Deciphering the Role of Aft1p in Chromosome Stability

Deciphering the Role of Aft1p in Chromosome Stability

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The Saccharomyces cerevisiae iron-responsive transcription factor, Aft1p, has a well established role in regulating iron homeostasis through the transcriptional induction of iron-regulon genes. However, recent studies have implicated Aft1p in other cellular processes independent of iron-regulation s...

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Main Author: Hamza, Akil
Language:en
Published: 2012
Subjects:
Aft1
Iml3
kinetochore
cohesion
cohesin
centromere
chromosome stability
Ctf19
Chl4
Scc1
mitosis
meiosis
Rec8
budding yeast
Online Access:http://hdl.handle.net/10393/20639
id ndltd-LACETR-oai-collectionscanada.gc.ca-OOU.-en#10393-20639
record_format oai_dc
spelling ndltd-LACETR-oai-collectionscanada.gc.ca-OOU.-en#10393-206392013-01-11T13:33:12ZDeciphering the Role of Aft1p in Chromosome StabilityHamza, AkilAft1Iml3kinetochorecohesioncohesincentromerechromosome stabilityCtf19Chl4Scc1mitosismeiosisRec8budding yeastThe Saccharomyces cerevisiae iron-responsive transcription factor, Aft1p, has a well established role in regulating iron homeostasis through the transcriptional induction of iron-regulon genes. However, recent studies have implicated Aft1p in other cellular processes independent of iron-regulation such as chromosome stability. In addition, chromosome spreads and two-hybrid data suggest that Aft1p interacts with and co-localizes with kinetochore proteins, however the cellular implications of this have not been established. Here, we demonstrate that Aft1p associates with the kinetochore complex through Iml3p. Furthermore, we show that Aft1p, like Iml3p, is required for the increased association of cohesin with the pericentromere and that aft1Δ cells display sister chromatid cohesion defects in both mitosis and meiosis. Our work defines a new role for Aft1p in the sister chromatid cohesion pathway.2012-01-25T22:01:47Z2012-01-25T22:01:47Z20122012-01-25http://hdl.handle.net/10393/20639en
collection NDLTD
language en
sources NDLTD
topic Aft1
Iml3
kinetochore
cohesion
cohesin
centromere
chromosome stability
Ctf19
Chl4
Scc1
mitosis
meiosis
Rec8
budding yeast
spellingShingle Aft1
Iml3
kinetochore
cohesion
cohesin
centromere
chromosome stability
Ctf19
Chl4
Scc1
mitosis
meiosis
Rec8
budding yeast
Hamza, Akil
Deciphering the Role of Aft1p in Chromosome Stability
description The Saccharomyces cerevisiae iron-responsive transcription factor, Aft1p, has a well established role in regulating iron homeostasis through the transcriptional induction of iron-regulon genes. However, recent studies have implicated Aft1p in other cellular processes independent of iron-regulation such as chromosome stability. In addition, chromosome spreads and two-hybrid data suggest that Aft1p interacts with and co-localizes with kinetochore proteins, however the cellular implications of this have not been established. Here, we demonstrate that Aft1p associates with the kinetochore complex through Iml3p. Furthermore, we show that Aft1p, like Iml3p, is required for the increased association of cohesin with the pericentromere and that aft1Δ cells display sister chromatid cohesion defects in both mitosis and meiosis. Our work defines a new role for Aft1p in the sister chromatid cohesion pathway.
author Hamza, Akil
author_facet Hamza, Akil
author_sort Hamza, Akil
title Deciphering the Role of Aft1p in Chromosome Stability
title_short Deciphering the Role of Aft1p in Chromosome Stability
title_full Deciphering the Role of Aft1p in Chromosome Stability
title_fullStr Deciphering the Role of Aft1p in Chromosome Stability
title_full_unstemmed Deciphering the Role of Aft1p in Chromosome Stability
title_sort deciphering the role of aft1p in chromosome stability
publishDate 2012
url http://hdl.handle.net/10393/20639
work_keys_str_mv AT hamzaakil decipheringtheroleofaft1pinchromosomestability
_version_ 1716575565838811136

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