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- From Structure to Mechanism—Understanding Initiation of DNA Replication
- Cell Cycle Arrest Through Indirect Transcriptional Repression by P53: I Have a DREAM
- Phosphorylation of MCM4 by Cdc2 Protein Kinase Inhibits the Activity of the Minichromosome Maintenance Complex (DNA Replication/Cell Cycle/Protein Kinases/Xenopus)
- Transcriptomic Analysis of Granulosa Cell Populations Proximal and Distal
- Transcriptome Analysis of Caco-2 Cells Upon the Exposure of Mycotoxin Deoxynivalenol and Its Acetylated Derivatives
- Supplementary Figure S3
- Expression and Prognostic Value of MCM Family Genes in Osteosarcoma
- Mechanisms Governing DDK Regulation of the Initiation of DNA Replication
- Immunology Exome
- Figure S1. Apoptosis and Cell Cycle Analyses in Acute Myeloid Leukemia Lines Under Pulsed Kevetrin Treatment
- A Conserved Mcm4 Motif Is Required for Mcm2-7 Double-Hexamer
- S41598-021-92552-X.Pdf
- Chronic Mcm10 Deficiency Causes Defects in Telomere Maintenance in Human
- Structural Basis of MCM2-7 Replicative Helicase Loading by ORC-Cdc6 And
- Heterogeneity in Combined Immunodeficiencies with Associated Or Syndromic Features (Review)
- The Extensive Proliferation of Human Cancer Cells with Ever-Shorter
- Novel Insights Into the Molecular Mechanisms Underlying Risk Of
- G Protein-Coupled Receptor Systems As Crucial Regulators of DNA Damage
- Isolation of the Cdc45 Mcm2–7 GINS (CMG) Complex, a Candidate for The
- Transcriptional Changes of DNA Replication and Repair Factors
- Microarray Based Gene Expression Profiling of Advanced Gall Bladder Cancer A
- MCM4 Antibody A
- CDK-Dependent Complex Formation Between Replication Proteins Dpb11, Sld2, Pol E, and GINS in Budding Yeast
- Cryo-EM Structure of Mcm2-7 Double Hexamer on DNA Suggests A
- Molecular Signature of Small Cell Lung Cancer After Treatment Failure: the MCM Complex As Therapeutic Target
- RNA Helicases As Shadow Modulators of Cell Cycle Progression
- Cyclin A2 Antibody (R31999)
- Multitude Effects of MCM4 Mutation
- Examining Transcriptional Changes to DNA Replication and Repair Factors Over Uveal Melanoma Subtypes Melanie Kucherlapati1,2
- Rorα Binds to E2F1 to Inhibit Cell Proliferation and Regulate Mammary Gland Branching Morphogenesis Gaofeng Xiong University of Kentucky, [email protected]
- Structural Basis of Mcm2–7 Replicative Helicase Loading by ORC–Cdc6 and Cdt1
- The Human Telomeric Proteome During Telomere Replication
- Anti-Cyclin A2/CCNA2 Antibody
- Conservation and Divergence of DNA Replication Control in Chlamydomonas Reinhardtii
- Gene Set Enrichment Analysis and Meta‑Analysis Identified 12 Key Genes Regulating and Controlling the Prognosis of Lung Adenocarcinoma
- Partial MCM4 Deficiency in Patients with Growth Retardation, Adrenal
- The Regulation and Functions of DNA and RNA G-Quadruplexes
- The Role of Telomeres and Telomerase During Zebrafish Heart Regeneration
- The Role of Rif1 in Telomere Length Regulation Is Separable from Its Role in Origin Firing Calla B Shubin1,2, Carol W Greider1*
- Eukaryotic Replication
- In Silico Study for Decoding the Correlated Role of MCM7 Gene in Progression of Breast Cancer and Alzheimer’S Disorder
- Effect of the Natural Compound Trans‑Resveratrol on Human MCM4 Gene Transcription
- The Genetic Association Between Type 2 Diabetic and Hepatocellular Carcinomas
- (Muse) Cells Are a Primary Source of Induced Pluripotent Stem Cells in Human fibroblasts
- Role of MCM2–7 Protein Phosphorylation in Human Cancer Cells Liangru Fei and Hongtao Xu*
- Replicating Sequences (Minchromosome Instability/Cell Cyle-Dependent Nuclear Lctlon/Protein Family Involved in DNA Replication) YANRU CHEN*, KEVIN M
- Phosphorylation of MCM4 by Cdc2 Protein Kinase Inhibits the Activity of the Minichromosome Maintenance Complex (DNA Replication/Cell Cycle/Protein Kinases/Xenopus)
- Rif1 Controls DNA Replication by Directing Protein Phosphatase 1 to Reverse Cdc7- Mediated Phosphorylation of the MCM Complex
- Human NK Cell Deficiency As a Result of Biallelic Mutations in MCM10
- 2006231117.Full.Pdf
- Transformation-Induced Stress at Telomeres Is Counteracted Through Changes in the Telomeric Proteome Including SAMHD1