about
Epitope insertion at the N-terminal molecular switch of the rabbit hemorrhagic disease virus T = 3 capsid protein leads to larger T = 4 capsids.The Electron Microscopy eXchange (EMX) initiative.Cryo-EM and the elucidation of new macromolecular structures: Random Conical Tilt revisited.Correlation of topographic surface and volume data from three-dimensional electron microscopy.Transfer function restoration in 3D electron microscopy via iterative data refinement.Three-dimensional reconstruction methods in Single Particle Analysis from transmission electron microscopy data.Classification of single-projection reconstructions for cryo-electron microscopy data of icosahedral viruses.Maximum-likelihood multi-reference refinement for electron microscopy images.Image processing for electron microscopy single-particle analysis using XMIPP.Volumetric restrictions in single particle 3DEM reconstruction.A clustering approach to multireference alignment of single-particle projections in electron microscopyA theoretical model for EM-ML reconstruction algorithms applied to rotating PET scanners.FASTDEF: fast defocus and astigmatism estimation for high-throughput transmission electron microscopy.Xmipp 3.0: an improved software suite for image processing in electron microscopy.3D cryo-electron reconstruction of BmrA, a bacterial multidrug ABC transporter in an inward-facing conformation and in a lipidic environment.MRC2014: Extensions to the MRC format header for electron cryo-microscopy and tomography.CTF Challenge: Result summary.Measurement of the modulation transfer function of an X-ray microscope based on multiple Fourier orders analysis of a Siemens star.A fast iterative convolution weighting approach for gridding-based direct Fourier three-dimensional reconstruction with correction for the contrast transfer function.Characterization of transfer function, resolution and depth of field of a soft X-ray microscope applied to tomography enhancement by Wiener deconvolution.Particle alignment reliability in single particle electron cryomicroscopy: a general approachStructure and uncoating of immature adenovirus.Automatic particle selection from electron micrographs using machine learning techniquesIterative reconstruction for pet scanners with continuous scintillators.System models for PET statistical iterative reconstruction: A review.A review of resolution measures and related aspects in 3D Electron Microscopy.Structures of Adenovirus Incomplete Particles Clarify Capsid Architecture and Show Maturation Changes of Packaging Protein L1 52/55k.Alignment of direct detection device micrographs using a robust Optical Flow approach.A statistical approach to the initial volume problem in Single Particle Analysis by Electron Microscopy.Efficient initial volume determination from electron microscopy images of single particles.Localization of the N-terminus of minor coat protein IIIa in the adenovirus capsid.Semiautomatic, high-throughput, high-resolution protocol for three-dimensional reconstruction of single particles in electron microscopy.Proposal for a new distributed database of macromolecular and subcellular structures from different areas of microscopy.Fast and automatic identification of particle tilt pairs based on Delaunay triangulation.Scipion: A software framework toward integration, reproducibility and validation in 3D electron microscopy.Local analysis of strains and rotations for macromolecular electron microscopy maps.3-d reconstruction of 2-D crystals in real space.Non-rigid consistent registration of 2D image sequences.On the nature of 2D crystal unbending.3D reconstruction in electron microscopy using ART with smooth spherically symmetric volume elements (blobs).
P50
Q27678422-768792C2-C643-4813-818A-10552ACCD3E2Q28596538-2B1C81A3-884F-4F3A-8838-82863DFF5134Q30665865-5209E270-80DA-4E83-949D-468A872E2CC4Q30675693-83B95225-E532-4CB8-8B55-4E67B98E03ACQ30910287-951CD144-A3BB-4DA6-849F-CDB91B5C2DCFQ30958297-40B7EC2B-E99D-421D-900E-08B42A2009F3Q30990881-9CCA963B-45C0-41DC-B0D8-F5B19C96440AQ33213664-C70F789C-6F03-4006-A8CA-867934568083Q33341061-4900498B-0BE4-4DE2-941E-F079A2A7E137Q33527925-27ACF256-E95D-4BE0-94BD-E4F7025B1ED3Q33548939-F9218398-2B0A-47CE-A6A1-C32AAC7DDFA2Q33587797-ECE1B487-9E5E-4329-9693-AC8284CDE011Q34520587-6F3F7454-E674-4D0E-82A8-6EFBB9E6A9CCQ35001639-39886EBA-A321-47F8-981E-5235D40979D2Q35121168-FA43E893-3C02-4493-BD57-C69665FD4DBAQ35604792-30B13CFE-18EF-4F8D-B64B-EF5B21C4DBB2Q35614801-2D3F18E1-7EF6-4746-A5F4-21E48FDC1CC5Q35629688-865FBB29-F83B-4D6E-82A8-E90F5DC24C73Q35669673-CC6BC0DF-B824-499A-9B50-AB689D31FEBEQ36233200-77124D24-EB39-4FFD-A620-F61417D7ADA0Q36602408-950A615B-6897-4120-BA75-AD92E3C6B623Q37357902-5C149E55-F654-49A9-9B64-CFEECC1A4327Q37421700-07C0CF16-1FD5-491B-9C7A-608B5C4ADB36Q38688423-D9001F8A-42FD-48FA-9087-28DD4428C634Q38691087-DF81B511-FD2A-44AF-961D-569A3161D2FAQ38964183-424E4D6C-401F-4C22-A711-C3255D3D4CF1Q41106405-00024FC5-2EC1-47BA-8CC6-28D9FB3548C4Q41436560-8A51911B-5894-442C-BF8B-A18021E96EA2Q41502737-3826DB78-787E-4826-A86E-65920D241674Q41608025-4FE69F40-D6F3-4A02-BFAE-DDC9B7F7458FQ42010270-DE3899E8-F276-4D72-9954-B525712FC7DAQ44643307-3D86692F-55FF-405A-9DEE-E8750E5A1B15Q50108698-0F3C2DA3-B075-4378-8B19-D64105A7B5BEQ50558437-8B5EE111-B761-4C78-8385-303F223E3CA1Q50660224-8721675C-7703-4ADE-BBF9-0221C37DCF6FQ50661517-FF43F6CC-649D-41D2-BEC5-972CC36D008AQ51613936-63BF5C44-5ECC-4E10-9957-61A3FE8C4005Q51652609-63DFC179-8AFE-4E66-B553-4970B35FA498Q51932873-8CF8165E-A99A-470F-A777-D1C30CA5354FQ52244656-FB1C6F20-50CA-40A8-9B72-42CA154DE57E
P50
description
hulumtues
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Roberto Marabini
@ast
Roberto Marabini
@en
Roberto Marabini
@es
Roberto Marabini
@nl
Roberto Marabini
@sl
type
label
Roberto Marabini
@ast
Roberto Marabini
@en
Roberto Marabini
@es
Roberto Marabini
@nl
Roberto Marabini
@sl
prefLabel
Roberto Marabini
@ast
Roberto Marabini
@en
Roberto Marabini
@es
Roberto Marabini
@nl
Roberto Marabini
@sl
P1053
B-6141-2014
P106
P1153
6603866739
P21
P2456
P31
P3829
P496
0000-0001-7876-1684