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      Hoxc Gene Collinear Expression and Epigenetic Modifications Established during Embryogenesis Are Maintained until after Birth

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          Abstract

          The Hox genes, which are organized into clusters on different chromosomes, are key regulators of embryonic anterior-posterior (A-P) body pattern formation and are expressed at specific times and in specific positions in developing vertebrate embryos. Previously, we have shown that histone methylation patterns are closely correlated with collinear Hox gene expression patterns along the A-P axis of E14.5 mouse embryos. Since histone modification is thought to play a crucial mechanistic role in the highly coordinated pattern of collinear Hox gene expression, we examined the maintenance of the spatial collinear expression pattern of Hoxc genes and the corresponding histone modifications during embryogenesis and in early postnatal mice. Hox expression patterns and histone modifications were analyzed by semi-quantitative RT-PCR and chromatin immunoprecipitation (ChIP)-PCR analyses, respectively. The spatiotemporal expression patterns of Hoxc genes in a cluster were maintained until the early postnatal stage (from E8.5 through P5). Examination of histone modifications in E14.5 and P5 tissues revealed that level of H3K27me3 is only a weak correlation with collinear Hoxc gene expression in the trunk regions although diminished in general, however the enrichment of H3K4me3 is strongly correlated with the gene expression in both stages. In summary, the initial spatiotemporal collinear expression pattern of Hoxc genes and epigenetic modifications are maintained after birth, likely contributing to the establishment of the gene expression code for position in the anatomic body axis throughout the entire life of the organism.

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          Homeobox genes and axial patterning.

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            The dynamic architecture of Hox gene clusters.

            The spatial and temporal control of Hox gene transcription is essential for patterning the vertebrate body axis. Although this process involves changes in histone posttranslational modifications, the existence of particular three-dimensional (3D) architectures remained to be assessed in vivo. Using high-resolution chromatin conformation capture methodology, we examined the spatial configuration of Hox clusters in embryonic mouse tissues where different Hox genes are active. When the cluster is transcriptionally inactive, Hox genes associate into a single 3D structure delimited from flanking regions. Once transcription starts, Hox clusters switch to a bimodal 3D organization where newly activated genes progressively cluster into a transcriptionally active compartment. This transition in spatial configurations coincides with the dynamics of chromatin marks, which label the progression of the gene clusters from a negative to a positive transcription status. This spatial compartmentalization may be key to process the colinear activation of these compact gene clusters.
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              Epigenetic temporal control of mouse Hox genes in vivo.

              During vertebrate development, the temporal control of Hox gene transcriptional activation follows the genomic order of the genes within the Hox clusters. Although it is recognized that this "Hox clock" serves to coordinate body patterning, the underlying mechanism remains elusive. We have shown that successive Hox gene activation in the mouse embryo is closely associated with a directional transition in chromatin status, as judged by the dynamic progression of transcription-competent modifications: Increases in activation marks correspond to decreases in repressive marks. Furthermore, using a mouse in which a Hox cluster was split into two pieces, we document the necessity to maintain a clustered organization to properly implement this process. These results suggest that chromatin modifications are important parameters in the temporal regulation of this gene family.
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                Author and article information

                Journal
                Int J Biol Sci
                Int. J. Biol. Sci
                ijbs
                International Journal of Biological Sciences
                Ivyspring International Publisher (Sydney )
                1449-2288
                2013
                22 September 2013
                : 9
                : 9
                : 960-965
                Affiliations
                Department of Anatomy, Embryology Laboratory, Brain Korea 21 project for Medical Science, Yonsei University College of Medicine, Seoul 120-752, Korea.
                Author notes
                ✉ Corresponding author: E-mail: mhkim1@ 123456yuhs.ac . Tel: +82-2-2228-1647, Fax: +82-2-365-0700.

                Competing Interests: The authors have declared that no competing interest exists.

                Article
                ijbsv09p0960
                10.7150/ijbs.6739
                3805901
                24155669
                5fc657c3-5eb1-4399-a8b3-e3ad65ea405e
                © Ivyspring International Publisher. This is an open-access article distributed under the terms of the Creative Commons License (http://creativecommons.org/licenses/by-nc-nd/3.0/). Reproduction is permitted for personal, noncommercial use, provided that the article is in whole, unmodified, and properly cited.
                History
                : 22 May 2013
                : 12 September 2013
                Categories
                Short Research Communication

                Life sciences
                hoxc cluster genes,collinear expression: anterior-posterior body axis,mouse embryogenesis,histone modification.

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