TY  - GEN
AB  - Single-cell technologies have created a new taxonomic challenge: to create a shared language for defining individual cells within complex organisms. In this work, I complicate the taxonomic task by developing a novel assay that captures spatially resolved single-cell chromatin accessibility and also explore and define epigenomic cell states in the mouse and human brains.
AU  - Thornton, Casey A.
DA  - 2022
DO  - 10.6083/0r967460r
DO  - DOI
ID  - 9735
KW  - Epigenomics
KW  - Neuroglia
KW  - Chromatin
L1  - https://digitalcollections.ohsu.edu/record/9735/files/Thornton.Casey.2022.pdf
L2  - https://digitalcollections.ohsu.edu/record/9735/files/Thornton.Casey.2022.pdf
L4  - https://digitalcollections.ohsu.edu/record/9735/files/Thornton.Casey.2022.pdf
LK  - https://digitalcollections.ohsu.edu/record/9735/files/Thornton.Casey.2022.pdf
N2  - Single-cell technologies have created a new taxonomic challenge: to create a shared language for defining individual cells within complex organisms. In this work, I complicate the taxonomic task by developing a novel assay that captures spatially resolved single-cell chromatin accessibility and also explore and define epigenomic cell states in the mouse and human brains.
PB  - Oregon Health and Science University
PY  - 2022
T1  - Exploring and defining the cellular  diversity of the brain across species
TI  - Exploring and defining the cellular  diversity of the brain across species
UR  - https://digitalcollections.ohsu.edu/record/9735/files/Thornton.Casey.2022.pdf
Y1  - 2022
ER  -