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Genomic sequence and transcriptional profile of the boundary between pericentromeric satellites and genes on human chromosome arm 10p

Genomic sequence and transcriptional profile of the boundary between pericentromeric satellites and genes on human chromosome arm 10p
Genomic sequence and transcriptional profile of the boundary between pericentromeric satellites and genes on human chromosome arm 10p
Contiguous finished sequence from highly duplicated pericentromeric regions of human chromosomes is needed if we are to understand the role of pericentromeric instability in disease, and in gene and karyotype evolution. Here, we have constructed a BAC contig spanning the transition from pericentromeric satellites to genes on the short arm of human chromosome 10, and used this to generate 1.4 Mb of finished genomic sequence. Combining RT-PCR, in silico gene prediction, and paralogy analysis, we can identify two domains within the sequence. The proximal 600 kb consists of satellite-rich pericentromerically duplicated DNA which is transcript poor, containing only three unspliced transcripts. In contrast, the distal 850 kb contains four known genes (ZNF248, ZNF25, ZNF33A, and ZNF37A) and up to 32 additional transcripts of unknown function. This distal region also contains seven out of the eight intrachromosomal duplications within the sequence, including the p arm copy of the 250-kb duplication which gave rise to ZNF33A and ZNF33B. By sequencing orthologs of the duplicated ZNF33 genes we have established that ZNF33A has diverged significantly at residues critical for DNA binding but ZNF33B has not, indicating that ZNF33B has remained constrained by selection for ancestral gene function. These results provide further evidence of gene formation within intrachromosomal duplications, but indicate that recent interchromosomal duplications at this centromere have involved transcriptionally inert, satellite rich DNA, which is likely to be heterochromatic. This suggests that any novel gene structures formed by these interchromosomal events would require relocation to a more open chromatin environment to be expressed.
dna, proteins, comparative study, telomere, pseudogenes, gene duplication, evolution, methods, human, human chromosomes, zinc fingers, humans, amino acid sequence, genetics
1088-9051
159-172
Guy, Jane
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Hearn, Tom
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Crosier, Moira
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Mudge, Jonathan
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Viggiano, Luigi
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Koczan, Dirk
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Thiesen, Hans-Jurgen
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Bailey, Jeffrey A.
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Horvath, Julie E.
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Eichler, Evan E.
b79784b8-0e5e-4095-8275-5ffbb388ec1c
Earthrowl, Mark E.
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Deloukas, Panos
f8c385df-85e0-4769-9a5b-aaf03ec01d1f
French, Lisa
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Rogers, Jane
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Bentley, David
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Jackson, Michael S.
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Guy, Jane
2680281b-32fe-400b-9f27-f426543e0789
Hearn, Tom
2665cc10-6632-47cb-9460-bd0ea745380e
Crosier, Moira
c3160b49-8f26-4edd-b3af-342142f87db3
Mudge, Jonathan
5453862a-b876-4b41-81ce-a14da5f83820
Viggiano, Luigi
06a31fa7-f64f-43e7-a448-fef21c839672
Koczan, Dirk
2306ab27-440c-4373-a440-27d2afb16ac5
Thiesen, Hans-Jurgen
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Bailey, Jeffrey A.
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Horvath, Julie E.
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Eichler, Evan E.
b79784b8-0e5e-4095-8275-5ffbb388ec1c
Earthrowl, Mark E.
f7fa09da-5064-4531-9edf-167b565e7210
Deloukas, Panos
f8c385df-85e0-4769-9a5b-aaf03ec01d1f
French, Lisa
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Rogers, Jane
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Bentley, David
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Jackson, Michael S.
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Guy, Jane, Hearn, Tom, Crosier, Moira, Mudge, Jonathan, Viggiano, Luigi, Koczan, Dirk, Thiesen, Hans-Jurgen, Bailey, Jeffrey A., Horvath, Julie E., Eichler, Evan E., Earthrowl, Mark E., Deloukas, Panos, French, Lisa, Rogers, Jane, Bentley, David and Jackson, Michael S. (2003) Genomic sequence and transcriptional profile of the boundary between pericentromeric satellites and genes on human chromosome arm 10p. Genome Research, 13 (2), 159-172. (doi:10.1101/gr.644503). (PMID:12566394)

Record type: Article

Abstract

Contiguous finished sequence from highly duplicated pericentromeric regions of human chromosomes is needed if we are to understand the role of pericentromeric instability in disease, and in gene and karyotype evolution. Here, we have constructed a BAC contig spanning the transition from pericentromeric satellites to genes on the short arm of human chromosome 10, and used this to generate 1.4 Mb of finished genomic sequence. Combining RT-PCR, in silico gene prediction, and paralogy analysis, we can identify two domains within the sequence. The proximal 600 kb consists of satellite-rich pericentromerically duplicated DNA which is transcript poor, containing only three unspliced transcripts. In contrast, the distal 850 kb contains four known genes (ZNF248, ZNF25, ZNF33A, and ZNF37A) and up to 32 additional transcripts of unknown function. This distal region also contains seven out of the eight intrachromosomal duplications within the sequence, including the p arm copy of the 250-kb duplication which gave rise to ZNF33A and ZNF33B. By sequencing orthologs of the duplicated ZNF33 genes we have established that ZNF33A has diverged significantly at residues critical for DNA binding but ZNF33B has not, indicating that ZNF33B has remained constrained by selection for ancestral gene function. These results provide further evidence of gene formation within intrachromosomal duplications, but indicate that recent interchromosomal duplications at this centromere have involved transcriptionally inert, satellite rich DNA, which is likely to be heterochromatic. This suggests that any novel gene structures formed by these interchromosomal events would require relocation to a more open chromatin environment to be expressed.

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More information

Published date: February 2003
Keywords: dna, proteins, comparative study, telomere, pseudogenes, gene duplication, evolution, methods, human, human chromosomes, zinc fingers, humans, amino acid sequence, genetics

Identifiers

Local EPrints ID: 24733
URI: http://eprints.soton.ac.uk/id/eprint/24733
ISSN: 1088-9051
PURE UUID: 50cdaca2-560e-4202-a5a3-7368962e4dcf

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Date deposited: 03 Apr 2006
Last modified: 15 Mar 2024 06:58

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Contributors

Author: Jane Guy
Author: Tom Hearn
Author: Moira Crosier
Author: Jonathan Mudge
Author: Luigi Viggiano
Author: Dirk Koczan
Author: Hans-Jurgen Thiesen
Author: Jeffrey A. Bailey
Author: Julie E. Horvath
Author: Evan E. Eichler
Author: Mark E. Earthrowl
Author: Panos Deloukas
Author: Lisa French
Author: Jane Rogers
Author: David Bentley
Author: Michael S. Jackson

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