Your search keyword '"chromatin immunoprecipitation (ChIP)"' showing total 31 results

1. IFI16 Is Indispensable for Promoting HIF-1α-Mediated APOL1 Expression in Human Podocytes under Hypoxic Conditions.

Author

Randle, Richaundra K., Amara, Venkateswara Rao, and Popik, Waldemar

Subjects

GENE expression, GENETIC variation, GENE enhancers, CHRONIC kidney failure, HYPOXIA-inducible factor 1, PROMOTERS (Genetics)

Abstract

Genetic variants in the protein-coding regions of APOL1 are associated with an increased risk and progression of chronic kidney disease (CKD) in African Americans. Hypoxia exacerbates CKD progression by stabilizing HIF-1α, which induces APOL1 transcription in kidney podocytes. However, the contribution of additional mediators to regulating APOL1 expression under hypoxia in podocytes is unknown. Here, we report that a transient accumulation of HIF-1α in hypoxia is sufficient to upregulate APOL1 expression in podocytes through a cGAS/STING/IRF3-independent pathway. Notably, IFI16 ablation impedes hypoxia-driven APOL1 expression despite the nuclear accumulation of HIF-1α. Co-immunoprecipitation assays indicate no direct interaction between IFI16 and HIF-1α. Our studies identify hypoxia response elements (HREs) in the APOL1 gene enhancer/promoter region, showing increased HIF-1α binding to HREs located in the APOL1 gene enhancer. Luciferase reporter assays confirm the role of these HREs in transcriptional activation. Chromatin immunoprecipitation (ChIP)–qPCR assays demonstrate that IFI16 is not recruited to HREs, and IFI16 deletion reduces HIF-1α binding to APOL1 HREs. RT-qPCR analysis indicates that IFI16 selectively affects APOL1 expression, with a negligible impact on other hypoxia-responsive genes in podocytes. These findings highlight the unique contribution of IFI16 to hypoxia-driven APOL1 gene expression and suggest alternative IFI16-dependent mechanisms regulating APOL1 gene expression under hypoxic conditions. [ABSTRACT FROM AUTHOR]

Published

2024

2. Development of Chromatin Immunoprecipitation for the Analysis of Histone Modifications in Red Macroalga Neopyropia yezoensis (Rhodophyta).

Author

Ueda, Shinnosuke, Mizuta, Hiroyuki, and Uji, Toshiki

Abstract

Epigenetic regulation by histone modification can activate or repress transcription through changes in chromatin dynamics and regulates development and the response to environmental signals in both animals and plants. Chromatin immunoprecipitation (ChIP) is an indispensable tool to identify histones with specific post-translational modifications. The lack of a ChIP technique for macroalgae has hindered understanding of the role of histone modification in the expression of genes in this organism. In this study, a ChIP method with several modifications, based on existing protocols for plant cells, has been developed for the red macroalga, Neopyropia yezoensis, that consists of a heterogeneous alternation of macroscopic leaf-like gametophytes and microscopic filamentous sporophytes. ChIP method coupled with qPCR enables the identification of a histone mark in generation-specific genes from N. yezoensis. The results indicate that acetylation of histone H3 at lysine 9 in the 5′ flanking and coding regions from generation-specific genes was maintained at relatively high levels, even in generation-repressed gene expression. The use of this ChIP method will contribute significantly to identify the epigenetic regulatory mechanisms through histone modifications that control a variety of biological processes in red macroalgae. [ABSTRACT FROM AUTHOR]

Published

2023

3. HvWRKY2 acts as an immunity suppressor and targets HvCEBiP to regulate powdery mildew resistance in barley.

Author

Deshui Yu, Renchun Fan, Ling Zhang, Pengya Xue, Libing Liao, Meizhen Hu, Yanjun Cheng, Jine Li, Ting Qi, Shaojuan Jing, Qiuyun Wang, Bhatt, Arvind, and Qian-Hua Shen

Subjects

BARLEY powdery mildew fungus, IMMUNE response, BARLEY disease & pest resistance, ERYSIPHE graminis, IMMUNOPRECIPITATION

Abstract

Plants use a sophisticated immune system to perceive pathogen infection and activate immune responses in a tightly controlled manner. In barley, HvWRKY2 acts as a repressor in barley disease resistance to the powdery mildew fungus, Blumeria graminis f. sp. hordei (Bgh). However, the molecular features of HvWRKY2 in its DNA-binding and repressor functions, as well as its target genes, are uncharacterized. We show that the W-box binding of HvWRKY2 requires an intact WRKY domain and an upstream sequence of -75 amino acids, and the HvWRKY2 W-box binding activity is linked to its repressor function in disease resistance. Chromatin immunoprecipitation (ChIP)-seq analysis identified HvCEBiP, a putative chitin receptor gene, as a target gene of HvWRKY2 in overexpressing transgenic barley plants. ChIP-qPCR and Electrophoretic Mobility Shift Assay (EMSA) verified the direct binding of HvWRKY2 to a W-boxcontaining sequence in the HvCEBiP promoter. HvCEBiP positively regulates resistance against Bgh in barley. Our findings suggest that HvWRKY2 represses barley basal immunity by directly targeting pathogen-associated molecular pattern (PAMP) recognition receptor genes, suggesting that HvCEBiP and likely chitin signaling function in barley PAMP-triggered immune responses to Bgh infection. [ABSTRACT FROM AUTHOR]

Published

2023

4. Heme oxygenase-1 induction by heat shock in rat hepatoma cell line is regulated by the coordinated function of HSF1, NRF2 and BACH1.

Author

Akagi, Reiko, Kubo, Takanori, Hatori, Yuta, Miyamoto, Takafumi, and Inouye, Sachiye

Subjects

NUCLEAR factor E2 related factor, LEUCINE zippers, TRANSCRIPTION factors, HEAT shock factors, CELL lines

Abstract

The mechanism of heme oxygenase-1 (HO-1) induction by heat shock (HS) loading remains unclear. Here, we investigated the contribution of transcription factors to HS-induced HO-1 expression, using a rat hepatoma cell line (H-4-II-E). Our results demonstrated that HS treatment resulted in a marked induction of HO-1. Immunohistochemical analysis showed a slight mismatch in the expression levels of HO-1 and HSP70 by HS among cells, suggesting a conflict between multiple induction mechanisms. We observed HS-induced nuclear localization of, not only phosphorylated HSF1 but also NRF2, which is a typical transcription factor activated by oxidative stress. HSF1 knockdown in H-4-II-E markedly reduced HO-1 induction by HS, while NRF2 knockdown resulted in a partial effect. The chromatin immunoprecipitation assay demonstrated that HS loading resulted in significant binding of HSF1 to the HSE in the promoter proximal region of HO-1 gene and another HSE located close to the Maf recognition element (MARE) in the −4 kb upstream enhancer region 1, where NRF2 also bound, together with basic leucine zipper transcription factor 1, a negative transcription factor of HO-1. These observations indicate that HO-1 induction by HS is mainly mediated by HSF1 binding to the proximal HSE. NRF2 binding to MARE by HS is predominantly suppressed by an increased binding of BACH1. [ABSTRACT FROM AUTHOR]

Published

2021

5. Genome-wide DNA-binding profile of SRY-box transcription factor 3 (SOX3) in mouse testes.

Author

McAninch, Dale, Thomson, Ella P., and Thomas, Paul Q.

Subjects

SPERMATOGENESIS, TRANSCRIPTION factors, TESTIS, GENETIC regulation, CELL populations, GERM cells

Abstract

Spermatogenesis is the male version of gametogenesis, where germ cells are transformed into haploid spermatozoa through a tightly controlled series of mitosis, meiosis and differentiation. This process is reliant on precisely timed changes in gene expression controlled by several different hormonal and transcriptional mechanisms. One important transcription factor is SRY-box transcription factor 3 (SOX3), which is transiently expressed within the uncommitted spermatogonial stem cell population. Sox3 -null mouse testes exhibit a block in spermatogenesis, leading to infertility or subfertility. However, the molecular role of SOX3 during spermatogonial differentiation remains poorly understood because the genomic regions targeted by this transcription factor have not been identified. In this study we used chromatin immunoprecipitation sequencing to identify and characterise the endogenous genome-wide binding profile of SOX3 in mouse testes at Postnatal Day 7. We show that neurogenin3 (Neurog3 or Ngn3) is directly targeted by SOX3 in spermatogonial stem cells via a novel testes-specific binding site. We also implicate SOX3, for the first time, in direct regulation of histone gene expression and demonstrate that this function is shared by both neural progenitors and testes, and with another important transcription factor required for spermatogenesis, namely promyelocytic leukaemia zinc-finger (PLZF). Together, these data provide new insights into the function of SOX3 in different stem cell contexts. Tightly controlled gene expression is critical for the initiation of spermatogenesis. Using chromatin immunoprecipitation sequencing, we characterised the genome-wide binding profile of the transcription factor SRY-box transcription factor 3 (SOX3) in mouse Postnatal Day 7 testes, identifying key targets such as neurogenin3 and canonical and testes-specific histones. These data provide valuable insights into some of the fundamental transcriptional mechanisms that drive spermatogonial progenitor cell differentiation. [ABSTRACT FROM AUTHOR]

Published

2020

6. H3K4/K9 acetylation and Lr28-mediated expression of six leaf rust responsive genes in wheat (Triticum aestivum).

Author

Sharma, Chanchal, Kumar, Santosh, Saripalli, Gautam, Jain, Neelu, Raghuvanshi, Saurabh, Sharma, J. B., Prabhu, K. V., Sharma, P. K., Balyan, H. S., and Gupta, P. K.

Subjects

WHEAT breeding, LEAF rust of wheat, ACETYLATION, GENE expression in plants, CULTIVARS

Abstract

Development of leaf rust-resistant cultivars is a priority during wheat breeding, since leaf rust causes major losses in yield. Resistance against leaf rust due to Lr genes is partly controlled by epigenetic modifications including histone acetylation that is known to respond to biotic/abiotic stresses. In the present study, enrichment of H3K4ac and H3K9ac in promoters of six defense responsive genes (N-acetyltransferase, WRKY 40, WRKY 70, ASR1, Peroxidase 12 and Sarcosine oxidase) was compared with their expression in a pair of near-isogenic lines (NILs) for the gene Lr28 following inoculation with leaf rust pathotype '77-5'; ChIP-qPCR was used for this purpose. The proximal and distal promoters of these genes contained a number of motifs that are known to respond to biotic stresses. The enrichment of two acetylation marks changed with passage of time; changes in expression of two of the six genes (N-acetyltransferase and peroxidase12), largely matched with changes in H3K4/H3K9 acetylation patterns of the two promoter regions. For example, enrichment of both the marks matched with higher expression of N-acetyltransferase gene in susceptible NIL and the deacetylation (H3K4ac) largely matched with reduced gene expression in resistant NIL. In peroxidase12, enrichment of H3K4ac and H3K9ac largely matched with higher expression in both the NILs. In the remaining four genes, changes in H3 acetylation did not always match with gene expression levels. This indicated complexity in the regulation of the expression of these remaining four genes, which may be controlled by other epigenetic/genetic regulatory mechanisms that need further analysis. [ABSTRACT FROM AUTHOR]

Published

2019

7. Genome-wide (ChIP-seq) identification of target genes regulated by BdbZIP10 during paraquat-induced oxidative stress.

Author

Martin, Ruth C., Vining, Kelly, and Dombrowski, James E.

Abstract

Background: bZIP transcription factors play a significant role in many aspects of plant growth and development and also play critical regulatory roles during plant responses to various stresses. Overexpression of the Brachypodium bZIP10 (Bradi1g30140) transcription factor conferred enhanced oxidative stress tolerance and increased viability when plants or cells were exposed to the herbicide paraquat. To gain a better understanding of genes involved in bZIP10 conferred oxidative stress tolerance, chromatin immunoprecipitation followed by high throughput sequencing (ChIP-Seq) was performed on BdbZIP10 overexpressing plants in the presence of oxidative stress. Results: We identified a transcription factor binding motif, TGDCGACA, different from most known bZIP TF motifs but with strong homology to the Arabidopsis zinc deficiency response element. Analysis of the immunoprecipitated sequences revealed an enrichment of gene ontology groups with metal ion transmembrane transporter, transferase, catalytic and binding activities. Functional categories including kinases and phosphotransferases, cation/ion transmembrane transporters, transferases (phosphorus-containing and glycosyl groups), and some nucleoside/ nucleotide binding activities were also enriched. Conclusions: Brachypodium bZIP10 is involved in zinc homeostasis, as it relates to oxidative stress. [ABSTRACT FROM AUTHOR]

Published

2018

8. The effect of Nipped-B-like (Nipbl) haploinsufficiency on genome-wide cohesin binding and target gene expression: modeling Cornelia de Lange syndrome.

Author

Newkirk, Daniel A., Yen-Yun Chen, Richard Chien, Weihua Zeng, Biesinger, Jacob, Flowers, Ebony, Kawauchi, Shimako, Santos, Rosaysela, Calof, Anne L., Lander, Arthur D., Xiaohui Xie, and Kyoko Yokomori

Subjects

GENE expression, CHROMATIN

Abstract

Background: Cornelia de Lange syndrome (CdLS) is a multisystem developmental disorder frequently associated with heterozygous loss-of-function mutations of Nipped-B-like (NIPBL), the human homolog of Drosophila Nipped-B. NIPBL loads cohesin onto chromatin. Cohesin mediates sister chromatid cohesion important for mitosis but is also increasingly recognized as a regulator of gene expression. In CdLS patient cells and animal models, expression changes of multiple genes with little or no sister chromatid cohesion defect suggests that disruption of gene regulation underlies this disorder. However, the effect of NIPBL haploinsufficiency on cohesin binding and how this relates to the clinical presentation of CdLS, has not been fully investigated. Nipbl haploinsufficiency causes CdLS-like phenotype in mice. We examined genome-wide cohesin binding and its relationship to gene expression using mouse embryonic fibroblasts (MEFs) from Nipbl+/- mice that recapitulate the CdLS phenotype. Results: We found a global decrease in cohesin binding, including at CCCTC-binding factor (CTCF) binding sites and repeat regions. Cohesin-bound genes were found to be enriched for histone H3 lysine 4 trimethylation (H3K4me3) at their promoters; were disproportionately downregulated in Nipbl mutant MEFs and displayed evidence of reduced promoter-enhancer interaction. The results suggest that gene activation is the primary cohesin function sensitive to Nipbl reduction. Over 50% of significantly dysregulated transcripts in mutant MEFs come from cohesin target genes, including genes involved in adipogenesis that have been implicated in contributing to the CdLS phenotype. Conclusions: Decreased cohesin binding at the gene regions is directly linked to disease-specific expression changes. Taken together, our Nipbl haploinsufficiency model allows us to analyze the dosage effect of cohesin loading on CdLS development. [ABSTRACT FROM AUTHOR]

Published

2017

9. Sequencing on the SOLiD 5500xl System – in-depth characterization of the GC bias.

Author

Roeh, Simone, Weber, Peter, Rex-Haffner, Monika, Deussing, Jan M., Binder, Elisabeth B., and Jakovcevski, Mira

Subjects

POLYMERASE chain reaction, DNA, HISTONES, CHROMATIN, IMMUNOPRECIPITATION

Abstract

Different types of sequencing biases have been described and subsequently improved for a variety of sequencing systems, mostly focusing on the widely used Illumina systems. Similar studies are missing for the SOLiD 5500xl system, a sequencer which produced many data sets available to researchers today. Describing and understanding the bias is important to accurately interpret and integrate these published data in various ongoing research projects. We report a particularly strong GC bias for this sequencing system when analyzing a defined gDNA mix of 5 microbes with a wide range of different GC contents (20–72%) when comparing to the expected distribution and Illumina MiSeq data from the same DNA pool. Since we observed this bias already under PCR-free conditions, changing the PCR conditions during library preparation – a common strategy to handle bias in the Illumina system - was not relevant. Source of the bias appeared to be an uneven heat distribution during the SOLiD emulsion PCR (ePCR) - for enrichment of libraries prior loading – since ePCR in either small pouches or in 96-well plates improved the GC bias. Sequencing of chromatin immunoprecipitated DNA (ChIP-seq) is a common approach in epigenetics. ChIP-seq of the mixed source histone mark H3K9ac (acetyl Histone H3 lysine 9), typically found on promoter regions and on gene bodies, including CpG islands, performed on a SOLiD 5500xl machine, resulted in major loss of reads at GC rich loci (GC content ≥ 62%), not explained by low sequencing depth. This was improved with adaptations of the ePCR. [ABSTRACT FROM PUBLISHER]

Published

2017

10. Long-acting β2-agonists promote glucocorticoid-mediated repression of NF-κB by enhancing expression of the feedback regulator TNFAIP3.

Author

Altonsy, Mohammed O., Mostafa, Mahmoud M., Gerber, Anthony N., and Newton, Robert

Subjects

GLUCOCORTICOIDS, NF-kappa B, PROTEIN expression

Abstract

Glucocorticoids, or corticosteroids, are effective treatments for many chronic inflammatory diseases, and in mild/moderate asthma, long-acting β2-adrenoceptor agonists (LABAs) enhance the efficacy of inhaled corticosteroids (ICSs) more than increasing the ICS dose. In human bronchial epithelial, BEAS-2B, cells, expression of TNFα-induced protein-3 (TNFAIP3), or A20, a dual-ubiquitin ligase that provides feedback inhibition of NF-κB, was induced by budesonide, an ICS, and formoterol, a LABA, and was further enhanced by budesonide-formoterol combination. The proinflammatory cytokine TNF induced TNFAIP3 and TNF expression. Whereas subsequent budesonide treatment enhanced TNF-induced TNFAIP3 and reduced TNF expression, formoterol amplified these differential effects. In primary human airway smooth muscle cells, TNFAIP3 expression was induced by TNF. This was largely unaffected by budesonide but was acutely enhanced by budesonide-formoterol combination. In BEAS-2B cells, TNF recruited RELA, the main NF-κB transactivating subunit, to a 3′ region of the TNF gene. RELA binding was reduced by budesonide, was further reduced by formoterol cotreatment, and was associated with reduced RNA polymerase II recruitment to the TNF gene. This is consistent with reduced TNF expression. TNFAIP3 knockdown enhanced TNF expression in the presence of TNF, TNF plus budesonide, and TNF plus budesonide-formoterol combination and confirms feedback inhibition. A luciferase reporter containing the TNF 3′ RELA binding region recapitulated TNF inducibility and was inhibited by an IκB kinase inhibitor and TNFAIP3 overexpression. Repression of reporter activity by budesonide was increased by formoterol and involved TNFAIP3. Thus LABAs may improve the anti-inflammatory properties of ICSs by augmenting TNFAIP3 expression to negatively regulate NF-κB. [ABSTRACT FROM AUTHOR]

Published

2017

11. Interrogation of allelic chromatin states in human cells by high-density ChIP-genotyping.

Author

Light, Nicholas, Adoue, Véronique, Bing Ge, Shu-Huang Chen, Kwan, Tony, and Pastinen, Tomi

Published

2014

12. At HAP5A modulates freezing stress resistance in Arabidopsis through binding to CCAAT motif of AtXTH21.

Author

Shi, Haitao, Ye, Tiantian, Zhong, Bao, Liu, Xun, Jin, Rui, and Chan, Zhulong

Subjects

PLANT protein metabolism, ARABIDOPSIS, IMMUNOPRECIPITATION, ABSCISIC acid, REACTIVE oxygen species, WILD plants

Abstract

Several eukaryotic Heme-associated proteins (HAPs) have been reported to bind specifically to DNA fragments containing CCAAT-box; however, the physiological functions and direct targets of these HAP proteins in plants remain unclear., In this study, we showed that At HAP5A as a transcription factor interacted with CCAAT motif in vivo, and AtXTH21, one direct target of At HAP5A, was involved in freezing stress resistance. The AtHAP5A overexpressing plants were more tolerant, whereas the loss-of-function mutant of AtHAP5A was more sensitive to freezing stress than wild-type plants. Chromatin immunoprecipitation (Ch IP) assay demonstrated that At HAP5A could bind to five fragments that contained CCAAT motifs in the AtXTH21 promoter., Similarly, the AtXTH21 overexpressing plants exhibited improved freezing resistance, while xth21 knockdown mutants displayed decreased freezing resistance. Notably, the modulated freezing resistance of AtHAP5A overexpressing plants and knockout mutant could be reversed by the xth21 mutant and AtXTH21 overexpressing plants, respectively, indicating that AtHAP5A might act upstream of AtXTH21 in freezing stress. Additionally, modulation of AtHAP5A and AtXTH21 expression had the same effects on abscisic acid ( ABA) sensitivity and reactive oxygen species ( ROS) metabolism., Taken together, these results demonstrated that At HAP5A modulates freezing stress resistance in Arabidopsis through binding to the CCAAT motif of AtXTH21. [ABSTRACT FROM AUTHOR]

Published

2014

13. Dynamics and dispensability of variant-specific histone H1 Lys-26/Ser-27 and Thr-165 post-translational modifications.

Author

Terme, Jean-Michel, Millán-Ariño, Lluís, Mayor, Regina, Luque, Neus, Izquierdo-Bouldstridge, Andrea, Bustillos, Alberto, Sampaio, Cristina, Canes, Jordi, Font, Isaura, Sima, Núria, Sancho, Mónica, Torrente, Laura, Forcales, Sonia, Roque, Alicia, Suau, Pere, and Jordan, Albert

Subjects

HISTONES, PHOSPHORYLATION, POST-translational modification, CYCLIC-AMP-dependent protein kinase, HEMAGGLUTININ, CHROMATIN, IMMUNOPRECIPITATION

Abstract

Highlights: [•] Human histone H1.2 T165 is phosphorylated at S and G2/M phases of the cell cycle. [•] H1.2 T165 phosphorylation marks highly proliferative cancer cells. [•] H1.2 T165 is dispensable for cell proliferation and H1.2 binding to chromatin. [•] H1.4 S27 is phosphorylated at G2/M whether adjacent K26 is modified or not. [•] H1.4 K26 residue is required for cell proliferation and heterochromatin loading. [ABSTRACT FROM AUTHOR]

Published

2014

14. Protein kinase Cθ gene expression is oppositely regulated by GCN5 and EBF1 in immature B cells.

Author

Kikuchi, Hidehiko, Nakayama, Masami, Kuribayashi, Futoshi, Imajoh-Ohmi, Shinobu, Nishitoh, Hideki, Takami, Yasunari, and Nakayama, Tatsuo

Subjects

PROTEIN kinase C, GENETIC regulation, B cells, TRANSCRIPTION factors, BINDING sites

Abstract

Highlights: [•] GCN5-deficiency in DT40 caused drastic down-regulation of transcription of PKCθ. [•] EBF1-deficiency brought about remarkable up-regulation of transcription of PKCθ. [•] Re-expression of EBF1 dramatically suppressed transcription of PKCθ. [•] GCN5 binds to the 5′-flanking region of the PKCθ gene and acetylates histone H3. [•] EBF1 binds to the 5′-flanking regions of the PKCθ gene containing EBF1 binding motifs. [Copyright &y& Elsevier]

Published

2014

15. Hepatitis C virus core protein regulates NANOG expression via the stat3 pathway.

Author

Zhou, Jia-Jia, Chen, Ru-Fu, Deng, Xiao-Geng, Zhou, Yu, Ye, Xiao, Yu, Min, Tang, Jing, He, Xiao-Yu, Cheng, Di, Zeng, Bing, Zhou, Quan-bo, and Li, Zhi-hua

Subjects

LIVER cancer, HEPATITIS C virus, GENETIC regulation, GENE expression, TRANSCRIPTION factors, CANCER cell proliferation, CANCER cell growth, CHROMATIN

Abstract

Highlights: [•] A positive link between HCV Core expression, stat3 activation, and NANOG transcription is demonstrated. [•] HCV Core is capable of up-regulating NANOG expression in a STAT3 dependent manner. [•] Phosphorylated stat3 protein directly binds to the promoter of NANOG. [•] NANOG promotes cell growth and cell proliferation via NANOG/cyclin D1 pathway. [ABSTRACT FROM AUTHOR]

Published

2014

16. Identification of functional cis-regulatory elements by sequential enrichment from a randomized synthetic DNA library.

Author

Roccaro, Mario, Ahmadinejad, Nahal, Colby, Thomas, and Somssich, Imre E.

Subjects

ARABIDOPSIS, GENETIC regulation, PROTOPLASTS, MITOCHONDRIAL DNA, CHROMATIN

Abstract

Background The identification of endogenous cis-regulatory DNA elements (CREs) responsive to endogenous and environmental cues is important for studying gene regulation and for biotechnological applications but is labor and time intensive. Alternatively, by taking a synthetic biology approach small specific DNA binding sites tailored to the needs of the scientist can be generated and rapidly identified. Results Here we report a novel approach to identify stimulus-responsive synthetic CREs (SynCREs) from an unbiased random synthetic element (SynE) library. Functional SynCREs were isolated by screening the SynE libray for elements mediating transcriptional activity in plant protoplasts. Responsive elements were chromatin immunoprecipitated by targeting the active Ser-5 phosphorylated RNA polymerase II CTD (Pol II ChIP). Using sequential enrichment, deep sequencing and a bioinformatics pipeline, candidate responsive SynCREs were identified within a pool of constitutively active DNA elements and further validated. These included bonafide biotic/abiotic stress-responsive motifs along with novel SynCREs. We tested several SynCREs in Arabidopsis and confirmed their response to biotic stimuli. Conclusions Successful isolation of synthetic stress-responsive elements from our screen illustrates the power of the described methodology. This approach can be applied to any transfectable eukaryotic system since it exploits a universal feature of the eukaryotic Pol II. [ABSTRACT FROM AUTHOR]

Published

2013

17. CBX8, a component of the Polycomb PRC1 complex, modulates DOT1L-mediated gene expression through AF9/MLLT3.

Author

Malik, Bhavna and Hemenway, Charles S.

Subjects

GENETIC code, POLYCOMB group proteins, GENE expression, PROTEIN binding, CHROMATIN, IMMUNOPRECIPITATION, GENE targeting, REVERSE transcriptase polymerase chain reaction

Abstract

Highlights: [•] AF9 is found in complex with PRC1 proteins. [•] Binding of AF9 to CBX8 alters DOT1L activity. [•] Manipulation of CBX8 changes expression of the AF9–DOT1L target gene ENaCα. [ABSTRACT FROM AUTHOR]

Published

2013

18. Activation-induced cytidine deaminase auto-activates and triggers aberrant gene expression.

Author

Isobe, Tomoyasu, Song, Soken-Nakazawa J., Tiwari, Prabha, Ito, Hiroki, Yamaguchi, Yuki, and Yoshizaki, Kazuyuki

Subjects

CYTIDINE deaminase, GENE expression, PROMOTERS (Genetics), IMMUNOPRECIPITATION, CHROMATIN, REVERSE transcriptase polymerase chain reaction, TUMOR necrosis factors, DEOXYCYTIDINE

Abstract

Highlights: [•] Ectopic expression of AID perturbed normal gene expression. [•] AID specifically activated methylated reporter constructs including that for Pax5. [•] Ectopically expressed AID (with Gadd45) induced aberrant endogenous Pax5 expression. [•] The Pax5 expressed in response to AID and Gadd45 was associated with the AID promoter. [ABSTRACT FROM AUTHOR]

Published

2013

19. MicroRNA-133b stimulates ovarian estradiol synthesis by targeting Foxl2.

Author

Dai, Anyi, Sun, Haixiang, Fang, Ting, Zhang, Qun, Wu, Shaogen, Jiang, Yue, Ding, Lijun, Yan, Guijun, and Hu, Yali

Subjects

MICRORNA, ESTRADIOL, BIOSYNTHESIS, CANCER cells, FORKHEAD transcription factors, STEROIDOGENIC acute regulatory protein, CYTOCHROME P-450, LABORATORY mice

Abstract

Highlights: [•] miR-133b promotes estrogen production in human and mouse granulosa cells. [•] The Forkhead L2 (Foxl2) gene is a novel miR-133b target. [•] miR-133b attenuates the Foxl2-induced transcriptional repression of StAR and CYP19A1. [Copyright &y& Elsevier]

Published

2013

20. Novel insight into Y-box binding protein 1 in the regulation of vascular smooth muscle cell proliferation through targeting GC box-dependent genes.

Author

Shi, Jian-hong, Zheng, Bin, Li, Yong-hui, Sun, Yan, Han, Ai-li, Zhang, Xin-hua, Lv, Xin-rui, Chen, Si, and Wen, Jin-kun

Subjects

CARRIER proteins, VASCULAR smooth muscle, MUSCLE cells, CELL proliferation, TRANSCRIPTION factors, PROMOTERS (Genetics), IMMUNOPRECIPITATION, GENE targeting

Abstract

Highlights: [•] Y-box binding protein 1 (YB1) binds directly to GC boxes in target gene promoters. [•] All-trans-retinoic acid (ATRA) influences YB1 recruitment to GC boxes in VSMCs. YB1 binds to GC boxes via amino acids 125–220. [•] YB1 functions as a transcription activator or suppressor depending on gene context. [•] The YB1 C-terminal tail domain suppresses VSMC proliferation. [Copyright &y& Elsevier]

Published

2013

21. Anterior gradient 2 and 3 - two prototype androgen-responsive genes transcriptionally upregulated by androgens and by oestrogens in prostate cancer cells.

Author

Bu, Huajie, Schweiger, Michal R., Manke, Thomas, Wunderlich, Andrea, Timmermann, Bernd, Kerick, Martin, Pasqualini, Lorenza, Shehu, Erald, Fuchsberger, Christian, Cato, Andrew C. B., and Klocker, Helmut

Subjects

PROTOTYPES, ANDROGENS, GENETIC transcription, GENETIC regulation, ESTROGEN, METASTASIS, CANCER cells, CANCER invasiveness, GENETIC transformation

Abstract

Androgens and oestrogens have been implicated in prostatic carcinogenesis and tumour progression. Although the actions of androgens have been studied extensively, the mechanisms underlying oestrogen signalling in prostate cancer are not fully understood. In the present study, we analyzed the effect of androgens and oestrogens on the expression of anterior gradient 2 ( AGR2) and anterior gradient 3 ( AGR3), comprising two highly-related genes encoding secretory proteins that are expressed in prostate cancer and one of which ( AGR2) has been associated with tumour metastasis. Quantitative reverse-transcriptase PCR and western blot analysis showed androgen induction of AGR2 and AGR3 in three androgen receptor positive cell lines, starting at concentrations of 0.1 n m. Both AGR genes were also transcriptionally activated by ≥ 5 n m oestradiol but not by isotype selective or nonselective oestrogen receptor agonists in DUCaP cells that harbour a high-level of wild-type androgen receptor. A functional androgen receptor but not oestrogen receptor turned out to be required for both androgen and oestrogen regulation. This pattern of androgen and oestrogen regulation was confirmed in VCa P cells and was also observed for FKBP5, a well-characterized androgen-regulated gene. Genome-wide chromatin-immunoprecipitation studies coupled with deep sequencing identified androgen receptor binding sites localized in the distal promoter and intron regions of the AGR2 and AGR3 genes, respectively. The androgen responsiveness of these enhancers was verified by luciferase reporter gene assays and site-directed mutagenesis analysis. Androgen treatment also induced p300 and RNA Pol II recruitment to androgen receptor enhancers of AGR2 and initiated local chromatin remodelling and the formation of RNA Pol II-containing androgen receptor transcription complexes. [ABSTRACT FROM AUTHOR]

Published

2013

22. A specific family of interspersed repeats (SINEs) facilitates meiotic synapsis in mammals.

Author

Johnson, Matthew E., Rowsey, Ross A., Shirley, Sofia, VandeVoort, Catherine, Bailey, Jeffrey, and Hassold, Terry

Subjects

KARYOKINESIS, DNA, CHROMOSOMES, NUCLEIC acids, RHESUS monkeys, CYTOTAXONOMY, CELL division

Abstract

Background: Errors during meiosis that affect synapsis and recombination between homologous chromosomes contribute to aneuploidy and infertility in humans. Despite the clinical relevance of these defects, we know very little about the mechanisms by which homologous chromosomes interact with one another during mammalian meiotic prophase. Further, we remain ignorant of the way in which chromosomal DNA complexes with the meiosis-specific structure that tethers homologs, the synaptonemal complex (SC), and whether specific DNA elements are necessary for this interaction. Results: In the present study we utilized chromatin immunoprecipitation (ChIP) and DNA sequencing to demonstrate that the axial elements of the mammalian SC are markedly enriched for a specific family of interspersed repeats, short interspersed elements (SINEs). Further, we refine the role of the repeats to specific sub-families of SINEs, B1 in mouse and AluY in old world monkey (Macaca mulatta). Conclusions: Because B1 and AluY elements are the most actively retrotransposing SINEs in mice and rhesus monkeys, respectively, our observations imply that they may serve a dual function in axial element binding; i.e., as the anchoring point for the SC but possibly also as a suppressor/regulator of retrotransposition. [ABSTRACT FROM AUTHOR]

Published

2013

23. High-Resolution Genome-wide Mapping of AHR and ARNT Binding Sites by ChIP-Seq.

Author

Lo, Raymond and Matthews, Jason

Subjects

GENOMES, GENE mapping, ARYL hydrocarbon receptors, BINDING sites, POLLUTANTS, IMMUNOPRECIPITATION

Abstract

The aryl hydrocarbon receptor (AHR) and AHR nuclear translocator (ARNT) activated complex regulates genes in response to the environmental contaminant 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD). AHR has also emerged as a potential therapeutic target for the treatment of human diseases and different cancers, including breast cancer. To better understand AHR and ARNT signaling in breast cancer cells, we used chromatin immunoprecipitation linked to high-throughput sequencing to identify AHR- and ARNT-binding sites across the genome in TCDD-treated MCF-7 cells. We identified 2594 AHR-bound, 1352 ARNT-bound, and 882 AHR/ARNT cobound regions. No significant differences in the genomic distribution of AHR and ARNT were observed. Approximately 60% of the cobound regions contained at least one core an aryl hydrocarbon response element (AHRE), 5′-GCGTG-3′. AHR/ARNT peak density was the highest within 1kb of transcription start sites (TSS); however, a number of AHR/ARNT cobound regions were located as far as 100kb from TSS. De novo motif discovery identified a symmetrical variation of the AHRE (5′-GTGCGTG-3′), as well as FOXA1 and SP1 binding motifs. Microarray analysis identified 104 TCDD-responsive genes where 98 genes were upregulated by TCDD. Of the 104 regulated genes, 69 (66.3%) were associated with an AHR- or ARNT-bound region within 100kb of their TSS. Overall our study identified AHR/ARNT cobound regions across the genome, revealed the importance but not absolute requirement for an AHRE in AHR/ARNT interactions with DNA, and identified a modified AHRE motif, thereby increasing our understanding of AHR/ARNT signaling pathway. [ABSTRACT FROM PUBLISHER]

Published

2012

24. Direct targets of the tomato-ripening regulator RIN identified by transcriptome and chromatin immunoprecipitation analyses.

Author

Fujisawa, Masaki, Shima, Yoko, Higuchi, Naoki, Nakano, Toshitsugu, Koyama, Yoshiyuki, Kasumi, Takafumi, and Ito, Yasuhiro

Subjects

CHROMATIN, IMMUNOPRECIPITATION, FRUIT ripening, PLANT genetics, TOMATO genetics, TRANSCRIPTION factors, GENETIC regulation in plants

Abstract

The physiological and biochemical changes in fruit ripening produce key attributes of fruit quality including color, taste, aroma and texture. These changes are driven by the highly regulated and synchronized activation of a huge number of ripening-associated genes. In tomato ( Solanum lycopersicum), a typical climacteric fruit, the MADS-box transcription factor RIN is one of the earliest-acting ripening regulators, required for both ethylene-dependent and ethylene-independent pathways. Although we previously identified several direct RIN targets, many additional targets remain unidentified, likely including key ripening-associated genes. Here, we report the identification of novel RIN targets by transcriptome and chromatin immunoprecipitation (ChIP) analyses. Transcriptome comparisons by microarray of wild-type and rin mutant tomatoes identified 342 positively regulated genes and 473 negatively regulated genes by RIN during ripening. Most of the positively regulated genes contained possible RIN-binding (CArG-box) sequences in their promoters. Subsequently, we selected six genes from the positively regulated genes and a ripening regulator gene, CNR, and assayed their promoters by quantitative ChIP-PCR to examine RIN binding. All of the seven genes, which are involved in cell wall modification, aroma and flavor development, pathogen defense and transcriptional regulation during ripening, are targets of RIN, suggesting that RIN may control multiple diverse ripening processes. In particular, RIN directly regulates the expression of the ripening-associated transcription factors, CNR, TDR4 and a GRAS family gene, providing an important clue to elucidate the complicated transcriptional cascade for fruit ripening. [ABSTRACT FROM AUTHOR]

Published

2012

25. Chromatin affinity-precipitation using a small metabolic molecule: its application to analysis of O-acetyl-ADP-ribose.

Author

Tung, Shu-Yun, Hong, Jia-Yang, Walz, Thomas, Moazed, Danesh, and Liou, Gunn-Guang

Subjects

CHROMATIN, CELL physiology, GENETIC regulation, NAD (Coenzyme), RIBOSE, ACETYLATION, DNA repair, CHROMOSOMES

Abstract

In the cell, many small endogenous metabolic molecules are involved in distinct cellular functions such as modulation of chromatin structure and regulation of gene expression. O-acetyl-ADP-ribose (AAR) is a small metabolic molecule that is generated during NAD-dependent deacetylation by Sir2. Sir2 regulates gene expression, DNA repair, and genome stability. Here, we developed a novel chromatin affinity-precipitation (ChAP) method to detect the chromatin fragments at which small molecules interact with binding partners. We used this method to demonstrate that AAR associated with heterochromatin. Moreover, we applied the ChAP method to whole genome tiling array chips to compare the association of AAR and Sir2. We found that AAR and Sir2 displayed similar genomic binding patterns. Furthermore, we identified 312 potential association cluster regions of AAR. The ChAP assay may therefore be a generally useful strategy to study the small molecule association with chromosomal regions. Our results further suggest that the small metabolic molecule AAR associates with silent chromatin regions in a Sir2-dependent manner and provide additional support for the role of AAR in assembly of silent chromatin. [ABSTRACT FROM AUTHOR]

Published

2012

26. The Current State of Chromatin Immunoprecipitation.

Author

Collas, Philippe

Published

2010

27. The Current State of Chromatin Immunoprecipitation (ChIP) from FFPE Tissues.

Author

Amatori, Stefano and Fanelli, Mirco

Subjects

IMMUNOPRECIPITATION, CHROMATIN, TUMOR classification, POST-translational modification, TRANSCRIPTION factors

Abstract

Cancer cells accumulate epigenomic aberrations that contribute to cancer initiation and progression by altering both the genomic stability and the expression of genes. The awareness of such alterations could improve our understanding of cancer dynamics and the identification of new therapeutic strategies and biomarkers to refine tumor classification and treatment. Formalin fixation and paraffin embedding (FFPE) is the gold standard to preserve both tissue integrity and organization, and, in the last decades, a huge number of biological samples have been archived all over the world following this procedure. Recently, new chromatin immunoprecipitation (ChIP) techniques have been developed to allow the analysis of histone post-translational modifications (PTMs) and transcription factor (TF) distribution in FFPE tissues. The application of ChIP to genome-wide chromatin studies using real archival samples represents an unprecedented opportunity to conduct retrospective clinical studies thanks to the possibility of accessing large cohorts of samples and their associated diagnostic records. However, although recent attempts to standardize have been made, fixation and storage conditions of clinical specimens are still extremely variable and can affect the success of chromatin studies. The procedures introduced in the last few years dealt with this problem proponing successful strategies to obtain high-resolution ChIP profiles from FFPE archival samples. In this review, we compare the different FFPE-ChIP techniques, highlighting their strengths, limitations, common features, and peculiarities, as well as pitfalls and caveats related to ChIP studies in FFPE samples, in order to facilitate their application. [ABSTRACT FROM AUTHOR]

Published

2022

28. Dynamics of RpaB–promoter interaction during high light stress, revealed by chromatin immunoprecipitation (ChIP) analysis in Synechococcus elongatus PCC 7942.

Author

Hanaoka, Mitsumasa and Tanaka, Kan

Subjects

CYANOBACTERIA, EFFECT of light on plants, EFFECT of stress on plants, PHOTOSYNTHESIS genetics, GENETIC transcription, CHROMATIN, CARRIER proteins, TRANSCRIPTION factors

Abstract

In cyanobacteria, a series of genes are induced by, and cause tolerance to, high light stress conditions. Some of these genes share a short, repeated sequence motif known as a high light regulatory 1 (HLR1) element in their promoter regions. Previously, RpaB, a two-component response regulator, was shown to interact with the HLR1 element of several high light-responsive promoters in vitro. However, how RpaB regulates target promoters in vivo remained elusive. In this study, we analyzed the role of RpaB in transcriptional regulation of high light-responsive genes by chromatin immunoprecipitation (ChIP) analysis, which has been recently developed and utilized to study in vivo interactions between DNA-binding proteins and the relevant target DNA. One of the advantages of this method is the ability to detect dynamic interaction patterns in response to various growth and/or environmental conditions instantaneously at the time of the analysis. Here we examined the binding patterns of RpaB under various light conditions using ChIP assays. We found that strong interactions of RpaB with target promoters were weakened in a high light-dependent manner, and that the lower binding level of RpaB continued as long as the high light conditions were maintained. Thus, in regulation of high light-inducible genes, we suggest that RpaB functions as a repressor under normal light conditions, and that high light conditions result in release of the repression. [ABSTRACT FROM AUTHOR]

Published

2008

29. Egr1 Signaling in Prostate Cancer.

Published

2003

30. Profiling methyl-CpG specific determinants on transcriptionally silent chromatin.

Author

El-Osta, Assam, Baker, Emma, and Wolffe, Alan

Abstract

Transcriptional activity is closely associated with DNA methylation and chromatin remodelling. Evidence is emerging that a family of methylation specific (methyl-CpG binding domain, MBD) proteins have the capacity to bind to methylated sequences and repress transcription. Recent advances in this area reveal that many of the MBD proteins are associated with histone deacetylase (HDAC) dependant repression. The capacity of MBD association to repress transcription would largely be defined by promoter structure and this is best explained by the position and density of DNA methylation. The mechanism of specific targeting of MBD family members to methylated sequences remains largely unknown. In order to understand the mechanistic details of silencing the current challenge is to identify and map these molecular determinants assembled on native chromatin in model systems of human development and disease. Downstream targets such as the methylated Fragile X Mental Retardation gene 1 (FMR1) gene and tumour suppressor genes are likely candidates. In this article, we describe a powerful strategy that involves the immunoprecipitation of in vivo formaldehyde fixed chromatin to identify MBD binding complexes directly isolated from the natural chromosomal environment. We demonstrate the methylated human Multidrug Resistance gene 1 (MDR1) is enriched with transcriptional repressors that belong to the MBD family and this would account for transcriptional silencing. [ABSTRACT FROM AUTHOR]

Published

2001

31. Current Analytical Strategies in Studying Chromatin-Associated-Proteome (Chromatome).

Author

Khan, Niamat, Shahid, Sidra, and Asif, Abdul R.

Subjects

DRUG target, DNA replication, DNA structure, PATHOLOGICAL physiology, DRUG design, CHROMATIN, CHROMATIN-remodeling complexes

Abstract

Chromatin is a dynamic structure comprising of DNA and proteins. Its unique nature not only help to pack the DNA tightly within the cell but also is pivotal in regulating gene expression DNA replication. Furthermore it also protects the DNA from being damaged. Various proteins are involved in making a specific complex within a chromatin and the knowledge about these interacting partners is helpful to enhance our understanding about the pathophysiology of various chromatin associated diseases. Moreover, it could also help us to identify new drug targets and design more effective remedies. Due to the existence of chromatin in different forms under various physiological conditions it is hard to develop a single strategy to study chromatin associated proteins under all conditions. In our current review, we tried to provide an overview and comparative analysis of the strategies currently adopted to capture the DNA bounded protein complexes and their mass spectrometric identification and quantification. Precise information about the protein partners and their function in the DNA-protein complexes is crucial to design new and more effective therapeutic molecules against chromatin associated diseases. [ABSTRACT FROM AUTHOR]

Published

2021