Postdoctoral Positions
Why come to CSHL for your Postdoc?
CSHL has long been recognized as a place for nurturing young scientists, with postdoctoral researchers being integral parts of the discovery process. CSHL鈥檚 relatively small size鈥攁round 55 labs鈥攃ombined with its collaborative and multidisciplinary research programs creates a unique environment for the next step in your scientific career.
Scientific excellence
麻豆传媒映画 is one of the leading biomedical research institutions in the U.S., with research in five main areas: cancer biology, neuroscience, plant biology, quantitative biology, and genomics. In addition, 麻豆传媒映画 is an NCI Cancer Center dedicated to studying the fundamental biology of human cancer, and translating these breakthroughs from bench to bedside. Across the entire community at CSHL, there is a distinct spirit of scientific pursuit and interactions, resulting in innovative and productive collaborations.
Resources
CSHL鈥檚 postdocs have access to all the scientific resources available on campus. This includes Core Facilities that feature the latest technology and expertise. These Cores are fast, reliable, and cost-effective, offering in-house support that can be customized and collaborative to spur the development of novel technological applications and creative research.
Career development
Your training as a postdoc at CSHL extends beyond the bench. There is a suite of Career Development offerings, including short courses, workshops, lectures, and seminars that provide opportunities for scientific enrichment and professional development. In addition, there are programs in career exploration and opportunities to develop skills such as leadership, mentoring and communication.
Extramural meetings & courses
CSHL鈥檚 extensive brings top scientists from around the world to campus to present and discuss the latest research in a wide variety of scientific. This is great opportunity to network and meet with colleagues.
A vibrant community
The Laboratory offers a collegial and collaborative work environment as well as a beautiful location just a short train ride from New York City. CSHL has several postdoctoral and student-led groups, including an active Postdoctoral Liaison Committee (PDLC), whose purpose is to represent the interests of and advocate for the CSHL postdoctoral community.
Onsite child care center
CSHL has an excellent and affordable, licensed, on-site childcare center that serves children from six weeks to six years old.
Compensation & benefits
CSHL offers an excellent comprehensive benefits program, an onsite Wellness Center, a Fitness Center, subsidized dining experiences and complimentary shuttle service. The CSHL Housing Office can help postdocs find affordable housing, either through a shared-housing program, or through local realtors. In addition, all postdoctoral fellows are eligible for relocation reimbursement and a family allowance. The Postdoctoral Fellows are compensated based on their years of experience. The salaries can be accessed at 鈥Postdoctoral Stipend Schedule.鈥 (PDF)
Postdoctoral Fellow opportunities
鈥 鈥 00399
Our lab is interested in how the brain accomplishes the ongoing transformation from sensation to action during natural behaviors. Vocal communication is ideally suited to study natural and flexible sensorimotor transformations. During a conversation, our brain must interpret what we hear and control our vocal response. Recently, we have discovered that a neo-tropical rodent, Alston鈥檚 singing mouse, engages in fast vocal interactions, even under laboratory settings.
鈥 鈥 807
The Furukawa Laboratory is actively seeking a postdoctoral researcher. We explore the molecular underpinnings of neurotransmission, neuroplasticity, and neuron-targeted autoimmunity triggered by cancer. We employ a multidisciplinary approach, integrating structural biology, high-resolution imaging, and electrophysiology. While expertise in cryo-electron tomography (cryo-ET), single-particle cryo-electron microscopy (cryo-EM), x-ray crystallography, patch-clamp, slice electrophysiology, or molecular neuroscience is advantageous, it is not a prerequisite for application.
鈥 Gholami Lab 鈥 00303
A position is available for a postdoctoral researcher with a strong background in cancer biology and immunology. This postdoctoral fellow will work under the direction of Dr. Gholami, an Associate Professor and surgeon-scientist at Northwell Health and 麻豆传媒映画, within the laboratory of Dr. Westcott. The Gholami laboratory research is centered on understanding the host-immune cell interactions and the mechanisms by which the immune system and tumor microenvironment play a role in the biology and anti-tumor response of liver metastases. More specifically, the laboratory research focuses on mechanisms of immune resistance in liver metastases to develop novel immune augmenting therapies and practice-changing clinical trials.
鈥 Gingeras 鈥 1045
The research group of Professor Gingeras is seeking a postdoctoral researcher to participate in projects seeking the causes and mechanisms of action of short RNAs in the development of inflammatory reactions and in the development of chronic lymphocytic leukemia (CLL) from Monoclonal B-cell Lymphocytosis (MBL).
鈥 Hammell Lab 鈥 1185
Our laboratory uses a variety of genetic, biochemical, and molecular approaches to understand how the activity of microRNAs is modulated in response to developmental and environmental cues and how oscillatory gene expression contributes to normal temporal cell fate specification during development. The Hammell lab鈥檚 cross-disciplinary approach and application of various model systems (including C. elegans) will provide training and opportunities for a highly motivated scientist.
鈥 鈥 0078
We are currently seeking a Postdoctoral Fellow in the laboratory of Dr. Helen Hou at 麻豆传媒映画 (), starting in Fall 2023 or Spring 2024. You will play a decisive role in the research program of an interdisciplinary lab with the latest technologies in neuroscience, studying how the brain controls movements and natural behaviors, including but not limited to how the brain coordinates muscles of facial expressions to convey internal states.
鈥 鈥 01196
The Janowitz Laboratory at 麻豆传媒映画 is seeking a highly motivated, creative, and interactive postdoctoral researcher with strong experimental and analytical skills to help discover molecular mechanisms that cause the whole-body response to cancer. We employ pre-clinical and clinical research to develop and test new treatment strategies combining body reprogramming and anti-cancer medications and to discover fundamental biological interactions between tumors and host organ systems.
鈥 Klindt Lab 鈥 1093
We are looking for outstanding candidates for computational postdoctoral positions broadly interested in using machine learning, computational neuroscience and computational biology. The position is open under specific projects as well as general research involving the applications of methods from machine learning, computer vision and computational neuroscience with the goal to understand the complex system such as neural networks, brain functions, or molecular shapes. For more information, contact klindt@cshl.edu.
鈥 Koulakov Lab 鈥 03057-R
麻豆传媒映画 is looking for outstanding candidates to fill postdoctoral positions in theoretical neuroscience. The position is open under specific projects as well as general research involving the application of methods from theoretical physics, mathematics, and machine learning with the goal to understand the brain function.
鈥 L.Zhang Lab 鈥 03248-R
Dr. Lingbo Zhang鈥檚 Laboratory at 麻豆传媒映画 (CSHL) is part of a $75 million Center for Therapeutics Research at CSHL. There are multiple fully funded postdoctoral fellowships available in the Zhang Laboratory to investigate roles of nervous system activities and micronutrients in regulating hematologic cancers and to develop novel therapeutic strategies for these diseases.
鈥 鈥 988
The group of Dr. Alea A. Mills at 麻豆传媒映画 seeks a Postdoctoral Fellow with a keen interest in epigenetic dysregulation in cancer. The individual should be highly motivated to define fundamental mechanisms underlying malignancy and translate these findings towards the clinic.
Proficiency in genetic modification, cell & molecular biology, epigenetics, biochemistry, genomics, and data integration is a plus. Working as a team player in a highly dynamic environment is essential. To find out more about the Mills Lab, please visit:
鈥 鈥 1116
Our lab investigates the nature and nurture mechanisms involved in the development of cortical neural circuits and their alterations in neurodevelopmental disorders. More specifically, we focus on the various neuromodulator cues that neurons in early development are exposed to and their effect on the establishment of excitation/inhibition circuits. To tackle these questions, we use multidisciplinary approaches including genomics, optogenetics, viral strategies, mouse genetics and behavior analysis. The main focus of the research will be to study molecular programs controlling the dynamics of circuit development.
鈥 鈥 00607
The Trotman Lab at 麻豆传媒映画 is seeking applications for postdoctoral candidates with a strong background in neurobiology. We study lethal metastatic cancer. The project aims to define how peripheral nerves in the metastatic tumor environment interacti with cancer cells and affect progression, therapy and disease outcome.
鈥 Westcott Laboratory 鈥 00681
The Westcott Laboratory at 麻豆传媒映画 is seeking applications for postdoctoral candidates to carry our experimental and/or computational work aimed at understanding how cancer coevolves with the immune system in mouse models and clinical colorectal cancer specimens. The research program will involve modeling cancer clonal evolution under different immunogenic contexts in powerful new mouse models we have developed, and will incorporate cutting-edge techniques in multiomics and spatial biology, for which the lab has recently obtained funding.
鈥 鈥 02869-R
A Postdoc Fellow position is available at The at CSHL Cancer Center. We are recruiting new members passionate about drug discovery and chemical biology. Our lab is working to understand the molecular mechanisms leading to efficient elicitation of tumor vulnerability for potent cancer targeting. We develop Targeted Protein Degradation (TPD) therapeutic strategies to abrogate or rewire cancer cell signaling. We have recently established a new discovery platform to expand the landscape of TPD E3 ligases and targeting modalities beyond conventional small molecules (Genes & Development (2022) 36:1031-1042.; Genes & Development (2023) 37: 1-17). For this open position, the project direction will be focused on continuing developing and validating novel TPD molecules to target undruggable proteins.