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Research / Core Facilities

College of Medicine Research Core Facilities

The UC College of Medicine houses several research core facilities designated as core service centers. These facilities exist within multiple departments but are collectively supported by the College of Medicine Office of Research through the Associate Dean for Research Core Facilities: Ken Greis, PhD. (ken.greis@uc.edu; Tel: 513-558-7102).

The service center designation signifies the rates charged by each of these facilities have been reviewed and approved by the UC Government Cost Compliance Office; thus, the service fees can be charged to federal grants and contracts. Details related to the services offered and the internal rates for each of the cores are provided below. Since these rates are substantially subsidized by the University, external investigators should contact individual core directors to get a rate quote.

Resources to offset some of the cost of the core services may be available through a variety of centers and institutes across UC depending on an investigator’s affiliation. Information for support from the CCTST is provided here:

UC invesitgators also hvae full access to shared resource cores at Cincinnati Children's Hospital. Details are provided here:

We have recently transitioned our core facilities booking and management to the PPMS system from Stratocore. To book and access services from the core facilities, please log in or create an account in Stratocore via:

My PPMS Dashboard

Stratocore Account Creation Guides:

Center for Advanced Structural Biology (CASB)

To access services from the CASB, please login or create an account in Stratocore at https://ppms.us/uc/start/

Overview:
Established in July 2022, the UC Center for Advanced Structural Biology (CASB) is integrating the latest technology in single-particle cryogenic electron microscopy (cryo-EM).  This technology has revolutionized structural biology, emerging as the leading method in macromolecular structure determination to visualize large protein assemblies of unprecedented size and complexity, many of which are intractable by conventional NMR and X-ray crystallography methods.  Through the support of institutional Research2030 funds, the first phase of equipment, a Thermo Talos L120C Transmission Electron Microscope (TEM) that can be operated at both ambient and cryogenic temperatures and is ideally suited for imaging negatively stained samples and screening cryo-EM samples, became available in July 2022 along with the TFS Mark IV Vitrobot system for sample preparation.  Details of both systems are provided in the equipment section. 
 
For Phase 2, the CASB applied for and was awarded a Shared Instrumentation Grant (S10OD030388) from the high-end instrumentation (HEI) program from the National Institutes of Health (NIH).  The S10 funding along with additional matching institutional funds ($3.7M total) led to the purchase and installation of a Thermo Glacios 200 kV cryogenic TEM equipped with both a Ceta-16M camera and a TFS Falcon 4 direct electron detector, in addition to a Selectris Energy Filter. This system was installed in the Fall of 2023 and it is able to generate images for atomic resolution structures for single particle analysis projects. The Glacios also includees software for micro-Electron Diffraction data set collection.
 
Services Available:

  • Training and access to the Mark IV Vitrobot plunge freezer
  • Training and access to the Talos L120C TEM system
  • Training and access to the Glacios 200 kV cryogenic TEM system
  • Assisted TEM analysis by CASB personnel (inquiry required)
Location & Hours:
The CASB is located on the ground level of the Medical Sciences building in rooms G056-G060.  The Facility Manager is available Monday - Friday, 9:00am - 5:00pm or by appointment.

Cryo-EM in the news:
UC commits to investment in Cryo-EM technology. June 30, 2022
 
UC Scientists are excited to deep-freeze molecules. July 18, 2022
 
UC hosts world renowned structural biologists for Grand Opening Cryo-EM symposium.  September 7, 2023
 
UC College of Medicine opens the Center for Advanced Structural Biology featuring Cryo-EM. September 18, 2023
 

Acknowledgement

For manuscripts, please include the following statements or consult with the facility manager regarding authorship:

  • Cryogenic TEM data were collected in the UC Center for Advanced Structural Biology (CASB; RRID:SCR_025796) under the direction of Desirée Benefield, PhD, on instrumentation supported by UC Reseach2030, JobsOhio and an NIH High End Instrumentation grant (S10OD030388).

Grant Information

A general NIH description of facilities and equipment for this core may be accessed with this link - CASB NIH Summary May 2024; however, it is highly recommended that you discuss your specific core needs with the core director or manager while preparing the grant application since they can likely provide tailored information regarding their capabilities to enhance your application.

 

ServiceCost
Talos L120C TEM system (unassisted) per hour
$40
Talos L120C TEM system (assisted) per hour
$80 - $110
Glacios 200 kV TEM system (unassisted) per hour
$70
Glacios 200 kV TEM system (Assisted) per hour
$140
Vitrobot sample preparation (unassisted) per hour
$25
Vitrobot sample preparation (assisted) per hour
$95
Negative Stain Bench (unassisted) per hour
$20
Negative Stain Bench (assisted) per hour
$90
Personnel Time per hour
$40 - $70
External rates vary so please inquire with the Facilities Manager.
TBD
Negatively stained GroEL protein.

GroEL is a bacterial chaperone protein and is required for the correct folding of many proteins. It consists out of two barrel shaped heptamer rings, the subunits are 58-kDa and identical. Cryo-TEM has been used to investigate the mechanism by which it works. This image was acquired on the Talos at 120kV.

Mitochondria in cell

Mitochondria generate much of the chemical energy used by a cell. They are cell organelles with a double membrane, an outer membrane and a distinctively folded inner membrane which increases the surface area on which chemical reaction can occur. This image has been acquired on the Talos at 80kV.

Talos L120C TEM system:

The Talos transmission electron microscope offers the ability to screen samples with high contrast and high sensitivity. Specifications include: 0.204nm Line resolution and <0.37nm point resolution. This system is housed in MSB G056 and will be used for negative stain imaging and for cryo-EM sample screening. It is also available for imaging of traditional TEM samples. 

The Talos is equipped with a Gatan Elsa (698) side-entry cryo-holder for imaging cryo-EM samples.

Mark IV Vitrobot:

This system allows for reproducible vitrification of biological samples for cryo-EM analysis. Vitrification results from a rapid-freezing method that forms transparent, amorphous ice without damaging the biological samples. The Vitrobot interface offers control over temperature, humidity and other grid blotting settings allowing for reproducible sample freezing conditiions.

Glacios 200 kV cyogenic TEM:

Glacios 200 kV cryogenic TEM equipped with both a Ceta-16M camera and a TFS Falcon 4 direct electron detector, in addition to a Selectris Energy Filter. This system will has the potential for solving atomic resolution structures for Single Particle Analysis projects.

ThermoFisher

negative staining workbench

A Negative Stain bench provides all the materials needed for the safe handling, preparation, and disposal of uranyl-salt solutions and other materials for negative staining. 

Time for using it can get reserved on the Stratocore website for the core. 

How to get started and what proteins can get imaged?

How do I get started on a project?
Information for new users.

Stratocore:
PPMS is a core facility management software provided by Stratocore. The CASB facility uses it for scheduling, billing and project management. If you or your PI do not yet have a Stratocore account you will need to establish one. Navigate to the entry portal: https://med.uc.edu/research/core for directions for requesting an account.
Please note that Cincinnati Children's also uses Stratocore software, but that account information is not shared between Children’s and UC. You will need an account at UC.
Starting New Projects:
Please initiate all new projects by contacting the staff to ask for a project consultation. The consultation request can be made by anyone but should always be done with the approval of the PI(s) involved in the proposed work. After contacting the facility for a consultation, you will be asked to fill out and return a short questionnaire detailing sample information and your imaging goals. A consultation meeting will be scheduled after the completed questionnaire has been received and reviewed. In most cases, the staff will simply arrange a face-to-face meeting with the person who made the request. This meeting should involve all lab personnel who will be involved in the project. The purpose of such a meeting is to establish details (including the potential costs, the state of the sample(s) to be examined, expectations for the project's time-to-completion (including possible benchmarks along the way) and involvement of the staff versus lab personnel (for example, specific roles of the staff about providing advice, training, imaging and/or data analysis). There is never a fee for staff time spent in such meetings.
Before work on the project can begin, a PI will need to authorize the facility to use a specific account usually through Statocore (Cincinnati Children’s researchers need to provide a contact person who can provide a PO for services rendered.)
_______________________________________________________

What Proteins are suitable targets for cryo electron microscopy?

While X-ray crystallography and NMR continue to be valuable techniques for solving atomic structures, cryo-EM is rapidly becoming the method of choice for structural biologists who seek to study complex molecular machines or challenging targets such as membrane proteins.
Single particle analysis (SPA) is a popular method for characterizing the molecular organization of biological samples. SPA is fundamentally an averaging technique, where thousands of low-signal/high-noise images from similar views/orientations are sorted into class averages to improve signal to noise ratio. Anything that decreases similarity like different conformations of the protein increases the number of particles needed for imaging and analysis.

Factors which affect the difficulty of the task:
Protein size: While proteins as small as ~50kDa have been determined by cryo-EM, these represent extremely challenging targets. Proteins above 200kDa are considered more promising targets. To obtain a structure, images of the particles must be aligned to each other accurately. This can be difficult to do with small proteins. Larger targets with more features are easier to identify and easier to align during reconstruction. Distinct features of a protein will make the analysis easier.
Flexibility: While proteins with different conformations can be analyzed, this will require a minimum number of particles to be analyzed for each conformation.
Purity: proteins need to be >99% pure for analysis and their transient or permanent modifications should be minimal. Several microliters of a prote

Sharma, M; Sheth, M; Poling, HM; Kuhnell, D; Langevin, SM; Esfandiari, L. Rapid purification and multiparametric characterization of circulating small extracellular vesicles utilizing a label-free lab-on-a-chip device. (2023) SCIENTIFIC REPORTS. 13(1):18293 PMC10600140

Chutipongtanate S, Cetinkaya H, Zhang X, Kuhnell D, Benefield D, Haffey W, Wyder M, Patel R, Conrey SC, Burrell AR, Langevin S, Nommsen-Rivers L, Newburg DS, Greis KD, Staat MA, Morrow AL. Prenatal SARS-CoV-2 infection alters postpartum human milk-derived extracellular vesicles. (2023) bioRxiv. PMC10312504

Chimote, AA; Lehn, MA; Bhati, J; Mascia, AE; Sertorio, M; Lamba, MA; Ionascu, D; Tang, AL; Langevin, SM; Khodoun, MV; Wise-Draper, TM; Conforti, L. Proton Treatment Suppresses Exosome Production in Head and Neck Squamous Cell Carcinoma. (2024). CANCERS(Basal) 16(5):1008 PMC10931005

Location

Medical Sciences Building
231 Albert Sabin Way, Room G056-060
Cincinnati
45267

Hours

Monday - Friday, 8:00am - 5:00pm, or by Appointment

Contact Information

Intranet Login

Contact Us

University of Cincinnati
College of Medicine

CARE/Crawley Building
Suite E-870
3230 Eden Avenue
PO Box 670555
Cincinnati, OH 45267-0555

Mail Location: 0555
Phone: 513-558-7333
Fax: 513-558-3512
Email: College of Medicine