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Welcome to the online portal for Fred Hutchinson Cancer Research Center's scientific labs and research groups, including programs, projects and studies. Whether you're part of the scientific community or an interested member of the public, browse the links below to explore how our researchers are working toward the Hutchinson Center's mission: elimination of cancer and related diseases as causes of human suffering and death. Check back as we continue to add more sites.

Alphabetical Listing

Alphabetical listing of Center lab and research group websites

Name	Division	Description
Alanna Ruddell	Human Biology
Bai Lab	Basic Sciences
Bedalov Lab	Clinical Research	The Bedalov Lab conducts research to identify drugs that disrupt gene silencing, a process that has been implicated in cancer and other diseases in which genes are inappropriately shut off.
Behavioral Health Research Lab	Public Health Sciences	This group, led by Dr. Jonathan Bricker, focuses on two key questions: (1) Can innovative theory-based behavioral interventions succeed in changing unhealthy behaviors (e.g., smoking)?; (2) Why do people engage in unhealthy behaviors (e.g., smoking)?
Bernstein Lab	Clinical Research	Dr. Irwin D. Bernstein?s research interests include normal and leukemic hematopoietic stem cells, antibody targeted therapies for lymphoma and leukemia, and the biology of acute myeloid leukemia.
Bielas Lab	Public Health Sciences	The Bielas Lab studies the fundamental and clinical implications of nuclear and mitochondrial DNA mutations in the development of cancer and age-related disease. Translational research projects explore the potential utility of these mutations as novel DNA biomarkers for improved disease detection, treatment outcome, survival and quality of life.
Biggins Lab	Basic Sciences	The Biggins Lab uses budding yeast to study chromosome segregation, the process by which chromosomes are distributed to new cells during cell division. Cells with an abnormal number of chromosomes are a hallmark of cancer and many birth defects.
Biomarkers Lab	Public Health Sciences
Bloom Lab	Basic Sciences	The Bloom lab uses a combination of experimental and computational approaches to study the molecular evolution of proteins and viruses. A major goal is to understand the underlying biophysical and immunological constraints that shape influenza evolution.
Boeckh Lab	Vaccine and Infectious Disease	The long-term goal of the Boeckh Research Program is to prevent infectious disease in immunocompromised hosts and reduce the severity of infections that do occur. We focus on herpes viruses (primarily cytomegalovirus), respiratory viruses, and the genetics of susceptibility to infection.
Bolouri Lab	Human Biology	The Bolouri Lab is interested in understanding how gene regulatory interactions control cellular state and identity, particularly during development (e.g. in stem cells). The lab specializes in the development and use of computational systems biology methods to map gene regulatory networks.
Bradley Lab	Basic Sciences	The Bradley Lab uses genomics and molecular genetics to study alternative splicing, the process by which a single gene can give rise to multiple, distinct protein isoforms. Alternative splicing enormously increases the complexity of eukaryotic genomes, and plays important roles in many human diseases.
Breeden Lab	Basic Sciences	The Breeden Lab investigates control of cell division in budding yeast, with a long-term goal of understanding how the commitment to the mitotic cell cycle is regulated in response to environmental and internal cues.
Brent Lab	Basic Sciences	The Brent Lab studies how living cells sense, represent, transmit and act upon information to make decisions about their future states. The lab includes, experimentally, a social science component, in which lab members are encouraged to identify and analyze how their research outcomes and ongoing increases in biological knowledge might impact human affairs.
Buck Lab	Basic Sciences	The Buck lab studies the mechanisms and neural circuits that underlie the sense of smell and pheromone sensing in mammals. They are also interested in aging.
Carlson Group	Public Health Sciences	The Carlson Group uses genetic epidemiology to investigate the genetic risk factors of diseases such as cancer, cardiovascular and neurological disease. The group identifies statistical correlations between variations and disease. The group's molecular biology laboratory is then equipped to assess the molecular mechanisms behind these correlations. Recently, the lab has played a significant role in development of technologies for adaptive immune system profiling, in collaboration with Harlan Robins and Hootie Warren. These tools are being applied to a variety of arenas.
Center for Biological Futures	Basic Sciences
Chen Lab	Public Health Sciences	The Chu Chen Lab is conducting a hospital-based study to discover biomarkers that may improve diagnosis and prognosis of oral cancer. Several other studies focus on the links between genetic and environmental factors and development of, and/or survival from, tobacco-related and hormone-related cancers.
Clurman Lab	Clinical Research	The Clurman Lab studies how cell division is regulated in normal cells, and how abnormal control of cell division leads to cancer. They hope to use these mechanistic insights into tumor formation to develop new cancer treatment strategies.
Computational Biology	Public Health Sciences	Members of the Computational Biology Program use and develop novel computational methods, often in combination with wet-laboratory experiments, to investigate biological mechanisms across a broad range of topics.
Cooper Lab	Basic Sciences	The Cooper Lab investigates proteins involved in the signaling pathways that allow cells to communicate with each other. In particular, they study a protein called Disabled and the Src protein family to better understand how they regulate normal cell behavior and the transformation of normal cells to cancer cells.
Delaney Lab	Clinical Research
Edlefsen Group	Vaccine and Infectious Disease
Eisenman Lab	Basic Sciences	The Eisenman Lab studies how cell proliferation, growth, and differentiation are regulated through the actions of transcriptional networks, and how this regulation is undermined during tumor progression. The lab employs the tools of molecular biology as well as mammalian and Drosophila genetics to study basic mechanisms underlying normal and abnormal cellular functions.
Emerman Lab	Human Biology	The Emerman Lab studies the molecular and evolutionary basis for the replication of HIV and related viruses, with an emphasis on the interaction of these viruses with their host cells. Their goal is to understand what determines resistance or vulnerability to current, past and potential viral diseases.
Etzioni Lab	Public Health Sciences	The Etzioni Lab focuses on statistical methods for prostate-cancer studies, with the goal of improving guidelines for screening and treatment. Etzioni has assessed the likely impact of prostate-specific antigen testing on prostate-cancer incidence and mortality, and developed approaches for evaluating new cancer-screening biomarkers.
Fero Lab	Clinical Research	The Fero Lab studies how cell-cycle regulatory genes, p27 and Rb, control growth of tumors and normal tissues. Using novel mouse models and genomic technologies, they have discovered that cell cycle inhibitors and microRNAs regulate T-cell growth and differentiation, whereas mutations of these genes cooperate in lymphoma development.
Fong Group	Vaccine and Infectious Disease	The Fong Group specializes in using biostatics and computer modeling to investigate complex biological problems, with an emphasis on vaccine development. The group is working together with other Hutchinson Center researchers to evaluate immune responses to HIV vaccines, and to design and analyze HIV vaccine trials.
Fredricks Lab	Vaccine and Infectious Disease
Galloway Lab	Human Biology	The Galloway Lab studies the mechanisms by which human papillomaviruses contribute to cancer, with an emphasis on types most likely to progress to cervical cancer. They work to understand the natural history of genital HPV infections and why only a small subset of women infected with high-risk HPVs develop cancer.
Geballe Lab	Human Biology	The Geballe Lab studies the functions and mechanisms of genes encoded by large DNA viruses, such as cytomegalovirus and vaccinia virus, that act to promote viral growth by blocking host cell defenses.
Gottardo Lab	Vaccine and Infectious Disease	The Gottardo Lab conducts research in computational biology and statistical genomics with applications to high throughput biological assays and immunology.
Gottschling Lab	Basic Sciences	The Gottschling Lab uses budding yeast as a model system to investigate fundamental questions in biology. One of their current areas of research interest is the striking link between increasing age and cancer incidence in humans.
Grandori Lab	Human Biology	The Grandori Lab focuses on exploiting the weaknesses of cancer cells to identify targeted, less toxic cancer therapies. RNA interference (RNAi) combined with high throughput technology enables us to interrogate the human genome for genes that are essential for viability of molecularly defined cancer cells, thus allowing the unbiased identification of these Achilles' heels.
Green Group	Clinical Research
Greenberg Lab	Clinical Research	The Greenberg Lab's guiding research goals are to understand the principles underlying T cell recognition of viruses and cancer cells, to determine why such responses often fail to eliminate the virus or cancer, and to develop cellular and molecular approaches that manipulate the immune system to treat human viral and malignant diseases.
Hahn Lab	Basic Sciences	The Hahn Lab studies the mechanism and regulation of transcription, the process of mRNA synthesis. Transcriptional regulation is one of the key steps controlling cell growth, differentiation and development, and defects cause many human illnesses. Using biochemistry, structural biology and molecular genetics, the lab focuses on the mechanism of the large conserved protein complexes that regulate and promote transcription.
Hanash Lab	Public Health Sciences	The Hanash Lab works to discover trace proteins called "markers" that are released into the blood by diseased tissues. The goal of this research is to develop more effective tests for early detection and diagnosis of lung, breast, colon, ovarian and pancreatic cancers as well as other common diseases.
Hansen Lab	Clinical Research	The Hansen Lab's primary research focus is graft-vs.-host disease (GVHD). Ongoing studies investigate whether monitoring of gene expression correlates with T-cell activation, programmed cell death, severity of GVHD, the patient?s response to primary therapy or treatment failure, and emergence of tolerance.
Heimfeld Lab	Clinical Research	The Heimfeld Lab focuses on the translation of new cell-based therapies from the scientist's bench to the patient's bedside. Areas of research include improvements in specific cell-subset selection, large-scale therapeutic-cell culturing in closed systems, optimized cryopreservation and cell storage.
Henikoff Lab	Basic Sciences	The Henikoff Lab studies the structure, function and evolution of chromosomes. They also develop tools for epigenomics and functional genomics.
Hockenbery Lab	Clinical Research	The Hockenbery lab studies programmed cell death (apoptosis) pathways that are defective in many cancer cells; and the role of cancer-cell metabolism in apoptosis, oncogene functions, and environmental/dietary risk factors, including excess supply of nutrients. After identifying cancer-selective targets, they carry out small-molecule screens for inhibitors to identify lead compounds as anticancer agents.
Hohl Lab	Vaccine and Infectious Disease	The Hohl Lab focuses on the host-pathogen relationship between medically relevant fungi and the vertebrate immune system. Invasive aspergillosis is the most common invasive mold infection worldwide and represents a major cause of infectious morbidity and mortality in patients that receive treatment for leukemia or undergo bone marrow transplantation. Our goal is to develop a detailed understanding of molecular and cellular host defenses against Aspergillus fumigatus in order to develop novel strategies to augment or supplement current antifungal drugs.
Huang Lab	Vaccine and Infectious Disease	The Huang Lab focuses on the evaluation of biomarkers for disease prevention and control. The lab also studies genetic epidemiology, particularly the detection of gene-environment interactions based on genome-wide association studies and the construction of risk prediction models using the genetic regulatory network.
Kemp Lab	Human Biology	The Kemp Lab studies tumor formation in mice to better understand how environmental and genetic factors interact to cause cancer. They also work to develop simple blood tests for early cancer detection by discovering biomarkers, the proteins that signal the earliest traces of disease.
Kiem Lab	Clinical Research	The Kiem Lab studies stem cell biology and stem cell gene transfer with the goal of developing new treatment strategies for patients with genetic and infectious diseases and cancers.
Kooperberg Website	Public Health Sciences
Lampe, P Lab	Public Health Sciences	The Paul Lampe Lab attempts to discover early detection cancer biomarkers and investigates the control of cell growth at the cell biology level. Of particular interest is the role that gap junctions play in the regulation of cell growth and the cell cycle, and the disruption of this relationship during cancer development.
Li Lab	Public Health Sciences	Dr. Li uses a multidisciplinary approach to understand factors related to the causes and patient outcomes of breast cancer. Current projects include identifying new biomarkers that could be used for early detection, evaluating risk factors for different types of breast cancer, determining predictors of poor outcomes among breast cancer survivors, and assessing disparities in cancer stage, treatment and survival by race/ethnicity.
Madeleine Lab	Public Health Sciences	Dr. Madeleine's research focuses primarily on the molecular epidemiology of disease-causing agents, or pathogens, and the immune response to them that may be associated with cancer development and prognosis. Another interest is the role of chronic, undiagnosed immune system dysfunctions (such as those occurring with age, obesity, physical inactivity, hormone use, and UV exposure) in cancer development.
Malik Lab	Basic Sciences	The Malik Lab hunts for rapidly evolving proteins in order to understand how conflicts between genes affect human evolution. Such genetic conflicts can arise between virus and host genes as each fights for survival, but they can affect the function of essential genes, including those implicated in cancer.
Matsen Group	Public Health Sciences
McElrath Lab	Vaccine and Infectious Disease	The McElrath Lab is dedicated to understanding the human immune response mechanisms in HIV infection and resistance in a way that can be translated into the development of an effective HIV vaccine.
McGregor Lab	Public Health Sciences	The McGregor Lab leads the Stress Management and Relaxation Training, or SMART, studies, which focus on understanding the effects of stress management on behavioral and biological factors that are relevant to cancer development, such as diet, exercise, immune function, DNA repair and cellular aging processes.
McIntosh Lab	Public Health Sciences	The McIntosh Lab develops primarily computational approaches for studying proteins and genomes in cancer. Their primary goal is to discover and evaluate diagnostic and early-detection biomarkers in serum, with research projects in ovarian, breast and pancreatic cancer and neurodegenerative diseases.
Miller Lab	Human Biology	The Miller Lab studies the basic biology of viral gene transfer. Their goals include developing gene-therapy treatments for lung diseases and generating induced pluripotent stem cells, which are useful for cell therapy in humans. Another major focus has been the jaagsiekte sheep retrovirus, which may provide insight into human lung cancer.
Moens Lab	Basic Sciences	The Moens Lab uses zebrafish as a model system to study how genes control the early development of the brain in vertebrates. Their work adds to our understanding of the causes of cancer because many of the genes that control embryonic development are the same ones that are wrongly regulated in cancer cells.
Molecular Epidemiology Lab	Public Health Sciences	The Molecular Epidemiology Lab provides investigators working on population-based studies with laboratory-based research expertise through a collaborative scientific relationship. The lab is headed by Dr. Karen W. Makar in the Cancer Prevention Program and supports epidemiological and clinical investigators at FHCRC and their collaborators at other institutions.
Mueller Lab	Public Health Sciences	Dr. Mueller's research focuses on the roles of maternal, gestational, early life factors, and early environmental exposures in the occurrence of childhood cancer and autoimmune diseases. She also studies reproductive history in relation to cancer and cancer survival in women, and reproductive outcomes among male and female childhood cancer survivors.
Neiman Lab	Basic Sciences
Nelson Lab	Clinical Research	The J. Lee Nelson Lab studies microchimerism, a natural state in which cells are exchanged between mother and fetus during pregnancy and can remain in the other individual decades later. They study the role of this phenomenon in autoimmune diseases, pregnancy complications and cancer, as well as its impact on the success of blood stem-cell and organ transplants.
Oehler Lab	Clinical Research
Olsen Lab	Basic Sciences	The Olsen Lab uses a combination of lipid biochemistry and genetics to study membrane maintenance in the nematode, C. elegans. Cellular membranes are affected in many diseases and in natural aging, and our main goal is to define genes that are important for preserving proper membrane composition and function.
Olson Lab	Clinical Research	The Olson Lab studies pediatric brain tumors, brain development and neurodegenerative disorders. The lab has a strong focus on emergent technologies such as "tumor paint," which causes cancer cells to glow with light so that surgeons can see them during an operation.
Othus Lab	Public Health Sciences	Dr. Othus conducts biostatistics research related to clinical trial design, survival analysis, and cure modeling.
Overbaugh Lab	Human Biology
Pagel Lab	Clinical Research	The Pagel lab focuses on the development and improvement of antibody therapies for leukemia and lymphoma, with the goal of decreasing toxic side effects while increasing the treatment's effectiveness. Our projects focus on advancing radioimmunotherapy through a pre-targeted method of delivering radiation to tumor sites.
Parkhurst Lab	Basic Sciences	The Parkhurst Lab studies how genes get turned on and off as fruit-fly embryos develop and how errors in this process can lead to cancer and other diseases. They also investigate wound healing and complex signals involving proteins that can affect a cell's "skeletal" structure.
Paulovich Lab	Clinical Research	The Paulovich Lab works to characterize human variation and to relate this variation to clinically relevant endpoints, such as predicting a patient's risk of cancer and tolerance for treatments. Projects range from studying cellular DNA damage response in yeast and mammalian cells, to developing novel mass spectrometry-based technologies for finding and validating new protein biomarkers to serve as diagnostic tests.
Peichel Lab	Human Biology	The Peichel Lab uses a small fish called the threespine stickleback as a model organism to conduct research aimed at identifying the genetic and molecular mechanisms that underlie evolutionary processes. Research topics include understanding evolution of the fish's behavior and sex chromosomes.
Pepe Lab	Public Health Sciences	The Pepe Lab develops guidelines and software to promote the use of sound statistical methods by scientists who are working to evaluate diagnostic or prognostic medical devices and biomarkers.
Peter Nelson Lab	Human Biology	Dr. Peter Nelson's lab focuses on understanding the molecular, cellular and physiological events that lead to cancer initiation and progression. A particular emphasis involves hormonal carcinogenesis and prostate cancer with the goal of developing new strategies for diagnosis, prognosis and therapy.
Porter Lab	Human Biology	The Porter Lab focuses on identifying and understanding the molecular events in normal and cancer cells that are associated with the initiation and progression of human cancer, with a focus on breast and ano-genital cancers. They also investigate the molecular profiles that distinguish different types of cancer or determine an individual's cancer risk.
Press Lab	Clinical Research	Dr. Press is a pioneer in immunotherapy, a treatment strategy that harnesses the power of the immune system. His lab engineers antibodies that help to destroy cells involved in blood cancers and carry radiation directly to cancer cells. They also genetically modify disease-fighting T-cells to boost their ability to recognize and kill lymphoma cells.
Priess Lab	Basic Sciences	The Priess lab studies how cells coordinate their shape and fate during the development of complex tissues and organs. Most of these studies use the nematode C. elegans as a model organism.
Prlic Lab	Vaccine and Infectious Disease	The Prlic Lab primarily focuses on two populations of the adaptive immune system: CD8 T cells and NK cells. The lab studies these cells in a variety of different in vivo (mouse) and in vitro model systems to gain mechanistic insight and learn how to manipulate these cells for therapeutic purposes.
Radiation and Environmental Exposure Studies	Public Health Sciences	The REES group focuses on identifying risk factors and causes of cancer and other diseases associated with many types of environmental exposures, including radiation, persistent organic pollutants, electromagnetic fields, and factors that disrupt normal circadian rhythm. Projects have focused on breast cancer, thyroid cancer and other thyroid diseases, lymphomas, and myelodysplastic syndrome.
Radich Lab	Clinical Research	The Radich Lab studies the molecular genetics of response, progression and relapse in human leukemia. Research topics include the detection of minimal residual disease, the role of signal transduction abnormalities in leukemia, and the construction of gene-expression profiles of response and progression.
Randolph Lab	Public Health Sciences	The Randolph Program's research focuses on mathematical and statistical methods for high-dimensional, functional and otherwise "non-standard" data including: image-based data, mass spectrometry, various spectroscopies, microbiome and genetic arrays as well as longitudinal data. Projects and collaborations involve studies for discovery and validation of molecular properties and markers of disease.
REACH Group	Public Health Sciences	Dr. Ramsey directs the Research and Economic Assessment in Cancer and Healthcare (REACH) group, which focuses on cutting-edge cost-effectiveness and outcomes research in cancer prevention and treatment. REACH also has experience in designing and performing cost-effectiveness analyses of drugs, devices and interventions, with an eye towards supporting public and private decision making to maximize health value under resource constraints.
Reid Lab	Human Biology
Research Cell Bank	Clinical Research	The Research Cell Bank (RCB) is a qualified, experienced research facility that has been actively engaged in clinical research through B-lymphoblastoid cell (B-LCL) transformation and maintenance, DNA extraction, and inventory control for more than 30 years. The RCB is currently expanding its role as a core repository of reagents and services to better serve the needs of investigators worldwide.
Roberts Lab	Basic Sciences	The Roberts Lab has discovered key proteins that regulate cell division and explored how changes in cell-cycle proteins may inform the treatment of specific cancers. Current research focuses on the development of mouse models of human cancers.
Roth Lab	Basic Sciences	The Roth Lab studies suspended animation and metabolic hibernation as a means to temporarily halt, or "dial down," metabolism. One day such techniques may help to buy time for critically ill patients on organ-transplant lists and in trauma situations.
Salama Lab	Human Biology
Schiffer Group	Vaccine and Infectious Disease	The Schiffer Group aims to gain a better understanding of the quantitative features of human pathogens and immune responses. In close collaboration with colleagues at the Fred Hutchinson Cancer Research Center and the University of Washington, the Group designs mathematical models that capture growth and decay kinetics of infectious organisms. These models attempt to replicate detailed empirical datasets, and in turn are used to inform subsequent human studies and laboratory experiments.
Shimamura Lab	Clinical Research	The Shimamura Lab works to understand the molecular mechanisms contributing to development of blood cells (hematopoiesis) and cancer (tumorigenesis), with the ultimate goal of informing rationally designed therapeutic strategies. Their research focuses particularly on genetic marrow failure syndromes.
Shou Lab	Basic Sciences	The Shou Lab uses experimental biology, mathematics and engineering to study a variety of biological problems. Research interests include how cooperative systems evolve despite threats from "cheaters" that consume benefits without paying a fair cost, and how cells cope with nutrient limitations.
Simon Lab	Clinical Research	The Simon Lab works toward identifying new anticancer drugs through a wide range of experimental techniques and systems, ranging from organic synthesis to genetic screens.
Smith Lab	Basic Sciences	The Smith Lab works to understand how genetic recombination and DNA repair are accomplished, and how they are regulated to occur at the proper place and time. As deviations in this process can result in birth defects and cancers, this work may lend insight into the causes of these diseases and ways of predicting or preventing them.
Spies Lab	Clinical Research	The Spies Lab focuses on experimental studies of the human NKG2D lymphocyte receptor and its ligands, and the mechanisms whereby these proteins stimulate or suppress immune responses against cancer and in autoimmune disease.
Stoddard Lab	Basic Sciences	The Stoddard Lab studies the structure and mechanism of enzymes, the body's catalysts of biological reactions, in order to harness them for use in biotechnology and medicine. The engineering and redesign of certain enzymes could be used in targeted therapies for genetic diseases such as hemophilia and cystic fibrosis.
Strong Lab	Basic Sciences	The Strong Lab analyzes the structure of proteins and protein-receptor complexes that control the immune system's response to disease. Building on the principles learned from these studies, they also participate in a collaborative project to design proteins for a vaccine to prevent AIDS.
Taniguchi Lab	Human Biology	The Taniguchi Lab's long-term research objective is to elucidate molecular mechanism of DNA damage response pathways, such as the Fanconi Anemia-BRCA (FA-BRCA) pathway, and their involvement in carcinogenesis.
Tapscott Lab	Human Biology	The Tapscott Lab studies gene transcription and expression in normal development and disease, with an additional emphasis on rhabdomysarcomas (cancers with characteristics of skeletal muscle) and human muscular dystrophies. Other research areas include gene and cell therapies for muscular dystrophy, and the biology of triplet repeats and their associated diseases.
Tewari Lab	Human Biology	The Tewari Lab draws on perspectives from systems biology and complexity science to address important problems in basic and applied cancer research. More specifically, the lab is investigating microRNAs, which are 22 nt non-protein-encoding RNA molecules that function to repress messenger RNA targets to modulate gene expression networks.
Thompson Studies	Public Health Sciences	Led by Dr. Beti Thompson, this research group works to understand why disparities in cancer incidence and survival rates exist among different populations, especially Latinos. The group also supports efforts to reduce other health disparities, including diabetes and pesticide exposure, in minority communities in the United States and abroad.
Tsukiyama Lab	Basic Sciences	The Tsukiyama Lab studies chromatin, the complex of DNA and proteins that make up our chromosomes, and how chromatin structure controls essential processes that take place on DNA.
Ulrich Lab	Public Health Sciences	The Ulrich Group conducts research related to cancer prevention, prognosis and survivorship, with an emphasis on colorectal cancer. Topics of study include the effects of folate, vitamin D, exercise, diet and genetics on cancer risk, prognosis and treatment outcomes, and biological markers of cancer risk.
Vasioukhin Lab	Human Biology	The Vasioukhin Lab works to better understand how individual cells work together to produce and maintain a normal mammalian organism. The underlying idea is that cancer can occur as a result of breakdowns in the mechanisms that regulate this communication.
Vaughan Group	Public Health Sciences
Wang Program	Public Health Sciences	The Wang Lab focuses on developing statistical and computational methods to address scientific questions based on data from high throughput biology/genetics experiments. The ultimate goal is to enhance our understanding of cell activities and disease initiation/progression to a system level by integrating information from diverse biological sources (genetics/genomics, proteomics, and phenotypes).
Warren Lab	Clinical Research	The Warren Lab studies human antitumor immune responses at the cellular and molecular level in order to learn how these immune responses can be exploited to treat human cancer.

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Lab Name	Division	Description	Keywords	Lab URL
Alanna Ruddell	Human Biology		Alanna Ruddell, Human Biology, Fred Hutchinson Cancer Research Center, FHCRC	ruddell/index.html
Bai Lab	Basic Sciences			bai/index.html
Bedalov Lab	Clinical Research	The Bedalov Lab conducts research to identify drugs that disrupt gene silencing, a process that has been implicated in cancer and other diseases in which genes are inappropriately shut off.		bedalov/index.html
Behavioral Health Research Lab	Public Health Sciences	This group, led by Dr. Jonathan Bricker, focuses on two key questions: (1) Can innovative theory-based behavioral interventions succeed in changing unhealthy behaviors (e.g., smoking)?; (2) Why do people engage in unhealthy behaviors (e.g., smoking)?		behavioral_health/index.html
Bernstein Lab	Clinical Research	Dr. Irwin D. Bernstein?s research interests include normal and leukemic hematopoietic stem cells, antibody targeted therapies for lymphoma and leukemia, and the biology of acute myeloid leukemia.	bernstein, clinical research, fred hutchinson cancer research center, cancer research, acute myeloid leukemia, leukima, lymphoma, irwin bernstein	bernstein/index.html
Bielas Lab	Public Health Sciences	The Bielas Lab studies the fundamental and clinical implications of nuclear and mitochondrial DNA mutations in the development of cancer and age-related disease. Translational research projects explore the potential utility of these mutations as novel DNA biomarkers for improved disease detection, treatment outcome, survival and quality of life.		bielas/index.html
Biggins Lab	Basic Sciences	The Biggins Lab uses budding yeast to study chromosome segregation, the process by which chromosomes are distributed to new cells during cell division. Cells with an abnormal number of chromosomes are a hallmark of cancer and many birth defects.	Biggins, Yeast, Cell cycle, Genetics, Cell biology, Ipl1/aurora protein kinase, CenH3 histone variant, Hutch, Fred Hutchinson, Basic sciences, Cytoskeleton, microtubules, kinetochores	biggins/index.html
Biomarkers Lab	Public Health Sciences		Biomarker Lab, Public Health Sciences, Xiaoling Song	biomarkers_lab/index.html
Bloom Lab	Basic Sciences	The Bloom lab uses a combination of experimental and computational approaches to study the molecular evolution of proteins and viruses. A major goal is to understand the underlying biophysical and immunological constraints that shape influenza evolution.		bloom/index.html
Boeckh Lab	Vaccine and Infectious Disease	The long-term goal of the Boeckh Research Program is to prevent infectious disease in immunocompromised hosts and reduce the severity of infections that do occur. We focus on herpes viruses (primarily cytomegalovirus), respiratory viruses, and the genetics of susceptibility to infection.		boeckh/index.html
Bolouri Lab	Human Biology	The Bolouri Lab is interested in understanding how gene regulatory interactions control cellular state and identity, particularly during development (e.g. in stem cells). The lab specializes in the development and use of computational systems biology methods to map gene regulatory networks.	Hamid Bolouri, Fred Hutchinson, Cancer Research, Seattle	bolouri/index.html
Bradley Lab	Basic Sciences	The Bradley Lab uses genomics and molecular genetics to study alternative splicing, the process by which a single gene can give rise to multiple, distinct protein isoforms. Alternative splicing enormously increases the complexity of eukaryotic genomes, and plays important roles in many human diseases.		bradleyr/index.html
Breeden Lab	Basic Sciences	The Breeden Lab investigates control of cell division in budding yeast, with a long-term goal of understanding how the commitment to the mitotic cell cycle is regulated in response to environmental and internal cues.		breeden/index.html
Brent Lab	Basic Sciences	The Brent Lab studies how living cells sense, represent, transmit and act upon information to make decisions about their future states. The lab includes, experimentally, a social science component, in which lab members are encouraged to identify and analyze how their research outcomes and ongoing increases in biological knowledge might impact human affairs.		brent/index.html
Buck Lab	Basic Sciences	The Buck lab studies the mechanisms and neural circuits that underlie the sense of smell and pheromone sensing in mammals. They are also interested in aging.	Linda Buck, Linda B. Buck, sense of smell, olfactory system, pheromones, aging, Nobel Prize	buck/index.html
Carlson Group	Public Health Sciences	The Carlson Group uses genetic epidemiology to investigate the genetic risk factors of diseases such as cancer, cardiovascular and neurological disease. The group identifies statistical correlations between variations and disease. The group's molecular biology laboratory is then equipped to assess the molecular mechanisms behind these correlations. Recently, the lab has played a significant role in development of technologies for adaptive immune system profiling, in collaboration with Harlan Robins and Hootie Warren. These tools are being applied to a variety of arenas.		carlson/index.html
Center for Biological Futures	Basic Sciences			cbf/index.html
Chen Lab	Public Health Sciences	The Chu Chen Lab is conducting a hospital-based study to discover biomarkers that may improve diagnosis and prognosis of oral cancer. Several other studies focus on the links between genetic and environmental factors and development of, and/or survival from, tobacco-related and hormone-related cancers.		chen/index.html
Clurman Lab	Clinical Research	The Clurman Lab studies how cell division is regulated in normal cells, and how abnormal control of cell division leads to cancer. They hope to use these mechanistic insights into tumor formation to develop new cancer treatment strategies.		clurman/index.html
Computational Biology	Public Health Sciences	Members of the Computational Biology Program use and develop novel computational methods, often in combination with wet-laboratory experiments, to investigate biological mechanisms across a broad range of topics.		compbio/index.html
Cooper Lab	Basic Sciences	The Cooper Lab investigates proteins involved in the signaling pathways that allow cells to communicate with each other. In particular, they study a protein called Disabled and the Src protein family to better understand how they regulate normal cell behavior and the transformation of normal cells to cancer cells.	Cooper, Yeast, Cell cycle, Genetics, Cell biology, Ipl1/aurora protein kinase, CenH3 histone variant, Hutch, Fred Hutchinson, Basic sciences, Cytoskeleton, microtubules, kinetochores	cooper/index.html
Delaney Lab	Clinical Research			delaney/index.html
Edlefsen Group	Vaccine and Infectious Disease			edlefsen/index.html
Eisenman Lab	Basic Sciences	The Eisenman Lab studies how cell proliferation, growth, and differentiation are regulated through the actions of transcriptional networks, and how this regulation is undermined during tumor progression. The lab employs the tools of molecular biology as well as mammalian and Drosophila genetics to study basic mechanisms underlying normal and abnormal cellular functions.		eisenman/index.html
Emerman Lab	Human Biology	The Emerman Lab studies the molecular and evolutionary basis for the replication of HIV and related viruses, with an emphasis on the interaction of these viruses with their host cells. Their goal is to understand what determines resistance or vulnerability to current, past and potential viral diseases.		emerman/index.html
Etzioni Lab	Public Health Sciences	The Etzioni Lab focuses on statistical methods for prostate-cancer studies, with the goal of improving guidelines for screening and treatment. Etzioni has assessed the likely impact of prostate-specific antigen testing on prostate-cancer incidence and mortality, and developed approaches for evaluating new cancer-screening biomarkers.		etzioni/index.html
Fero Lab	Clinical Research	The Fero Lab studies how cell-cycle regulatory genes, p27 and Rb, control growth of tumors and normal tissues. Using novel mouse models and genomic technologies, they have discovered that cell cycle inhibitors and microRNAs regulate T-cell growth and differentiation, whereas mutations of these genes cooperate in lymphoma development.		fero/index.html
Fong Group	Vaccine and Infectious Disease	The Fong Group specializes in using biostatics and computer modeling to investigate complex biological problems, with an emphasis on vaccine development. The group is working together with other Hutchinson Center researchers to evaluate immune responses to HIV vaccines, and to design and analyze HIV vaccine trials.	mixture model, bayesian statistics, luminex, curve fit, protein subfamily, sequence analysis, clustering, inla, Youyi Fong	fong/index.html
Fredricks Lab	Vaccine and Infectious Disease			fredricks/index.html
Galloway Lab	Human Biology	The Galloway Lab studies the mechanisms by which human papillomaviruses contribute to cancer, with an emphasis on types most likely to progress to cervical cancer. They work to understand the natural history of genital HPV infections and why only a small subset of women infected with high-risk HPVs develop cancer.		galloway/index.html
Geballe Lab	Human Biology	The Geballe Lab studies the functions and mechanisms of genes encoded by large DNA viruses, such as cytomegalovirus and vaccinia virus, that act to promote viral growth by blocking host cell defenses.		geballe/index.html
Gottardo Lab	Vaccine and Infectious Disease	The Gottardo Lab conducts research in computational biology and statistical genomics with applications to high throughput biological assays and immunology.		gottardo/index.html
Gottschling Lab	Basic Sciences	The Gottschling Lab uses budding yeast as a model system to investigate fundamental questions in biology. One of their current areas of research interest is the striking link between increasing age and cancer incidence in humans.		gottschling/index.html
Grandori Lab	Human Biology	The Grandori Lab focuses on exploiting the weaknesses of cancer cells to identify targeted, less toxic cancer therapies. RNA interference (RNAi) combined with high throughput technology enables us to interrogate the human genome for genes that are essential for viability of molecularly defined cancer cells, thus allowing the unbiased identification of these Achilles' heels.		grandori/index.html
Green Group	Clinical Research			green/index.html
Greenberg Lab	Clinical Research	The Greenberg Lab's guiding research goals are to understand the principles underlying T cell recognition of viruses and cancer cells, to determine why such responses often fail to eliminate the virus or cancer, and to develop cellular and molecular approaches that manipulate the immune system to treat human viral and malignant diseases.		pgreenberg/index.html
Hahn Lab	Basic Sciences	The Hahn Lab studies the mechanism and regulation of transcription, the process of mRNA synthesis. Transcriptional regulation is one of the key steps controlling cell growth, differentiation and development, and defects cause many human illnesses. Using biochemistry, structural biology and molecular genetics, the lab focuses on the mechanism of the large conserved protein complexes that regulate and promote transcription.	polymerase II, polymerase III, RNA polymerase, TATA binding protein, TBP, TFIID, TFIIA, TFIIB, gene regulation, holoenzyme, biochemistry, genetics, structure, yeast, protein, DNA, mechanism, BRF, TFIIIC, TFIIIB, Zn-ribbon, Steven Hahn, Seattle, Fred Hutchinson, Howard Hughes, cancer, molecular, biology, saccharomyces cerevisiae, graduate study, Washington	hahn/index.html
Hanash Lab	Public Health Sciences	The Hanash Lab works to discover trace proteins called "markers" that are released into the blood by diseased tissues. The goal of this research is to develop more effective tests for early detection and diagnosis of lung, breast, colon, ovarian and pancreatic cancers as well as other common diseases.		hanash/index.html
Hansen Lab	Clinical Research	The Hansen Lab's primary research focus is graft-vs.-host disease (GVHD). Ongoing studies investigate whether monitoring of gene expression correlates with T-cell activation, programmed cell death, severity of GVHD, the patient?s response to primary therapy or treatment failure, and emergence of tolerance.	Hansen, John Hansen, Research Cell Bank, HIP, Transplant, GVHD	hansen/index.html
Heimfeld Lab	Clinical Research	The Heimfeld Lab focuses on the translation of new cell-based therapies from the scientist's bench to the patient's bedside. Areas of research include improvements in specific cell-subset selection, large-scale therapeutic-cell culturing in closed systems, optimized cryopreservation and cell storage.		heimfeld/index.html
Henikoff Lab	Basic Sciences	The Henikoff Lab studies the structure, function and evolution of chromosomes. They also develop tools for epigenomics and functional genomics.		henikoff/index.html
Hockenbery Lab	Clinical Research	The Hockenbery lab studies programmed cell death (apoptosis) pathways that are defective in many cancer cells; and the role of cancer-cell metabolism in apoptosis, oncogene functions, and environmental/dietary risk factors, including excess supply of nutrients. After identifying cancer-selective targets, they carry out small-molecule screens for inhibitors to identify lead compounds as anticancer agents.		hockenbery/index.html
Hohl Lab	Vaccine and Infectious Disease	The Hohl Lab focuses on the host-pathogen relationship between medically relevant fungi and the vertebrate immune system. Invasive aspergillosis is the most common invasive mold infection worldwide and represents a major cause of infectious morbidity and mortality in patients that receive treatment for leukemia or undergo bone marrow transplantation. Our goal is to develop a detailed understanding of molecular and cellular host defenses against Aspergillus fumigatus in order to develop novel strategies to augment or supplement current antifungal drugs.		hohl/index.html
Huang Lab	Vaccine and Infectious Disease	The Huang Lab focuses on the evaluation of biomarkers for disease prevention and control. The lab also studies genetic epidemiology, particularly the detection of gene-environment interactions based on genome-wide association studies and the construction of risk prediction models using the genetic regulatory network.		huang/index.html
Kemp Lab	Human Biology	The Kemp Lab studies tumor formation in mice to better understand how environmental and genetic factors interact to cause cancer. They also work to develop simple blood tests for early cancer detection by discovering biomarkers, the proteins that signal the earliest traces of disease.		kemp/index.html
Kiem Lab	Clinical Research	The Kiem Lab studies stem cell biology and stem cell gene transfer with the goal of developing new treatment strategies for patients with genetic and infectious diseases and cancers.		kiem/index.html
Kooperberg Website	Public Health Sciences		Charles Kooperberg, Fred Hutchinson Cancer Research Center, Public Health Sciences	kooperberg/index.html
Lampe, P Lab	Public Health Sciences	The Paul Lampe Lab attempts to discover early detection cancer biomarkers and investigates the control of cell growth at the cell biology level. Of particular interest is the role that gap junctions play in the regulation of cell growth and the cell cycle, and the disruption of this relationship during cancer development.		lampe/index.html
Li Lab	Public Health Sciences	Dr. Li uses a multidisciplinary approach to understand factors related to the causes and patient outcomes of breast cancer. Current projects include identifying new biomarkers that could be used for early detection, evaluating risk factors for different types of breast cancer, determining predictors of poor outcomes among breast cancer survivors, and assessing disparities in cancer stage, treatment and survival by race/ethnicity.		li/index.html
Madeleine Lab	Public Health Sciences	Dr. Madeleine's research focuses primarily on the molecular epidemiology of disease-causing agents, or pathogens, and the immune response to them that may be associated with cancer development and prognosis. Another interest is the role of chronic, undiagnosed immune system dysfunctions (such as those occurring with age, obesity, physical inactivity, hormone use, and UV exposure) in cancer development.		madeleine/index.html
Malik Lab	Basic Sciences	The Malik Lab hunts for rapidly evolving proteins in order to understand how conflicts between genes affect human evolution. Such genetic conflicts can arise between virus and host genes as each fights for survival, but they can affect the function of essential genes, including those implicated in cancer.	Malik, Hutch, Fred Hutchinson, Basic science, Biochemistry, Proteins, Bioinformatics, Biological Sciences, Cell Cycle, Chemical Engineering, Evolution, Genetics, Genomics, Molecular Biology, Phylogenetics, Plasmids, Retrovirus, 2 Micron Plasmid, Bioinformatics, Centromeres, Chromatin, Genomics, Mobile Genetic Elements, Molecular Evolution, Rapidly Evolving Proteins	malik/index.html
Matsen Group	Public Health Sciences		Frederick, Erick, Matsen, Public Health Sciences, Fred Hutchinson Cancer Research Center	matsen/index.html
McElrath Lab	Vaccine and Infectious Disease	The McElrath Lab is dedicated to understanding the human immune response mechanisms in HIV infection and resistance in a way that can be translated into the development of an effective HIV vaccine.		mcelrath/index.html
McGregor Lab	Public Health Sciences	The McGregor Lab leads the Stress Management and Relaxation Training, or SMART, studies, which focus on understanding the effects of stress management on behavioral and biological factors that are relevant to cancer development, such as diet, exercise, immune function, DNA repair and cellular aging processes.		mcgregor/index.html
McIntosh Lab	Public Health Sciences	The McIntosh Lab develops primarily computational approaches for studying proteins and genomes in cancer. Their primary goal is to discover and evaluate diagnostic and early-detection biomarkers in serum, with research projects in ovarian, breast and pancreatic cancer and neurodegenerative diseases.		mcintosh/index.html
Miller Lab	Human Biology	The Miller Lab studies the basic biology of viral gene transfer. Their goals include developing gene-therapy treatments for lung diseases and generating induced pluripotent stem cells, which are useful for cell therapy in humans. Another major focus has been the jaagsiekte sheep retrovirus, which may provide insight into human lung cancer.		miller/index.html
Moens Lab	Basic Sciences	The Moens Lab uses zebrafish as a model system to study how genes control the early development of the brain in vertebrates. Their work adds to our understanding of the causes of cancer because many of the genes that control embryonic development are the same ones that are wrongly regulated in cancer cells.		moens/index.html
Molecular Epidemiology Lab	Public Health Sciences	The Molecular Epidemiology Lab provides investigators working on population-based studies with laboratory-based research expertise through a collaborative scientific relationship. The lab is headed by Dr. Karen W. Makar in the Cancer Prevention Program and supports epidemiological and clinical investigators at FHCRC and their collaborators at other institutions.		makar/index.html
Mueller Lab	Public Health Sciences	Dr. Mueller's research focuses on the roles of maternal, gestational, early life factors, and early environmental exposures in the occurrence of childhood cancer and autoimmune diseases. She also studies reproductive history in relation to cancer and cancer survival in women, and reproductive outcomes among male and female childhood cancer survivors.		mueller/index.html
Neiman Lab	Basic Sciences			neiman/index.html
Nelson Lab	Clinical Research	The J. Lee Nelson Lab studies microchimerism, a natural state in which cells are exchanged between mother and fetus during pregnancy and can remain in the other individual decades later. They study the role of this phenomenon in autoimmune diseases, pregnancy complications and cancer, as well as its impact on the success of blood stem-cell and organ transplants.		lnelson/index.html
Oehler Lab	Clinical Research		Vivian Oehler, Fred Hutchinson Cancer Research Center, FHCRC, Clinical Research	oehler/index.html
Olsen Lab	Basic Sciences	The Olsen Lab uses a combination of lipid biochemistry and genetics to study membrane maintenance in the nematode, C. elegans. Cellular membranes are affected in many diseases and in natural aging, and our main goal is to define genes that are important for preserving proper membrane composition and function.	Carissa Perez Olsen, Basic Sciences, Fred Hutchinson Cancer Research Center	olsen/index.html
Olson Lab	Clinical Research	The Olson Lab studies pediatric brain tumors, brain development and neurodegenerative disorders. The lab has a strong focus on emergent technologies such as "tumor paint," which causes cancer cells to glow with light so that surgeons can see them during an operation.		olson/index.html
Othus Lab	Public Health Sciences	Dr. Othus conducts biostatistics research related to clinical trial design, survival analysis, and cure modeling.		othus/index.html
Overbaugh Lab	Human Biology			overbaugh/index.html
Pagel Lab	Clinical Research	The Pagel lab focuses on the development and improvement of antibody therapies for leukemia and lymphoma, with the goal of decreasing toxic side effects while increasing the treatment's effectiveness. Our projects focus on advancing radioimmunotherapy through a pre-targeted method of delivering radiation to tumor sites.		pagel/index.html
Parkhurst Lab	Basic Sciences	The Parkhurst Lab studies how genes get turned on and off as fruit-fly embryos develop and how errors in this process can lead to cancer and other diseases. They also investigate wound healing and complex signals involving proteins that can affect a cell's "skeletal" structure.	Parkhurst, Drosophila, Development, Genetics, Transcription, Repression, Segmentation, Fruit flies, Hutch, Fred Hutchinson, Basic science, Cytoskeleton, Morphogenesis, Signaling, Hairy, CtBP, Wimp, Rho GTPase, model organism, fruit fly, flies, Sir2, Groucho, Cappuccino, Embryo, Oogenesis, Morphology, Pair rule	parkhurst/index.html
Paulovich Lab	Clinical Research	The Paulovich Lab works to characterize human variation and to relate this variation to clinically relevant endpoints, such as predicting a patient's risk of cancer and tolerance for treatments. Projects range from studying cellular DNA damage response in yeast and mammalian cells, to developing novel mass spectrometry-based technologies for finding and validating new protein biomarkers to serve as diagnostic tests.		paulovich/index.html
Peichel Lab	Human Biology	The Peichel Lab uses a small fish called the threespine stickleback as a model organism to conduct research aimed at identifying the genetic and molecular mechanisms that underlie evolutionary processes. Research topics include understanding evolution of the fish's behavior and sex chromosomes.		peichel/index.html
Pepe Lab	Public Health Sciences	The Pepe Lab develops guidelines and software to promote the use of sound statistical methods by scientists who are working to evaluate diagnostic or prognostic medical devices and biomarkers.	diagnostics biomarkers statstics modeling pepe	pepe/index.html
Peter Nelson Lab	Human Biology	Dr. Peter Nelson's lab focuses on understanding the molecular, cellular and physiological events that lead to cancer initiation and progression. A particular emphasis involves hormonal carcinogenesis and prostate cancer with the goal of developing new strategies for diagnosis, prognosis and therapy.		pnelson/index.html
Porter Lab	Human Biology	The Porter Lab focuses on identifying and understanding the molecular events in normal and cancer cells that are associated with the initiation and progression of human cancer, with a focus on breast and ano-genital cancers. They also investigate the molecular profiles that distinguish different types of cancer or determine an individual's cancer risk.		porter/index.html
Press Lab	Clinical Research	Dr. Press is a pioneer in immunotherapy, a treatment strategy that harnesses the power of the immune system. His lab engineers antibodies that help to destroy cells involved in blood cancers and carry radiation directly to cancer cells. They also genetically modify disease-fighting T-cells to boost their ability to recognize and kill lymphoma cells.		press/index.html
Priess Lab	Basic Sciences	The Priess lab studies how cells coordinate their shape and fate during the development of complex tissues and organs. Most of these studies use the nematode C. elegans as a model organism.		priess/index.html
Prlic Lab	Vaccine and Infectious Disease	The Prlic Lab primarily focuses on two populations of the adaptive immune system: CD8 T cells and NK cells. The lab studies these cells in a variety of different in vivo (mouse) and in vitro model systems to gain mechanistic insight and learn how to manipulate these cells for therapeutic purposes.		prlic/index.html
Radiation and Environmental Exposure Studies	Public Health Sciences	The REES group focuses on identifying risk factors and causes of cancer and other diseases associated with many types of environmental exposures, including radiation, persistent organic pollutants, electromagnetic fields, and factors that disrupt normal circadian rhythm. Projects have focused on breast cancer, thyroid cancer and other thyroid diseases, lymphomas, and myelodysplastic syndrome.		rees/index.html
Radich Lab	Clinical Research	The Radich Lab studies the molecular genetics of response, progression and relapse in human leukemia. Research topics include the detection of minimal residual disease, the role of signal transduction abnormalities in leukemia, and the construction of gene-expression profiles of response and progression.		radich/index.html
Randolph Lab	Public Health Sciences	The Randolph Program's research focuses on mathematical and statistical methods for high-dimensional, functional and otherwise "non-standard" data including: image-based data, mass spectrometry, various spectroscopies, microbiome and genetic arrays as well as longitudinal data. Projects and collaborations involve studies for discovery and validation of molecular properties and markers of disease.		randolph/index.html
REACH Group	Public Health Sciences	Dr. Ramsey directs the Research and Economic Assessment in Cancer and Healthcare (REACH) group, which focuses on cutting-edge cost-effectiveness and outcomes research in cancer prevention and treatment. REACH also has experience in designing and performing cost-effectiveness analyses of drugs, devices and interventions, with an eye towards supporting public and private decision making to maximize health value under resource constraints.		reach/index.html
Reid Lab	Human Biology		Brian J. Reid, Fred Hutchinson Cancer Research Center, FHCRC, Seattle Barrett's Esophagus, esophageal cancer	reid/index.html
Research Cell Bank	Clinical Research	The Research Cell Bank (RCB) is a qualified, experienced research facility that has been actively engaged in clinical research through B-lymphoblastoid cell (B-LCL) transformation and maintenance, DNA extraction, and inventory control for more than 30 years. The RCB is currently expanding its role as a core repository of reagents and services to better serve the needs of investigators worldwide.	Lab, Contract, Fee for service, processing, Research, Cell, Bank, cell and gene bank, gene bank, Culture, DNA, HLA, HST, Transplant, Genomic, IHWG, international histocompatibility workshop, cell bank, biorepository, research cell bank, dna bank, service	research_cell_bank/index.html
Roberts Lab	Basic Sciences	The Roberts Lab has discovered key proteins that regulate cell division and explored how changes in cell-cycle proteins may inform the treatment of specific cancers. Current research focuses on the development of mouse models of human cancers.		roberts/index.html
Roth Lab	Basic Sciences	The Roth Lab studies suspended animation and metabolic hibernation as a means to temporarily halt, or "dial down," metabolism. One day such techniques may help to buy time for critically ill patients on organ-transplant lists and in trauma situations.		roth/index.html
Salama Lab	Human Biology		helicobacter, heliobacter, pylori, ulcer, salama, nina, fhcrc, hutchinson, cancer, stomach, bacteria, bacterium, inflammation	salama/index.html
Schiffer Group	Vaccine and Infectious Disease	The Schiffer Group aims to gain a better understanding of the quantitative features of human pathogens and immune responses. In close collaboration with colleagues at the Fred Hutchinson Cancer Research Center and the University of Washington, the Group designs mathematical models that capture growth and decay kinetics of infectious organisms. These models attempt to replicate detailed empirical datasets, and in turn are used to inform subsequent human studies and laboratory experiments.		schiffer/index.html
Shimamura Lab	Clinical Research	The Shimamura Lab works to understand the molecular mechanisms contributing to development of blood cells (hematopoiesis) and cancer (tumorigenesis), with the ultimate goal of informing rationally designed therapeutic strategies. Their research focuses particularly on genetic marrow failure syndromes.		shimamura/index.html
Shou Lab	Basic Sciences	The Shou Lab uses experimental biology, mathematics and engineering to study a variety of biological problems. Research interests include how cooperative systems evolve despite threats from "cheaters" that consume benefits without paying a fair cost, and how cells cope with nutrient limitations.	shou lab, wenying shou, fred hutchinson cancer research center, fhcrc, quantitative biology group	shou/index.html
Simon Lab	Clinical Research	The Simon Lab works toward identifying new anticancer drugs through a wide range of experimental techniques and systems, ranging from organic synthesis to genetic screens.		simon/index.html
Smith Lab	Basic Sciences	The Smith Lab works to understand how genetic recombination and DNA repair are accomplished, and how they are regulated to occur at the proper place and time. As deviations in this process can result in birth defects and cancers, this work may lend insight into the causes of these diseases and ways of predicting or preventing them.	Smith, Hutch, Fred Hutchinson, Basic science, Genetics, S. cerevisiae, S. pombe, Biochemistry, DNA Repair, Genetic Diseases, Genetic Manipulation, Genetics, Genomics, Microbiology, Molecular Biology, Pathology, Recombinant DNA.Schizosaccharomyces Pombe	gsmith/index.html
Spies Lab	Clinical Research	The Spies Lab focuses on experimental studies of the human NKG2D lymphocyte receptor and its ligands, and the mechanisms whereby these proteins stimulate or suppress immune responses against cancer and in autoimmune disease.	Thomas Spies, Ph.D., immunology research at the Fred Hutchinson Cancer Research Center, NKG2D receptor, MICA ligand, tumor immunity, autoimmune disease	spies/index.html
Stoddard Lab	Basic Sciences	The Stoddard Lab studies the structure and mechanism of enzymes, the body's catalysts of biological reactions, in order to harness them for use in biotechnology and medicine. The engineering and redesign of certain enzymes could be used in targeted therapies for genetic diseases such as hemophilia and cystic fibrosis.		stoddard/index.html
Strong Lab	Basic Sciences	The Strong Lab analyzes the structure of proteins and protein-receptor complexes that control the immune system's response to disease. Building on the principles learned from these studies, they also participate in a collaborative project to design proteins for a vaccine to prevent AIDS.		strong/index.html
Taniguchi Lab	Human Biology	The Taniguchi Lab's long-term research objective is to elucidate molecular mechanism of DNA damage response pathways, such as the Fanconi Anemia-BRCA (FA-BRCA) pathway, and their involvement in carcinogenesis.		taniguchi/index.html
Tapscott Lab	Human Biology	The Tapscott Lab studies gene transcription and expression in normal development and disease, with an additional emphasis on rhabdomysarcomas (cancers with characteristics of skeletal muscle) and human muscular dystrophies. Other research areas include gene and cell therapies for muscular dystrophy, and the biology of triplet repeats and their associated diseases.		tapscott/index.html
Tewari Lab	Human Biology	The Tewari Lab draws on perspectives from systems biology and complexity science to address important problems in basic and applied cancer research. More specifically, the lab is investigating microRNAs, which are 22 nt non-protein-encoding RNA molecules that function to repress messenger RNA targets to modulate gene expression networks.		tewari/index.html
Thompson Studies	Public Health Sciences	Led by Dr. Beti Thompson, this research group works to understand why disparities in cancer incidence and survival rates exist among different populations, especially Latinos. The group also supports efforts to reduce other health disparities, including diabetes and pesticide exposure, in minority communities in the United States and abroad.		thompson/index.html
Tsukiyama Lab	Basic Sciences	The Tsukiyama Lab studies chromatin, the complex of DNA and proteins that make up our chromosomes, and how chromatin structure controls essential processes that take place on DNA.	Tsukiyama, Biochemistry, DNA Repair, DNA Replication, Transcription, Chromatin, SWI, S. cerevisiae, nucleosome, in vitro	tsukiyama/index.html
Ulrich Lab	Public Health Sciences	The Ulrich Group conducts research related to cancer prevention, prognosis and survivorship, with an emphasis on colorectal cancer. Topics of study include the effects of folate, vitamin D, exercise, diet and genetics on cancer risk, prognosis and treatment outcomes, and biological markers of cancer risk.	Neli Ulrich	ulrich/index.html
Vasioukhin Lab	Human Biology	The Vasioukhin Lab works to better understand how individual cells work together to produce and maintain a normal mammalian organism. The underlying idea is that cancer can occur as a result of breakdowns in the mechanisms that regulate this communication.		vasioukhin/index.html
Vaughan Group	Public Health Sciences		Thomas Vaughan, Vaughan Group, Epidemiology, Fred Hutchinson Cancer Research Center, FHCRC, Public Health Sciences	vaughan/index.html
Wang Program	Public Health Sciences	The Wang Lab focuses on developing statistical and computational methods to address scientific questions based on data from high throughput biology/genetics experiments. The ultimate goal is to enhance our understanding of cell activities and disease initiation/progression to a system level by integrating information from diverse biological sources (genetics/genomics, proteomics, and phenotypes).		wang/index.html
Warren Lab	Clinical Research	The Warren Lab studies human antitumor immune responses at the cellular and molecular level in order to learn how these immune responses can be exploited to treat human cancer.		warren/index.html

Lab Name

Division

Description

Keywords

Lab URL

Alanna Ruddell

Human Biology

Alanna Ruddell, Human Biology, Fred Hutchinson Cancer Research Center, FHCRC

ruddell/index.html

Bai Lab

Basic Sciences

bai/index.html

Bedalov Lab

Clinical Research

The Bedalov Lab conducts research to identify drugs that disrupt gene silencing, a process that has been implicated in cancer and other diseases in which genes are inappropriately shut off.

bedalov/index.html

Behavioral Health Research Lab

Public Health Sciences

This group, led by Dr. Jonathan Bricker, focuses on two key questions: (1) Can innovative theory-based behavioral interventions succeed in changing unhealthy behaviors (e.g., smoking)?; (2) Why do people engage in unhealthy behaviors (e.g., smoking)?

behavioral_health/index.html

Bernstein Lab

Clinical Research

Dr. Irwin D. Bernstein?s research interests include normal and leukemic hematopoietic stem cells, antibody targeted therapies for lymphoma and leukemia, and the biology of acute myeloid leukemia.

bernstein, clinical research, fred hutchinson cancer research center, cancer research, acute myeloid leukemia, leukima, lymphoma, irwin bernstein

bernstein/index.html

Bielas Lab

Public Health Sciences

The Bielas Lab studies the fundamental and clinical implications of nuclear and mitochondrial DNA mutations in the development of cancer and age-related disease. Translational research projects explore the potential utility of these mutations as novel DNA biomarkers for improved disease detection, treatment outcome, survival and quality of life.

bielas/index.html

Biggins Lab

Basic Sciences

The Biggins Lab uses budding yeast to study chromosome segregation, the process by which chromosomes are distributed to new cells during cell division. Cells with an abnormal number of chromosomes are a hallmark of cancer and many birth defects.

Biggins, Yeast, Cell cycle, Genetics, Cell biology, Ipl1/aurora protein kinase, CenH3 histone variant, Hutch, Fred Hutchinson, Basic sciences, Cytoskeleton, microtubules, kinetochores

biggins/index.html

Biomarkers Lab

Public Health Sciences

Biomarker Lab, Public Health Sciences, Xiaoling Song

biomarkers_lab/index.html

Bloom Lab

Basic Sciences

The Bloom lab uses a combination of experimental and computational approaches to study the molecular evolution of proteins and viruses. A major goal is to understand the underlying biophysical and immunological constraints that shape influenza evolution.

bloom/index.html

Boeckh Lab

Vaccine and Infectious Disease

The long-term goal of the Boeckh Research Program is to prevent infectious disease in immunocompromised hosts and reduce the severity of infections that do occur. We focus on herpes viruses (primarily cytomegalovirus), respiratory viruses, and the genetics of susceptibility to infection.

boeckh/index.html

Bolouri Lab

Human Biology

The Bolouri Lab is interested in understanding how gene regulatory interactions control cellular state and identity, particularly during development (e.g. in stem cells). The lab specializes in the development and use of computational systems biology methods to map gene regulatory networks.

Hamid Bolouri, Fred Hutchinson, Cancer Research, Seattle

bolouri/index.html

Bradley Lab

Basic Sciences

The Bradley Lab uses genomics and molecular genetics to study alternative splicing, the process by which a single gene can give rise to multiple, distinct protein isoforms. Alternative splicing enormously increases the complexity of eukaryotic genomes, and plays important roles in many human diseases.

bradleyr/index.html

Breeden Lab

Basic Sciences

The Breeden Lab investigates control of cell division in budding yeast, with a long-term goal of understanding how the commitment to the mitotic cell cycle is regulated in response to environmental and internal cues.

breeden/index.html

Brent Lab

Basic Sciences

The Brent Lab studies how living cells sense, represent, transmit and act upon information to make decisions about their future states. The lab includes, experimentally, a social science component, in which lab members are encouraged to identify and analyze how their research outcomes and ongoing increases in biological knowledge might impact human affairs.

brent/index.html

Buck Lab

Basic Sciences

The Buck lab studies the mechanisms and neural circuits that underlie the sense of smell and pheromone sensing in mammals. They are also interested in aging.

Linda Buck, Linda B. Buck, sense of smell, olfactory system, pheromones, aging, Nobel Prize

buck/index.html

Carlson Group

Public Health Sciences

The Carlson Group uses genetic epidemiology to investigate the genetic risk factors of diseases such as cancer, cardiovascular and neurological disease. The group identifies statistical correlations between variations and disease. The group's molecular biology laboratory is then equipped to assess the molecular mechanisms behind these correlations. Recently, the lab has played a significant role in development of technologies for adaptive immune system profiling, in collaboration with Harlan Robins and Hootie Warren. These tools are being applied to a variety of arenas.

carlson/index.html

Center for Biological Futures

Basic Sciences

cbf/index.html

Chen Lab

Public Health Sciences

The Chu Chen Lab is conducting a hospital-based study to discover biomarkers that may improve diagnosis and prognosis of oral cancer. Several other studies focus on the links between genetic and environmental factors and development of, and/or survival from, tobacco-related and hormone-related cancers.

chen/index.html

Clurman Lab

Clinical Research

The Clurman Lab studies how cell division is regulated in normal cells, and how abnormal control of cell division leads to cancer. They hope to use these mechanistic insights into tumor formation to develop new cancer treatment strategies.

clurman/index.html

Computational Biology

Public Health Sciences

Members of the Computational Biology Program use and develop novel computational methods, often in combination with wet-laboratory experiments, to investigate biological mechanisms across a broad range of topics.

compbio/index.html

Cooper Lab

Basic Sciences

The Cooper Lab investigates proteins involved in the signaling pathways that allow cells to communicate with each other. In particular, they study a protein called Disabled and the Src protein family to better understand how they regulate normal cell behavior and the transformation of normal cells to cancer cells.

Cooper, Yeast, Cell cycle, Genetics, Cell biology, Ipl1/aurora protein kinase, CenH3 histone variant, Hutch, Fred Hutchinson, Basic sciences, Cytoskeleton, microtubules, kinetochores

cooper/index.html

Delaney Lab

Clinical Research

delaney/index.html

Edlefsen Group

Vaccine and Infectious Disease

edlefsen/index.html

Eisenman Lab

Basic Sciences

The Eisenman Lab studies how cell proliferation, growth, and differentiation are regulated through the actions of transcriptional networks, and how this regulation is undermined during tumor progression. The lab employs the tools of molecular biology as well as mammalian and Drosophila genetics to study basic mechanisms underlying normal and abnormal cellular functions.

eisenman/index.html

Emerman Lab

Human Biology

The Emerman Lab studies the molecular and evolutionary basis for the replication of HIV and related viruses, with an emphasis on the interaction of these viruses with their host cells. Their goal is to understand what determines resistance or vulnerability to current, past and potential viral diseases.

emerman/index.html

Etzioni Lab

Public Health Sciences

The Etzioni Lab focuses on statistical methods for prostate-cancer studies, with the goal of improving guidelines for screening and treatment. Etzioni has assessed the likely impact of prostate-specific antigen testing on prostate-cancer incidence and mortality, and developed approaches for evaluating new cancer-screening biomarkers.

etzioni/index.html

Fero Lab

Clinical Research

The Fero Lab studies how cell-cycle regulatory genes, p27 and Rb, control growth of tumors and normal tissues. Using novel mouse models and genomic technologies, they have discovered that cell cycle inhibitors and microRNAs regulate T-cell growth and differentiation, whereas mutations of these genes cooperate in lymphoma development.

fero/index.html

Fong Group

Vaccine and Infectious Disease

The Fong Group specializes in using biostatics and computer modeling to investigate complex biological problems, with an emphasis on vaccine development. The group is working together with other Hutchinson Center researchers to evaluate immune responses to HIV vaccines, and to design and analyze HIV vaccine trials.

mixture model, bayesian statistics, luminex, curve fit, protein subfamily, sequence analysis, clustering, inla, Youyi Fong

fong/index.html

Fredricks Lab

Vaccine and Infectious Disease

fredricks/index.html

Galloway Lab

Human Biology

The Galloway Lab studies the mechanisms by which human papillomaviruses contribute to cancer, with an emphasis on types most likely to progress to cervical cancer. They work to understand the natural history of genital HPV infections and why only a small subset of women infected with high-risk HPVs develop cancer.

galloway/index.html

Geballe Lab

Human Biology

The Geballe Lab studies the functions and mechanisms of genes encoded by large DNA viruses, such as cytomegalovirus and vaccinia virus, that act to promote viral growth by blocking host cell defenses.

geballe/index.html

Gottardo Lab

Vaccine and Infectious Disease

The Gottardo Lab conducts research in computational biology and statistical genomics with applications to high throughput biological assays and immunology.

gottardo/index.html

Gottschling Lab

Basic Sciences

The Gottschling Lab uses budding yeast as a model system to investigate fundamental questions in biology. One of their current areas of research interest is the striking link between increasing age and cancer incidence in humans.

gottschling/index.html

Grandori Lab

Human Biology

The Grandori Lab focuses on exploiting the weaknesses of cancer cells to identify targeted, less toxic cancer therapies. RNA interference (RNAi) combined with high throughput technology enables us to interrogate the human genome for genes that are essential for viability of molecularly defined cancer cells, thus allowing the unbiased identification of these Achilles' heels.

grandori/index.html

Green Group

Clinical Research

green/index.html

Greenberg Lab

Clinical Research

The Greenberg Lab's guiding research goals are to understand the principles underlying T cell recognition of viruses and cancer cells, to determine why such responses often fail to eliminate the virus or cancer, and to develop cellular and molecular approaches that manipulate the immune system to treat human viral and malignant diseases.

pgreenberg/index.html

Hahn Lab

Basic Sciences

The Hahn Lab studies the mechanism and regulation of transcription, the process of mRNA synthesis. Transcriptional regulation is one of the key steps controlling cell growth, differentiation and development, and defects cause many human illnesses. Using biochemistry, structural biology and molecular genetics, the lab focuses on the mechanism of the large conserved protein complexes that regulate and promote transcription.

polymerase II, polymerase III, RNA polymerase, TATA binding protein, TBP, TFIID, TFIIA, TFIIB, gene regulation, holoenzyme, biochemistry, genetics, structure, yeast, protein, DNA, mechanism, BRF, TFIIIC, TFIIIB, Zn-ribbon, Steven Hahn, Seattle, Fred Hutchinson, Howard Hughes, cancer, molecular, biology, saccharomyces cerevisiae, graduate study, Washington

hahn/index.html

Hanash Lab

Public Health Sciences

The Hanash Lab works to discover trace proteins called "markers" that are released into the blood by diseased tissues. The goal of this research is to develop more effective tests for early detection and diagnosis of lung, breast, colon, ovarian and pancreatic cancers as well as other common diseases.

hanash/index.html

Hansen Lab

Clinical Research

The Hansen Lab's primary research focus is graft-vs.-host disease (GVHD). Ongoing studies investigate whether monitoring of gene expression correlates with T-cell activation, programmed cell death, severity of GVHD, the patient?s response to primary therapy or treatment failure, and emergence of tolerance.

Hansen, John Hansen, Research Cell Bank, HIP, Transplant, GVHD

hansen/index.html

Heimfeld Lab

Clinical Research

The Heimfeld Lab focuses on the translation of new cell-based therapies from the scientist's bench to the patient's bedside. Areas of research include improvements in specific cell-subset selection, large-scale therapeutic-cell culturing in closed systems, optimized cryopreservation and cell storage.

heimfeld/index.html

Henikoff Lab

Basic Sciences

The Henikoff Lab studies the structure, function and evolution of chromosomes. They also develop tools for epigenomics and functional genomics.

henikoff/index.html

Hockenbery Lab

Clinical Research

The Hockenbery lab studies programmed cell death (apoptosis) pathways that are defective in many cancer cells; and the role of cancer-cell metabolism in apoptosis, oncogene functions, and environmental/dietary risk factors, including excess supply of nutrients. After identifying cancer-selective targets, they carry out small-molecule screens for inhibitors to identify lead compounds as anticancer agents.

hockenbery/index.html

Hohl Lab

Vaccine and Infectious Disease

The Hohl Lab focuses on the host-pathogen relationship between medically relevant fungi and the vertebrate immune system. Invasive aspergillosis is the most common invasive mold infection worldwide and represents a major cause of infectious morbidity and mortality in patients that receive treatment for leukemia or undergo bone marrow transplantation. Our goal is to develop a detailed understanding of molecular and cellular host defenses against Aspergillus fumigatus in order to develop novel strategies to augment or supplement current antifungal drugs.

hohl/index.html

Huang Lab

Vaccine and Infectious Disease

The Huang Lab focuses on the evaluation of biomarkers for disease prevention and control. The lab also studies genetic epidemiology, particularly the detection of gene-environment interactions based on genome-wide association studies and the construction of risk prediction models using the genetic regulatory network.

huang/index.html

Kemp Lab

Human Biology

The Kemp Lab studies tumor formation in mice to better understand how environmental and genetic factors interact to cause cancer. They also work to develop simple blood tests for early cancer detection by discovering biomarkers, the proteins that signal the earliest traces of disease.

kemp/index.html

Kiem Lab

Clinical Research

The Kiem Lab studies stem cell biology and stem cell gene transfer with the goal of developing new treatment strategies for patients with genetic and infectious diseases and cancers.

kiem/index.html

Kooperberg Website

Public Health Sciences

Charles Kooperberg, Fred Hutchinson Cancer Research Center, Public Health Sciences

kooperberg/index.html

Lampe, P Lab

Public Health Sciences

The Paul Lampe Lab attempts to discover early detection cancer biomarkers and investigates the control of cell growth at the cell biology level. Of particular interest is the role that gap junctions play in the regulation of cell growth and the cell cycle, and the disruption of this relationship during cancer development.

lampe/index.html

Li Lab

Public Health Sciences

Dr. Li uses a multidisciplinary approach to understand factors related to the causes and patient outcomes of breast cancer. Current projects include identifying new biomarkers that could be used for early detection, evaluating risk factors for different types of breast cancer, determining predictors of poor outcomes among breast cancer survivors, and assessing disparities in cancer stage, treatment and survival by race/ethnicity.

li/index.html

Madeleine Lab

Public Health Sciences

Dr. Madeleine's research focuses primarily on the molecular epidemiology of disease-causing agents, or pathogens, and the immune response to them that may be associated with cancer development and prognosis. Another interest is the role of chronic, undiagnosed immune system dysfunctions (such as those occurring with age, obesity, physical inactivity, hormone use, and UV exposure) in cancer development.

madeleine/index.html

Malik Lab

Basic Sciences

The Malik Lab hunts for rapidly evolving proteins in order to understand how conflicts between genes affect human evolution. Such genetic conflicts can arise between virus and host genes as each fights for survival, but they can affect the function of essential genes, including those implicated in cancer.

Malik, Hutch, Fred Hutchinson, Basic science, Biochemistry, Proteins, Bioinformatics, Biological Sciences, Cell Cycle, Chemical Engineering, Evolution, Genetics, Genomics, Molecular Biology, Phylogenetics, Plasmids, Retrovirus, 2 Micron Plasmid, Bioinformatics, Centromeres, Chromatin, Genomics, Mobile Genetic Elements, Molecular Evolution, Rapidly Evolving Proteins

malik/index.html

Matsen Group

Public Health Sciences

Frederick, Erick, Matsen, Public Health Sciences, Fred Hutchinson Cancer Research Center

matsen/index.html

McElrath Lab

Vaccine and Infectious Disease

The McElrath Lab is dedicated to understanding the human immune response mechanisms in HIV infection and resistance in a way that can be translated into the development of an effective HIV vaccine.

mcelrath/index.html

McGregor Lab

Public Health Sciences

The McGregor Lab leads the Stress Management and Relaxation Training, or SMART, studies, which focus on understanding the effects of stress management on behavioral and biological factors that are relevant to cancer development, such as diet, exercise, immune function, DNA repair and cellular aging processes.

mcgregor/index.html

McIntosh Lab

Public Health Sciences

The McIntosh Lab develops primarily computational approaches for studying proteins and genomes in cancer. Their primary goal is to discover and evaluate diagnostic and early-detection biomarkers in serum, with research projects in ovarian, breast and pancreatic cancer and neurodegenerative diseases.

mcintosh/index.html

Miller Lab

Human Biology

The Miller Lab studies the basic biology of viral gene transfer. Their goals include developing gene-therapy treatments for lung diseases and generating induced pluripotent stem cells, which are useful for cell therapy in humans. Another major focus has been the jaagsiekte sheep retrovirus, which may provide insight into human lung cancer.

miller/index.html

Moens Lab

Basic Sciences

The Moens Lab uses zebrafish as a model system to study how genes control the early development of the brain in vertebrates. Their work adds to our understanding of the causes of cancer because many of the genes that control embryonic development are the same ones that are wrongly regulated in cancer cells.

moens/index.html

Molecular Epidemiology Lab

Public Health Sciences

The Molecular Epidemiology Lab provides investigators working on population-based studies with laboratory-based research expertise through a collaborative scientific relationship. The lab is headed by Dr. Karen W. Makar in the Cancer Prevention Program and supports epidemiological and clinical investigators at FHCRC and their collaborators at other institutions.

makar/index.html

Mueller Lab

Public Health Sciences

Dr. Mueller's research focuses on the roles of maternal, gestational, early life factors, and early environmental exposures in the occurrence of childhood cancer and autoimmune diseases. She also studies reproductive history in relation to cancer and cancer survival in women, and reproductive outcomes among male and female childhood cancer survivors.

mueller/index.html

Neiman Lab

Basic Sciences

neiman/index.html

Nelson Lab

Clinical Research

The J. Lee Nelson Lab studies microchimerism, a natural state in which cells are exchanged between mother and fetus during pregnancy and can remain in the other individual decades later. They study the role of this phenomenon in autoimmune diseases, pregnancy complications and cancer, as well as its impact on the success of blood stem-cell and organ transplants.

lnelson/index.html

Oehler Lab

Clinical Research

Vivian Oehler, Fred Hutchinson Cancer Research Center, FHCRC, Clinical Research

oehler/index.html

Olsen Lab

Basic Sciences

The Olsen Lab uses a combination of lipid biochemistry and genetics to study membrane maintenance in the nematode, C. elegans. Cellular membranes are affected in many diseases and in natural aging, and our main goal is to define genes that are important for preserving proper membrane composition and function.

Carissa Perez Olsen, Basic Sciences, Fred Hutchinson Cancer Research Center

olsen/index.html

Olson Lab

Clinical Research

The Olson Lab studies pediatric brain tumors, brain development and neurodegenerative disorders. The lab has a strong focus on emergent technologies such as "tumor paint," which causes cancer cells to glow with light so that surgeons can see them during an operation.

olson/index.html

Othus Lab

Public Health Sciences

Dr. Othus conducts biostatistics research related to clinical trial design, survival analysis, and cure modeling.

othus/index.html

Overbaugh Lab

Human Biology

overbaugh/index.html

Pagel Lab

Clinical Research

The Pagel lab focuses on the development and improvement of antibody therapies for leukemia and lymphoma, with the goal of decreasing toxic side effects while increasing the treatment's effectiveness. Our projects focus on advancing radioimmunotherapy through a pre-targeted method of delivering radiation to tumor sites.

pagel/index.html

Parkhurst Lab

Basic Sciences

The Parkhurst Lab studies how genes get turned on and off as fruit-fly embryos develop and how errors in this process can lead to cancer and other diseases. They also investigate wound healing and complex signals involving proteins that can affect a cell's "skeletal" structure.

Parkhurst, Drosophila, Development, Genetics, Transcription, Repression, Segmentation, Fruit flies, Hutch, Fred Hutchinson, Basic science, Cytoskeleton, Morphogenesis, Signaling, Hairy, CtBP, Wimp, Rho GTPase, model organism, fruit fly, flies, Sir2, Groucho, Cappuccino, Embryo, Oogenesis, Morphology, Pair rule

parkhurst/index.html

Paulovich Lab

Clinical Research

The Paulovich Lab works to characterize human variation and to relate this variation to clinically relevant endpoints, such as predicting a patient's risk of cancer and tolerance for treatments. Projects range from studying cellular DNA damage response in yeast and mammalian cells, to developing novel mass spectrometry-based technologies for finding and validating new protein biomarkers to serve as diagnostic tests.

paulovich/index.html

Peichel Lab

Human Biology

The Peichel Lab uses a small fish called the threespine stickleback as a model organism to conduct research aimed at identifying the genetic and molecular mechanisms that underlie evolutionary processes. Research topics include understanding evolution of the fish's behavior and sex chromosomes.

peichel/index.html

Pepe Lab

Public Health Sciences

The Pepe Lab develops guidelines and software to promote the use of sound statistical methods by scientists who are working to evaluate diagnostic or prognostic medical devices and biomarkers.

diagnostics biomarkers statstics modeling pepe

pepe/index.html

Peter Nelson Lab

Human Biology

Dr. Peter Nelson's lab focuses on understanding the molecular, cellular and physiological events that lead to cancer initiation and progression. A particular emphasis involves hormonal carcinogenesis and prostate cancer with the goal of developing new strategies for diagnosis, prognosis and therapy.

pnelson/index.html

Porter Lab

Human Biology

The Porter Lab focuses on identifying and understanding the molecular events in normal and cancer cells that are associated with the initiation and progression of human cancer, with a focus on breast and ano-genital cancers. They also investigate the molecular profiles that distinguish different types of cancer or determine an individual's cancer risk.

porter/index.html

Press Lab

Clinical Research

Dr. Press is a pioneer in immunotherapy, a treatment strategy that harnesses the power of the immune system. His lab engineers antibodies that help to destroy cells involved in blood cancers and carry radiation directly to cancer cells. They also genetically modify disease-fighting T-cells to boost their ability to recognize and kill lymphoma cells.

press/index.html

Priess Lab

Basic Sciences

The Priess lab studies how cells coordinate their shape and fate during the development of complex tissues and organs. Most of these studies use the nematode C. elegans as a model organism.

priess/index.html

Prlic Lab

Vaccine and Infectious Disease

The Prlic Lab primarily focuses on two populations of the adaptive immune system: CD8 T cells and NK cells. The lab studies these cells in a variety of different in vivo (mouse) and in vitro model systems to gain mechanistic insight and learn how to manipulate these cells for therapeutic purposes.

prlic/index.html

Radiation and Environmental Exposure Studies

Public Health Sciences

The REES group focuses on identifying risk factors and causes of cancer and other diseases associated with many types of environmental exposures, including radiation, persistent organic pollutants, electromagnetic fields, and factors that disrupt normal circadian rhythm. Projects have focused on breast cancer, thyroid cancer and other thyroid diseases, lymphomas, and myelodysplastic syndrome.

rees/index.html

Radich Lab

Clinical Research

The Radich Lab studies the molecular genetics of response, progression and relapse in human leukemia. Research topics include the detection of minimal residual disease, the role of signal transduction abnormalities in leukemia, and the construction of gene-expression profiles of response and progression.

radich/index.html

Randolph Lab

Public Health Sciences

The Randolph Program's research focuses on mathematical and statistical methods for high-dimensional, functional and otherwise "non-standard" data including: image-based data, mass spectrometry, various spectroscopies, microbiome and genetic arrays as well as longitudinal data. Projects and collaborations involve studies for discovery and validation of molecular properties and markers of disease.

randolph/index.html

REACH Group

Public Health Sciences

Dr. Ramsey directs the Research and Economic Assessment in Cancer and Healthcare (REACH) group, which focuses on cutting-edge cost-effectiveness and outcomes research in cancer prevention and treatment. REACH also has experience in designing and performing cost-effectiveness analyses of drugs, devices and interventions, with an eye towards supporting public and private decision making to maximize health value under resource constraints.

reach/index.html

Reid Lab

Human Biology

Brian J. Reid, Fred Hutchinson Cancer Research Center, FHCRC, Seattle Barrett's Esophagus, esophageal cancer

reid/index.html

Research Cell Bank

Clinical Research

The Research Cell Bank (RCB) is a qualified, experienced research facility that has been actively engaged in clinical research through B-lymphoblastoid cell (B-LCL) transformation and maintenance, DNA extraction, and inventory control for more than 30 years. The RCB is currently expanding its role as a core repository of reagents and services to better serve the needs of investigators worldwide.

Lab, Contract, Fee for service, processing, Research, Cell, Bank, cell and gene bank, gene bank, Culture, DNA, HLA, HST, Transplant, Genomic, IHWG, international histocompatibility workshop, cell bank, biorepository, research cell bank, dna bank, service

research_cell_bank/index.html

Roberts Lab

Basic Sciences

The Roberts Lab has discovered key proteins that regulate cell division and explored how changes in cell-cycle proteins may inform the treatment of specific cancers. Current research focuses on the development of mouse models of human cancers.

roberts/index.html

Roth Lab

Basic Sciences

The Roth Lab studies suspended animation and metabolic hibernation as a means to temporarily halt, or "dial down," metabolism. One day such techniques may help to buy time for critically ill patients on organ-transplant lists and in trauma situations.

roth/index.html

Salama Lab

Human Biology

helicobacter, heliobacter, pylori, ulcer, salama, nina, fhcrc, hutchinson, cancer, stomach, bacteria, bacterium, inflammation

salama/index.html

Schiffer Group

Vaccine and Infectious Disease

The Schiffer Group aims to gain a better understanding of the quantitative features of human pathogens and immune responses. In close collaboration with colleagues at the Fred Hutchinson Cancer Research Center and the University of Washington, the Group designs mathematical models that capture growth and decay kinetics of infectious organisms. These models attempt to replicate detailed empirical datasets, and in turn are used to inform subsequent human studies and laboratory experiments.

schiffer/index.html

Shimamura Lab

Clinical Research

The Shimamura Lab works to understand the molecular mechanisms contributing to development of blood cells (hematopoiesis) and cancer (tumorigenesis), with the ultimate goal of informing rationally designed therapeutic strategies. Their research focuses particularly on genetic marrow failure syndromes.

shimamura/index.html

Shou Lab

Basic Sciences

The Shou Lab uses experimental biology, mathematics and engineering to study a variety of biological problems. Research interests include how cooperative systems evolve despite threats from "cheaters" that consume benefits without paying a fair cost, and how cells cope with nutrient limitations.

shou lab, wenying shou, fred hutchinson cancer research center, fhcrc, quantitative biology group

shou/index.html

Simon Lab

Clinical Research

The Simon Lab works toward identifying new anticancer drugs through a wide range of experimental techniques and systems, ranging from organic synthesis to genetic screens.

simon/index.html

Smith Lab

Basic Sciences

The Smith Lab works to understand how genetic recombination and DNA repair are accomplished, and how they are regulated to occur at the proper place and time. As deviations in this process can result in birth defects and cancers, this work may lend insight into the causes of these diseases and ways of predicting or preventing them.

Smith, Hutch, Fred Hutchinson, Basic science, Genetics, S. cerevisiae, S. pombe, Biochemistry, DNA Repair, Genetic Diseases, Genetic Manipulation, Genetics, Genomics, Microbiology, Molecular Biology, Pathology, Recombinant DNA.Schizosaccharomyces Pombe

gsmith/index.html

Spies Lab

Clinical Research

The Spies Lab focuses on experimental studies of the human NKG2D lymphocyte receptor and its ligands, and the mechanisms whereby these proteins stimulate or suppress immune responses against cancer and in autoimmune disease.

Thomas Spies, Ph.D., immunology research at the Fred Hutchinson Cancer Research Center, NKG2D receptor, MICA ligand, tumor immunity, autoimmune disease

spies/index.html

Stoddard Lab

Basic Sciences

The Stoddard Lab studies the structure and mechanism of enzymes, the body's catalysts of biological reactions, in order to harness them for use in biotechnology and medicine. The engineering and redesign of certain enzymes could be used in targeted therapies for genetic diseases such as hemophilia and cystic fibrosis.

stoddard/index.html

Strong Lab

Basic Sciences

The Strong Lab analyzes the structure of proteins and protein-receptor complexes that control the immune system's response to disease. Building on the principles learned from these studies, they also participate in a collaborative project to design proteins for a vaccine to prevent AIDS.

strong/index.html

Taniguchi Lab

Human Biology

The Taniguchi Lab's long-term research objective is to elucidate molecular mechanism of DNA damage response pathways, such as the Fanconi Anemia-BRCA (FA-BRCA) pathway, and their involvement in carcinogenesis.

taniguchi/index.html

Tapscott Lab

Human Biology

The Tapscott Lab studies gene transcription and expression in normal development and disease, with an additional emphasis on rhabdomysarcomas (cancers with characteristics of skeletal muscle) and human muscular dystrophies. Other research areas include gene and cell therapies for muscular dystrophy, and the biology of triplet repeats and their associated diseases.

tapscott/index.html

Tewari Lab

Human Biology

The Tewari Lab draws on perspectives from systems biology and complexity science to address important problems in basic and applied cancer research. More specifically, the lab is investigating microRNAs, which are 22 nt non-protein-encoding RNA molecules that function to repress messenger RNA targets to modulate gene expression networks.

tewari/index.html

Thompson Studies

Public Health Sciences

Led by Dr. Beti Thompson, this research group works to understand why disparities in cancer incidence and survival rates exist among different populations, especially Latinos. The group also supports efforts to reduce other health disparities, including diabetes and pesticide exposure, in minority communities in the United States and abroad.

thompson/index.html

Tsukiyama Lab

Basic Sciences

The Tsukiyama Lab studies chromatin, the complex of DNA and proteins that make up our chromosomes, and how chromatin structure controls essential processes that take place on DNA.

Tsukiyama, Biochemistry, DNA Repair, DNA Replication, Transcription, Chromatin, SWI, S. cerevisiae, nucleosome, in vitro

tsukiyama/index.html

Ulrich Lab

Public Health Sciences

The Ulrich Group conducts research related to cancer prevention, prognosis and survivorship, with an emphasis on colorectal cancer. Topics of study include the effects of folate, vitamin D, exercise, diet and genetics on cancer risk, prognosis and treatment outcomes, and biological markers of cancer risk.

Neli Ulrich

ulrich/index.html

Vasioukhin Lab

Human Biology

The Vasioukhin Lab works to better understand how individual cells work together to produce and maintain a normal mammalian organism. The underlying idea is that cancer can occur as a result of breakdowns in the mechanisms that regulate this communication.

vasioukhin/index.html

Vaughan Group

Public Health Sciences

Thomas Vaughan, Vaughan Group, Epidemiology, Fred Hutchinson Cancer Research Center, FHCRC, Public Health Sciences

vaughan/index.html

Wang Program

Public Health Sciences

The Wang Lab focuses on developing statistical and computational methods to address scientific questions based on data from high throughput biology/genetics experiments. The ultimate goal is to enhance our understanding of cell activities and disease initiation/progression to a system level by integrating information from diverse biological sources (genetics/genomics, proteomics, and phenotypes).

wang/index.html

Warren Lab

Clinical Research

The Warren Lab studies human antitumor immune responses at the cellular and molecular level in order to learn how these immune responses can be exploited to treat human cancer.

warren/index.html

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