Identification and characterization of tandem repeats in exon III of dopamine receptor D4 (DRD4) genes from different mammalian species

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Identification and characterization of tandem repeats in exon III of dopamine receptor D4 (DRD4) genes from different mammalian species. / Larsen, Svend Arild; Mogensen, Line; Dietz, Rune; Baagøe, Hans Jørgen; Andersen, Mogens; Werge, Thomas; Rasmussen, Henrik Berg.

In: D N A and Cell Biology, Vol. 24, No. 12, 2005, p. 795-804.

Research output: Contribution to journalJournal articleResearchpeer-review

Harvard

Larsen, SA, Mogensen, L, Dietz, R, Baagøe, HJ, Andersen, M, Werge, T & Rasmussen, HB 2005, 'Identification and characterization of tandem repeats in exon III of dopamine receptor D4 (DRD4) genes from different mammalian species', D N A and Cell Biology, vol. 24, no. 12, pp. 795-804. https://doi.org/10.1089/dna.2005.24.795

APA

Larsen, S. A., Mogensen, L., Dietz, R., Baagøe, H. J., Andersen, M., Werge, T., & Rasmussen, H. B. (2005). Identification and characterization of tandem repeats in exon III of dopamine receptor D4 (DRD4) genes from different mammalian species. D N A and Cell Biology, 24(12), 795-804. https://doi.org/10.1089/dna.2005.24.795

Vancouver

Larsen SA, Mogensen L, Dietz R, Baagøe HJ, Andersen M, Werge T et al. Identification and characterization of tandem repeats in exon III of dopamine receptor D4 (DRD4) genes from different mammalian species. D N A and Cell Biology. 2005;24(12):795-804. https://doi.org/10.1089/dna.2005.24.795

Author

Larsen, Svend Arild ; Mogensen, Line ; Dietz, Rune ; Baagøe, Hans Jørgen ; Andersen, Mogens ; Werge, Thomas ; Rasmussen, Henrik Berg. / Identification and characterization of tandem repeats in exon III of dopamine receptor D4 (DRD4) genes from different mammalian species. In: D N A and Cell Biology. 2005 ; Vol. 24, No. 12. pp. 795-804.

Bibtex

@article{fb00b921d5ee4b8697dea8b5bd600716,
title = "Identification and characterization of tandem repeats in exon III of dopamine receptor D4 (DRD4) genes from different mammalian species",
abstract = "In this study we have identified and characterized dopamine receptor D4 (DRD4) exon III tandem repeats in 33 public available nucleotide sequences from different mammalian species. We found that the tandem repeat in canids could be described in a novel and simple way, namely, as a structure composed of 15- and 12- bp modules. Tandem repeats composed of 18-bp modules were found in sequences from the horse, zebra, onager, and donkey, Asiatic bear, polar bear, common raccoon, dolphin, harbor porpoise, and domestic cat. Several of these sequences have been analyzed previously without a tandem repeat being found. In the domestic cow and gray seal we identified tandem repeats composed of 36-bp modules, each consisting of two closely related 18-bp basic units. A tandem repeat consisting of 9-bp modules was identified in sequences from mink and ferret. In the European otter we detected an 18-bp tandem repeat, while a tandem repeat consisting of 27-bp modules was identified in a sequence from European badger. Both these tandem repeats were composed of 9-bp basic units, which were closely related with the 9-bp repeat modules identified in the mink and ferret. Tandem repeats could not be identified in sequences from rodents. All tandem repeats possessed a high GC content with a strong bias for C. On phylogenetic analysis of the tandem repeats evolutionary related species were clustered into the same groups. The degree of conservation of the tandem repeats varied significantly between species. The deduced amino acid sequences of most of the tandem repeats exhibited a high propensity for disorder. This was also the case with an amino acid sequence of the human DRD4 exon III tandem repeat, which was included in the study for comparative purposes. We identified proline-containing motifs for SH3 and WW domain binding proteins, potential phosphorylation sites, PDZ domain binding motifs, and FHA domain binding motifs in the amino acid sequences of the tandem repeats. The numbers of potential functional sites varied pronouncedly between species. Our observations provide a platform for future studies of the architecture and evolution of the DRD4 exon III tandem repeat, and they suggest that differences in the structure of this tandem repeat contribute to specialization and generation of diversity in receptor function.",
author = "Larsen, {Svend Arild} and Line Mogensen and Rune Dietz and Baag{\o}e, {Hans J{\o}rgen} and Mogens Andersen and Thomas Werge and Rasmussen, {Henrik Berg}",
year = "2005",
doi = "http://dx.doi.org/10.1089/dna.2005.24.795",
language = "English",
volume = "24",
pages = "795--804",
journal = "DNA and Cell Biology",
issn = "1044-5498",
publisher = "Mary AnnLiebert, Inc. Publishers",
number = "12",

}

RIS

TY - JOUR

T1 - Identification and characterization of tandem repeats in exon III of dopamine receptor D4 (DRD4) genes from different mammalian species

AU - Larsen, Svend Arild

AU - Mogensen, Line

AU - Dietz, Rune

AU - Baagøe, Hans Jørgen

AU - Andersen, Mogens

AU - Werge, Thomas

AU - Rasmussen, Henrik Berg

PY - 2005

Y1 - 2005

N2 - In this study we have identified and characterized dopamine receptor D4 (DRD4) exon III tandem repeats in 33 public available nucleotide sequences from different mammalian species. We found that the tandem repeat in canids could be described in a novel and simple way, namely, as a structure composed of 15- and 12- bp modules. Tandem repeats composed of 18-bp modules were found in sequences from the horse, zebra, onager, and donkey, Asiatic bear, polar bear, common raccoon, dolphin, harbor porpoise, and domestic cat. Several of these sequences have been analyzed previously without a tandem repeat being found. In the domestic cow and gray seal we identified tandem repeats composed of 36-bp modules, each consisting of two closely related 18-bp basic units. A tandem repeat consisting of 9-bp modules was identified in sequences from mink and ferret. In the European otter we detected an 18-bp tandem repeat, while a tandem repeat consisting of 27-bp modules was identified in a sequence from European badger. Both these tandem repeats were composed of 9-bp basic units, which were closely related with the 9-bp repeat modules identified in the mink and ferret. Tandem repeats could not be identified in sequences from rodents. All tandem repeats possessed a high GC content with a strong bias for C. On phylogenetic analysis of the tandem repeats evolutionary related species were clustered into the same groups. The degree of conservation of the tandem repeats varied significantly between species. The deduced amino acid sequences of most of the tandem repeats exhibited a high propensity for disorder. This was also the case with an amino acid sequence of the human DRD4 exon III tandem repeat, which was included in the study for comparative purposes. We identified proline-containing motifs for SH3 and WW domain binding proteins, potential phosphorylation sites, PDZ domain binding motifs, and FHA domain binding motifs in the amino acid sequences of the tandem repeats. The numbers of potential functional sites varied pronouncedly between species. Our observations provide a platform for future studies of the architecture and evolution of the DRD4 exon III tandem repeat, and they suggest that differences in the structure of this tandem repeat contribute to specialization and generation of diversity in receptor function.

AB - In this study we have identified and characterized dopamine receptor D4 (DRD4) exon III tandem repeats in 33 public available nucleotide sequences from different mammalian species. We found that the tandem repeat in canids could be described in a novel and simple way, namely, as a structure composed of 15- and 12- bp modules. Tandem repeats composed of 18-bp modules were found in sequences from the horse, zebra, onager, and donkey, Asiatic bear, polar bear, common raccoon, dolphin, harbor porpoise, and domestic cat. Several of these sequences have been analyzed previously without a tandem repeat being found. In the domestic cow and gray seal we identified tandem repeats composed of 36-bp modules, each consisting of two closely related 18-bp basic units. A tandem repeat consisting of 9-bp modules was identified in sequences from mink and ferret. In the European otter we detected an 18-bp tandem repeat, while a tandem repeat consisting of 27-bp modules was identified in a sequence from European badger. Both these tandem repeats were composed of 9-bp basic units, which were closely related with the 9-bp repeat modules identified in the mink and ferret. Tandem repeats could not be identified in sequences from rodents. All tandem repeats possessed a high GC content with a strong bias for C. On phylogenetic analysis of the tandem repeats evolutionary related species were clustered into the same groups. The degree of conservation of the tandem repeats varied significantly between species. The deduced amino acid sequences of most of the tandem repeats exhibited a high propensity for disorder. This was also the case with an amino acid sequence of the human DRD4 exon III tandem repeat, which was included in the study for comparative purposes. We identified proline-containing motifs for SH3 and WW domain binding proteins, potential phosphorylation sites, PDZ domain binding motifs, and FHA domain binding motifs in the amino acid sequences of the tandem repeats. The numbers of potential functional sites varied pronouncedly between species. Our observations provide a platform for future studies of the architecture and evolution of the DRD4 exon III tandem repeat, and they suggest that differences in the structure of this tandem repeat contribute to specialization and generation of diversity in receptor function.

U2 - http://dx.doi.org/10.1089/dna.2005.24.795

DO - http://dx.doi.org/10.1089/dna.2005.24.795

M3 - Journal article

VL - 24

SP - 795

EP - 804

JO - DNA and Cell Biology

JF - DNA and Cell Biology

SN - 1044-5498

IS - 12

ER -

ID: 48610212