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Selected publications for Anastasia Sacharidou, Ph.D.

Harold C. Simmons Comprehensive Cancer Center Bioinformatics Data Science Shared Resource Data Science Collaboration Agreement SCCC-DSSR This agreement is between the DSSR user named below and the Director of SCCC-DSSR, Professor Jeon Lee. By signing this document, user acknowledges and agrees to the conditions listed below. DSSR collaborator (Full Name

Read more Wakeland Lab's research

Harold C. Simmons Comprehensive Cancer Center Bioinformatics Data Science Shared Resource Data Science On-Demand User Agreement SCCC-DSSR This agreement is between the DSSR client named below and the Director of SCCC-DSSR, Professor Jeon Lee. By signing this document, user acknowledges and agrees to the conditions listed below. DSSR client (Full Name

Smith Lab Publications

User manual for TYGRESS Tomography-Guided 3D Reconstruction of Subcellular Structures (TYGRESS) is a hybrid method, which combines the advantageous features of both single particle cryo-EM and cryo-ET/subtomogram averaging to provide high-resolution structures of macromolecular complexes within their native, cellular environment. In this method, one typical single particle cryo-EM micrograph is acquired (i.e., with an electron dose that is higher than for individual tilt series

Meet the Smith Lab team.

Original Article Creating a Comprehensive Research Platform for Surgical Technique and Operative Outcome in Primary Brain Tumor Neurosurgery Alexander Winkler-Schwartz1, Recai Yilmaz1, Dan Huy Tran1, Houssem-Eddine Gueziri3, Binbin Ying2, Marius Tuznik4, Vladimir Fonov3, Louis Collins3, David A. Rudko4-6, Jianyu Li2, Patricia Debergue7, Valerie Pazos7, Rolando Del Maestro1 -BACKGROUND: The operative environment poses many challenges to studying the relationship between surgical acts and patient

Primarily located in the Advanced Imaging Research Center the Corbin Lab routinely utilizes state-of-the–art small animal imaging systems (MRI, micro-MRI, Optical, micro-CT/SPECT/PET) to characterize rodent models of disease.

Evaluation of dry textile electrodes for long‑term electrocardiographic monitoring Milad Alizadeh‑Meghrazi1,2,8*  , Binbin Ying3,8, Alessandra Schlums4,8, Emily Lam2,8, Ladan Eskandarian5,8, Farhana Abbas6,8, Gurjant Sidhu7,8, Amin Mahnam8, Bastien Moineau8 and Milos R. Popovic1,2  Background Biopotentials or electrophysiological signals are widely utilized in health monitoring and diagnostics. For example, through electrocardiography (ECG), cardiac activity is recorded and information