A novel approach for identifying candidate imprinted genes through sequence analysis of imprinted and control genes
A novel approach for identifying candidate imprinted genes through sequence analysis of imprinted and control genes
Through the sequence analysis of 27 imprinted human genes and a set of 100 control genes we have developed a novel approach for identifying candidate imprinted genes based on the differences in sequence composition observed. The imprinted genes were found to be associated with significantly reduced numbers of short interspersed transposable element (SINE) Alus and mammalian-wide interspersed repeat (MIR) repeat elements, as previously reported. In addition, a significant association between imprinted genes and increased numbers of low-complexity repeats was also evident. Numbers of the Alu classes AluJ and AluS were found to be significantly depleted in some parts of the flanking regions of imprinted genes. A recent study has proposed that there is active selection against SINE elements in imprinted regions. Alternatively, there may be differences in the rates of insertion of Alu elements. Our study indicates that this difference extends both upstream and downstream of the coding region. This and other consistent differences between the sequence characteristics of imprinted and control genes has enabled us to develop discriminant analysis, which can be used to screen the genome for candidate imprinted genes. We have applied this function to a number of genes whose imprinting status is disputed or uncertain.
511 - 520
Ke, Xiayi
3d3489dc-c021-4669-bf5c-30c8733c1183
Thomas, N. Simon
1a601957-288d-4f12-a9f7-4f4279b7f9b3
Robinson, David O.
9db1b26b-6c2b-4ac5-879e-20f8a2dc30ec
Collins, Andrew
7daa83eb-0b21-43b2-af1a-e38fb36e2a64
December 2002
Ke, Xiayi
3d3489dc-c021-4669-bf5c-30c8733c1183
Thomas, N. Simon
1a601957-288d-4f12-a9f7-4f4279b7f9b3
Robinson, David O.
9db1b26b-6c2b-4ac5-879e-20f8a2dc30ec
Collins, Andrew
7daa83eb-0b21-43b2-af1a-e38fb36e2a64
Ke, Xiayi, Thomas, N. Simon, Robinson, David O. and Collins, Andrew
(2002)
A novel approach for identifying candidate imprinted genes through sequence analysis of imprinted and control genes.
Human Genetics, 111 (6), .
(doi:10.1007/s00439-002-0822-3).
Abstract
Through the sequence analysis of 27 imprinted human genes and a set of 100 control genes we have developed a novel approach for identifying candidate imprinted genes based on the differences in sequence composition observed. The imprinted genes were found to be associated with significantly reduced numbers of short interspersed transposable element (SINE) Alus and mammalian-wide interspersed repeat (MIR) repeat elements, as previously reported. In addition, a significant association between imprinted genes and increased numbers of low-complexity repeats was also evident. Numbers of the Alu classes AluJ and AluS were found to be significantly depleted in some parts of the flanking regions of imprinted genes. A recent study has proposed that there is active selection against SINE elements in imprinted regions. Alternatively, there may be differences in the rates of insertion of Alu elements. Our study indicates that this difference extends both upstream and downstream of the coding region. This and other consistent differences between the sequence characteristics of imprinted and control genes has enabled us to develop discriminant analysis, which can be used to screen the genome for candidate imprinted genes. We have applied this function to a number of genes whose imprinting status is disputed or uncertain.
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Published date: December 2002
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Local EPrints ID: 24802
URI: http://eprints.soton.ac.uk/id/eprint/24802
ISSN: 0340-6717
PURE UUID: 943ad4ed-a282-49a3-a3b6-007dd7bedf90
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Date deposited: 05 Apr 2006
Last modified: 16 Mar 2024 02:42
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Author:
Xiayi Ke
Author:
N. Simon Thomas
Author:
David O. Robinson
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