Replication-dependent histone genes are actively transcribed in differentiating and aging retinal neurons
Abdul Rouf Banday
Marybeth Baumgartner
Sahar Al Seesi
Devi Krishna Priya Karunakaran
Aditya Venkatesh
Sean Congdon
Christopher Lemoine
Ashley M Kilcollins
Ion Mandoiu
Claudio Punzo
Rahul N Kanadia
10.6084/m9.figshare.1246745.v2
https://tandf.figshare.com/articles/dataset/Replication_dependent_histone_genes_are_actively_transcribed_in_differentiating_and_aging_retinal_neurons/1246745
<div><p>In the mammalian genome, each histone family contains multiple replication-dependent paralogs, which are found in clusters where their transcription is thought to be coupled to the cell cycle. Here, we wanted to interrogate the transcriptional regulation of these paralogs during retinal development and aging. We employed deep sequencing, quantitative PCR, <i>in situ</i> hybridization (ISH), and microarray analysis, which revealed that replication-dependent histone genes were not only transcribed in progenitor cells but also in differentiating neurons. Specifically, by ISH analysis we found that different histone genes were actively transcribed in a subset of neurons between postnatal day 7 and 14. Interestingly, within a histone family, not all paralogs were transcribed at the same level during retinal development. For example, expression of <i>Hist1h1b</i> was higher embryonically, while that of <i>Hist1h1c</i> was higher postnatally. Finally, expression of replication-dependent histone genes was also observed in the aging retina. Moreover, transcription of replication-dependent histones was independent of rapamycin-mediated mTOR pathway inactivation. Overall, our data suggest the existence of variant nucleosomes produced by the differential expression of the replication-dependent histone genes across retinal development. Also, the expression of a subset of replication-dependent histone isotypes in senescent neurons warrants re-examining these genes as “replication-dependent.” Thus, our findings underscore the importance of understanding the transcriptional regulation of replication-dependent histone genes in the maintenance and functioning of neurons.</p></div>
2015-10-09 14:54:18
Hist 1h
pcr
transcriptional regulation
postnatal day 7
histone family
ish
senescent neurons warrants
gene
expression