P185
The Open Microscopy Environment (OME) Data Model and XML file: open tools for informatics and quantitative analysis in biological imaging.A role for the Adenomatous Polyposis Coli protein in chromosome segregationHuman CLASP1 is an outer kinetochore component that regulates spindle microtubule dynamicsAurora B regulates MCAK at the mitotic centromereUbiquitylation-dependent localization of PLK1 in mitosisHow to be a mitotic chromosomeOptimisation of the two-dimensional gel electrophoresis protocol using the Taguchi approachChemical approaches to understanding biological mechanismsDynamics of the nucleusNuclear dynamics: where genes are and how they got there.Characterization of nuclear polyadenylated RNA-binding proteins in Saccharomyces cerevisiae.Actin-dependent localization of an RNA encoding a cell-fate determinant in yeast.Informatics and quantitative analysis in biological imagingBioimage informatics for experimental biologyOMERO: flexible, model-driven data management for experimental biologyKinetochore alignment within the metaphase plate is regulated by centromere stiffness and microtubule depolymerasesSds22 regulates aurora B activity and microtubule-kinetochore interactions at mitosisPHD1 links cell-cycle progression to oxygen sensing through hydroxylation of the centrosomal protein Cep192Bod1 regulates protein phosphatase 2A at mitotic kinetochoresMetadata management for high content screening in OMEROPublishing and sharing multi-dimensional image data with OMEROMinimum information specification for in situ hybridization and immunohistochemistry experiments (MISFISHIE)Open source bioimage informatics for cell biologyMetadata matters: access to image data in the real worldc-Src enhances the spreading of src-/- fibroblasts on fibronectin by a kinase-independent mechanism.Association of the amino-terminal half of c-Src with focal adhesions alters their properties and is regulated by phosphorylation of tyrosine 527.Advanced hardware and software tools for fast multidimensional imaging of living cellsAn open data ecosystem for cell migration research.Phosphorylated DegU manipulates cell fate differentiation in the Bacillus subtilis biofilmData management challenges in three-dimensional EM.Web-based visualisation and analysis of 3D electron-microscopy data from EMDB and PDB.Ubiquitin Receptor Protein UBASH3B Drives Aurora B Recruitment to Mitotic Microtubules.A workingperson's guide to deconvolution in light microscopy.Measuring tubulin content in Toxoplasma gondii: a comparison of laser-scanning confocal and wide-field fluorescence microscopy.To 5D and beyond: quantitative fluorescence microscopy in the postgenomic era.Modelling data across labs, genomes, space and time.Open tools for storage and management of quantitative image data.Three-dimensional multiple-wavelength fluorescence microscopy for the structural analysis of biological phenomena.Quantitative analysis of digital microscope images.Building a scientific data grid with DiGS.
P50
Q21184162-FAFC3DFA-B2FB-4988-AFCE-D443576A6E45Q24291074-83F0C7BD-1622-420D-B6CE-F4F09AC8731DQ24306616-ED9DFA94-85A0-45A4-8E43-EFE65B3E43A7Q24307822-80DB194E-C087-47DA-A6B0-15D18B6D260FQ24322683-D00F0116-A330-4F08-BBCE-5C5938830BA7Q24613913-A3822159-3480-45A5-83C4-9357DD7FD9C3Q24794103-9420E1E6-439D-487D-B7FE-2BE01AF787F6Q24804082-15E10C6D-ACC5-4E6A-8A9C-815EA22C6C25Q24804101-065C5619-0464-4962-A49F-92A6618821F4Q24805222-4DA3B105-C744-4666-9854-E059CB550DB3Q27939401-AE02CA75-9185-4A2B-B184-1A932E39C529Q27939756-930571F3-153F-46F6-84BA-CFB651222021Q28188875-3CEED6EE-CBC5-40D0-99F0-7DFA67005305Q28243771-B3027AF8-DC9C-41CA-8D22-E5C55EF2F4ADQ28260901-0400E3C4-CB66-4695-A780-30CDC49336FFQ28275327-C5F2BBA5-6F15-4CE4-AAEB-A9CC32CC50CDQ28294849-C88ABB93-A381-4800-A47B-ECF456191BBCQ28296254-9AF8D8A2-C7F7-4EF0-B982-1C870B79D7C2Q28300849-98F33777-128C-4EBC-BEEC-8AA41820FFCEQ28603486-0F741A9C-6EBC-4BD7-95C1-079531D1DDC0Q28606500-82DBE4A9-7865-4447-8786-3EB9399BCD90Q28652074-C2E30297-F8C5-4467-A55F-ACB46061FBBFQ28749629-2A8ADA9A-0B0D-499F-8428-280C97561225Q28751859-13EA6D2A-B34B-4E37-8AE8-4620F14335C6Q30193362-41CB5A5E-BE0E-4551-B465-427AD4DA5108Q30194001-F6E0D4A1-D871-4CEB-94E1-949B535D23ACQ30476411-1D155CA5-7DDA-4D1F-A1BF-381E6190D85DQ30487482-FAC0B22F-E99F-498D-9351-6BF10392D9E0Q30570510-EA4670EB-6B32-45AE-9AA8-3F48062C8ACFQ30580181-E914E7E4-A3A4-4703-97C2-46E19A67D268Q30674904-5011FC84-EF0E-497E-9484-F7E9B1A7F54BQ30846736-82A77AC7-0DEC-45BC-BDC3-111BE73576DCQ31031699-0933F3A7-5095-4357-8F74-16CA5FFF5873Q31037649-C1CFF15D-B9F4-47FD-889D-4E0BE2AF720AQ31040959-29430CB7-A037-4A8C-843E-EBD2FFC763E3Q31069199-F7DDD43F-A2A3-48B9-9C5F-E05AE4DA2D59Q31141273-E1346594-1681-4722-9171-091F75D8019BQ33268169-CC3DDBC8-F479-4721-80DA-048B10762A76Q33285454-95BFEE0A-52C0-412F-ACF3-094251B9305AQ33447046-D28764E4-8D5D-43E2-953D-876934C28E40
P50
description
American-born cell biologist and light microscopist; Professor
@en
Amerikaans bioloog
@nl
ahli biologi
@id
biologiste américain
@fr
biologo estatubatuarra
@eu
biologo statunitense
@it
biòleg estatunidenc
@ca
biólogo estadounidense
@es
biólogo estadounidense
@gl
biólogo norte-americano
@pt
name
Jason Swedlow
@ace
Jason Swedlow
@ast
Jason Swedlow
@ca
Jason Swedlow
@de
Jason Swedlow
@en
Jason Swedlow
@es
Jason Swedlow
@fr
Jason Swedlow
@id
Jason Swedlow
@it
Jason Swedlow
@nl
type
label
Jason Swedlow
@ace
Jason Swedlow
@ast
Jason Swedlow
@ca
Jason Swedlow
@de
Jason Swedlow
@en
Jason Swedlow
@es
Jason Swedlow
@fr
Jason Swedlow
@id
Jason Swedlow
@it
Jason Swedlow
@nl
altLabel
Swedlow JR
@en
prefLabel
Jason Swedlow
@ace
Jason Swedlow
@ast
Jason Swedlow
@ca
Jason Swedlow
@de
Jason Swedlow
@en
Jason Swedlow
@es
Jason Swedlow
@fr
Jason Swedlow
@id
Jason Swedlow
@it
Jason Swedlow
@nl
P69
P214
P106
P184
P21
P214
P31
P4012
P496
0000-0002-2198-1958
P569
1961-06-20T00:00:00Z
P691
mub2015860053
P734
P735
P7859
viaf-315085406