, † ‡ ‡ † Sean A
Progressive Rearrangement of Telomeric Sequences Added to Both the ITR Ends of the Yeast Linear Pgkl Plasmid
Generate Metabolic Map Poster
The Role of 3 to 5 Reverse RNA Polymerization in Trna Fidelity and Repair
Appendix 1. Minimum Clusters of Orthologous Groups (COG) in the LUCA Genome Group No
Comparative Transcriptome Analysis Reveals That Lactose Acts As an Inducer and Provides Proper Carbon Sources for Enhancing Exopolysaccharide Yield in the Deep-Sea Bacterium