University of Illinois Urbana-Champaign

Changes in large-scale chromatin structure and dynamics of BAC transgenes during transcriptional activation

Hu, Yan

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https://hdl.handle.net/2142/15600

Description

Title
Changes in large-scale chromatin structure and dynamics of BAC transgenes during transcriptional activation
Author(s)
Hu, Yan
Issue Date
2010-05-14T20:52:03Z
Director of Research (if dissertation) or Advisor (if thesis)
Belmont, Andrew S.
Doctoral Committee Chair(s)
Schuler, Mary A.
Committee Member(s)
  • Belmont, Andrew S.
  • Katzenellenbogen, Benita S.
  • Jones, Peter L.
  • Mizzen, Craig A.
Department of Study
Cell & Developmental Biology
Discipline
Cell and Developmental Biology
Degree Granting Institution
University of Illinois at Urbana-Champaign
Degree Name
Ph.D.
Degree Level
Dissertation
Date of Ingest
2010-05-14T20:52:03Z
Keyword(s)
  • large-scale chromatin structure
  • Bacterial artificial chromosome (BAC)
  • SC-35 domains
  • nuclear speckle
  • immunogold
  • transcription
  • Heat shock protein 70 (Hsp70) promoter
  • promoter specificity
  • heat shock
  • cadmium
Abstract
Mounting evidence suggests that the eukaryotic cell nucleus is a dynamic and complex structure, and that changes in large-scale chromatin structure play an important role in gene regulation. In this study, we utilize the high specificity and affinity of the lacO-lacI tethering system to visualize changes in large-scale chromatin structure that accompany gene activation in an inducible BAC transgene system. Using light microscopy, and electron microscopy combined with in vivo immunogold labeling, we observe a 1.5-3-fold decondensation of a 1-2 Mbp chromatin domain composed of multi-copy BAC transgenes after transcriptional activation in interphase nuclei. Although the BAC transgene transcription levels are close to the levels of their endogenous counterparts after transcriptional activation, the BAC transgenes are folded within large-scale chromatin fibers with DNA compaction levels well above the extended 30 nm chromatin fibers predicted by previous models of the chromosome structure of actively transcribing genes. Furthermore, heat shock induced Hsp70 BAC transgenes, but not other BAC transgenes, associated with the exterior of nuclear speckles with their transcripts accumulating within the speckle. Live cell imaging revealed three distinct dynamic events for Hsp70 trangene nuclear speckle association. Further molecular dissection demonstrated association of Hsp70 transgenes with nuclear speckles is transcription-dependent, independent of the identity of the transcribed sequences, relatively independent of the amount of transcripts, but dependent on the Hsp70 promoter sequences. Moreover, despite similar levels of transcriptional activation, Hsp70 transgene speckle association is observed after heat shock, but not after cadmium treatment. Collectively, this work demonstrates transcription can occur on a still highly condensed, large-scale chromatin template and Hsp70 promoter-specific association of transgenes with nuclear speckles upon transcriptional activation.
Graduation Semester
2010-5
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http://hdl.handle.net/2142/15600
Copyright and License Information
copyright 2010 Yan Hu

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