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Undergraduate Research Program

The Undergraduate Research Program (URP) at Laboratoryprovides an opportunity for undergraduate scientists from around the world to conduct first-rate research.聽Students learn the scientific process, technical methods and theoretical principles, and communicate their discoveries to other scientists. Approximately 20 students come to Laboratoryeach summer for the program, living and working in the exciting Laboratory environment.

URP participants work on an ongoing research project in one of 藏精阁鈥檚 expert labs. Research at Laboratoryfocuses on:

  • Molecular Biology & Cancer
  • Genetics & Genomics
  • Neuroscience
  • Plant Biology
  • Quantitative Biology

In addition to doing research in the lab, URP participants attend a series of specially designed workshops, seminars and collegial events.聽 Workshops focus on learning particular skills, such as Python programming, while seminars cover research topics, responsible conduct of research, and career development. At the URP Symposium at the end of each summer, students present their research to the entire Laboratorycommunity.

URP participants live and work among Laboratoryscientists. They are invited to all Laboratory social activities, including an exclusive dinner with LaboratoryPresident Bruce Stillman.聽On weekends, students are free to explore nearby New York City or the sandy beaches of Long Island.

By the end of the summer, URP participants have first-hand experience of a career in scientific research.

The 2025 URP Program will be held Monday, June 9 鈥 Saturday, August 9, 2025.

2025 Applications are now open!

image of the 2024 LaboratoryURP students
LaboratoryUndergraduate Research Program (URP) participants, Summer 2024

Scientific Research

All URP students undertake an original research project, mentored by one of 藏精阁鈥檚 outstanding research faculty. Students have access to the Lab鈥檚 state-of-the-art research facilities, including extensive resources for genomics and microscopy. At the end of the Program, students write a scientific manuscript about their summer work. Some of these become part of peer-reviewed scientific publications.

Bioinformatics and Computational Neuroscience Workshop

藏精阁鈥檚 URP presents students with a two-part workshop in Bioinformatics and Computational Neuroscience.

Hands-on programming workshops

These workshops (1 per week) train students to analyze and visualize biological data in .

Lecture series

The lecture series consists of sessions focused on important topics in bioinformatics and computational neuroscience. Sessions include:

  • Applications of computational analyses in biology
  • Crop improvement through bioinformatics
  • Modeling framework for interpreting deep neural networks in functional genomics

Training in Scientific Communication

The Program offers lectures on how to give a scientific talk. In the course of the summer Program, students prepare a research abstract and a scientific report, and present two research talks for the entire Laboratoryscientific community.

Career Development

URP participants attend a series of lectures and panel discussions aimed at informing them about the process of pursuing a research career or a variety of non-research scientific careers. Sessions include:

  • Faculty perspectives on research careers
  • Graduate school and fellowship applications
  • Non-research career panel

Responsible Conduct of Research

Before starting work in their laboratories, URP participants attend a Responsible Conduct of Research workshop, which covers ethical issues in biological research. Students are also instructed in laboratory safety.

Current sophomores and juniors are eligible. Applications must be submitted online by January 15.

Online Application

  • All applicants must complete an URP application form with a personal statement online.
  • Faxed, mailed, or emailed applications are not accepted.
  • You may submit your application before the recommendation letters have been uploaded by your referees.
  • Once an application has been submitted, changes cannot be made. Please review your application carefully before submitting.
  • To use the online application system, you must first register as a user. On the main login page, there is a link that says 鈥淣ew User? Register Here鈥 to the right of the 鈥淕o鈥 button. If you do not see this option, make sure your internet browser is up-to-date and/or try a different browser (Chrome, Firefox, Safari). If you continue to experience problems, please contact Embark, the application manager at help@embark.com

Personal Statement

  • Your personal statement is limited to a single page 鈥 approximately 600 words or 3,250 characters (including spaces), single-spaced. You should use a minimum of 1-inch margins.
  • You should ensure that your statement is legible. We would appreciate a minimum of 11-point font, preferably sans serif (such as Helvetica). Other traditional fonts, such as Times New Roman, are also acceptable.
  • Please give a brief description of why you wish to participate in the LaboratoryUndergraduate Research Program. This should include: (i) your career interests, (ii) how the URP can help you achieve your goals, (iii) details of any pertinent research experience, employment, extracurricular activities, and (iv) any other information you believe to be relevant to your application. You may also list 2-3 research mentors you would like to work with in your personal statement.

Dates and Deadlines

  • The deadline for receipt of completed applications, including letters of recommendation, is January 15 at 11:59 pm (23:59) Pacific Standard Time (equivalent to January 16, 07:59 UTC/GMT). Applications will not be reviewed if they are received after the deadline.
  • Recommendation letters will not be accepted after the application deadline. Please make sure your referees are aware of the January 15 deadline when you ask them to write a recommendation. Most referees need at least a month to complete a letter. If your referee has any problems uploading the letter to the online application system, they should contact help@embark.com directly.
  • Notification of application status will be sent by the end of March.

Eligibility

  • Students of any nationality are eligible for the program.
  • Students should have a strong academic background in a science. Although the Program emphasizes the biological sciences, students with engineering, chemistry, computer science, math, or physics backgrounds are also encouraged to apply.
  • Students must be returning to an undergraduate degree program following their URP summer research experience; current sophomores and juniors, or the equivalent, are eligible. Only in exceptional cases will first-year undergraduate students, with prior independent research experience, be considered.
  • Previous laboratory research experience will help your application but is not required.
  • If your academic semester conflicts with the dates of the URP program, you are still eligible to apply. If you are accepted into the Program, we will discuss how your academic schedule can be accommodated. For instance, in past years, some students have arranged with their professors at their home university to take one or more final exam at 藏精阁. But please note that all URP researchers are expected to participate in the program as a single group and must therefore plan to be at Laboratoryduring the dates of the program.

Grades & Transcripts

  • Official transcripts are not required.
  • There is no minimum GPA required. Successful applicants generally have GPAs around 3.5 or higher in their science and math courses.
  • If your GPA is not on a 4.0 scale, then please convert your grade to a 4.0 scale. If your institution does not have a standard scaling, then calculate by dividing your average mark by the maximum possible mark and multiplying by 4.0.

International Applicants

  • Students of any nationality are eligible for the program.
  • TOEFL or IELTS scores are not required for admission to the URP program.
  • If your grades are not based on a 4.0 scale, please note your institution鈥檚 grading scale and the actual class mark you received on the application. Also indicate the best possible mark. For example, if your university scale is 1 to 5, then note your grade as X/5, 1=best.

Recommendation Letters

  • Applicants must arrange for two recommendation letters from professors 鈥 preferably in math or science 鈥 to be submitted online. We do not accept more than two recommendation letters.
  • If you have previous research experience, recommendation letters from professors with whom you have worked in a lab are especially encouraged. Letters from graduate students or postdocs in the lab are less effective.
  • Faxed, mailed, or emailed recommendation letters are not accepted.
  • Your referees will upload their recommendation letters directly to the online application system manager. When you fill in the application, you will submit the email addresses of your referees. Your referees will receive an email with instructions on how to upload their recommendation letter online. Please tell your referee that they will receive an email from the Embark application system so this notification email does not end up in spam.
  • You may submit your application before recommendation letters have been uploaded by your referees.
  • Recommendation letters will not be accepted after the application deadline. Please make sure your referees are aware of the January 15 deadline when you ask them to write a recommendation. Most referees need at least a month to complete a letter. If your referee has any problems uploading the letter to the online application system, they should contact help@embark.com directly.

Stipend

Students receive a stipend of $6,000. Room and board expenses will be partially covered.

Housing Environment

URP participants reside in the cabins on the Laboratorycampus. Each cabin provides housing for 8 individuals, with two single-gender students per room. Also, each room has a full bathroom. All linens, blankets, pillows, and towels are provided, along with full housekeeping services. Two arm chairs and a small table are available in each cabin, and one telephone is available in the common area. The cabins are also equipped with Wi-Fi internet access. All cabins are fully air-conditioned.

Meals are served three times a day, seven days a week in the Blackford Dining Hall. Vegetarian and Vegan options are available at all times and our kitchen will make every effort to accommodate any special needs.

Gym equipment and weights are available in the exercise room located in the lower level of the Dolan Hall. Also, washer and dryer facilities are available in Dolan.

The Laboratory owns canoes and kayaks, available for URP student use. All participants are free to use our tennis and volleyball courts, running and hiking trails, swimming pool and private beach.

Laboratoryholds volleyball tournaments during the summer where different laboratory buildings square off against each other. URP students are invited to join these teams, compete against the graduate students throughout the summer and the faculty at annual URP vs. PI (Principal Investigator/Lab Head) tournament, held at the end of the summer.

What past URP participant(s) said about their summer at 藏精阁.

Amalia Jardiniano, Stillman Laboratory

image of Amalia Jardiniano
Amalia Jardiniano
The Undergraduate Research Program (URP) at Laboratory(藏精阁) is an incredible opportunity to gain research experience, but the gifts of URP do not end there. Laboratoryitself is an amazing campus to be on. I like to call it a village of scientists because its atmosphere beams with curiosity and a passion for science. I believe that even a single day at Laboratorycan be eye-opening, so it was a privilege to have spent an entire summer here. The URP program truly allows you to reap all the resources offered at 藏精阁. You will have the opportunity to hear a plethora of research talks and seminars to expose yourself to new fields, all while conducting a research project of your own. My project this summer involved a lot of gene editing, as I designed and assembled plasmids to tag a protein of interest and create a CRISPR/Cas9 knockout. Working on a project has taught me scientific skills and assays, and what鈥檚 more, it’s shown me what conducting science truly feels like. Having your own brainchild forces you to go with its ups and downs. Navigating the rollercoaster ride of it all is something, I feel, you can only best learn once you have experienced it. Luckily, I was surrounded by people who wanted and still want me to thrive. Dr. Bruce Stillman and the faculty of the School of Biological Sciences (SBS) truly want to see me succeed and grow as a scientist. You can feel that the community has your best interests at heart. Towards the end of the summer, there are workshops about applying to PhD programs. As well as a session to learn about the career options down the line. The support at Laboratorywill follow you through your scientific journey.

Can you believe that there鈥檚 even more to love? During your URP summer, you will be surrounded by a cohort of other young scientists that go through the same ups and downs as you and will be peers you can lean on. The science community is smaller than you may think. Although we are all undergraduate students this summer, in due time, maybe we will all be principal investigators looking to collaborate with one another. Until then, I will happily go on more city trips, play more volleyball, watch more movies, frolic more in Huntington Village, and, of course, eat more family dinners at Blackford. This has become an ode to my fellow 2024 URPies, but it is all to say that my time at Laboratoryas an URP has been unforgettable, and I will cherish it forever.

Catherine Rasgaitis, Hou Laboratory

image of Catherine Rasgaitis
Catherine Rasgaitis
Being a part of the Undergraduate Research Program (URP) at the Laboratory(藏精阁) was nothing short of extraordinary. I had an incredible experience working in the Hou Lab, which studies the neural control of facial behavior and physiology in mice. As part of my project, I built a novel computational tool for working with three-dimensional models of the mouse face alongside corresponding neural recordings.

Beyond the exciting research, the work-life balance at Laboratorywas exceptional, with ample opportunities to connect with my fellow URP students and enjoy the beautiful campus surroundings. I went to the beach almost every other day to go swimming, kayaking, or paddle boarding (highly recommend!). I also loved playing volleyball in the evenings and taking the train to explore New York City on the weekends.

As the program comes to an end, I know I’ll deeply miss my lab mates and fellow URP students, but the friendships and memories I’ve made will stay with me forever. I鈥檓 incredibly proud of everything we鈥檝e achieved in these nine weeks, and I can鈥檛 wait to see where life takes us as LaboratoryURP alumni.

Julianna Rose, Jackson Laboratory

image of Julianna Rose
Julianna Rose
The URP program at Cold Spring Harbor has been invaluable for me as it provided me with the opportunity to truly learn, both about the project I was working on and the day-to-day life of a research scientist. While I had some molecular bio lab experience prior to this program, my foundation was not as solid as I would have liked it to be. My mentor, Dr. Nandha Shanmugaraj, was incredibly helpful, leading me through each procedure, answering my questions, and explaining why we were performing specific techniques for our project. My PI, Dr. David Jackson, was also very supportive, setting up meetings with me for us to discuss the work I was doing and gain advice about presenting my findings in the preliminary talk and final symposium. The other members of my lab were all very welcoming, helping me get acquainted with and feel comfortable in the lab.

With my project, I was able to spend time both in the lab and at Uplands Farm, seeing the interplay between field work and lab work. This application was incredibly helpful to see, as I had always thought I had to choose one or the other, but this project allowed me to broaden my horizons as a plant science student. I loved how applicable my project was, as my research was highly aligned with my interest in plant adaptations to climate change related stressors. Additionally, I was lucky enough to be in the lab at the same time as the plant biology course鈥攎y PI encouraged me to attend the lectures when I had time. This was a wonderful opportunity to hear presentations from experts in the field, and I was glad to be able to take advantage of this unique opportunity at 藏精阁. (There are many other courses hosted at the lab over the summer apart from the plant course, and many of the URPs were able to take advantage of this, which was amazing.)

The experience of giving a scientific talk to the CSH community was also a valuable, albeit nerve-wracking, part of this experience. I feel that my skills in putting together a scientific presentation were greatly improved and I was able to learn from my fellow URPs when they presented their preliminary talks and results, which I loved. Overall, the URP program was a wonderful experience that allowed me to grow as a researcher and a learner and I would highly recommend this program.

Nicholas Schiller, Westcott Laboratory

image of 2024 LaboratoryURP Nicholas Schiller
Nicholas Schiller
I鈥檓 truly grateful to have spent the summer participating in the Undergraduate Research
Program at 藏精阁. I was fortunate to have the chance to study the early progression of colon cancer in Dr. Peter Westcott鈥檚 Lab. Peter regularly met with me to help me understand my project and guide my progress. He assigned me two mentors, Yihan Qin and Alex Cicala, who taught me cell culture techniques and helped me contribute to the lab鈥檚 research. I鈥檓 very thankful for the time and attention my mentors gave me. With their help, I feel I made a small but meaningful impact to the lab鈥檚 progress in the fight against colon cancer.

In addition to research, URP provides excellent opportunities to grow as a scientist. I attended weekly talks where Laboratoryscientists presented fascinating research. I learned about grad school and careers in science from the fantastic Grad School Team. I even got to practice giving talks, which was a critical part of my experience. Preparing my talks significantly improved my understanding of my research.

But maybe the best part of URP is the friendly, summer camp style environment. My fellow URPies and I lived in cabins together, got regular meals, and played lots of volleyball. I made a lot of nice memories, and I hope to stay close with my fellow URPies! URP gave us a wonderful summer experience.

Deasia Valdemar, Pouchelon Laboratory

image of Deasia Valdemar
Deasia Valdemar
The Undergraduate Research Program was an incredibly enriching experience. As an URP, I had the opportunity to work in the Pouchelon lab, where I was immersed in an environment that fostered both personal and professional growth. Working in a collaborative environment allowed me to develop a greater understanding of neurodevelopmental disorders and neural connectivity within the brain. During my time here, I was able to engage with other students, and explore other realms of research by attending talks where I learned about other scientists projects outside of my research focus. Overall, this was a valuable experience, and reaffirmed my passion for research and provided me with valuable insights and connections that will be beneficial as I continue my academic and career journey.

Miriam Van de Water, Banaerjee Laborarory

image of Miriam Van de Water
Miriam Van de Water
My time at Laboratorywas transformative, challenging, and incredibly rewarding. As a part of the Banerjee Lab I delved into an exciting project using a variational autoencoder to explore singing mouse vocalizations. This was extremely difficult for me as I had a scant background in coding. But, nine weeks later, I had a successfully trained model with promising implications for future research. However, I could not have done it without the guidance of both my PI, Arka Banerjee, graduate student mentor, Mike Zheng, and rest of the lab! Beyond learning tons about machine learning in the lab, I attended lectures that broadened my knowledge on topics like dynamical systems, single cell genomics, and imaging techniques. Even beyond learning about science at all, I learned things like what a lab working cohesively looks like, the proper balance of work and me-time, and that any future lab I work on needs a Nespresso!

If I could convey my summer at Laboratoryas a mathematical equation it would look something like this: URP = high caliber research + summer camp. It is truly an experience like no other. You are steeped in science everywhere from the lab to the lunch line to the sculptures that dot the campus. Yet, there are endless opportunities to have fun when you need a break鈥攎y volleyball skills improved almost as much as my coding knowledge! I am so blessed to have been granted this summer of intense learning, scientific discovery, and personal growth.

Jordan Walter, Albeanu Laborarory

image of Jordan Walter
Jordan Walter
My time at Cold Spring harbor in the Albeanu lab was a transformational experience. I was surrounded every day by a community of individuals鈥撯揻rom PIs to lab techs to mentors to visiting guests鈥撯搘ho approached the world with a type of genuine, collaborative curiosity that was inspiring to be around. Everybody, from the people in my lab to people in the lunch line at Blackford, are passionate about both teaching others and learning from those around them.

I came into my summer at Cold Spring without much background in large-data computational neuroscience. This summer presented me with a very steep learning curve, but I felt supported in my work by lab members and through all of the resources the program provided me outside the lab. We had a coding course where we learned about different quantitative analytical techniques, and various guest lecturers throughout the summer that exposed us to new areas of research. In the lab, I worked with single cell datasets, sub-clustering and categorizing them to determine neural subtype identity in the olfactory bulb of mice. We hope that this research will elucidate neural connectivity patterns to higher cortical areas of the olfactory bulb and answer questions regarding the presence of an inherent structure in the olfactory system.

2023 and earlier Student Perspectives

Since 1959, the URP Program has been offering undergraduate students a unique opportunity to study with 藏精阁鈥檚 renowned scientists. Some of our notable alumni include Nobel laureate Dr. David Baltimore (California Institute of Technology), Dr. Gerry Rubin (HHMI, Janelia Farm Research Campus), Dr. Alfred Goldberg (Harvard Medical School), Dr. Geraldine Seydoux (Johns Hopkins), and Dr. Charles Gilbert (Rockefeller University), among many others.

image of the 2024 Undergraduate Research Participants in front of the Laboratorygazebo
The LaboratoryUndergraduate Research Program (URP) participants, Summer 2024

Previous alumni by year

2024 | 2023聽 | 聽2022聽 | 聽2021聽 | 聽2019聽 | 聽2018聽 | 聽2017聽 | 聽2016聽 | 聽2015聽 | 聽2014聽 | 聽2013聽 | 聽2012聽 | 聽2011聽 | 聽2010聽 | 聽2009聽 | 聽2008聽 | 聽2007聽 | 聽2006聽 | 聽2005聽 | 聽2004聽 | 聽2003聽 | 聽2002聽 | 聽2001聽 | 聽2000

All URP Alumni PDF icon

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NSF Sponsored REU in Bioinformatics and Computational Neuroscience

藏精阁鈥檚 REU program in Bioinformatics and Computational Neuroscience was supported by the NSF 2005 鈥 2014 and 2016 鈥 present.

The technological advances in this century open a new realm of biological questions that can be addressed experimentally. Large genomic sequence or image datasets are routinely and quickly acquired, but the resources and expertise to analyze this data present a challenge to researchers. 藏精阁鈥檚 unique NSF REU program in Bioinformatics and Computational Neuroscience addresses this need by providing early training to undergraduate students who might not otherwise pursue quantitative approaches. 藏精阁鈥檚 URP/REU students learn theory and techniques from an applied perspective, investigating an important biological problem rather than from the abstract perspective of computer science. Students are mentored by expert Laboratoryresearchers, who combine biology, information theory and sophisticated computational techniques to address questions at the frontiers of modern genomics, bioinformatics, and neuroscience. In the past ten years, 藏精阁鈥檚 URP/REU program has recruited and trained a diverse group of students, many of whom are still working in bioinformatics or computational fields. Almost all URP/REU participants have continued in scientific careers and/or advanced degree programs at competitive institutions. The program provides students with a modern quantitative biology training program that aims to inspire young scientists to become active participants in modern biological research with its demands for quantitative and computational skills.

Prospective REU Project Mentors

  • Dinu F. Albeanu 鈥 Neuronal circuits; sensory coding and synaptic plasticity; neuronal correlates of behavior; olfactory processing
  • Arkarup Banerjee 鈥 Vocal communication, singing mice, systems neuroscience, neural circuits, neuroethology
  • Jeremy Borniger 鈥 Sleep, neuromodulators, cancer neuroscience, homeostasis, host-tumor physiology
  • Lucas Cheadle 鈥 Synapse, refinement, pruning, sensory experience, microglia, development, autism, 2-photon imaging, single-cell RNA-sequencing, cytokine
  • Benjamin Cowley 鈥 computational neuroscience; closed-loop experiments; interpretable models; deep neural network models; machine learning
  • Alexander Dobin 鈥 Computational genomics; transcriptomics; epigenomics; gene regulation; big data; precision medicine
  • Hiro Furukawa 鈥 Membrane proteins; x-ray crystallography; electrophysiology
  • Thomas Gingeras 鈥 Genome-wide organization of transcription and the functional roles of non-protein coding RNAs
  • Helen Hou 鈥 neural circuits; natural behaviors; brain-body interaction; electrophysiology; movement control; neural computation
  • Ivan Iossifov 鈥 Computational biology; molecular networks; human genetics; human disease; applied statistical and machine learning; biomedical text-mining; molecular evolution
  • David Jackson 鈥 Plant development; stem cell signaling; genomics and imaging
  • Leemor Joshua-Tor鈥 Structural biology; nucleic acid regulation; RNAi
  • Justin Kinney 鈥 Sequence-function relationships; biophysics; deep sequencing; machine learning; transcriptional regulation; DNA replication
  • Peter Koo 鈥 Sequence-function relationships, deep learning, representation learning
  • Alexei Koulakov 鈥 Theoretical neurobiology; quantitative principles of cortical design; computer science; applied mathematics
  • Alexander Krasnitz 鈥 Genomics of cancer; machine learning for biology; inference from noisy biological data; large-scale numerical computing.
  • Zachary Lippman 鈥 Plant development, genetics; molecular mechanisms of phase transitions for flowering time and inflorescence branching; heterosis
  • Rob Martienssen 鈥 Epigenetics; DNA methylation; chromatin and chromosome biology; transposable elements; RNA interference; stem cells; germline specification; plant genomics; plant evolution; aquatic plants
  • David McCandlish 鈥 Computational biology; sequence-function relationships; population genetics; protein evolution; machine learning
  • W. Richard McCombie 鈥 Genomics of psychiatric disorders; genomics of cancer; computational genomics; plant genomics
  • Hannah Meyer 鈥 spatial transcriptomics; immunology; central tolerance; bioinformatics
  • Partha P. Mitra 鈥 Neuroinformatics; theoretical engineering; animal communications; neural prostheses; brain mapping; developmental linguistics
  • Saket Navlakha 鈥 Algorithms in nature, biological computation, neural circuits, plant architectures
  • Ullas Pedmale 鈥 Plant growth; signaling; genomics; development; plant-environment interactions
  • Gabrielle Pouchelon 鈥 neural circuits; development; gene regulation; synaptic refinement; plasticity; neurodevelopmental disorders
  • Stephen Shea 鈥 Olfaction, audition, communication behaviors, in vivo electrophysiology, individual recognition
  • Adam Siepel 鈥 Biological statistics; population genomics; evolution; transcriptional regulation
  • David L. Spector 鈥 Cell biology; gene expression; nuclear structure; microscopy
  • Jessica Tollkuhn 鈥 Transcriptional regulation, chromatin, critical periods in neurodevelopment, steroid hormones and behavior
  • Doreen Ware 鈥 Computational biology; comparative genomics; genome evolution; diversity; gene regulation; plant biology
  • Michael Wigler 鈥 Human genetic disorders; population genetics; cancer genomics
  • Anthony Zador 鈥 Cortical mechanisms of auditory attention; neural computation; connectomics

Eligibility

All URP participants may take part in the Bioinformatics and Computational Neuroscience program. NSF-supported REU participants are selected from among the URP participants. Students supported by NSF must be citizens or permanent residents of the United States or its possessions. If you are interested in bioinformatics and computational neuroscience, including research in any of the labs listed above, but are not a US citizen or permanent resident, you are eligible for the program through sponsorship from non-restricted URP fellowships.

As for all URP participants, NSF-supported students must be currently enrolled as undergraduates. An undergraduate student is a student who is enrolled in a degree program (part-time or full-time) leading to a baccalaureate or associate degree. Students who will have graduated before the program starts in June are not eligible.

Participants must be 鈥渞eturning to an undergraduate program鈥 after the summer REU program. (See ).

REU Program Alumni