Cell Division - Covers the control of normal cell division and the defects seen in cancer cells. Learn How The Coronavirus and COVID-19 Impacts Cancer Patients. The changes that make normal cells turn into cancer cells are described. Tumor-Host Interactions - There are many interactions between different cells in a tumor. All rights reserved. Metastasis - The majority of cancer deaths are caused by spread of the disease from its orginal location. Learn about that process here. Causes of Cancer - Includes details about the causes of cancer, including chemicals, radiation and viruses. To understand how cancer develops and progresses, researchers first need to investigate the biological differences between normal cells and cancer cells. The Cancer Biology portion of the site contains in-depth information about the structure and function of normal cells and cancer cells. The Cancer Biology portion of the site contains  in-depth information about the structure and function of normal cells and cancer cells. Cell Structure - Discusses the functional parts of cells called organelles. The Cell Cycle - A look at the clock-like flow that cells go through when they are growing and dividing.

Copyright ©2020 Emory University. Because of the important role of immune cells in preventing and possibly contributing to cancer, as well as the use of immune cells and products in treating cancer, the subject is treated here in detail. Gene Function - Discusses the way genetic information is  used in cells.

Cancer Metabolism - All cells need energy and oxygen to survive.

Topics covered include: Biological Building Blocks - Information on the molecules that are found in living things. Cancer Genes - Describes the types of genes (oncogenes and tumor suppressors) that are altered in cancer. Cancer Epigenetics - Changes in DNA can be subtle, but have huge impacts on the way cells behave. Cancer in Wild Animals - For millions of years, wild animals have been getting cancer, including some strange ones that get spread when animals bite each other or mate. Cancer cells need a lot of energy to reproduce. Microbiome - We are covered with (and full of) tiny organisms that influence our health for the better or worse. Cancer Development - Cancer progresses in a stepwise manner, often taking years to become detectable. Identification and transcriptional regulation of the mir-218-1 alternative promoter, GNS561, a clinical-stage PPT1 inhibitor, has powerful antitumor activity against hepatocellular carcinoma via modulation of lysosomal functions, The DNA methylation landscape of multiple myeloma shows extensive inter- and intrapatient heterogeneity that fuels transcriptomic variability, The CXCL12gamma chemokine immobilized by heparan sulfate on stromal niche cells controls adhesion and mediates drug resistance in multiple myeloma, Single-cell landscape of bone marrow metastases in human neuroblastoma unraveled by deep multiplex imaging, Protein arginine methyltransferase 5 promotes metastasis via enhancing EGFR transcription and modulating AKT1 activation by methylation, PD-L1 lncRNA splice promotes lung adenocarcinoma progression via enhancing c-Myc activity, Intravital Deep-Tumor Single-Beam 2-, 3- and 4-Photon Microscopy, Cell intrinsic signaling in MEN1 mutant pancreatic neuroendocrine tumors unveils novel signaling pathways associated with de-differentiation, Insertional mutagenesis defines drivers and evolutionary relationships in pancreatic cancer metastasis. The death of cancer cells is a key step in stopping growth, and it happens in a very orderly-fashion. Often, cancer cells don't get their energy the same way normal cells do, and this can impact their growth and their response to cancer treatments. The Immune System - The immune system is involved in guarding our bodies from internal and external threats, including cancer. Research on the biology of cancer starts with the simplest of questions: What is—and isn’t—normal? Topics covered include: Biological Building Blocks - Information on the molecules that are found in living things. Mutation - Describes the types and causes of changes to genes (mutations) that can result in cancer. The changes that make normal cells turn into cancer cells are described. Includes discussions of drugs that fight cancer by blocking this critical process. Includes proteins, carbohydrates, lipids and nucleic acids. Learn about how these bacteria influence cancer growth and treatment responses. This section covers the 'how' and 'why' of cancer spread.

Organelles covered include the nucleus, ribosomes, mitochondria and the cytoskeleton. This work focuses on the mechanisms that underlie fundamental processes such as cell growth, the transformation of normal cells to cancer cells, and the …

This section covers some of the key cell types and the ways that they influence the growth of a tumor. Cancer Cell Death (Apoptosis) - Most cancer drugs are designed to kill cancer cells. Contains a section on microRNAs (miRNAs) and their role in cancer. Cancer Biology (4542) Cell Biology (6517) Clinical Trials (138) Developmental Biology (3858) Ecology (6126) Epidemiology (2053) Evolutionary Biology (9055) Genetics (6805) Genomics (8697) Immunology (3819) Microbiology (11045) Molecular Biology (4350) Neuroscience (25143) Paleontology (180) Pathology (703) Pharmacology and Toxicology (1179) Physiology (1728) Plant Biology (3897) … Some key examples are given for each type of gene. Cancer in Domesicated Animals and Pets - Animals other than humans get cancer and this section examines a few types of cancer in dogs and cats. Epigenetics is the study of these small-but-important changes. Also covered are attempts to interefere with the process in cancer patients. Angiogenesis - Animations and text describe how tumors develop a blood supply. Together with its strong partners, the Major "Cancer Biology" plays an active role in shaping the future in cancer research by offering students innovative research-oriented teaching and thus educating the decision makers of tomorrow. Includes proteins, carbohydrates, lipids and nucleic acids. Providing reliable information about cancer biology and treatment. Direct questions and comments to [email protected].