H3k36me3

Manufactured by Abcam

Sourced in United Kingdom, United States

H3K36me3 is an antibody that recognizes the trimethylation of lysine 36 on histone H3. Histone modifications play a crucial role in the regulation of gene expression and chromatin structure. H3K36me3 is associated with actively transcribed regions of the genome.

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Lab products found in correlation

H3k27ac, by Abcam (18 mentions) H3k4me3, by Abcam (16 mentions) H3k9me3, by Abcam (14 mentions) H3k4me3, by Merck Group (13 mentions) H3k27me3, by Merck Group (12 mentions) H3k4me1, by Abcam (11 mentions) H3k36me2, by Abcam (10 mentions) H3k27me3, by Cell Signaling Technology (7 mentions) Flag tag (flag), by Merck Group (7 mentions) H3k9me3, by Merck Group (7 mentions) Ab9050, by Abcam (6 mentions) H4k20me1, by Abcam (6 mentions) H3k27me3, by Abcam (6 mentions) H3k9me2, by Abcam (5 mentions) H3k36me1, by Abcam (5 mentions) H3k4me3, by Active Motif (4 mentions) G6pdh, by Merck Group (4 mentions) H3k14ac, by Active Motif (4 mentions) Histone h3, by Abcam (4 mentions) H3k9ac, by Merck Group (4 mentions)

75 protocols using h3k36me3

ChIP-seq Antibody Validation and Immunofluorescence

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The antibodies used for ChIP were: H3 (Abcam ab1791, lot no. GR177884-2), H3K27ac (Abcam ab4729, lot no. GR200563-1), H3K27me3 (Millipore 07–499, lot no. 2475696), H3K36me3 (Abcam ab9050, lot no. GR204353-1), H3K4me3 (Abcam ab8580, lot no. GR190202-1), and H3K9me3 (Abcam ab8898, lot no. GR186864-1), and were validated by the company for specificity. For the H3K4me3 antibody, abcam reports strong binding to H3K4me3 but some cross reactivity with H3K4me2 [103 ]. The following primary antibodies were used for immunofluorescence: mouse anti-Nc82 (1∶20; Developmental Studies Hybridoma Bank) and rat anti-Fru^M (1:200) [18 (link)]. The secondary antibodies used for immunofluorescence were Alexa Fluor goat anti-rat 488 (1:1000), goat anti-mouse 633 (1:500), rabbit anti-GFP 488 conjugate (1:600), and streptavidin 488 conjugate (1:4000) (Thermo Fisher).

Palmateer C.M., Moseley S.C., Ray S., Brovero S.G, & Arbeitman M.N. (2021). Analysis of cell-type-specific chromatin modifications and gene expression in Drosophila neurons that direct reproductive behavior. PLoS Genetics, 17(4), e1009240.

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Chromatin Immunoprecipitation Sequencing Protocol

Cited 5 times

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ChIP assays were performed as previously described^{17 (link),18 (link),63 (link),64 (link)} for the following histone marks: H3K4me3 (Abcam, #ab8580), H3K4me1 (Active Motif, #39297), H3K36me3 (Abcam, #ab9050), H3K27ac (Active Motif, #39133), H2AZac (Abcam, #ab18262), H3K9ac (Millipore, #06-599) and H3K27me3 (Millipore, #07-449). ChIP of H3K9me3 (Diagenode, #C15500003) was performed as previously described^{65 (link)}. We performed lamin ChIP assays in PrEC and LNCaP as previously described^{66 (link)} for both Lamin B1 (Abcam, #ab16048) and Lamin A/C (Santa Cruz, #sc7292). Each ChIP assay was validated by qPCR against an IgG control and enrichment above input. Libraries were prepared with the Illumina TruSeq Chip Library Prep Kit and sequenced on an Illumina HiSeq 2500.
Sequencing data was processed as previously described^{17 (link),63 (link)}. Briefly, ChIP-seq reads were aligned to hg19 using bowtie^{58 (link)} (v1.1.0) allowing up to 3 mismatches, discarding ambiguous and clonal reads. All histone ChIP-seq peaks were called using PeakRanger⁶⁷ (v1.16). Broad domains of lamins (LADs), H3K9me3 and H3K27me3 were called using the enriched domain detector (EDD) for identification of wide genomic enrichment domains^{68 (link)}.

Du Q., Bert S.A., Armstrong N.J., Caldon C.E., Song J.Z., Nair S.S., Gould C.M., Luu P.L., Peters T., Khoury A., Qu W., Zotenko E., Stirzaker C, & Clark S.J. (2019). Replication timing and epigenome remodelling are associated with the nature of chromosomal rearrangements in cancer. Nature Communications, 10, 416.

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Profiling Hypoxia-Induced Protein and Epigenetic Changes

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Cells were lysed in UTB (9 M urea, 75 mM Tris-HCl pH 7.5, 0.15 M β-mercaptoethanol) and briefly sonicated. Primary antibodies used: HIF-1a (BD Transduction Labs., 610959), KDM4A (Abcam, ab24545), CAIX (BioScience, AB1001), Glut1 (Abcam, ab14683), Actin (Santa Cruz, sc-69879), H3K9me3 (Millipore, 07-422), H3K36me3 (Abcam, ab9050), H3 (Cell Signaling, 36385), NFκB p52 (Millipore, 05-361), Sp1 (Millipore, 07-645), E2F-1 (Cell Signaling, 3742S), HIF-2a (Novus Biologicals, NB100-122). Secondary antibodies were IRDye® 680RD Goat anti-Mouse IgG (H+L), IRDye® 680RD Goat anti-Rabbit IgG (H+L), IRDye® 800CW Donkey anti-Mouse IgG (H+L) and IRDye® 800CW Donkey anti-Rabbit IgG (H+L) from LI-COR Biosciences. Odyssey IR imaging technology (LI-COR Biosciences) was used for imaging.

Dobrynin G., McAllister T.E., Leszczynska K.B., Ramachandran S., Krieg A.J., Kawamura A, & Hammond E.M. (2017). KDM4A regulates HIF-1 levels through H3K9me3. Scientific Reports, 7, 11094.

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Epigenetic Modifications Profiling

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XRCC1 (Serotec) 1:200, 5mC (clone 33D3, Diagenode) 1:5000 (0.02 ug/ml), 5hmC (Active Motif) 1:500 (2 ug/ml), H3K9me2 (07-441, Upstate) 1:400, H3K27me3 (gift from Dr. T. Jenuwein) 1:500, H3K4me2 (07-030, Upstate) 1:500, H3K36me3 (gift from Dr. H. Kimura,) 1:50, TET3 (C-term, Abcam) 1:200, Dnmt3a (Imgenex, IMG-268A) 1:200, Dnmt3L (Abnova, PAB2230) 1:100.

Amouroux R., Nashun B., Shirane K., Nakagawa S., Hill P.W., D’Souza Z., Nakayama M., Matsuda M., Turp A., Ndjetehe E., Encheva V., Kudo N.R., Koseki H., Sasaki H, & Hajkova P. (2016). De novo DNA methylation drives 5hmC accumulation in mouse zygotes. Nature cell biology, 18(2), 225-233.

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Chromatin Profiling of Mouse Hippocampus

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Mouse hippocampus was harvested immediately after euthanasia. Chromatin immunoprecipitation was then performed as described in Broad ChIP protocol (http://www.roadmapepigenomics.org/protocols/type/experimental/). Briefly, tissues were minced and crosslinked in 1% formaldehyde (Thermo Scientific) for 15 min at room temperature and quenched with glycine for 5 min (Sigma). The samples were homogenized in cell lysis buffer containing proteinase inhibitors (complete, Roche) and chromatin was then fragmented to a size range of ~200–500 bp using a Branson 250 digital sonifier. Solubilized chromatin was then diluted and incubated with ~1 μg antibody at 4°C overnight. Immune complexes were captured with Protein A-sepharose beads, washed and eluted. Enriched chromatin was then subjected to crosslink reversal and proteinase K digestion at 65°C, phenol-chloroform extraction and ethanol precipitation. Isolated ChIP DNA was resuspended and quantified using the Qubit assay (Invitrogen). H3K4me1 (Abcam, ab8895), H3K4me3 (Millipore, #07-473), H3K9me3 (Abcam, ab8898), H3K27me3 (Millipore, #07-449), H3K27ac (Abcam, ab4729), H3K36me3 (Abcam, ab9050) and H4K20me1 (Abcam, ab9051) were used to immunoprecipitate endogenous proteins.

Gjoneska E., Pfenning A.R., Mathys H., Quon G., Kundaje A., Tsai L.H, & Kellis M. (2015). Conserved epigenomic signals in mice and humans reveal immune basis of Alzheimer’s disease. Nature, 518(7539), 365-369.

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ChIP-seq and RNA-seq of RAW Cells

Cited 2 times

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For ChIP-seq, ∼10 × 10⁶ of untreated or stimulated (1 or 4 h after LPS) RAW cells were used for each experiment. Cells were crosslinked with 0.75% formaldehyde for 10 min at room temperature, and chromatin was sonicated as described previously (29 (link)). Each chromatin input was immunoprecipitated with 10 μg of the following antibodies: H3K4me1 (Abcam 8895), H3K4me3 (Active Motif 39159), H3K36me2 (Abcam 9049), H3K79me2 (Abcam ab3594), H3K36me3 (Abcam 9050), H3K27ac (Abcam 4729), H3K27me3 (Cell Signalling 9733) and Pu.1 (Santa Cruz sc-352). After immunoprecipitation, beads were washed three times in buffer A (20 mM Tris–HCl [pH 7.6], 2 mM EDTA, 0.1% SDS, 1% Triton-100 and 150 mM NaCl), once in buffer B (20 mM Tris–HCl [pH 7.6], 2 mM EDTA, 0.1% SDS, 1% Triton-100 and 300 mM NaCl) and once in TE containing 50 mM NaCl. DNA was eluted in TE containing 2% SDS and de-crosslinked overnight at 65°C. DNA was purified by QIAquick columns (QIAGEN) and quantified with Picogreen. Sequencing libraries were generated as previously described (53 (link),54 (link)) and sequenced on an Illumina HiSeq2000. Total RNA was extracted from 2 × 10⁶ cells using RNeasy Kit (QIAGEN) with DNase I treatment. Libraries were then prepared using TruSeq RNA sample preparation Kit (Illumina) after depleting ribosomal RNA and sequenced on an Illumina HiSeq2000.

Soldi M., Mari T., Nicosia L., Musiani D., Sigismondo G., Cuomo A., Pavesi G, & Bonaldi T. (2017). Chromatin proteomics reveals novel combinatorial histone modification signatures that mark distinct subpopulations of macrophage enhancers. Nucleic Acids Research, 45(21), 12195-12213.

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Histone Methylation Analysis in Zebrafish Embryos

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Approximately 30 embryos at 48 hpf (hour post fertilization) were lysed in RIPA (Beyotime Institute of Biotechnology, China) in the presence of cocktail inibitor (Invitrogen). The lysate was sonicated for 10 rounds of 3 seconds at 50% power, then the samples were mixed with 5× Laemmli sample buffer and boiled for 5 minutes. WB was carried out according to standard procedure using following antibodies: H3K36Me2 (Abcam), H3K36Me3 (Abcam), H3 (Protech) and β-actin (Protech).

Yu C., Yao X., Zhao L., Wang P., Zhang Q., Zhao C., Yao S, & Wei Y. (2017). Wolf–Hirschhorn Syndrome Candidate 1 (whsc1) Functions as a Tumor Suppressor by Governing Cell Differentiation. Neoplasia (New York, N.Y.), 19(8), 606-616.

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ChIP-Seq and Western Blot Analysis

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Antibodies, H3K4me3 (clone MC315, Millipore 04-745), H3K27ac (Abcam Ab4729), H3K27me3 (clone C36B11, CST 9733), H4K8ac (Abcam Ab45166 for ChIP-Seq, IHC and western, Abclonal A7258 for western), H4K12ac (CST 13944), H3K27me1 (clone D3R8N, CST 84932), H3K23ac (CST 14932), H3K23me1 (Active motif, 39388), H3K9ac (clone C5B11, CST 9649), H3K9me2 (Abclonal A2359), H3K9me3 (Abcam ab176916), H3K4me1 (CST 5326), H4K20me1 (Abcam ab9051), H3K36me3 (Abcam ab9050), H4K20me3 (Abclonal A2372), H3 (Abcam Ab1791), p300 (Abcam ab14984), and β-actin (Abclonal AC026), were purchased from the indicated merchants.

Li Q.L., Wang D.Y., Ju L.G., Yao J., Gao C., Lei P.J., Li L.Y., Zhao X.L, & Wu M. (2019). The hyper-activation of transcriptional enhancers in breast cancer. Clinical Epigenetics, 11, 48.

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ChIP-seq and qPCR Analysis of Chromatin Modifications

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ChIP was performed as previously described (Jamieson et al., 2016 (link)). qPCR was performed using the Quanta Biosciences PerfeCTa Sybr Green FastMix and an Applied Biosystems Step One Plus Real-Time PCR System. ChIP-libraries were prepared as previously described (Jamieson et al., 2016 (link)) and sequencing was performed using an Illumina NextSeq 500 or HiSeq 4000 sequencer with 75- or 100-nt single-end reads, respectively. All sequencing reads were mapped to the corrected N. crassa OR74A (NC12 genome) (Galazka et al., 2016 (link)) using Bowtie2 (Langmead and Salzberg, 2012 (link)). ChIP-seq read coverage was averaged, normalized, and analyzed using tools available from deepTools2 (Ramírez et al., 2016 (link)) and SAMtools (Li et al., 2009 (link)) on the open-source platform Galaxy (Afgan et al., 2016 (link)). Sequencing tracks are displayed as 25-nt-window TDF or bigWig files with the Integrative Genomics Viewer (IGV) (Robinson et al., 2011 (link)). The following antibodies were used for ChIP: H3K27me3 (Millipore, Cat#07 – 449), H3K36me3 (Abcam, Cat#ab9050), H3K36me2 (Abcam, Cat#ab9049), H3K27ac (ActiveMotif, Cat#39133), H3K27me2/3 (ActiveMotif, Cat#39535).

Bicocca V.T., Ormsby T., Adhvaryu K.K., Honda S, & Selker E.U. (2018). ASH1-catalyzed H3K36 methylation drives gene repression and marks H3K27me2/3-competent chromatin. eLife, 7, e41497.

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Chromatin Immunoprecipitation and ChIP-seq Analysis

Cited 2 times

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Chromatin immunoprecipitation was performed as previously described (Mousavi et al., 2012 (link)) using antibodies against Spt6 (Novus), KDM6A (Sigma), Suz12 (Cell signaling), Ezh2 (Cell signaling), H3K27me3 (Cell signaling), H3K27ac (Abcam), H3K36me3 (Abcam), Gal4 (Millipore), Flag (Sigma, F3165), Myc (Sigma), IgG (Abcam). Real-time PCR was performed with a SyberGreen MasterMix (Applied Biosystems) on a StepOnePlus realtime PCR system (Applied Biosystems). Oligonucleotides employed in ChIP-qPCR for the Gal4-TK-luc system are reported in Supplemental Information. For sequencing, the DNA fragments were blunt-end ligated to the Illumina adaptors and amplified via Mondrian SP Workstation system (NuGEN). Libraries were sequenced for 50 cycles on Illumina HiSeq 2000, HiSeq 2500 or HiSeq3000. Mock DNA (input DNA) was used against the matched sample data to call enriched regions and control for the false-positive detection rate (FDR). ChIP-seq data of H3K27me3, H3K27ac, H3K4me1, H3K4me3 in mouse ESCs were published in (Juan et al., 2016 (link)). ChIP-seq data of Med1, Oct4, Sox2, and Nanog in mouse ESC (Whyte et al., 2013 (link)) were downloaded and processed with the same settings.

Wang A.H., Juan A.H., Ko K.D., Tsai P.F., Zare H., Dell’Orso S, & Sartorelli V. (2017). The Elongation Factor Spt6 Maintains ESC Pluripotency by Controlling Super-Enhancers and Counteracting Polycomb Proteins. Molecular cell, 68(2), 398-413.e6.

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