Your search keyword '"Matrix Attachment Regions"' showing total 61 results

1. Structural and developmental dynamics of Matrix associated regions in Drosophila melanogaster genome.

Author

Sureka, Rahul, Avvaru, Akshay Kumar, Sowpati, Divya Tej, Pathak, Rashmi Upadhyay, and Mishra, Rakesh Kumar

Abstract

Background: Eukaryotic genome is compartmentalized into structural and functional domains. One of the concepts of higher order organization of chromatin posits that the DNA is organized in constrained loops that behave as independent functional domains. Nuclear Matrix (NuMat), a ribo-proteinaceous nucleoskeleton, provides the structural basis for this organization. DNA sequences located at base of the loops are known as the Matrix Attachment Regions (MARs). NuMat relates to multiple nuclear processes and is partly cell type specific in composition. It is a biochemically defined structure and several protocols have been used to isolate the NuMat where some of the steps have been critically evaluated. These sequences play an important role in genomic organization it is imperative to know their dynamics during development and differentiation. Results: Here we look into the dynamics of MARs when the preparation process is varied and during embryonic development of D. melanogaster. A subset of MARs termed as “Core-MARs” present abundantly in pericentromeric heterochromatin, are constant unalterable anchor points as they associate with NuMat through embryonic development and are independent of the isolation procedure. Euchromatic MARs are dynamic and reflect the transcriptomic profile of the cell. New MARs are generated by nuclear stabilization, and during development, mostly at paused RNA polymerase II promoters. Paused Pol II MARs depend on RNA transcripts for NuMat association. Conclusions: Our data reveals the role of MARs in functionally dynamic nucleus and contributes to the current understanding of nuclear architecture in genomic context. [ABSTRACT FROM AUTHOR]

Published

2022

2. Dynamics of nuclear matrix attachment regions during 5th instar posterior silk gland development in Bombyx mori.

Author

Chunduri, Alekhya Rani, Rajan, Resma, Lima, Anugata, Ramamoorthy, Senthilkumar, and Mamillapalli, Anitha

Subjects

SILKWORMS, NUCLEAR matrix, GENETIC regulation, GLANDS, GENOME-wide association studies

Abstract

Background: Chromatin architecture is critical for gene expression during development. Matrix attachment regions (MARs) control and regulate chromatin dynamics. The position of MARs in the genome determines the expression of genes in the organism. In this study, we set out to elucidate how MARs temporally regulate the expression of the fibroin heavy chain (FIBH) gene during development. We addressed this by identifying MARs and studying their distribution and differentiation, in the posterior silk glands of Bombyx mori during 5th instar development. Results: Of the MARs identified on three different days, 7.15% MARs were common to all 3 days, whereas, 1.41, 19.27 and 52.47% MARs were unique to day 1, day 5, and day 7, respectively highlighting the dynamic nature of the matrix associated DNA. The average chromatin loop length based on the chromosome wise distribution of MARs and the distances between these MAR regions decreased from day 1 (253.91 kb) to day 5 (73.54 kb) to day 7 (39.19 kb). Further significant changes in the MARs in the vicinity of the FIBH gene were found during different days of 5th instar development which implied their role in the regulation and expression of the FIBH gene. Conclusions: The presence of MARs in the flanking regions of genes found to exhibit differential expression during 5th instar development indicates their possible role in the regulation of their expression. This reiterates the importance of MARs in the genomic functioning as regulators of the molecular mechanisms in the nucleus. This is the first study that takes into account the tissue specific genome-wide MAR association and the potential role of these MARs in developmentally regulated gene expression. The current study lays a foundation to understand the genome wide regulation of chromatin during development. [ABSTRACT FROM AUTHOR]

Published

2022

3. Episomal vectors based on S/MAR and the β-globin Replicator, encoding a synthetic transcriptional activator, mediate efficient γ-globin activation in haematopoietic cells.

Author

Stavrou, Eleana F., Simantirakis, Emannuouil, Verras, Meletios, Barbas III, Carlos, Vassilopoulos, George, Peterson, Kenneth R., and Athanassiadou, Aglaia

Subjects

DNA replication, MATRIX attachment regions, GLOBIN genes, BONE marrow cells, GENE transfection

Abstract

We report the development of episomal vectors for the specific γ-globin transcription activation in its native position by activator Zif-VP64, based on the Scaffold/Matrix Attachment Region (S/MAR) for episomal retention and the β-globin Replicator, the DNA replication-Initiation Region from the β-globin locus. Vector Zif-VP64-Ep1 containing transcription cassettes CMV- Zif-VP64 and CMV-eGFP-S/MAR transfected a)K562 cells; b)murine β-YAC bone marrow cells (BMC); c)human haematopoietic progenitor CD34+ cells, with transfection efficiencies of 46.3 ± 5.2%, 23.0 ± 2.1% and 24.2 ± 2.4% respectively. K562 transfections generated stable cell lines running for 28 weeks with and without selection, with increased levels of γ-globin mRNA by 3.3 ± 0.13, of γ-globin protein by 6.75 ± 3.25 and HbF protein by 2 ± 0.2 fold, while the vector remained episomal and non integrated. In murine β-YAC BMCs the vector mediated the activation of the silent human γ-globin gene and in CD34+ cells, increased γ-globin mRNA, albeit only transiently. A second vector Zif-VP64-Ep2, with both transcription cassettes carrying promoter SFFV instead of CMV and the addition of β-globin Replicator, transferred into CD34+ cells, produced CD34+ eGFP+ cells, that generated colonies in colony forming cell cultures. Importantly, these were 100% fluorescent, with 2.11 ± 0.13 fold increased γ-globin mRNA, compared to non-transfected cells. We consider these episomal vectors valid, safer alternatives to viral vectors. [ABSTRACT FROM AUTHOR]

Published

2019

4. Two human MARs effectively increase transgene expression in transfected CHO cells.

Author

Li, Qin, Zhao, Chun‐peng, Lin, Yan, Song, Chao, Wang, Fang, and Wang, Tian‐yun

Subjects

MATRIX attachment regions, CHO cell, RECOMBINANT proteins, POLYMERASE chain reaction, APOPTOSIS

Abstract

Matrix attachment regions (MARs) can enhance the expression level of transgene in Chinese hamster ovaries (CHO) cell expression system. However, improvements in function and analyses of the mechanism remains unclear. In this study, we screened two new and more functional MAR elements from the human genome DNA. The human MAR‐3 and MAR‐7 element were cloned and inserted downstream of the polyA site in a eukaryotic vector. The constructs were transfected into CHO cells, and screened under G418 to produce the stably transfected cell pools. The expression levels and stability of enhanced green fluorescent protein (eGFP) were detected by flow cytometry. The transgene copy number and transgene expression at mRNA level were detected by quantitative real‐time PCR. The results showed that the expression level of eGFP of cells transfected with MAR‐containing vectors were all higher than those of the vectors without MARs under transient and stably transfection. The enhancing effect of MAR‐7 was higher than that of MAR‐3. Additionally, we found that MAR significantly increased eGFP copy numbers and eGFP gene mRNA expression level as compared with the vector without. In conclusion, MAR‐3 and MAR‐7 gene can promote the expression of transgene in transfected CHO cells, and its effect may be related to the increase of the number of copies. [ABSTRACT FROM AUTHOR]

Published

2019

5. Identification of a potent MAR element from the human genome and assessment of its activity in stably transfected CHO cells.

Author

Tian, Zheng‐Wei, Xu, Dan‐Hua, Wang, Tian‐Yun, Wang, Xiao‐Yin, Xu, Hong‐Yan, Zhao, Chun‐Peng, and Xu, Guang‐Hua

Subjects

MATRIX attachment regions, TRANSGENE expression, GENE expression, BIOINFORMATICS, EUKARYOTIC cells

Abstract

Abstract: Low‐level and unstable transgene expression are common issues using the CHO cell expression system. Matrix attachment regions (MARs) enhance transgene expression levels, but additional research is needed to improve their function and to determine their mechanism of action. MAR‐6 from CHO chromosomes actively mediates high and consistent gene expression. In this study, we compared the effects of two new MARs and MAR‐6 on transgene expression in recombinant CHO cells and found one potent MAR element that can significantly increase transgene expression. Two MARs, including the human CSP‐B MAR element and DHFR intron MAR element from CHO cells, were cloned and inserted downstream of the poly(A) site in a eukaryotic vector. The constructs were transfected into CHO cells, and the expression levels and stability of eGFP were detected by flow cytometry. The three MAR sequences can be ranked in terms of overall eGFP expression, in decreasing order, as follows: human CSP‐B, DHFR intron MAR element and MAR‐6. Additionally, as expected, the three MAR‐containing vectors showed higher transfection efficiencies and transient transgene expression in comparison with those of the non‐MAR‐containing vector. Bioinformatics analysis indicated that the NFAT and VIBP elements within MAR sequences may contribute to the enhancement of eGFP expression. In conclusion, the human CSP‐B MAR element can improve transgene expression and its effects may be related to the NFAT and VIBP elements. [ABSTRACT FROM AUTHOR]

Published

2018

6. The EF-1α promoter maintains high-level transgene expression from episomal vectors in transfected CHO-K1 cells.

Author

Wang, Xiaoyin, Xu, Zhongjie, Tian, Zhengwei, Zhang, Xi, Xu, Danhua, Li, Qin, Zhang, Junhe, and Wang, Tianyun

Subjects

TRANSGENES, EPISOMES, MATRIX attachment regions, PROMOTERS (Genetics), CHO cell, DNA copy number variations, GENE transfection

Abstract

In our previous study, we demonstrated that episomal vectors based on the characteristic sequence of matrix attachment regions (MARs) and containing the cytomegalovirus (CMV) promoter allow transgenes to be maintained episomally in Chinese hamster ovary (CHO) cells. However, the transgene expression was unstable and the number of copies was low. In this study, we focused on enhancers, various promoters and promoter variants that could improve the transgene expression stability, expression magnitude (level) and the copy number of a MAR-based episomal vector in CHO-K1 cells. In comparison with the CMV promoter, the eukaryotic translation elongation factor 1 α (EF-1α, gene symbol EEF1A1) promoter increased the transfection efficiency, the transgene expression, the proportion of expression-positive clones and the copy number of the episomal vector in long-term culture. By contrast, no significant positive effects were observed with an enhancer, CMV promoter variants or CAG promoter in the episomal vector in long-term culture. Moreover, the high-expression clones harbouring the EF-1α promoter tended to be more stable in long-term culture, even in the absence of selection pressure. According to these findings, we concluded that the EF-1α promoter is a potent regulatory sequence for episomal vectors because it maintains high transgene expression, transgene stability and copy number. These results provide valuable information on improvement of transgene stability and the copy number of episomal vectors. [ABSTRACT FROM AUTHOR]

Published

2017

7. Competitive Promoter-Associated Matrix Attachment Region Binding of the Arid3a and Cux1 Transcription Factors.

Author

Dongkyoon Kim, Schmidt, Christian, Brown, Mark A., and Tucker, Haley

Subjects

IMMUNOGLOBULIN heavy chains, MATRIX attachment regions, B cells, LIPOPOLYSACCHARIDES, GENE expression, PHYSIOLOGY

Abstract

Arid3a/Bright/Dril1 is a B cell-specific transactivator that regulates immunoglobulin heavy chain (IgH) gene transcription by binding promoter and enhancer-associated matrix attachment regions (MARs) within the IgH gene locus. Promoter MAR-mediated Arid3a transactivation is antagonized by direct competition of MAR binding by Cux1/CDP--a ubiquitously expressed repressor originally termed NF-μNR. We report that the NF-μNR complex includes Arid3a in B cells but not in non-B cells through mobility shift assays. The binding activity of NF-μNR and Arid3a in B cells is reciprocally altered during the cell division cycle and by the B cell mitogen lipopolysaccharide LPS. LPS treatment had no effect on Arid3a localization but increased its total abundance within the nucleus and cytoplasm. We show that this increased level of Arid3a is capable of displacing Cux from the MARs to facilitate IgH gene transcription. Finally, we showed that the MARs (termed Bf150 and Tx125) associated with the VH1 rearranged variable region expressed in the S107 murine plasmacytoma, can repress reporter gene transcription in non-B cells and that they can relieve the repression mediated by Eμ enhancer in B cells. These results have significant implications for early human development and demonstrate that MARs in IgH locus, NF-μNR and Arid3a regulate IgH gene expression in a concerted fashion. This paves the way for future studies examining the misregulation of this pathway in pediatric disease. [ABSTRACT FROM AUTHOR]

Published

2017

8. Coordination of matrix attachment and ATP-dependent chromatin remodeling regulate auxin biosynthesis and Arabidopsis hypocotyl elongation.

Author

Lee, Kyounghee and Seo, Pil Joon

Subjects

MATRIX attachment regions, CHROMATIN, AUXIN, BIOSYNTHESIS, ARABIDOPSIS, GENETIC regulation

Abstract

Hypocotyl elongation is extensively controlled by hormone signaling networks. In particular, auxin metabolism and signaling play key roles in light-dependent hypocotyl growth. The nuclear matrix facilitates organization of DNA within the nucleus, and dynamic interactions between nuclear matrix and DNA are related to gene regulation. Conserved scaffold/matrix attachment regions (S/MARs) are anchored to the nuclear matrix by the AT-HOOK MOTIF CONTAINING NUCLEAR LOCALIZED (AHL) proteins in Arabidopsis. Here, we found that ESCAROLA (ESC)/AHL27 and SUPPRESSOR OF PHYTOCHROME B-4 #3 (SOB3)/AHL29 redundantly regulate auxin biosynthesis in the control of hypocotyl elongation. The light-inducible AHL proteins bind directly to an S/MAR region of the YUCCA 9 (YUC9) promoter and suppress its expression to inhibit hypocotyl growth in light-grown seedlings. In addition, they recruit the SWI2/SNF2-RELATED 1 (SWR1) complex and promote exchange of H2A with the histone variant H2A.Z at the YUC9 locus to further elaborately control auxin biosynthesis. Consistent with these results, the long hypocotyl phenotypes of light-grown genetic mutants of the AHLs and H2A.Z-exchanging components were suppressed by potent chemical inhibitors of auxin transport and YUC enzymes. These results suggest that the coordination of matrix attachment and chromatin modification underlies auxin biosynthesis in light-dependent hypocotyl growth. [ABSTRACT FROM AUTHOR]

Published

2017

9. The combination of sequence-specific and nonspecific DNA-binding modes of transcription factor SATB1.

Author

Kazuhiko Yamasaki and Tomoko Yamasaki

Subjects

TRANSCRIPTION factors, DNA-binding proteins, HOMEOBOX proteins, MATRIX attachment regions, GENETIC mutation

Abstract

Transcription factor SATB1 (special AT-rich sequence binding protein 1) contains multiple DNA-binding domains (DBDs), i.e. two CUT-domain repeats (CUTr1 and CUTr2 from the N-terminus) and a homeodomain, and binds to the matrix attachment region (MAR) of DNA. Although CUTr1 and the homeodomain, but not CUTr2, are known to contribute to DNA binding, different research groups have not reached a consensus on which DBD is responsible for recognition of the target sequence in MAR, 50-TAATA-30. Here, we used isothermal titration calorimetry to demonstrate that CUTr1 has binding specificity to this motif, whereas the homeodomain shows affinity for a variety of DNAs without specificity. In line with nonspecific DNA-binding properties of the homeodomain, a mutation of the invariant Asn at position 51 of the homeodomain (typically in contact with the A base in a sequence-specific binding mode) did not affect the binding affinity significantly. The NMR analyses and computational modeling of the homeodomain, however, revealed the tertiary structure and DNA-binding mode that are typical of homeodomains capable of sequence-specific binding. We believe that the lack of highly conserved basic residues in the helix relevant to the base recognition loosens its fitting into the DNA groove and impairs the specific binding. The two DBDs, when fused in tandem, showed strong binding to DNA containing the 50-TAATA-30 motif with an affinity constant >108 M-1 and retained nonspecific binding activity. The combination of the sequence-specific and nonspecific DNA-binding modes of SATB1 should be advantageous in a search for target loci during transcriptional regulation. [ABSTRACT FROM AUTHOR]

Published

2016

10. Genome-Wide Anaplasma phagocytophilum AnkA-DNA Interactions Are Enriched in Intergenic Regions and Gene Promoters and Correlate with Infection-Induced Differential Gene Expression.

Author

Dumler, J. Stephen, Sinclair, Sara H., Pappas-Brown, Valeria, and Shetty, Amol C.

Subjects

ANAPLASMA phagocytophilum, PROKARYOTES, NEUTROPHILS, GENE expression, MATRIX attachment regions

Abstract

Anaplasma phagocytophilum, an obligate intracellular prokaryote, infects neutrophils, and alters cardinal functions via reprogrammed transcription. Large contiguous regions of neutrophil chromosomes are differentially expressed during infection. Secreted A. phagocytophilum effector AnkA transits into the neutrophil or granulocyte nucleus to complex with DNA in heterochromatin across all chromosomes. AnkA binds to gene promoters to dampen cis-transcription and also has features of matrix attachment region (MAR)-binding proteins that regulate three-dimensional chromatin architecture and coordinate transcriptional programs encoded in topologically-associated chromatin domains. We hypothesize that identification of additional AnkA binding sites will better delineate how A. phagocytophilum infection results in reprogramming of the neutrophil genome. Using AnkA-binding ChIP-seq, we showed that AnkA binds broadly throughout all chromosomes in a reproducible pattern, especially at: (i) intergenic regions predicted to be MARs; (ii) within predicted lamina-associated domains; and (iii) at promoters ≤3000 bp upstream of transcriptional start sites. These findings provide genome-wide support for AnkA as a regulator of cis-gene transcription. Moreover, the dominant mark of AnkA in distal intergenic regions known to be AT-enriched, coupled with frequent enrichment in the nuclear lamina, provides strong support for its role as a MAR-binding protein and genome "re-organizer." AnkA must be considered a prime candidate to promote neutrophil reprogramming and subsequent functional changes that belie improved microbial fitness and pathogenicity. [ABSTRACT FROM AUTHOR]

Published

2016

11. Genome-wide mapping of matrix attachment regions in Drosophila melanogaster.

Author

Pathak, Rashmi U., Srinivasan, Arumugam, and Mishra, Rakesh K.

Subjects

MATRIX attachment regions, DROSOPHILA melanogaster, EUKARYOTIC genomes, CYTOSKELETAL proteins, PROTEOMICS

Abstract

Background Eukaryotic genome acquires functionality upon proper packaging within the nucleus. This process is facilitated by the structural framework of Nuclear Matrix, a nucleo-proteinaceous meshwork. Matrix Attachment Regions (MARs) in the genome serve as anchoring sites to this framework. Results Here we report direct sequencing of the MAR preparation from Drosophila melanogaster embryos and identify >7350 MARs. This amounts to ∼2.5% of the fly genome and often coincide with AT rich non-coding regions. We find significant association of MARs with the origins of replication, transcription start sites, paused RNA Polymerase II sites and exons, but not introns, of highly expressed genes. We also identified sequence motifs and repeats that constitute MARs. Conclusion Our data reveal the contact points of genome to the nuclear architecture and provide a link between nuclear functions and genomic packaging. [ABSTRACT FROM AUTHOR]

Published

2014

12. Effects of matrix attachment regions (MARs) on transgene expression levels and stability in rice.

Author

James, V., Worland, B., Snape, J., and Vain, P.

Subjects

MATRIX attachment regions, TRANSGENE expression, GENE expression in plants, RICE varieties, GENETIC transformation, PLANTS

Published

2008

13. DNA polymorphism and epigenetic marks modulate the affinity of a scaffold/matrix attachment region to the nuclear matrix.

Author

Kisseljova, Natalia P, Dmitriev, Petr, Katargin, Alexey, Kim, Elena, Ezerina, Daria, Markozashvili, Diana, Malysheva, Daria, Planche, Emmeline, Lemmers, Richard J L F, van der Maarel, Silvère M, Laoudj-Chenivesse, Dalila, Lipinski, Marc, and Vassetzky, Yegor S

Subjects

NUCLEAR matrix, GENETIC polymorphisms, MATRIX attachment regions, EPIGENETICS, SCAFFOLDING

Abstract

Mechanisms that regulate attachment of the scaffold/matrix attachment regions (S/MARs) to the nuclear matrix remain largely unknown. We have studied the effect of simple sequence length polymorphism (SSLP), DNA methylation and chromatin organization in an S/MAR implicated in facioscapulohumeral dystrophy (FSHD), a hereditary disease linked to a partial deletion of the D4Z4 repeat array on chromosome 4q. This FSHD-related nuclear matrix attachment region (FR-MAR) loses its efficiency in myoblasts from FSHD patients. Three criteria were found to be important for high-affinity interaction between the FR-MAR and the nuclear matrix: the presence of a specific SSLP haplotype in chromosomal DNA, the methylation of one specific CpG within the FR-MAR and the absence of histone H3 acetylated on lysine 9 in the relevant chromatin fragment. [ABSTRACT FROM AUTHOR]

Published

2014

14. How a Replication Origin and Matrix Attachment Region Accelerate Gene Amplification under Replication Stress in Mammalian Cells.

Author

Tanaka, Shun-suke, Mitsuda, Sho-hei, and Shimizu, Noriaki

Subjects

MAMMALIAN cell cycle, MATRIX attachment regions, GENE amplification, METHOTREXATE, GENE targeting, DNA replication

Abstract

The gene amplification plays a critical role in the malignant transformation of mammalian cells. The most widespread method for amplifying a target gene in cell culture is the use of methotrexate (Mtx) treatment to amplify dihydrofolate reductase (Dhfr). Whereas, we found that a plasmid bearing both a mammalian origin of replication (initiation region; IR) and a matrix attachment region (MAR) was spontaneously amplified in mammalian cells. In this study, we attempted to uncover the underlying mechanism by which the IR/MAR sequence might accelerate Mtx induced Dhfr amplification. The plasmid containing the IR/MAR was extrachromosomally amplified, and then integrated at multiple chromosomal locations within individual cells, increasing the likelihood that the plasmid might be inserted into a chromosomal environment that permits high expression and further amplification. Efficient amplification of this plasmid alleviated the genotoxicity of Mtx. Clone-based cytogenetic and sequence analysis revealed that the plasmid was amplified in a chromosomal context by breakage-fusion-bridge cycles operating either at the plasmid repeat or at the flanking fragile site activated by Mtx. This mechanism explains how a circular molecule bearing IR/MAR sequences of chromosomal origin might be amplified under replication stress, and also provides insight into gene amplification in human cancer. [ABSTRACT FROM AUTHOR]

Published

2014

15. Molecular Characterization of a Human Matrix Attachment Region Epigenetic Regulator.

Author

Arope, Salina, Harraghy, Niamh, Pjanic, Milos, and Mermod, Nicolas

Subjects

MOLECULAR biology, MATRIX attachment regions, EPIGENETICS, GENETIC regulation, GENE expression, NUCLEOTIDE sequence, GENE silencing

Abstract

Matrix attachment regions (MAR) generally act as epigenetic regulatory sequences that increase gene expression, and they were proposed to partition chromosomes into loop-forming domains. However, their molecular mode of action remains poorly understood. Here, we assessed the possible contribution of the AT-rich core and adjacent transcription factor binding motifs to the transcription augmenting and anti-silencing effects of human MAR 1–68. Either flanking sequences together with the AT-rich core were required to obtain the full MAR effects. Shortened MAR derivatives retaining full MAR activity were constructed from combinations of the AT-rich sequence and multimerized transcription factor binding motifs, implying that both transcription factors and the AT-rich microsatellite sequence are required to mediate the MAR effect. Genomic analysis indicated that MAR AT-rich cores may be depleted of histones and enriched in RNA polymerase II, providing a molecular interpretation of their chromatin domain insulator and transcriptional augmentation activities. [ABSTRACT FROM AUTHOR]

Published

2013

16. Transungual Surgical Excision of Subungual Glomus Tumour.

Author

Grover, Chander, Khurana, Ananta, Jain, Rajat, and Rathi, Vinita

Subjects

TUMORS, SURGICAL complications, ABORTION complications, MATRIX attachment regions, PATIENTS

Abstract

Background: Glomus tumours are rare vascular tumours arising subungually in fingernails. Surgical excision provides histopathologic diagnosis and rapid resolution of symptoms. Objective: Present study was aimed at delineating common presentations and long-term treatment outcome of this rare subungual tumour. Patients and Methods: The clinical features and imaging results for 10 patients with subungual glomus tumours were recorded. All were treated with transungual excision. Per-operative findings and, treatment outcomes were recorded and analysed. Results: Females outnumbered males with average age being 33.3 ± 7.55 years. Presenting symptoms were severe pain (100%); nail-plate discoloration and onycholysis. X-ray was normal in 70%, though a magnetic resonance imaging done for five, helped visualise the lesion in three patients. The tumour involved nail bed in five cases and matrix in five, with an average size being 6.1 ± 2.13 mm (range 3-11 mm). An average follow-up of 16.8 months (range 8-24 months) was largely uneventful with longitudinal ridging in two cases and recurrence in two (both attributed to a sister lesion). Conclusion: Subungual glomus tumours have characteristic clinical presentation. Imaging is helpful pre-operatively but has a low success rate. Transungual surgical excision is safe and effective, allowing better visualisation, easy exploration and minimal long-term complications. [ABSTRACT FROM AUTHOR]

Published

2013

17. A chimeric cry8Ea1 gene flanked by MARs efficiently controls Holotrichia parallela.

Author

Geng, Lili, Chi, Jing, Shu, Changlong, Gresshoff, Peter, Song, Fuping, Huang, Dafang, and Zhang, Jie

Subjects

MATRIX attachment regions, INSECT-plant relationships, DEVELOPMENTAL biology, MESSENGER RNA, OILSEED plants, PEANUTS

Abstract

Key message: Peanuts transformed with the synthetic cry8Ea1 gene flanked by MARs are a potentially effective control strategy against white grubs. Cry8Ea1 protein levels of the construct containing MARs were increased by 2.5 times. Abstract: White grubs are now recognized as the most important pests of peanut worldwide. A synthetic cry8Ea1 gene, which was toxic to Holotrichia parallela larvae, was expressed in chimeric peanut roots using an Agrobacterium rhizogenes-mediated transformation system. The relative mRNA and protein levels of the cry8Ea1 gene were confirmed by quantitative real-time PCR and ELISA, respectively. The effects of matrix attachment regions (MARs) on the expression and activity of the cry8Ea1 gene were analyzed. The average expression level of cry8Ea1 in peanut roots was higher for the plants harboring constructs flanked by MARs from tobacco. Moreover, differing from previous studies, the synthetic cry8Ea1 gene flanked by MARs showed more variation in protein levels than mRNA levels. These composite plants containing cry8Ea1 gene flanked by MARs exhibited a high toxicity against Holotrichia parallela larvae as shown by bioassay analysis, thus offering a potential effective combination to control subterranean insects in peanuts. [ABSTRACT FROM AUTHOR]

Published

2013

18. TM6, a novel nuclear matrix attachment region, enhances its flanking gene expression through influencing their chromatin structure.

Author

Ji, Lusha, Xu, Rui, Lu, Longtao, Zhang, Jiedao, Yang, Guodong, Huang, Jinguang, Wu, Changai, and Zheng, Chengchao

Abstract

Nuclear matrix attachment regions (MARs) regulate the higher-order organization of chromatin and affect the expression of their flanking genes. In this study, a tobacco MAR, TM6, was isolated and demonstrated to remarkably increase the expression of four different promoters that drive gusA gene and adjacent nptII gene. In turn, this expression enhanced the transformation frequency of transgenic tobacco. Deletion analysis of topoisomerase IIbinding site, AT-rich element, and MAR recognition signature (MRS) showed that MRS has the highest contribution (61.7%) to the TM6 sequence-mediated transcription activation. Micrococcal nuclease (MNase) accessibility assay showed that 35S and NOS promoter regions with TM6 are more sensitive than those without TM6. The analysis also revealed that TM6 reduces promoter DNA methylation which can affect the gusA expression. In addition, two tobacco chromatin-associated proteins, NtMBP1 and NtHMGB, isolated using a yeast one-hybrid system, specifically bound to the TM6II-1 region (761 bp to 870 bp) and to the MRS element in the TM6II-2 (934 bp to 1,021 bp) region, respectively. We thus suggested that TM6 mediated its chromatin opening and chromatin accessibility of its flanking promoters with consequent enhancement of transcription. [ABSTRACT FROM AUTHOR]

Published

2013

19. MAR Elements and Transposons for Improved Transgene Integration and Expression.

Author

Ley, Déborah, Harraghy, Niamh, Le Fourn, Valérie, Bire, Solenne, Girod, Pierre-Alain, Regamey, Alexandre, Rouleux-Bonnin, Florence, Bigot, Yves, and Mermod, Nicolas

Subjects

MATRIX attachment regions, GENE expression, GENE therapy, BIOTECHNOLOGY, MEDICAL equipment reliability, BIOENGINEERING, GENETIC engineering, DNA

Abstract

:Reliable and long-term expression of transgenes remain significant challenges for gene therapy and biotechnology applications, especially when antibiotic selection procedures are not applicable. In this context, transposons represent attractive gene transfer vectors because of their ability to promote efficient genomic integration in a variety of mammalian cell types. However, expression from genome-integrating vectors may be inhibited by variable gene transcription and/or silencing events. In this study, we assessed whether inclusion of two epigenetic control elements, the human Matrix Attachment Region (MAR) 1–68 and X-29, in a piggyBac transposon vector, may lead to more reliable and efficient expression in CHO cells. We found that addition of the MAR 1–68 at the center of the transposon did not interfere with transposition frequency, and transgene expressing cells could be readily detected from the total cell population without antibiotic selection. Inclusion of the MAR led to higher transgene expression per integrated copy, and reliable expression could be obtained from as few as 2–4 genomic copies of the MAR-containing transposon vector. The MAR X-29-containing transposons was found to mediate elevated expression of therapeutic proteins in polyclonal or monoclonal CHO cell populations using a transposable vector devoid of selection gene. Overall, we conclude that MAR and transposable vectors can be used to improve transgene expression from few genomic transposition events, which may be useful when expression from a low number of integrated transgene copies must be obtained and/or when antibiotic selection cannot be applied. [ABSTRACT FROM AUTHOR]

Published

2013

20. Expression of an Avian Influenza Virus (H5N1) Hemagglutinin Gene in Transgenic Lotus corniculatus.

Author

Guo, Qian-Qian, Zhang, Zhan-Lu, Jiang, San-Jie, Ma, Jiang-Tao, Xue, Wen-Tong, and Wu, Yan-Min

Subjects

LOTUS corniculatus, HEMAGGLUTININ genetics, GENE expression in plants, H5N1 Influenza, COTYLEDONS, PLANT DNA, BIOREACTORS, AGROBACTERIUM

Abstract

Cotyledons from 8-day-old seedlings of Lotus corniculatus were transformed with a gene encoding the avian influenza (H5N1) hemagglutinin (HA) under the control of the CaMV35S promoter along with matrix attachment regions using Agrobacterium-mediated transformation. The HA gene was detected in genomic DNA from transformed plants by PCR and Southern blotting. Immunoblot analysis of the plant-derived protein revealed the presence of the avian influenza (H5N1) HA. The ELISA results showed that the maximum expression level of the HA protein is up to 0.00786% of the total soluble protein. This is the first report of successful expression of the avian influenza (H5N1) HA in transgenic L. corniculatus, cultivar Leo. [ABSTRACT FROM AUTHOR]

Published

2012

21. Fragment of intron 5.2 of the human RUNX1 gene important for transcription activation is neither enhancer nor MAR-element.

Author

Markova, E., Razin, S., and Kantidze, O.

Subjects

TRANSCRIPTION factors, MATRIX attachment regions, INTRONS, GENE enhancers, HUMAN genes

Abstract

The article presents a study on the role of RE2, a fragment of intron 5.2 of the human RUNX1 gene, in transcription activation as a nuclear matrix attachment region or tissue-specific enhancer. The study used electrophoretic mobility shift assay (EMSA) to analyze the tissue-specific regulatory activity of the intron 5.2 fragment. Results showed that RE2 is not a nuclear matrix attachment region but is neither a silencer nor enhancer.

Published

2012

22. N-terminal PDZ-like domain of chromatin organizer SATB1 contributes towards its function as transcription regulator.

Author

Notani, Dimple, Ramanujam, Praveena, Kumar, P. Pavan, Gottimukkala, Kamalvishnu P., Kumar-Sinha, Chandan, and Galande, Sanjeev

Subjects

CHROMATIN, CARRIER proteins, MATRIX attachment regions, GENETIC repressors, BINDING sites, LUCIFERASES, T cells, GENETIC regulation

Abstract

The special AT-rich DNA-binding protein 1 (SATB1) is a matrix attachment region (MAR)-binding protein that acts as a global repressor via recruitment of CtBP1:HDAC1-containing co-repressors to its binding targets. The N-terminal PSD95/Dlg-A/ZO-1 (PDZ)-like domain of SATB1 mediates interactions with several chromatin proteins. In the present study, we set out to address whether the PDZ-domain-mediated interactions of SATB1 are critical for its in vivo function as a global repressor. We reasoned that since the N-terminal PDZ-like domain (amino acid residues 1-204) lacks DNA binding activity, it would fail to recruit the interacting partners of SATB1 to its genomic binding sites and hence would not repress the SATB1-regulated genes. Indeed, in vivo MAR-linked luciferase reporter assay revealed that overexpression of the PDZ-like domain resulted in de-repression, indicating that the PDZ-like domain exerts a dominant negative effect on genes regulated by SATB1. Next, we developed a stable dominant negative model in human embryonic kidney (HEK) 293T cells that conditionally expressed the N-terminal 1-204 region harbouring the PDZ-like domain of SATB1. To monitor the effect of sequestration of the interaction partners on the global gene regulation by SATB1, transcripts from the induced and uninduced clones were subjected to gene expression profiling. Clustering of expression data revealed that 600 out of 19000 genes analysed were significantly upregulated upon overexpression of the PDZ-like domain. Induced genes were found to be involved in important signalling cascades and cellular functions. These studies clearly demonstrated the role of PDZ domain of SATB1 in global gene regulation presumably through its interaction with other cellular proteins. [ABSTRACT FROM AUTHOR]

Published

2011

23. Use of human MAR elements to improve retroviral vector production.

Author

Buceta, M, Galbete, J L, Kostic, C, Arsenijevic, Y, and Mermod, N

Subjects

RETROVIRUSES, GENE therapy, MATRIX attachment regions, GREEN fluorescent protein, TRANSGENE expression, GENETIC vectors, GENE transfection, PLASMIDS

Abstract

Retroviral vectors have many favorable properties for gene therapies, but their use remains limited by safety concerns and/or by relatively lower titers for some of the safer self-inactivating (SIN) derivatives. In this study, we evaluated whether increased production of SIN retroviral vectors can be achieved from the use of matrix attachment region (MAR) epigenetic regulators. Two MAR elements of human origin were found to increase and to stabilize the expression of the green fluorescent protein transgene in stably transfected HEK-293 packaging cells. Introduction of one of these MAR elements in retroviral vector-producing plasmids yielded higher expression of the viral vector RNA. Consistently, viral titers obtained from transient transfection of MAR-containing plasmids were increased up to sixfold as compared with the parental construct, when evaluated in different packaging cell systems and transfection conditions. Thus, use of MAR elements opens new perspectives for the efficient generation of gene therapy vectors. [ABSTRACT FROM AUTHOR]

Published

2011

24. Characterization and heterologous expression of a new matrix attachment region binding protein from the unicellular green alga Dunaliella salina.

Author

Tianyun Wang, Guiqin Hou, Yafeng Wang, and Lexun Xue

Subjects

MATRIX attachment regions, CARRIER proteins, DNA replication, ALGAE, ESCHERICHIA coli

Abstract

Although interactions between the nuclear matrix and special regions of chromosomal DNA called matrix attachment regions (MARs) are implicated in various nuclear functions, the understanding of the regulatory mechanism of MARs is still poor. A few MAR-binding proteins (MARBP) have been isolated from some plants and animals, but not from the unicellular algae. Here, we identify a novel MAR-binding protein, namely DMBP-1, from the halotolerant alga Dunaliella salina. The cDNA of DMBP-1 is 2322-bp long and contains a 1626 bp of an open reading frame encoding a polypeptide of 542 amino acids (59 kDa). The DMBP-1 expressed in Escherichia coli specifically binds A/T-rich MAR DNA. The DMBP-1 fused to green fluorescent protein appears only inside the nuclei of Chinese hamster ovarian cells transfected with the pEGFP–MBP, indicating that the protein is located in the nuclei. The findings mentioned above may contribute to better understanding of the nuclear matrix–MAR interactions. [ABSTRACT FROM PUBLISHER]

Published

2010

25. Determination of the in vivo structural DNA loop organization in the genomic region of the rat albumin locus by means of a topological approach.

Author

Rivera-Mulia, Juan Carlos and Aranda-Anzaldo, Armando

Abstract

Nuclear DNA of metazoans is organized in supercoiled loops anchored to a proteinaceous substructure known as the nuclear matrix (NM). DNA is anchored to the NM by non-coding sequences known as matrix attachment regions (MARs). There are no consensus sequences for identification of MARs and not all potential MARs are actually bound to the NM constituting loop attachment regions (LARs). Fundamental processes of nuclear physiology occur at macromolecular complexes organized on the NM; thus, the topological organization of DNA loops must be important. Here, we describe a general method for determining the structural DNA loop organization in any large genomic region with a known sequence. The method exploits the topological properties of loop DNA attached to the NM and elementary topological principles such as that points in a deformable string (DNA) can be positionally mapped relative to a position-reference invariant (NM), and from such mapping, the configuration of the string in third dimension can be deduced. Therefore, it is possible to determine the specific DNA loop configuration without previous characterization of the LARs involved. We determined in hepatocytes and B-lymphocytes of the rat the DNA loop organization of a genomic region that contains four members of the albumin gene family. [ABSTRACT FROM PUBLISHER]

Published

2010

26. Positional effects of the matrix attachment region on transgene expression in stably transfected CHO cells.

Author

Tian-Yun Wang, Jun-He Zhang, Chang-Qin Jing, Xian-Jun Yang, and Jun-Tang Lin

Subjects

MATRIX attachment regions, TRANSGENE expression, GENE transfection, CHO cell, GENETIC vectors, CHLORAMPHENICOL, ACETYLTRANSFERASES

Abstract

Previous work has shown that the MAR (matrix attachment region) could increase transgene expression in stably transfected CHO (Chinese-hamster ovary) cells. To study the positional effect of MAR on transgene expression, three expression vectors were constructed which contained the human b-globin MAR in different sites, including the vector with two MARs flanking the CAT (chloramphenicol acetyltransferase) expression cassette, one MAR at the 59 or 39 site. These vectors were transfected into CHO cells. The level of CAT gene expression was most effectively increased by two MARs flanking the CAT expression cassette. This increase was also seen when MAR was inserted at the 59 site upstream of the expression cassette, whereas the transgene expression level decreased when MAR was inserted at the 39 site downstream of the expression cassette. We have also shown that the transgene expression level is not directly proportional to the gene copy number, and gene copy number dependency does not exist. [ABSTRACT FROM AUTHOR]

Published

2010

27. Brokerage roles between cliques: a secondary clique analysis.

Author

Bellotti, Elisa

Subjects

ACTORS, STOCKBROKERS, MATRIX attachment regions, MATRICES (Mathematics), CLIQUES (Sociology)

Abstract

The article focuses on a study which examined the roles of actors in the cohesive structure or cliques by applying the brokerage ideas of R. V. Gould and R. M. Fernandez. It is demonstrated on a dataset collected from 100 social services in Milan, Italy in 2006 which is composed of matrix that was analyzed using the clique analysis techniques in the Ucinet software package and is visualized using the Netdraw software package. It shows that actors bridge the gaps between the cohesive subgroups.

Published

2009

28. Inter-MAR Association Contributes to Transcriptionally Active Looping Events in Human β-globin Gene Cluster.

Author

Li Wang, Li-Jun Di, Xiang Lv, Wei Zheng, Zheng Xue, Zhi-Chen Guo, De-Pei Liu, and Chi-Chuan Liang

Subjects

MATRIX attachment regions, GENES, CHROMATIN, LOCUS (Genetics), GENE expression, PROTEINS

Abstract

Matrix attachment regions (MARs) are important in chromatin organization and gene regulation. Although it is known that there are a number of MAR elements in the β-globin gene cluster, it is unclear that how these MAR elements are involved in regulating β-globin genes expression. Here, we report the identification of a new MAR element at the LCR(locus control region) of human β-globin gene cluster and the detection of the inter-MAR association within the β-globin gene cluster. Also, we demonstrate that SATB1, a protein factor that has been implicated in the formation of network like higher order chromatin structures at some gene loci, takes part in β-globin specific inter-MAR association through binding the specific MARs. Knocking down of SATB1 obviously reduces the binding of SATB1 to the MARs and diminishes the frequency of the inter-MAR association. As a result, the ACH establishment and the a-like globin genes and β-like globin genes expressions are affected either. In summary, our results suggest that SATB1 is a regulatory factor of hemoglobin genes, especially the early differentiation genes at least through affecting the higher order chromatin structure. [ABSTRACT FROM AUTHOR]

Published

2009

29. Persistent episomal transgene expression in liver following delivery of a scaffold/matrix attachment region containing non-viral vector.

Author

Argyros, O, Wong, S P, Niceta, M, Waddington, S N, Howe, S J, Coutelle, C, Miller, A D, and Harbottle, R P

Subjects

TRANSGENE expression, MATRIX attachment regions, LIVER, GENETIC vectors, GENE therapy, GENETICS

Abstract

An ideal gene therapy vector should enable persistent transgene expression without limitations of safety and reproducibility. Here we report the development of a non-viral episomal plasmid DNA (pDNA) vector that appears to fulfil these criteria. This pDNA vector combines a scaffold/matrix attachment region (S/MAR) with a human liver-specific promoter (α1-antitrypsin (AAT)) in such a way that long-term expression is enabled in murine liver following hydrodynamic injection. Long-term expression is demonstrated by monitoring the longitudinal luciferase expression profile for up to 6 months by means of in situ bioluminescent imaging. All relevant control pDNA constructs expressing luciferase are unable to sustain significant transgene expression beyond 1 week post-administration. We establish that this shutdown of expression is due to promoter methylation. In contrast, the S/MAR element appears to inhibit methylation of the AAT promoter thereby preventing transgene silencing. Although this vector appears to be maintained as an episome throughout, we have no evidence for its establishment as a replicating entity. We conclude that the combination of a mammalian, tissue-specific promoter with the S/MAR element is sufficient to drive long-term episomal pDNA expression of genes in vivo.Gene Therapy (2008) 15, 1593–1605; doi:10.1038/gt.2008.113; published online 17 July 2008 [ABSTRACT FROM AUTHOR]

Published

2008

30. Matrix attachment region elements have small and variable effects on transgene expression and stability in field-grown Populus.

Author

Li, Jingyi, Brunner, Amy M., Meilan, Richard, and Strauss, Steven H.

Subjects

MATRIX attachment regions, TRANSGENE expression, DNA, GREEN fluorescent protein, CHROMOSOMAL proteins, POPLARS, PROTEINS, MATRICES (Mathematics), VEGETATION boundaries

Abstract

Matrix attachment regions (MARs) are thought to buffer transgenes from the influence of surrounding chromosomal sequences, and therefore to reduce transgene silencing and variation in expression. The statistical properties of more than 400 independent transgenic events produced in Populus, with and without flanking MAR elements from the tobacco root gene RB7, were analysed. The expression of two reporter genes in two poplar clones during three phases of vegetative growth, and the association of T-DNA characteristics with expression, was examined. It was found that MARs did not show a consistent effect on transgene expression levels; they had no effect on the green fluorescent protein ( GFP) reporter gene, but reduced expression in the Basta resistance ( BAR) reporter gene by 23%. The presence of MARs reduced expression variability within transformant populations, apparently by reducing the number of silenced or weakly expressing events. Transgene expression was highly stable over vegetative growth cycles that spanned 3 years of growth in the glasshouse and field, but MARs showed no association with the strength of correlations in expression over the years. Nonetheless, MARs increased the correlation in expression between a p35S:: GFP and p rbcS:: BAR transgene linked on the same vector, but the effect was small and varied between the years. The presence of MARs had no effect on the transgene copy number, but was positively associated with T-DNA truncations, as well as with the formation of direct over inverted repeats at the same chromosomal locus. [ABSTRACT FROM AUTHOR]

Published

2008

31. Characterization, expression and subcellular distribution of a novel MFP1 (matrix attachment region-binding filament-like protein 1) in onion.

Author

R. Samaniego, C. de la Torre, and S. Moreno Díaz de la Espina

Subjects

MATRIX attachment regions, PROTEINS, ONIONS, CHLOROPLASTS, CARRIER proteins, CELL proliferation, ELECTRON microscopy, CHROMATIN

Abstract

Summary.  MFP1 (matrix attachment region-binding filament-like protein 1) is a conserved nuclear and chloroplast DNA-binding protein encoded by a nuclear gene, well characterized in dicot species. In monocots, only a 90 kDa MFP1-related protein had been characterized in the nucleus and nuclear matrix of Allium cepa proliferating cells. We report here a novel MFP1-related nuclear protein of 80 kDa in A. cepa roots, with Mr and pI values similar to those of MFP1 proteins in dicot species, and which also displays a dual location, in the nucleus and chloroplasts of leaf cells. However, this novel protein is not a nuclear matrix component. It shows a spotted intranuclear distribution in small foci differing from the nuclear bodies containing the 90 kDa protein. In electron microscopy analysis, the intranuclear foci containing the 80 kDa MFP1 appeared as small loose structures at the periphery of condensed chromatin patches. This protein was also located in the nucleolus. It was abundant in meristematic cells, but its level fell when proliferation stopped. This different expression and distribution, and its preferential location at the boundaries between heterochromatin and euchromatin, suggest that the novel 80 kDa protein might be associated with decondensed DNA and could play a role in chromatin organization. [ABSTRACT FROM AUTHOR]

Published

2008

32. Expression and characteristic of synthetic human epidermal growth factor (hEGF) in transgenic tobacco plants.

Author

Jie-Ying Bai, Lin Zeng, Yuan-Lei Hu, Yan-Fang Li, Zhong-Ping Lin, Shi-Chen Shang, and Yan-Sheng Shi

Subjects

EPIDERMAL growth factor, TRANSGENIC plants, AGROBACTERIUM tumefaciens, PROTEINS, AGROBACTERIUM, TOBACCO, CELL proliferation, CELL growth, MICROBIOLOGICAL assay

Abstract

To improve the accumulation of recombinant human epidermal growth factor (hEGF) in transgenic tobacco, a highly effective vector was constructed and transformed via Agrobacterium tumefaciens. The hEGF content in transgenic tobacco was up to 0.3% of the total soluble protein. Using the Vero E6 cell expansion assay and the MTT method for cell proliferation, hEGF produced by transgenic tobacco significantly stimulated Vero E6 cell expansion and proliferation, the same as commercial hEGF products. [ABSTRACT FROM AUTHOR]

Published

2007

33. Genomics-based drug design targets the AT-rich malaria parasite: implications for antiparasite chemotherapy.

Author

Yanow, Stephanie K., Purcell, Lisa A., Lee, Moses, and Spithill, Terry W.

Subjects

GENOMICS, MALARIA, MATRIX attachment regions, PARASITES, PLASMODIUM falciparum

Abstract

The sequencing of the malaria genome sought to expose the parasite's ability to cause disease and identify new targets for antimalarial drugs and vaccines. In this study, the authors discovered how malaria genomic DNA, which is unusually rich in adenine and thymine nucleotides, is intrinsically a target for a selective class of compounds. AT-specific DNA-binding agents have previously been shown to have potent antimalarial activity in vitro. The authors used high-resolution bioinformatic tools to explore the genomic basis for this drug susceptibility, first at the level of individual DNA-binding sites, then expanding to the entire genomic context of each malaria chromosome. Their findings revealed a nonrandom distribution and organization of drug-binding sites that can be further exploited to target these AT sequences. Based on these findings, comparative bioinformatics analyses with other parasite genomes may lead to the identification of new target organisms for these AT-specific drugs and have wide implications for the treatment of human and animal parasitic diseases. [ABSTRACT FROM AUTHOR]

Published

2007

34. Genomewide identification of nuclear matrix attachment regions: an analysis of methods.

Author

A.K. Linnemann, A.E. Platts, N. Doggett, A. Gluch, J. Bode, and S.A. Krawetz

Subjects

GENOMES, NUCLEAR matrix, MATRIX attachment regions, OLIGONUCLEOTIDES, CHROMOSOMES, POLYMERASE chain reaction, QUANTITATIVE research

Abstract

High-throughput technologies now afford the opportunity to directly determine the distribution of MARs (matrix attachment regions) throughout a genome. The utility of cosmid and oligonucleotide platforms to identify human chromosome 16 MARs from preparations that employed LIS (lithium di-iodosalicylic acid) and NaCl extraction protocols was examined. The effectiveness of the platforms was then evaluated by Q-PCR (quantitative real-time PCR). Analysis revealed that caution must be exercised, since the representation of non-coding regions varies among platforms. Nevertheless, several interesting trends were revealed. We expect that these technologies will prove useful in systems approaches directed towards defining the role of MARs in various cell types and cellular processes. [ABSTRACT FROM AUTHOR]

Published

2007

35. Increasing transient expression of CAT gene in Porphyra haitanensis by Matrix attachment regions and 18S rDNA targeted homologous recombination.

Author

Zhenghong Zuo, Bowen Li, Chonggang Wang, Jiali Cai, and Yixin Chen

Subjects

MATRIX attachment regions, PORPHYRA, GENE expression, TRANSGENES, RECOMBINANT DNA, SILKWORMS, ELECTROPORATION, CHLORAMPHENICOL, GENETIC recombination

Abstract

To test whether matrix attachment regions (MARs) and 18S rDNA can influence CAT gene transient expression positively in the red algae Porphyra haitanensis, a targeting vector pHR-CAT containing a portion of the 18S rDNA from P. haitanensis, pMAR1-HR-CAT containing one MAR from silkworm and a portion of the 18S rDNA from P. haitanensis and pMAR2-HR-CAT containing two MARs from silkworm and a portion of the 18S rDNA from P. haitanensis were constructed. With the electroporation method, the vectors were transferred into the protoplasts from the thalli of P. haitanensis. The results showed that the expression of chloramphenicol acetyl transferase (CAT) protein in transformed cells reached a maximum at 96 h after transformation. It was increased markedly with the pMAR2-HR-CAT compared with the pHR-CAT or the pCAT@3-control vector ( P<0.01), and it was increased inconspicuously with pHR-CAT compared with the pCAT@3-control vector ( P>0.05). It is suggested that MAR from silkworm could enhance the transient expression of foreign genes in P. haitanensis. [ABSTRACT FROM AUTHOR]

Published

2007

36. Selective matrix attachment regions in T helper cell subsets support loop conformation in the Ifng gene.

Author

Eivazova, E. R., Vassetzky, Y. S., and Aune, T. M.

Subjects

MATRIX attachment regions, T cells, CYTOKINES, GENES, GENETIC regulation, GENETIC transcription, CELL receptors

Abstract

Cytokine genes undergo progressive changes in chromatin organization when naïve CD4+ T helper (Th) cells differentiate into committed Th1 and Th2 lineages. Here, we analyzed nuclear matrix attachment regions (MARs) in the Ifng gene by DNA array technique in unactivated and activated CD4+ Th cells. This approach was combined with analysis of spatial organization of the Ifng gene by chromosome conformation capture approach to assess the relationship between the gene conformation and matrix attachment organization in functionally different cell subsets. We report that the Ifng gene in unactivated cells displays a linear conformation, but in T-cell receptor-activated cells, it adopts a loop conformation. The selective MARs support the spatial gene organization and characteristically define the Ifng gene in functionally different cell subsets. The pattern of interaction of the Ifng gene with the nuclear matrix dynamically changes in a lineage-specific manner in parallel with the changes in Ifng gene conformation. The data suggest that such structural dynamics provide the means for transcriptional regulation of the Ifng gene in the course of activation and differentiation of CD4+Th cells.Genes and Immunity (2007) 8, 35–43. doi:10.1038/sj.gene.6364349; published online 9 November 2006 [ABSTRACT FROM AUTHOR]

Published

2007

37. Functional interaction between PML and SATB1 regulates chromatin-loop architecture and transcription of the MHC class I locus.

Author

P., Pavan Kumar, Bischof, Oliver, Purbey, Prabhat Kumar, Notani, Dimple, Urlaub, Henning, Dejean, Anne, and Galande, Sanjeev

Subjects

MYELOID leukemia, MAJOR histocompatibility complex, CHROMATIN, MATRIX attachment regions, CARRIER proteins, INTERFERONS, GENE expression

Abstract

The function of the subnuclear structure the promyelocytic leukaemia (PML) body is unclear largely because of the functional heterogeneity of its constituents. Here, we provide the evidence for a direct link between PML, higher-order chromatin organization and gene regulation. We show that PML physically and functionally interacts with the matrix attachment region (MAR)-binding protein, special AT-rich sequence binding protein 1 (SATB1) to organize the major histocompatibility complex (MHC) class I locus into distinct higher-order chromatin-loop structures. Interferon γ (IFNγ) treatment and silencing of either SATB1 or PML dynamically alter chromatin architecture, thus affecting the expression profile of a subset of MHC class I genes. Our studies identify PML and SATB1 as a regulatory complex that governs transcription by orchestrating dynamic chromatin-loop architecture. [ABSTRACT FROM AUTHOR]

Published

2007

38. In-silico prediction and observations of nuclear matrix attachment.

Author

Platts, Adrian, Quayle, Amelia, and Krawetz, Stephen

Abstract

The nuclear matrix is a functionally adaptive structural framework interior to the nuclear envelope. The nature and function of this nuclear organizer remains the subject of widespread discussion in the epigenetic literature. To draw this discussion together with a view to suggest a way forward we summarize the biochemical evidence for the modalities of DNA-matrix binding alongside the in-silico predictions. Concordance is exhibited at various, but not all levels. On the one hand, both the reiteration and sequence similarity of some elements of Matrix Attachment Regions suggest conservation. On the other hand, in-silico predictions suggest additional unique components. In bringing together biological and sequence evidence we conclude that binding may be hierarchical in nature, reflective of a biological role in replicating, transcribing and potentiating chromatin. Nuclear matrix binding may well be more complex than the widely accepted simple loop model. [ABSTRACT FROM AUTHOR]

Published

2006

39. Spatiotemporal Expression Control Correlates with Intragenic Scaffold Matrix Attachment Regions (S/MARs) in Arabidopsis thaliana.

Author

Tetko, Igor V., Haberer, Georg, Rudd, Stephen, Meyers, Blake, Mewes, Hans-Werner, and Mayer, Klaus F. X.

Subjects

MATRIX attachment regions, CHROMATIN, ARABIDOPSIS thaliana, GENE expression, GENETIC transcription regulation, NUCLEAR matrix

Abstract

Scaffold/matrix attachment regions (S/MARs) are essential for structural organization of the chromatin within the nucleus and serve as anchors of chromatin loop domains. A significant fraction of genes in Arabidopsis thaliana contains intragenic S/MAR elements and a significant correlation of S/MAR presence and overall expression strength has been demonstrated. In this study, we undertook a genome scale analysis of expression level and spatiotemporal expression differences in correlation with the presence or absence of genic S/MAR elements. We demonstrate that genes containing intragenic S/MARs are prone to pronounced spatiotemporal expression regulation. This characteristic is found to be even more pronounced for transcription factor genes. Our observations illustrate the importance of S/MARs in transcriptional regulation and the role of chromatin structural characteristics for gene regulation. Our findings open new perspectives for the understanding of tissue- and organ-specific regulation of gene expression. [ABSTRACT FROM AUTHOR]

Published

2006

40. Spatial Organization of the Chicken α-Globin Gene Domain in Cells of Different Origins.

Author

Ioudinkova, E. S., Petrov, A. V., Vassetzky, Y. S., and Razin, S. V.

Subjects

NUCLEIC acid hybridization, OLIGONUCLEOTIDES, NUCLEAR matrix, MATRIX attachment regions, DNA, GENOMES, GLOBIN genes

Abstract

Hybridization with an oligonucleotide array was used to map the regions of DNA anchorage to the nuclear matrix. Matrix-associated DNA served as a hybridization probe. To obtain the oligonucleotide array, 60-mer oligonucleotides regularly distributed throughout the genome region of interest at 2-kb intervals were immobilized on a nylon filter. The organization of DNA into loop domains was studied in a 100-kb region of chicken chromosome 16, including the α -globin gene cluster. A 40-kb DNA loop, which was fixed to the nuclear matrix and harbored all α-globin genes, was observed in erythroid cells. One of its anchorage regions colocalized with matrix associated region (MAR) and an insulator found previously in the 5′ region of the chicken α-globin gene domain. The spatial (domain-loop) organization of the α-globin gene cluster in lymphoid cells proved to be strikingly different from that in erythroid cells. [ABSTRACT FROM AUTHOR]

Published

2005

41. Tumor Suppressor SMAR1 Mediates Cyclin D1 Repression by Recruitment of the SIN3/Histone Deacetylase 1 Complex.

Author

Rampalli, Shravanti, Pavithra, L., Bhatt, Altaf, Kundu, Tapas K., and Chattopadhyay, Samit

Subjects

TUMOR suppressor proteins, CYCLINS, GROWTH factors, MATRIX attachment regions, CARRIER proteins, NUCLEAR matrix, BREAST cancer, CANCER cells, CYCLIN-dependent kinases, GENETIC regulation

Abstract

Matrix attachment region binding proteins have been shown to play an important role in gene regulation by altering chromatin in a stage- and tissue-specific manner. Our previous studies report that SMAR1, a matrix-associated protein, regresses B16-F1-induced tumors in mice. Here we show SMARI targets the cyclin D1 promoter, a gene product whose dysregulation is attributed to breast malignancies. Our studies reveal that SMAR1 represses cyclin D1 gene expression, which can be reversed by small interfering RNA specific to SMAR1. We demonstrate that SMAR1 interacts with histone deacetylation complex 1, SIN3, and pocket retinoblastomas to form a multiprotein repressor complex. This interaction is mediated by the SMAR1(160–350) domain. Our data suggest SMAR1 recruits a repressor complex to the cyclin D1 promoter that results in deacetylation of chromatin at that locus, which spreads to a distance of at least the 5 kb studied upstream of the cyclin D1 promoter. Interestingly, we find that the high induction of cyclin D1 in breast cancer cell lines can be correlated to the decreased levels of SMAR1 in these lines. Our results establish the molecular mechanism exhibited by SMAR1 to regulate cyclin D1 by modification of chromatin. [ABSTRACT FROM AUTHOR]

Published

2005

42. Hypothesis: Biological role for J-C intronic matrix attachment regions in the molecular mechanism of antigen-driven somatic hypermutation.

Author

Franklin, Andrew and Blanden, Robert V.

Subjects

MATRIX attachment regions, ANTIGENS, GENETIC mutation, IMMUNE system, IMMUNOGLOBULINS, INTRONS

Abstract

A major function of J-C intronic matrix attachment regions (MAR) during immune diversification via somatic hypermutation (SHM) at immunoglobulin loci may be to manipulate the topology of DNA within the upstream target domain. The suggestion that SHM induction requires MAR-induced torsional strain, in conjunction with DNA remodelling at the J-C intron, completes the definition of a cogent paradigm within which all extant molecular data on the issue may be interpreted. Moreover, the suggestion that a mutagenic mechanism relieves MAR-generated superhelicity could provide an indication as to the evolutionary basis of SHM. [ABSTRACT FROM AUTHOR]

Published

2005

43. TM2, a novel strong matrix attachment region isolated from tobacco, increases transgene expression in transgenic rice calli and plants.

Author

Hua Xue, Yu-Tao Yang, Chang-Ai Wu, Guo-Dong Yang, Meng-Meng Zhang, and Cheng-Chao Zheng

Subjects

MATRIX attachment regions, NUCLEAR matrix, TOBACCO, GENE expression in plants, TRANSGENIC plants, MONOCOTYLEDONS

Abstract

Nuclear matrix attachment regions (MARs) are thought to influence the expression of the flanking genes. TM2, a new DNA fragment isolated from tobacco, can bind with the rice nuclear matrix in vitro. In this study, we investigated the effect of TM2 on transgene expression under the control of three different promoters in stably transformed rice calli and plants. The presence of TM2 flanking the transgene increased the expression of constructs based on the constitutive CaMV 35S and maizeubiquitingene promoters in both resistant calli and transformed plants. The GUS expression directed by the photosynthetic-tissue-specific PNZIP promoter was also increased in photosynthetic tissues of transformants. However, TM2 did not change the gene expression pattern controlled by the PNZIP promoter. The effect of TM2 in transgenic plants was stronger than that in transgenic calli based on all three promoters. Our results indicate that TM2, as a novel strong MAR, can be used to increase the transgene expression levels in the whole plant or in particular tissues of monocotyledons. [ABSTRACT FROM AUTHOR]

Published

2005

44. Gene Therapy Progress and Prospects: Episomally maintained self-replicating systems.

Author

Conese, M., Auriche, C., and Ascenzioni, F.

Subjects

EPISOMES, MOLECULAR genetics, EPSTEIN-Barr virus, ONCOGENIC DNA viruses, HERPESVIRUSES, MATRIX attachment regions, NUCLEAR matrix, ARTIFICIAL chromosomes, CHROMOSOMES

Abstract

The use of nonviral gene therapy vectors has been hampered by low level of transfection efficiency and lack of sustained gene expression. Episomal self-replicating systems may overcome these hurdles through their large packaging capacity, stability and reduced toxicity. This article reviews three classes of episomal molecules that have been tested with possible therapeutic genes: (1) self-replicating circular vectors, containing the Epstein-Barr virus (EBV) elements oriP and EBNA1; (2) small circular vectors containing scaffold/matrix attachment regions (S/MARs) as cis-acting elements to maintain the episomal status of the vector; (3) chromosomal vectors, based on the functional elements of the natural chromosomes. The studies reported validate the use of episomal vectors to obtain stable and prolonged gene expression, although reveal some limitations that necessitate additional work.Gene Therapy (2004) 11, 1735-1741. doi:10.1038/sj.gt.3302362; Published online 23 September 2004 [ABSTRACT FROM AUTHOR]

Published

2004

45. Human Matrix Attachment Regions Are Necessary for the Establishment but Not the Maintenance of Transgene Insulation in Drosophila melanogaster.

Author

Namciu, Stephanie J. and Fournier, R. E. K.

Subjects

MATRIX attachment regions, TRANSGENES, DROSOPHILA melanogaster, PHENOTYPES, NUCLEAR matrix, NONHISTONE chromosomal proteins, CELL nuclei

Abstract

Human matrix attachment regions (MARs) can insulate transgene expression from chromosomal position effects in Drosophila melanogaster. To gain insight into the mechanism(s) by which chromosomal insulation occurs, we studied the expression phenotypes of Drosophila transformants expressing mini-white transgenes in which MAR sequences from the human apoB gene were arranged in a variety of ways. In agreement with previous reports, we found that a single copy of the insulating element was not sufficient for position-independent transgene expression; rather, two copies were required. However, the arrangement of the two elements within the transgene was unimportant, since chromosomal insulation was equally apparent when both copies of the insulator were upstream of the mini-white reporter as when the transcription unit was flanked by insulator elements. Moreover, experiments in which apoB 3′ MAR sequences were removed from integrated transgenes in vivo by site-specific recombination demonstrated that MAR sequences were required for the establishment hut not far the maintenance of chromosomal insulation. These observations are not compatible with the chromosomal loop model in its simplest form. Alternate mechanisms for MAR function in this system are proposed. [ABSTRACT FROM AUTHOR]

Published

2004

46. Genome-Wide in Silico Mapping of Scaffold/Matrix Attachment Regions in Arabidopsis Suggests Correlation of Intragenic Scaffold/Matrix Attachment Regions with Gene Expression.

Author

Rudd, Stephen, Frisch, Matthias, Grote, Korbinian, Meyers, Blake C., Mayer, Klaus, and Werner, Thomas

Subjects

ARABIDOPSIS, MATRIX attachment regions, NUCLEAR matrix, PLANT genetics, TRANSGENIC organisms, TRANSGENIC plants

Abstract

We carried out a genome-wide prediction of scaffold/matrix attachment regions (S/MARs) in Arabidopsis. Results indicate no uneven distribution on the chromosomal level but a clear underrepresentation of S/MARs inside genes. In cases where S/MARs were predicted within genes, these intragenic S/MARs were preferentially located within the 5'-hall most prominently within introns 1 and 2. Using Arabidopsis whole-genome expression data generated by the massively parallel signature sequencing methodology, we found a negative correlation between S/MAR-containing genes and transcriptional abundance. Expressed sequence tag data correlated the same way with S/MAR-containing genes. Thus, intragenic S/MARs show a negative correlation with transcription level. For various genes it has been shown experimentally that S/MARs can function as transcriptional regulators and that they have an implication in stabilizing expression levels within transgenic plants. On the basis of a genome-wide in silico S/MAR analysis, we found a significant correlation between the presence of intragenic S/MARs and transcriptional down-regulation. [ABSTRACT FROM AUTHOR]

Published

2004

47. A short synthetic MAR positively affects transgene expression in rice and Arabidopsis.

Author

Van der Geest, Apolonia H. M., Welter, Mary E., Woosley, Aaron T., Pareddy, Dayakar R., Pavelko, Sarah E., Skokut, Michiyo, and Ainley, William M.

Subjects

TRANSGENIC rice, RICE, ARABIDOPSIS, MATRIX attachment regions, TRANSGENES, PLANT biotechnology

Abstract

Matrix Attachment Regions (MARs) are DNA elements that are thought to influence gene expression by anchoring active chromatin domains to the nuclear matrix. When flanking a construct in transgenic plants, MARs could be useful for enhancing transgene expression. Naturally occurring MARs have a number of sequence features and DNA elements in common, and using different subsets of these sequence elements, three independent synthetic MARs were created. Although short, these MARs were able to bind nuclear scaffold preparations with an affinity equal to or greater than naturally occurring plant MARs. One synthetic MAR was extensively tested for its effect on transgene expression, using different MAR orientations, plant promoters, transformation methods and plant species. This MAR was able to increase average transgene expression and produced integration patterns of lower complexity. These data show the potential of making well defined synthetic MARs and using them to improve transgene expression. [ABSTRACT FROM AUTHOR]

Published

2004

48. Search for Water in Martian Soil Using Global Neutron Mapping by the Russian HEND Instrument Onboard the US 2001 Mars Odyssey Spacecraft.

Author

Mitrofanov, I. G., Litvak, M. L., Kozyrev, A. S., Sanin, A. B., Tret'yakov, V. I., Boynton, W. V., Shinohara, C., Hamara, D., Saunders, S., and Drake, D. M.

Subjects

MARS (Planet), MATRIX attachment regions, CONSTITUTION of matter, NEUTRON counters, FROZEN ground, TIME series analysis

Abstract

We present the first results of the global neutron mapping of Mars by the Russian High-Energy Neutron Detector (HEND) onboard the US 2001 Mars Odyssey spacecraft. Global neutron maps of Mars in various spectral ranges allow the content of water ice and adsorbed and bound water in a near-surface layer of the planet 1 to 2 m in thickness to be estimated. Huge regions of permafrost with a high (several tens of percent by weight) content of water ice are shown to be present in the north and the south of Mars. The continuous observations of Mars for 12 months, from February 18, 2002, through February 8, 2003, are indicative of significant seasonal variations on Mars where the transition from northern winter to northern summer occurred. [ABSTRACT FROM AUTHOR]

Published

2003

49. Nucleic Acid-Matrix Attachment Recognition Regions--As Facilitators in Plasmid Transfer.

Author

Chancham, Pattravadee, Ijperen, Tessa van, McDoom, Issam, and Hughes, Jeffrey A.

Subjects

NUCLEIC acids, BIOMOLECULES, PLASMIDS, CYTOPLASMIC inheritance, MOBILE genetic elements, GENETIC vectors, GENETIC transformation

Abstract

Non-viral gene transfer is an alternative to viral vectors for gene transfer. However, non-viral transgene expression remains undesirably low and transient. Matrix attachment regions (MARs) are DNA elements that are defined by their high affinity for the nuclear matrix. MARs may also be related to long-term transgene expression in vitro . The purpose of this research is to evaluate human interferon-β MARs element in various cell types. This was accomplished by constructing MARs-containing plasmid DNA (pDNA) and comparing their transgene expression with non-MARs-containing pDNA. We found that MARs-containing pDNA increased and prolonged the expression in Chinese hamster ovary (CHO) cells, but not in human neuroblastoma cells (SKnSH) and neuronal cells (primary neuron, astroglia and microglia). From the cotransfection experiment, MARs-containing pDNA had a trans effect on another pDNA expression. A PCR method was used to monitor the intracellular distribution of pDNA after cellular fractionalization. We found that non-MAR containing pDNA demonstrates similar intracellular distribution as non-MARs-containing pDNA. [ABSTRACT FROM AUTHOR]

Published

2003

50. Mapping the initial DNA breaks in apoptotic Jurkat cells using ligation-mediated PCR.

Author

Liu, Q Y, Ribecco-Lutkiewicz, M, Carson, C, Testolin, L, Bergeron, D, Kohwi-Shigematsu, T, Walker, P R, and Sikorska, M

Subjects

DNA, APOPTOSIS, MATRIX attachment regions

Abstract

Apoptotic DNA degradation could be initiated by the accumulation of single-strand (ss) breaks in vulnerable chromatin regions, such as base unpairing regions (BURs), which might be preferentially targeted for degradation by both proteases and nucleases. We tested this hypothesis in anti-Fas-treated apoptotic Jurkat cells. Several nuclear proteins known for their association with both MARs and the nuclear matrix, that is, PARP, NuMA, lamin B and SATB1, were degraded, but the morphological rearrangement of the BUR-binding SATB1 protein was one of the earliest detected changes. Subsequently, we have identified several genes containing sequences homologous to the 25?bp BUR element of the IgH gene, a known SATB1-binding site, and examined the integrity of genomic DNA in their vicinity. Multiple ss breaks were found in close proximity to these sites relative to adjacent regions of DNA. Consistent with our prediction, the results indicated that the initiation of DNA cleavage in anti-Fas-treated Jurkat cells occurred within the BUR sites, which likely became accessible to endonucleases due to the degradation of BUR-binding proteins.Cell Death and Differentiation (2003) 10, 278-289. doi:10.1038/sj.cdd.4401146 [ABSTRACT FROM AUTHOR]

Published

2003