ID   PPMI.I.1036.2
AC   CVCL_D5P6
SY   PPMI3658; PPMI_3658; CDIi032-A; FCDI_11313
DR   BioSamples; SAMEA115473798
DR   hPSCreg; CDIi032-A
DR   Wikidata; Q127383233
RX   PubMed=36950378;
WW   https://www.ppmi-info.org/access-data-specimens/download-data
WW   https://www.michaeljfox.org/sites/default/files/media/document/2018%20-%20PDTC%20-%20NKP%20Poster%20on%20iPSCs.pdf
CC   Part of: Parkinson's Progression Markers Initiative (PPMI) cell line panel.
CC   Population: Caucasian, not Hispanic.
CC   Omics: Genome sequenced.
CC   Omics: Transcriptome analysis by RNAseq.
CC   Miscellaneous: PPMI study cohort HC, PPMI study subgroup healthy control.
CC   Caution: The PPMI3658 and PPMI_3658 identifiers correspond to an internal donor ID at PPMI. As multiple iPSC clones have been established from the cells of this donor, these identifiers should not be cited in a publication. Note that FujiFilm Cellular Dynamics, Inc (FCDI) and hPSCreg have assigned only a single identifier for all of the PBMC derived clones.
CC   Derived from site: In situ; Peripheral blood; UBERON=UBERON_0000178.
OX   NCBI_TaxID=9606; ! Homo sapiens (Human)
OI   CVCL_D5P5 ! PPMI.I.1036.1
OI   CVCL_D5P7 ! PPMI.I.1036.3
SX   Male
AG   64Y
CA   Induced pluripotent stem cell
DT   Created: 02-05-24; Last updated: 10-09-24; Version: 2
//
RX   PubMed=36950378; DOI=10.1016/j.xgen.2023.100261; PMCID=PMC10025424;
RA   Bressan E., Reed X., Bansal V., Hutchins E., Cobb M.M., Webb M.G.,
RA   Alsop E., Grenn F.P., Illarionova A., Savytska N., Violich I.,
RA   Broeer S., Fernandes N., Sivakumar R., Beilina A., Billingsley K.J.,
RA   Berghausen J., Pantazis C.B., Pitz V., Patel D., Daida K.,
RA   Meechoovet B., Reiman R., Courtright-Lim A., Logemann A., Antone J.,
RA   Barch M., Kitchen R., Li Y., Dalgard C.L., Rizzu P., Hernandez D.G.,
RA   Hjelm B.E., Nalls M.A., Gibbs J.R., Finkbeiner S., Cookson M.R.,
RA   Van Keuren-Jensen K., Craig D.W., Singleton A.B., Heutink P.,
RA   Blauwendraat C.;
RG   American Genome Center;
RT   "The Foundational Data Initiative for Parkinson Disease: enabling
RT   efficient translation from genetic maps to mechanism.";
RL   Cell Genom. 3:100261.1-100261.25(2023).
//