TY - JOUR
T1 - Single cell analysis of the inner ear sensory organs
AU - Yizhar-Barnea, Ofer
AU - Avraham, Karen B.
N1 - Publisher Copyright:
© 2017 UPV/EHU Press (Bilbao, Spain) and Creative Commons CC-BY.
PY - 2017
Y1 - 2017
N2 - The inner ear is composed of a complex mixture of cells, which together allow organisms to hear and maintain balance. The cells in the inner ear, which undergo an extraordinary process of development, have only recently begun to be studied on an individual level. As it has recently become clear that individual cells, previously considered to be of uniform character, may differ dramatically from each other, the need to study cell-to-cell variation, along with distinct transcriptional and regulatory signatures, has taken hold in the scientific community. In conjunction with high-throughput technologies, attempts are underway to dissect the inter- and intracellular variability of different cell types and developmental states of the inner ear from a novel perspective. Single cell analysis of the inner ear sensory organs holds the promise of providing a significant boost in building an omics network that translates into a comprehensive understanding of the mechanisms of hearing and balance. These networks may uncover critical elements for trans-differentiation, regeneration and/or reprogramming, providing entry points for therapeutics of deafness and vestibular pathologies.
AB - The inner ear is composed of a complex mixture of cells, which together allow organisms to hear and maintain balance. The cells in the inner ear, which undergo an extraordinary process of development, have only recently begun to be studied on an individual level. As it has recently become clear that individual cells, previously considered to be of uniform character, may differ dramatically from each other, the need to study cell-to-cell variation, along with distinct transcriptional and regulatory signatures, has taken hold in the scientific community. In conjunction with high-throughput technologies, attempts are underway to dissect the inter- and intracellular variability of different cell types and developmental states of the inner ear from a novel perspective. Single cell analysis of the inner ear sensory organs holds the promise of providing a significant boost in building an omics network that translates into a comprehensive understanding of the mechanisms of hearing and balance. These networks may uncover critical elements for trans-differentiation, regeneration and/or reprogramming, providing entry points for therapeutics of deafness and vestibular pathologies.
KW - Cochlea
KW - Deafness
KW - Hearing
KW - Mice
KW - Transcriptome
KW - Vestibule
UR - http://www.scopus.com/inward/record.url?scp=85020294219&partnerID=8YFLogxK
U2 - 10.1387/ijdb.160453ka
DO - 10.1387/ijdb.160453ka
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C2 - 28621418
AN - SCOPUS:85020294219
SN - 0214-6282
VL - 61
SP - 205
EP - 213
JO - International Journal of Developmental Biology
JF - International Journal of Developmental Biology
IS - 3-5
ER -