DOCSLIB.ORG
Explore
Sign Up
Log In
Upload
Search
Home
» Tags
» 4T1
4T1
Visualization of the Tumor Functional Landscape Via Metabolic and Vascular Imaging Received: 3 November 2017 Amy F
Breast Cancer Resource Book Breast Cancer Resource BOOK
Transcriptome Profiling of a TGF-Β-Induced Epithelial-To
Pdf
Molecular Response of 4T1-Induced Mouse Mammary Tumours and Healthy Tissues to Zinc Treatment
Genomic Analysis of a Spontaneous Model of Breast Cancer Metastasis to Bone Reveals a Role for the Extracellular Matrix
Manipulation of Iron Transporter Genes Results in the Suppression of Human and Mouse Mammary Adenocarcinomas
Anti-Inflammatory Signaling by Mammary Tumor Cells Mediates
Melatonin Inhibits Triple-Negative Breast Cancer Progression Through the Lnc049808-FUNDC1 Pathway
Calcitriol in the Presence of Conditioned Media from Metastatic
Phenotypic Heterogeneity of Triple-Negative Breast Cancer Mediated by Epithelial–Mesenchymal Plasticity
Development of Transplantable Mouse Models to Assess the Role of Prolactin Inducible Protein in Breast Tumorigenesis
Tiny Mirnas Play a Big Role in the Treatment of Breast Cancer Metastasis
Pharmacological Activation of Estrogen Receptor Beta Augments
Mapping Cellular Subpopulations Within Triple Negative Breast Cancer Tumors Provides
Mir-200 Enhances Mouse Breast Cancer Cell Colonization to Form Distant Metastases
In Vivo Models in Breast Cancer Research: Progress, Challenges and Future Directions Ingunn Holen1, Valerie Speirs2, Bethny Morrissey2 and Karen Blyth3,*
Genomic Analysis of a Spontaneous Model of Breast Cancer Metastasis to Bone Reveals a Role for the Extracellular Matrix
Top View
Immunomodulation of Breast Cancer Cells for Whole Tumor Vaccination Kristina G
Science Journals
Inhibiting Breast Cancer by Targeting the Thromboxane A2 Pathway
Strategies of Cancer Immunotherapy: Model of Triple Negative Breast Cancer
Mir-200 Can Repress Breast Cancer Metastasis Through ZEB1-Independent but Moesin-Dependent Pathways
Mir-200C Inhibits Breast Cancer Proliferation by Targeting KRAS
Mir-200 Enhances Mouse Breast Cancer Cell Colonization to Form Distant Metastases
Intraductal Adaptation of the 4T1 Mouse Model of Breast Cancer Reveals Effects of the Epithelial Microenvironment on Tumor Progression and Metastasis HUDA I