EpiCypher——优质核小体的选择

发表于2024年6月22日由上海金畔生物科技有限公司

EpiCypher——优质核小体的选择

越来越多的证据表明，核小体是体外表征许多染色质调节因子的最佳底物。随着携带完全确定组蛋白修饰的重组核小体的出现，为下一代染色质研究提供了新的或更好的方法(如染色质结合蛋白分析、酶分析、抗体谱分析)。EpiCypher拥有令人印象深刻的产品目录，其中包括83个独特的重组核小体库存，并且有能力生产定制设计核小体，质量高、周期短，助力您的研究！

在科研实验中，如果您要使用重组核小体进行染色质实验，则需考虑以下几点：

1、用于开发修饰组蛋白的方法。确保使用无疤痕方法整合所需的PTMs是很重要的，这种方法可以重现天然组蛋白结构。EpiCypher 使用几种不同的方法获得修饰的组蛋白，所有方法都会无疤痕整合组蛋白修饰。

为什么这很重要呢？许多市售的重组核小体是使用组蛋白PTM类似物构建的，如甲基赖氨酸类似物(MLAs) 10，其会导致修饰位点的氨基酸序列发生变化。这些非天然组蛋白修饰类似物已被证明会破坏与染色质调节蛋白和组蛋白PTM特异性抗体的相互作用，并且这对研究生理机制来讲是不理想的。因此，使用这些方法合成的核小体时应格外谨慎11-13。

2、修饰组蛋白的纯度。组装完全定义的同质核小体的下一步是对修饰组蛋白进行严格的质量控制。

在质控结果中，HPLC 迹线应显示是单一洗脱物质，表明组蛋白纯度>95%；平行高分辨率质谱（HRMS）应在预期质量的1道尔顿范围内显示一个单峰，没有任何意义的额外电荷质量（m/z）信号（例如图2A）。EpiCypher的所有修饰组蛋白均通过HPLC和HRMS分析进行验证。

为什么这很重要呢？不必要的物质（如甲硫氨酸氧化）可能引起结构改变，并影响静电相互作用或疏水相互作用，从而损害下游核小体组装的效率。

EpiCypher——优质核小体的选择

3、组装核小体的质量控制(QC)指标。DNA组装后核小体的质量验证对最终产品的信任保证至关重要。

EpiCypher使用天然PAGE分析DNA上的dNuc组装，其中使用约150bp DNA的高效组装应该只产生单一物质，这相对于未组装的游离DNA，其迁移率降低(图2B，下图)。

为什么这很重要呢？因为被污染的游离DNA会诱导染色质修饰酶(如NSD2)的异常活性，所以必须避免。此外，次优组装可能导致样品的异质性混合，包括错误定位的核小体。

我们还使用考马斯染色对最终的dNucs进行SDS-PAGE分析，以确保四种组蛋白的化学计量相等（图2C，下图）。然后，我们通过免疫印迹证实了整合组蛋白PTM的存在（图2C，上图）。

为什么这很重要呢？如果其他种类的蛋白质污染或偏离1:1:1:1的比例，则可能表明组蛋白降解或组装不良，因此有必要重新解析每个组蛋白。而免疫印迹对于确定修饰是否存在于组蛋白的正确位置上非常重要。

核小体相关产品

分类	货号	产品名称
rNucs Human Recombinant Nucleosomes, No PTMs	16-0006	Mononucleosomes, biotinylated
	16-0009	Mononucleosomes, non-biotinylated
	16-0024	Mononucleosomes, desthiobiotinylated
	16-0027	Tailless Nucleosomes, biotinylated
	16-0023	Mononucleosomes, H3.1 ΔN2, biotinylated
	16-0016	Mononucleosomes, H3.1 ΔN32, biotinylated
	16-1016	Mononucleosomes, H3.1 ΔN32, non-biotinylated
	16-0017	Mononucleosomes, H3.3 ΔN32, biotinylated
	16-1017	Mononucleosomes, H3.3 ΔN32, non-biotinylated
	16-0018	Mononucleosomes, H4 ΔN15, biotinylated
	16-3004	Dinucleosomes, biotinylated
	16-3104	Dinucleosomes, non-biotinylated

dNucs Designer Recombinant Nucleosomes with PTMs	16-0321	H3K4me1, biotinylated
	16-0334	H3K4me2, biotinylated
	16-1334	H3K4me2, non-biotinylated
	16-0316	H3K4me3, biotinylated
	16-1316	H3K4me3, non-biotinylated
	16-0402	H3K4,K9me3, biotinylated
	16-0403	H3K4,K27me3, biotinylated
	16-0335	H3K4me3,K9,14,18ac, biotinylated
	16-0325	H3K9me1, biotinylated
	16-0324	H3K9me2, biotinylated
	16-0315	H3K9me3, biotinylated
	16-0338	H3K27me1, biotinylated
	16-0339	H3K27me2, biotinylated
	16-0317	H3K27me3, biotinylated
	16-1317	H3K27me3, non-biotinylated
	16-0397	H3.1K27me3,S28phos, biotinylated
	16-0322	H3K36me1, biotinylated
	16-0319	H3K36me2, biotinylated
	16-0320	H3K36me3, biotinylated
	16-1320	H3K36me3, non-biotinylated
	16-0390	H3.3K36me3, biotinylated
	16-0367	H3K79me1, biotinylated
	16-0368	H3K79me2, biotinylated
	16-0369	H3K79me3, biotinylated
	16-0393	H4K12me1, biotinylated
	16-0331	H4K20me1, biotinylated
	16-0332	H4K20me2, biotinylated
	16-0333	H4K20me3, biotinylated
	16-1333	H4K20me3, non-biotinylated

vNucs Histone Variants	16-0013	H2AX, biotinylated
	16-1013	H2AX, non-biotinylated
	16-0366	H2AXS139phos, biotinylated
	16-0014	H2AZ.1, biotinylated
	16-1014	H2AZ.1, non-biotinylated
	16-0015	H2AZ.2, biotinylated
	16-0011	H3.3, biotinylated
	16-0012	H3.3, non-biotinylated

Mutant Nucs Defined Amino Acid Substitutions	16-0029	H2AE61A, biotinylated
	16-1029	H2AE61A, non-biotinylated
	16-0030	H2AE92K, biotinylated
	16-1030	H2AE92K, non-biotinylated
	16-0031	H2BE105A,E113A, biotinylated
	16-1031	H2BE105A,E113A, non-biotinylated
	16-0349	Oncogenic Nucs (oncoNucs)
	16-0350	H3.3K9M, biotinylated
	16-1323	H3.3K27M, biotinylated
	16-0323	H3.3K27M, non-biotinylated
	16-0346	H3.3G34R, biotinylated
	16-0347	H3.3G34V, biotinylated
	16-0348	H3.3G34W, biotinylated
	16-0344	H3.3K36M, biotinylated

Methyl DNA Nucs Nucleosomes with Methylated DNA	16-2043	Mononucleosomes, Recombinant, Hemi-methylated 199×601 DNA, biotinylated
	16-2143	Mononucleosomes, Recombinant, Hemi-methylated 199×601 DNA, non-biotinylated
	16-2044	Mononucleosomes, Recombinant, 199×601 DNA, biotinylated
	16-2144	Mononucleosomes, Recombinant, 199×601 DNA, non-biotinylated
	16-2045	Mononucleosomes, Recombinant, Symmetrically Methylated 199×601 DNA, biotinylated

EpiDyne^®Chromatin Remodeling Assay Substrates	16-4201	EpiDyne FRET Nucleosome Remodeling Assay Substrate
	16-4101	EpiDyne Nucleosome Remodeling Assay Substrate ST601-GATC1
	16-4112	EpiDyne Nucleosome Remodeling Assay Substrate ST601-GATC1,2, biotinylated
	16-4113	EpiDyne Nucleosome Remodeling Assay Substrate ST601-GATC1,2,3, biotinylated
	16-4114	EpiDyne Nucleosome Remodeling Assay Substrate ST601-GATC1, 50-N-66, biotinylated
	16-4115	EpiDyne Nucleosome Remodeling Assay Substrate ST601-GATC1,2, 50-N-66, biotinylated
	16-4116	EpiDyne Nucleosome Remodeling Assay Substrate ST601-GATC1,2,3, 50-N-66, biotinylated

SNAP Spike-in Controls	19-1002	SNAP-CUTANA™ K-MetStat Panel
	19-1001	SNAP-ChIP K-MetStat Panel
	19-2001	SNAP-ChIP OncoStat Panel
	19-3001	SNAP-ChIP K-AcylStat Panel

dCypher™ Nucleosome Panels	16-9001	dCypher™ Nucleosome Full Panel

想了解更多关于EpiCypher重组核小体技术和产品的信息吗？请联系金畔！

EpiCypher的注册商标和知识产权可见链接：https://www.epicypher.com/intellectual-property/。

本文中的所有其他商标和商品均为其各自公司所有。

本文翻译自链接：https://www.epicypher.com/resources/blog/finding-the-best-substrate-for-studying-histone-modifications/，如与原文有出入的地方，请以英文原文为准。

未经EpiCypher公司事先书面同意，本文件不得部分或全部复制。

关于EpiCypher公司：

EpiCypher是一家成立于2012年的表观遗传学公司。从专有组蛋白肽阵列平台EpiGold™开始，EpiCypher开发了一系列同类产品。同时，EpiCypher是重组核小体制造和开发的全球领导者。利用其独有技术，不断增加产品库中高纯度修饰重组核小体（dNucs™）产品。dNuc™多样性的产品为破译组蛋白编码和加速药物开发提供了强大的工具。

EpiCypher还将dNuc™技术广泛的应用于多种分析测定产品中，包括：SNAP-ChIP^®Spike-in Controls（用于抗体分析和ChIP定量）， EpiDyne^®底物（用于染色质重塑和抑制剂筛选及开发），dCyher™测定（用于探究表观遗传蛋白质-组蛋白PTM结合相互作用）。最近，EpiCypher还推出了针对ChIC、CUT&RUN和CUT&Tag的高灵敏度表观基因组图谱CUTANA™分析。

如需了解更多详细信息或相关产品，请联系EpiCypher中国代理商-上海金畔生物

如何选择核小体(nucleosomes)?

发表于2024年6月22日由上海金畔生物科技有限公司

如何选择核小体(nucleosomes)?

作者：Ellen N. Weinzapfel 博士，Lu Sun 博士

如何选择核小体(nucleosomes)?

染色质及其调控在包括癌症等多种人类疾病中都发挥重要作用，并共同构成了学术、工业和临床研究中快速发展的研究领域1。染色质结构的基本亚单位是核小体，由大约147bp的DNA缠绕在核心组蛋白八聚体上构成（图1）2。组蛋白亚基有多种化学修饰，如甲基化、乙酰化和磷酸化，这些修饰被称为组蛋白修饰或翻译后修饰(PTMs)。

组蛋白修饰的功能:一种组蛋白编码

这些修饰调节染色质对各种蛋白质的可及性，如转录因子和核小体重塑复合物3,4。此外，组蛋白PTMs可以直接与染色质相互作用或招募染色质相互作用蛋白。因此，不同的组蛋白修饰与独特的基因组功能相关。例如，组蛋白H3赖氨酸27（H3K27me3）上的三甲基化与基因抑制密切相关5，而H3K4me3定位于活性转录起始位点，因此与基因激活相关6。

如何选择核小体(nucleosomes)?

总之，这些组蛋白修饰网络及其动态调控协调了硬编码基因组的表观遗传控制，从而影响各种细胞过程，如基因调控、细胞分化和发育4,7。

如何选择核小体(nucleosomes)?

研究组蛋白修饰的理想底物

越来越多的证据表明，核小体是体外表征许多染色质调节因子的最佳底物。这与之前的研究不同，之前的研究通常使用修饰的组蛋白肽来识别染色质抑制剂或定义新的组蛋白PTM相互作用。

在之前一篇关于组蛋白肽和核小体用于组蛋白PTM抗体验证的博客文章(https://www.epicypher.com/resources/blog/histone-peptides-vs-nucleosomes-which-is-better-for-chip-antibody-validation/)中，我们已经讨论了这个主题。然而，这些问题也与染色质修饰酶的研究有关。例如，NSD2甲基转移酶(与多发性骨髓瘤中的致癌重编程相关)需要核小体底物才能发挥体外活性8。同样，当使用重组核小体时，通过SETD8甲基转移酶的Km显示SAM辅因子比使用组蛋白肽底物时降低了10000倍9。

随着携带完全确定组蛋白修饰的重组核小体的出现，为下一代染色质研究提供了新的或更好的方法(如染色质结合蛋白分析、酶分析、抗体谱分析)。

如何获得重组核小体?

获得重组核小体的制造工艺有很多种，如EpiCypher通过设计来获得核小体(EpiCypher designer nucleosomes, dNucs)。一般来说，大部分相关的方法基本遵循相同的一系列步骤:

如何选择核小体(nucleosomes)?

然而，并非所有的重组核小体都具有相同的质量！不同供应商的合成过程和质量验证标准可能存在很大差异。

如何挑选优质的核小体？

如果您要使用重组核小体进行染色质实验，则需考虑以下几点：

2、修饰组蛋白的纯度。组装完全定义的同质核小体的下一步是对修饰组蛋白进行严格的质量控制。

为什么这很重要呢？不必要的物质（如甲硫氨酸氧化）可能引起结构改变，并影响静电相互作用或疏水相互作用，从而损害下游核小体组装的效率。

如何选择核小体(nucleosomes)?

3、组装核小体的质量控制(QC)指标。DNA组装后核小体的质量验证对最终产品的信任保证至关重要。

EpiCypher使用天然PAGE分析DNA上的dNuc组装，其中使用约150bp DNA的高效组装应该只产生单一物质，这相对于未组装的游离DNA，其迁移率降低(图2B，下图)。

EpiCypher拥有令人印象深刻的产品目录，其中包括83个独特的重组核小体库存，并且有能力生产定制设计核小体，质量高、周期短，助力您的研究！

想了解更多关于EpiCypher重组核小体技术和产品的信息吗？请联系金畔！

EpiCypher核小体相关产品系列

◆ Recombinant Nucleosomes

◆ SNAP-ChIP® Spike-ins

◆ SNAP-CUTANA™ Spike-in Controls

◆ Modified Designer Nucleosomes (dNucs™)

◆ dCypher™ Nucleosome Panels

◆ EpiDyne® Chromatin Remodeling Substrates

◆ Recombinant Nucleosomes (rNucs)

◆ Mutant Nucleosomes

◆ Purified Nucleosomes (HeLa, Avian)

◆ Nucleosome Components and Subunits

◆ Variant Nucleosomes (vNucs)

◆ Methyl DNA Designer Nucleosomes

参考文献

1. Valencia AM, Kadoch C. Chromatin regulatory mechanisms and therapeutic opportunities in cancer. Nat Cell Biol, 2019. p. (PubMed PMID: 30602726)

2. Luger K, et al. Crystal structure of the nucleosome core particle at 2.8 A resolution. Nature, 1997. 389(6648): p. 251-60. (PubMed PMID: 9305837)

3. Jenuwein T, Allis CD. Translating the histone code. Science, 2001. 293(5532): p. 1074-80. (PubMed PMID: 11498575)

4. Rothbart SB, Strahl BD. Interpreting the language of histone and DNA modifications. Biochim Biophys Acta, 2014. 1839(8): p. 627-43. (PubMed PMID: 24631868) (PMC4099259)

5. Cao R, et al. Role of histone H3 lysine 27 methylation in Polycomb-group silencing. Science, 2002. 298(5595): p. 1039-43. (PubMed PMID: 12351676)

6. Liang G, et al. Distinct localization of histone H3 acetylation and H3-K4 methylation to the transcription start sites in the human genome. Proc Natl Acad Sci U S A, 2004. 101(19): p. 7357-62. (PubMed PMID: 15123803) (PMC409923)

7. Bernstein BE, et al. A bivalent chromatin structure marks key developmental genes in embryonic stem cells. Cell, 2006. 125(2): p. 315-26. (PubMed PMID: 16630819)

8. Li Y, et al. The target of the NSD family of histone lysine methyltransferases depends on the nature of the substrate. J Biol Chem, 2009. 284(49): p. 34283-95.(PubMed PMID: 19808676)(PMC2797197)

9. Strelow JM, et al. The Use of Nucleosome Substrates Improves Binding of SAM Analogs to SETD8. J Biomol Screen, 2016. 21(8): p. 786-94.(PubMed PMID: 27369108)

10. Simon MD, et al. The site-specific installation of methyl-lysine analogs into recombinant histones. Cell, 2007. 128(5): p. 1003-12. (PubMed PMID: 17350582)(PMC2932701)

11. Gloss LM, Kirsch JF. Decreasing the basicity of the active site base, Lys-258, of Escherichia coli aspartate aminotransferase by replacement with gamma-thialysine. Biochemistry, 1995. 34(12): p. 3990-8. (PubMed PMID: 7696264)

12. Gellman SH. On the role of methionine residues in the sequence-independent recognition of nonpolar protein surfaces. Biochemistry, 1991. 30(27): p. 6633-6. (PubMed PMID: 2065050)

13. Seeliger D, et al. Quantitative assessment of protein interaction with methyl-lysine analogues by hybrid computational and experimental approaches. ACS Chem Biol, 2012. 7(1): p. 150-4. (PubMed PMID: 21991995) (PMC3265130)

EpiCypher的注册商标和知识产权可见链接：https://www.epicypher.com/intellectual-property/。

本文中的所有其他商标和商品均为其各自公司所有。

本文翻译自链接：https://www.epicypher.com/resources/blog/finding-the-best-substrate-for-studying-histone-modifications/，如与原文有出入的地方，请以英文原文为准。

未经EpiCypher公司事先书面同意，本文件不得部分或全部复制。

关于EpiCypher公司：

EpiCypher还将dNuc™技术广泛的应用于多种分析测定产品中，包括：SNAP-ChIP®Spike-in Controls（用于抗体分析和ChIP定量）， EpiDyne®底物（用于染色质重塑和抑制剂筛选及开发），dCyher™测定（用于探究表观遗传蛋白质-组蛋白PTM结合相互作用）。最近，EpiCypher还推出了针对ChIC、CUT&RUN和CUT&Tag的高灵敏度表观基因组图谱CUTANA™分析。

如需了解更多详细信息或相关产品，请联系EpiCypher中国代理商-上海金畔生物

Methyl DNA Nucs DNA甲基化核小体

发表于2024年6月11日由上海金畔生物科技有限公司

Methyl DNA Nucs DNA甲基化核小体

EpiCypher可提供Methyl DNA Nucs DNA甲基化核小体产品。如需购买这些产品或了解更多产品详情，请联系EpiCypher代理商上海金畔生物。

Methyl DNA Nucs DNA甲基化核小体产品列表：

名称	货号	规格
Mononucleosomes, Recombinant, Hemi-methylated 199×601 DNA, Biotinylated	16-2043	50 µg
Mononucleosomes, Recombinant, 199×601 DNA, Biotinylated	16-2044	50 µg
Mononucleosomes, Recombinant, Symmetrically Methylated 199×601 DNA,Biotinylated	16-2045	50 µg
Mononucleosomes, Recombinant, Hemi-methylated 199×601 DNA, Non-Biotinylated	16-2143	50 µg
Mononucleosomes, Recombinant, 199×601 DNA, Non-Biotinylated	16-2144	50 µg

如需了解更多详细信息或相关产品，请联系EpiCypher中国代理商-上海金畔生物

Mutant Nucs 氨基酸替换核小体

发表于2024年6月11日由上海金畔生物科技有限公司

Mutant Nucs 氨基酸替换核小体

EpiCypher可提供Mutant Nucs 氨基酸替换核小体产品。如需购买这些产品或了解更多产品详情，请联系EpiCypher代理商上海金畔生物。

Mutant Nucs 氨基酸替换核小体产品列表：

名称	货号	规格
Nucleosome, Recombinant Human, Acidic Patch Mutant H2AE61A Biotinylated	16-0029	50 µg
Nucleosome, Recombinant Human, Acidic Patch Mutant H2AE92K Biotinylated	16-0030	50 µg
Nucleosome, Recombinant Human, Acidic Patch Mutant H2BE105A,E113A Biotinylated	16-0031	50 µg
Nucleosome, Recombinant Human, Acidic Patch Mutant H2AE61A	16-1029	50 µg
Nucleosome, Recombinant Human, Acidic Patch Mutant H2AE92K	16-1030	50 µg
Nucleosome, Recombinant Human, Acidic Patch Mutant H2BE105A,E113A	16-1031	50 µg
Mononucleosomes (H3.3K27M), Recombinant Human, Biotinylated	16-0323	100 µg
Mononucleosomes (H3.3K36M), Recombinant Human Biotinylated	16-0344	50 µg
H3.3G34R Mononucleosome, Biotinylated	16-0346	50 µg
Mononucleosomes (H3.3G34V), Recombinant Human Biotinylated	16-0347	50 µg
Mononucleosomes (H3.3G34W), Recombinant Human Biotinylated	16-0348	50 µg
Mononucleosomes (H3.3K4M), Recombinant Human Biotinylated	16-0349	50 µg
Mononucleosomes (H3.3K9M), Recombinant Human Biotinylated	16-0350	50 µg

如需了解更多详细信息或相关产品，请联系EpiCypher中国代理商-上海金畔生物

核小体

发表于2024年6月11日由上海金畔生物科技有限公司

核小体

EpiCypher可提供市场上最全面的重组核小体产品。利用这些核小体底物设计实验可为阐明染色质功能提供实验依据，助力生化研究和药物研发。

产品优势

• >100种核小体

• 提供生物素化和非生物素化形式

• 可提供含有组蛋白变体、突变、翻译后修饰（PTM）、DNA修饰的核小体

• 可提供核小体定制开发服务

应用

• 酶检测 • 抗体验证 • 测序数据归一化

• 蛋白质互作研究 • 抑制剂筛选和验证 • 结构研究

• 高通量筛选 (HTS)

相关产品

rNucs重组人核小体, No PTMs

名称	货号	规格
Mononucleosomes, Recombinant Human, Biotinylated	16-0006	50 µg
Mononucleosomes, Recombinant Human, Non-Biotinylated	16-0009	100 µg
Mononucleosomes (H3.1ΔN32), Human Recombinant, Biotinylated	16-0016	50 µg
Mononucleosomes (H3.3ΔN32), Human Recombinant Biotinylated	16-0017	50 µg
Mononucleosomes (H4ΔN15), Human Recombinant Biotinylated	16-0018	50 µg
Mononucleosomes (H3.1ΔN2), Recombinant Human, Biotinylated	16-0023	50 µg
Mononucleosomes, Recombinant Human, Desthiobiotinylated	16-0024	50 µg
Tailless Nucleosomes, Recombinant Human, Biotinylated	16-0027	50 µg
Mononucleosomes (H3.1ΔN32), Human Recombinant	16-1016	50 µg
Mononucleosomes (H3.3 ΔN32), Human Recombinant	16-1017	50 µg
Dinucleosomes, Recombinant Human, Biotinylated	16-3004	25 µg
Dinucleosomes, Recombinant Human, Non-Biotinylated	16-3104	25 µg

dNucs PTMs修饰核小体

名称	货号	规格
Nucleosome, Recombinant Human, H4K12ac dNuc, Biotinylated	16-0312	50 µg
Nucleosome, Recombinant Human, H4 Tetraacetyl (H4K5,8,12,16ac) dNuc, Biotinylated	16-0313	50 µg
Nucleosome, Recombinant Human, H3K9ac dNuc, Biotinylated	16-0314-20 16-0314	20 μg 50 µg
Nucleosome, Recombinant Human, H3K9me3 dNuc, Biotinylated	16-0315-20 16-0315	20 μg 50 μg
Nucleosome, Recombinant Human, H3K4me3 dNuc, Biotinylated	16-0316-20 16-0316	20 µg 50 µg
Nucleosome, Recombinant Human, H3K27me3 dNuc, Biotinylated	16-0317-20 16-0317	20 μg 50 μg
Nucleosome, Recombinant Human, H3K36me2 dNuc, Biotinylated	16-0319-20 16-0319	20 µg 50 µg
Nucleosome, Recombinant Human, H3K36me3 dNuc, Biotinylated	16-0320-20 16-0320	20 µg 50 µg
Nucleosome, Recombinant Human, H3K4me1 dNuc, Biotinylated	16-0321-20 16-0321	20 μg 50 µg
Nucleosome, Recombinant Human, H3K36me1 dNuc, Biotinylated	16-0322	50 µg
Nucleosome, Recombinant Human, H3K9me2 dNuc, Biotinylated	16-0324-20 16-0324	20 µg 50 µg
Nucleosome, Recombinant Human, H3K9me1 dNuc, Biotinylated	16-0325	50 µg
Nucleosome, Recombinant Human, H4K20me1 dNuc, Biotinylated	16-0331	50 µg
Nucleosome, Recombinant Human, H4K20me2 dNuc, Biotinylated	16-0332	50 µg
Nucleosome, Recombinant Human, H4K20me3 dNuc, Biotinylated	16-0333	50 µg
Nucleosome, Recombinant Human, H3K4me2 dNuc, Biotinylated	16-0334-20 16-0334	20 μg 50 μg
Nucleosome, Recombinant Human, H3K4me3,K9,14,18ac dNuc, Biotinylated	16-0335	50 µg
Nucleosome, Recombinant Human, H3K4,9,14,18ac dNuc Biotinylated	16-0336	50 µg
Nucleosome, Recombinant Human, H3K18cr dNuc, Biotinylated	16-0337	50 µg
Nucleosome, Recombinant Human, H3K27me1 dNuc, Biotinylated	16-0338	50 µg
Nucleosome, Recombinant Human, H3K27me2 dNuc, Biotinylated	16-0339	50 µg
Nucleosome, Recombinant Human, H3R2me1 dNuc, Biotinylated	16-0340	50 µg
Nucleosome, Recombinant Human, H3R2me2a dNuc, Biotinylated	16-0341	50 µg
Nucleosome, Recombinant Human, H3K4ac dNuc, Biotinylated	16-0342	50 µg
Nucleosome, Recombinant Human, H3K14ac dNuc, Biotinylated	16-0343	50 µg
Nucleosome, Recombinant Human, H3S10phos dNuc, Biotinylated	16-0345	50 µg
Nucleosome, Recombinant Human, H3K9cr dNuc, Biotinylated	16-0351	50 µg
Nucleosome, Recombinant Human, H4K5ac dNuc, Biotinylated	16-0352	50 µg
Nucleosome, Recombinant Human, H4K8ac dNuc, Biotinylated	16-0353	50 µg
Nucleosome, Recombinant Human, H4K16ac dNuc, Biotinylated	16-0354	50 µg
Nucleosome, Recombinant Human, H3R2me2s dNuc, Biotinylated	16-0355	50 µg
Nucleosome, Recombinant Human, H4R3me1 dNuc, Biotinylated	16-0356	50 µg
Nucleosome, Recombinant Human, H4R3me2a dNuc, Biotinylated	16-0357	50 µg
Nucleosome, Recombinant Human, H4R3me2s dNuc, Biotinylated	16-0358	50 µg
Nucleosome, Recombinant Human, H2AR3me1 dNuc, Biotinylated	16-0359	50 µg
Nucleosome, Recombinant Human, H2AR3me2a dNuc, Biotinylated	16-0360	50 µg
Nucleosome, Recombinant Human, H2AR3me2s dNuc, Biotinylated	16-0361	50 µg
Nucleosome, Recombinant Human, H3Cit2,8,17 dNuc, Biotinylated	16-0362	50 µg
Nucleosome, Recombinant Human, H3K23ac dNuc, Biotinylated	16-0364	50 µg
Nucleosome, Recombinant Human, H3K27ac dNuc Biotinylated	16-0365-20 16-0365	20 µg 50 µg
Nucleosome, Recombinant Human, H2AXS139phos dNuc, Biotinylated	16-0366	50 µg
Nucleosome, Recombinant Human, H3K79me1 dNuc, Biotinylated	16-0367	50 µg
Nucleosome, Recombinant Human, H3K79me2 dNuc, Biotinylated	16-0368	50 µg
Nucleosome, Recombinant Human, H3K79me3 dNuc, Biotinylated	16-0369	50 µg
Nucleosome, Recombinant Human, H3K9bu dNuc, Biotinylated	16-0371	50 µg
Nucleosome, Recombinant Human, H3K18ac dNuc, Biotinylated	16-0372	50 µg
Nucleosome, Recombinant Human, H3K18bu dNuc, Biotinylated	16-0373	50 µg
Nucleosome, Recombinant Human, H3K4,9,14,18ac/H4K5,8,12,16ac dNuc, Biotinylated	16-0374	50 µg
Nucleosome, Recombinant Human, H3R17me2a dNuc, Biotinylated	16-0375	50 µg
Nucleosome, Recombinant Human, H2AK5,9,13,15ac dNuc, Biotinylated	16-0376	50 µg
Nucleosome, Recombinant Human, H4K20ac dNuc, Biotinylated	16-0377	50 µg
Nucleosome, Recombinant Human, H3K36ac dNuc, Biotinylated	16-0378	50 µg
Nucleosome, Recombinant Human, H3R8me1 dNuc, Biotinylated	16-0379	50 µg
Nucleosome, Recombinant Human, H3R8me2a dNuc, Biotinylated	16-0380	50 µg
Nucleosome, Recombinant Human, H3R8me2s dNuc, Biotinylated	16-0381	50 µg
Nucleosome, Recombinant Human, H3R17me1 dNuc, Biotinylated	16-0382	50 µg
Nucleosome, Recombinant Human, H3K27cr dNuc, Biotinylated	16-0383	50 µg
Nucleosome, Recombinant Human, H3K27bu dNuc, Biotinylated	16-0384	50 µg
Nucleosome, Recombinant Human, H3K27acS28phos dNuc, Biotinylated	16-0385	50 µg
Nucleosome, Recombinant Human, H2BK12ac dNuc, Biotinylated	16-0386	50 µg
Nucleosome, Recombinant Human, H2BK20ac dNuc, Biotinylated	16-0387	50 µg
Nucleosome, Recombinant Human, H3.1S28phos dNuc, Biotinylated	16-0388	50 µg
Nucleosome, Recombinant Human, H3.3S31phos dNuc, Biotinylated	16-0389	50 µg
Nucleosome, Recombinant Human, H3.3K36me3 dNuc, Biotinylated	16-0390	50 µg
Nucleosome, Recombinant Human, H4K12me1 dNuc, Biotinylated	16-0393	50 µg
Nucleosome, Recombinant Human, H2AK119ub1 dNuc, Biotinylated	16-0395	25 µg
Nucleosome, Recombinant Human, H2BK120ub1 dNuc, Biotinylated	16-0396	25 µg
Nucleosome, Recombinant Human, H3K14ub1 dNuc, Biotinylated	16-0398	25 µg
Nucleosome, Recombinant Human, H2AK15ub1 dNuc, Biotinylated	16-0399	25 µg
Nucleosome, Recombinant Human, H2AK129ub1 dNuc, Biotinylated	16-0400	25 µg
Nucleosome, Recombinant Human, H3K18ub1 dNuc, Biotinylated	16-0401	25 µg
Nucleosome, Recombinant Human, H3K4,K9me3 dNuc, Biotinylated	16-0402	50 µg
Nucleosome, Recombinant Human, H3K4,K27me3 dNuc, Biotinylated	16-0403	50 µg
Nucleosome, Recombinant Human, H4 Tetraacetyl (H4K5,8,12,16ac) dNuc, Non-Biotinylated	16-1313	50 µg
Nucleosome, Recombinant Human, H3K9ac dNuc Non-Biotinylated	16-1314	50 µg
Nucleosome, Recombinant Human, H3K4me3 dNuc, Non-Biotinylated	16-1316	50 µg
Nucleosome, Recombinant Human, H3K27me3 dNuc, Non-Biotinylated	16-1317	50 µg
Nucleosome, Recombinant Human, H3K36me3 dNuc, Non-Biotinylated	16-1320	50 µg
Nucleosome, Recombinant Human, H4K20me3 dNuc, Non-Biotinylated	16-1333	50 µg
Nucleosome, Recombinant Human, H3K4me2 dNuc, Non-Biotinylated	16-1334	50 µg
Nucleosome, Recombinant Human, H3K4me2 dNuc, Non-Biotinylated	16-1334-20 16-1334	20 μg 50 µg
Nucleosome, Recombinant Human, H3S10ph dNuc, Non-Biotinylated	16-1345	50 µg
Nucleosome, Recombinant Human, H3Cit2,8,17 dNuc, Non-Biotinylated	16-1362	50 µg
Nucleosome, Recombinant Human, H3K27ac dNuc, Non-Biotinylated	16-1365	50 µg

更多详情请联系 Epicypher 中国代理商上海金畔生物

EpiCypher核小体类产品列表

发表于2024年6月10日由上海金畔生物科技有限公司

EpiCypher核小体类产品列表

本文是由EpiCypher代理商上海金畔生物给大家整理的EpiCypher核小体类产品列表，仅供大家参考使用。如需购买EpiCypher品牌的产品或咨询技术问题，请联系我们。

核小体类产品

供应商	产品编号	产品名称	规格
EpiCypher	16-0002	HeLa 单核小体, Purified	50 µg
EpiCypher	16-0003	HeLa 多聚核小体, Purified	50 µg
EpiCypher	16-0004	Chicken 多聚核小体, Purified	50 µg
EpiCypher	16-0006	重组人单核小体, 生物素标记	50 µg
EpiCypher	16-0009	重组人单核小体, 非生物素标记	100 µg
EpiCypher	16-0011	重组人单核小体 (H3.3), 生物素标记	50 µg
EpiCypher	16-0012	重组人单核小体 (H3.3)	100 µg
EpiCypher	16-0013	重组人单核小体 (H2AX), 生物素标记	50 µg
EpiCypher	16-0014	重组人单核小体 (H2AZ.1), 生物素标记	50 µg
EpiCypher	16-0015	重组人单核小体 (H2AZ.2), 生物素标记	50 µg
EpiCypher	16-0016	重组人单核小体 (H3.1ΔN32), 生物素标记	50 µg
EpiCypher	16-0017	重组人单核小体 (H3.3ΔN32), 生物素标记	50 µg
EpiCypher	16-0018	重组人单核小体 (H4ΔN15), 生物素标记	50 µg
EpiCypher	16-0019	鸡单核小体, Purified	50 µg
EpiCypher	16-0022	鸡多聚核小体, Purified (HSW)	50 µg
EpiCypher	16-0023	重组人单核小体 (H3.1ΔN2), 生物素标记	50 µg
EpiCypher	16-0024	重组人单核小体, Desthio生物素标记	50 µg
EpiCypher	16-0027	重组人Tailless 核小体, 生物素标记	50 µg
EpiCypher	16-0029	重组人核小体, Acidic Patch Mutant H2AE61A 生物素标记	50 µg
EpiCypher	16-0030	重组人核小体, Acidic Patch Mutant H2AE92K 生物素标记	50 µg
EpiCypher	16-0031	重组人核小体, Acidic Patch Mutant H2BE105A,E113A 生物素标记	50 µg
EpiCypher	16-0312	重组人核小体, H4K12ac dNuc, 生物素标记	50 µg
EpiCypher	16-0313	重组人核小体, H4 Tetraacetyl (H4K5,8,12,16ac) dNuc, 生物素标记	50 µg
EpiCypher	16-0314	重组人核小体, H3K9ac dNuc, 生物素标记	50 µg
EpiCypher	16-0314-20	重组人核小体, H3K9ac dNuc, 生物素标记	20 μg
EpiCypher	16-0315	重组人核小体, H3K9me3 dNuc, 生物素标记	50 μg
EpiCypher	16-0315-20	重组人核小体, H3K9me3 dNuc, 生物素标记	20 μg
EpiCypher	16-0316	重组人核小体, H3K4me3 dNuc, 生物素标记	50 µg
EpiCypher	16-0316-20	重组人核小体, H3K4me3 dNuc, 生物素标记	20 µg
EpiCypher	16-0317	重组人核小体, H3K27me3 dNuc, 生物素标记	50 μg
EpiCypher	16-0317-20	重组人核小体, H3K27me3 dNuc, 生物素标记	20 μg
EpiCypher	16-0319	重组人核小体, H3K36me2 dNuc, 生物素标记	50 µg
EpiCypher	16-0319-20	重组人核小体, H3K36me2 dNuc, 生物素标记	20 µg
EpiCypher	16-0320	重组人核小体, H3K36me3 dNuc, 生物素标记	50 µg
EpiCypher	16-0320-20	重组人核小体, H3K36me3 dNuc, 生物素标记	20 µg
EpiCypher	16-0321	重组人核小体, H3K4me1 dNuc, 生物素标记	50 µg
EpiCypher	16-0321-20	重组人核小体, H3K4me1 dNuc, 生物素标记	20 μg
EpiCypher	16-0322	重组人核小体, H3K36me1 dNuc, 生物素标记	50 µg
EpiCypher	16-0323	单核小体s (H3.3K27M),重组人, 生物素标记	100 µg
EpiCypher	16-0324	重组人核小体, H3K9me2 dNuc, 生物素标记	50 µg
EpiCypher	16-0324-20	重组人核小体, H3K9me2 dNuc, 生物素标记	20 µg
EpiCypher	16-0325	重组人核小体, H3K9me1 dNuc, 生物素标记	50 µg
EpiCypher	16-0331	重组人核小体, H4K20me1 dNuc, 生物素标记	50 µg
EpiCypher	16-0332	重组人核小体, H4K20me2 dNuc, 生物素标记	50 µg
EpiCypher	16-0333	重组人核小体, H4K20me3 dNuc, 生物素标记	50 µg
EpiCypher	16-0334	重组人核小体, H3K4me2 dNuc, 生物素标记	50 μg
EpiCypher	16-0334-20	重组人核小体, H3K4me2 dNuc, 生物素标记	20 μg
EpiCypher	16-0335	重组人核小体, H3K4me3,K9,14,18ac dNuc, 生物素标记	50 µg
EpiCypher	16-0336	重组人核小体, H3K4,9,14,18ac dNuc 生物素标记	50 µg
EpiCypher	16-0337	重组人核小体, H3K18cr dNuc, 生物素标记	50 µg
EpiCypher	16-0338	重组人核小体, H3K27me1 dNuc, 生物素标记	50 µg
EpiCypher	16-0339	重组人核小体, H3K27me2 dNuc, 生物素标记	50 µg
EpiCypher	16-0340	重组人核小体, H3R2me1 dNuc, 生物素标记	50 µg
EpiCypher	16-0341	重组人核小体, H3R2me2a dNuc, 生物素标记	50 µg
EpiCypher	16-0342	重组人核小体, H3K4ac dNuc, 生物素标记	50 µg
EpiCypher	16-0343	重组人核小体, H3K14ac dNuc, 生物素标记	50 µg
EpiCypher	16-0344	重组人单核小体 (H3.3K36M),生物素标记	50 µg
EpiCypher	16-0345	重组人核小体, H3S10phos dNuc, 生物素标记	50 µg
EpiCypher	16-0346	重组人单核小体（H3.3G34R）生物素标记	50 µg
EpiCypher	16-0347	重组人单核小体 (H3.3G34V), 生物素标记	50 µg
EpiCypher	16-0348	重组人单核小体 (H3.3G34W), 生物素标记	50 µg
EpiCypher	16-0349	重组人单核小体 (H3.3K4M), 生物素标记	50 µg
EpiCypher	16-0350	重组人单核小体 (H3.3K9M), 生物素标记	50 µg
EpiCypher	16-0351	重组人核小体, H3K9cr dNuc, 生物素标记	50 µg
EpiCypher	16-0352	重组人核小体, H4K5ac dNuc, 生物素标记	50 µg
EpiCypher	16-0353	重组人核小体, H4K8ac dNuc, 生物素标记	50 µg
EpiCypher	16-0354	重组人核小体, H4K16ac dNuc, 生物素标记	50 µg
EpiCypher	16-0355	重组人核小体, H3R2me2s dNuc, 生物素标记	50 µg
EpiCypher	16-0356	重组人核小体, H4R3me1 dNuc, 生物素标记	50 µg
EpiCypher	16-0357	重组人核小体, H4R3me2a dNuc, 生物素标记	50 µg
EpiCypher	16-0358	重组人核小体, H4R3me2s dNuc, 生物素标记	50 µg
EpiCypher	16-0359	重组人核小体, H2AR3me1 dNuc, 生物素标记	50 µg
EpiCypher	16-0360	重组人核小体, H2AR3me2a dNuc, 生物素标记	50 µg
EpiCypher	16-0361	重组人核小体, H2AR3me2s dNuc, 生物素标记	50 µg
EpiCypher	16-0362	重组人核小体, H3Cit2,8,17 dNuc, 生物素标记	50 µg
EpiCypher	16-0364	重组人核小体, H3K23ac dNuc, 生物素标记	50 µg
EpiCypher	16-0365	重组人核小体, H3K27ac dNuc 生物素标记	50 µg
EpiCypher	16-0365-20	重组人核小体, H3K27ac dNuc 生物素标记	20 µg
EpiCypher	16-0366	重组人核小体, H2AXS139phos dNuc, 生物素标记	50 µg
EpiCypher	16-0367	重组人核小体, H3K79me1 dNuc, 生物素标记	50 µg
EpiCypher	16-0368	重组人核小体, H3K79me2 dNuc, 生物素标记	50 µg
EpiCypher	16-0369	重组人核小体, H3K79me3 dNuc, 生物素标记	50 µg
EpiCypher	16-0371	重组人核小体, H3K9bu dNuc, 生物素标记	50 µg
EpiCypher	16-0372	重组人核小体, H3K18ac dNuc, 生物素标记	50 µg
EpiCypher	16-0373	重组人核小体, H3K18bu dNuc, 生物素标记	50 µg
EpiCypher	16-0374	重组人核小体, H3K4,9,14,18ac/H4K5,8,12,16ac dNuc, 生物素标记	50 µg
EpiCypher	16-0375	重组人核小体, H3R17me2a dNuc, 生物素标记	50 µg
EpiCypher	16-0376	重组人核小体, H2AK5,9,13,15ac dNuc, 生物素标记	50 µg
EpiCypher	16-0377	重组人核小体, H4K20ac dNuc, 生物素标记	50 µg
EpiCypher	16-0378	重组人核小体, H3K36ac dNuc, 生物素标记	50 µg
EpiCypher	16-0379	重组人核小体, H3R8me1 dNuc, 生物素标记	50 µg
EpiCypher	16-0380	重组人核小体, H3R8me2a dNuc, 生物素标记	50 µg
EpiCypher	16-0381	重组人核小体, H3R8me2s dNuc, 生物素标记	50 µg
EpiCypher	16-0382	重组人核小体, H3R17me1 dNuc, 生物素标记	50 µg
EpiCypher	16-0383	重组人核小体, H3K27cr dNuc, 生物素标记	50 µg
EpiCypher	16-0384	重组人核小体, H3K27bu dNuc, 生物素标记	50 µg
EpiCypher	16-0385	重组人核小体, H3K27acS28phos dNuc, 生物素标记	50 µg
EpiCypher	16-0386	重组人核小体, H2BK12ac dNuc, 生物素标记	50 µg
EpiCypher	16-0387	重组人核小体, H2BK20ac dNuc, 生物素标记	50 µg
EpiCypher	16-0388	重组人核小体, H3.1S28phos dNuc, 生物素标记	50 µg
EpiCypher	16-0389	重组人核小体, H3.3S31phos dNuc, 生物素标记	50 µg
EpiCypher	16-0390	重组人核小体, H3.3K36me3 dNuc, 生物素标记	50 µg
EpiCypher	16-0393	重组人核小体, H4K12me1 dNuc, 生物素标记	50 µg
EpiCypher	16-0395	重组人核小体, H2AK119ub1 dNuc, 生物素标记	25 µg
EpiCypher	16-0396	重组人核小体, H2BK120ub1 dNuc, 生物素标记	25 µg
EpiCypher	16-0397	重组人核小体, H3.1K27me3,S28phos, 生物素标记	50 µg
EpiCypher	16-0398	重组人核小体, H3K14ub1 dNuc, 生物素标记	25 µg
EpiCypher	16-0399	重组人核小体, H2AK15ub1 dNuc, 生物素标记	25 µg
EpiCypher	16-0400	重组人核小体, H2AK129ub1 dNuc, 生物素标记	25 µg
EpiCypher	16-0401	重组人核小体, H3K18ub1 dNuc, 生物素标记	25 µg
EpiCypher	16-0402	重组人核小体, H3K4,K9me3 dNuc, 生物素标记	50 µg
EpiCypher	16-0403	重组人核小体, H3K4,K27me3 dNuc, 生物素标记	50 µg
EpiCypher	16-1013	重组人单核小体 (H2AX),	50 µg
EpiCypher	16-1014	重组人单核小体 (H2AZ.1), 非生物素标记	50 µg
EpiCypher	16-1016	重组人单核小体 (H3.1ΔN32)	50 µg
EpiCypher	16-1017	重组人单核小体 (H3.3 ΔN32)	50 µg
EpiCypher	16-1029	重组人核小体, Acidic Patch Mutant H2AE61A	50 µg
EpiCypher	16-1030	重组人核小体, Acidic Patch Mutant H2AE92K	50 µg
EpiCypher	16-1031	重组人核小体, Acidic Patch Mutant H2BE105A,E113A	50 µg
EpiCypher	16-1313	重组人核小体, H4 Tetraacetyl (H4K5,8,12,16ac) dNuc, 非生物素标记	50 µg
EpiCypher	16-1314	重组人核小体, H3K9ac dNuc 非生物素标记	50 µg
EpiCypher	16-1316	重组人核小体, H3K4me3 dNuc, 非生物素标记	50 µg
EpiCypher	16-1317	重组人核小体, H3K27me3 dNuc, 非生物素标记	50 µg
EpiCypher	16-1320	重组人核小体, H3K36me3 dNuc, 非生物素标记	50 µg
EpiCypher	16-1323	单核小体s (H3.3K27M),重组人, 生物素标记	50 µg
EpiCypher	16-1333	重组人核小体, H4K20me3 dNuc, 非生物素标记	50 µg
EpiCypher	16-1334	重组人核小体, H3K4me2 dNuc, 非生物素标记	50 µg
EpiCypher	16-1334	重组人核小体, H3K4me2 dNuc, 非生物素标记	50 µg
EpiCypher	16-1334-20	重组人核小体, H3K4me2 dNuc, 非生物素标记	20 μg
EpiCypher	16-1345	重组人核小体, H3S10ph dNuc, 非生物素标记	50 µg
EpiCypher	16-1362	重组人核小体, H3Cit2,8,17 dNuc, 非生物素标记	50 µg
EpiCypher	16-1365	重组人核小体, H3K27ac dNuc, 非生物素标记	50 µg
EpiCypher	16-2043	重组单核小体, 半甲基化 199×601 DNA, 生物素标记	50 µg
EpiCypher	16-2044	重组单核小体, 199×601 DNA, 生物素标记	50 µg
EpiCypher	16-2045	重组单核小体, 对称甲基化 199×601 DNA,生物素标记	50 µg
EpiCypher	16-2143	重组单核小体, 半甲基化 199×601 DNA, 非生物素标记	50 µg
EpiCypher	16-2144	重组单核小体, 199×601 DNA, 非生物素标记	50 µg
EpiCypher	16-3004	重组人Di核小体, 生物素标记	25 µg
EpiCypher	16-3104	重组人Di核小体, 非生物素标记	25 µg
EpiCypher	16-4101	EpiDyne® 核小体重塑检测底物 ST601-GATC1	50 µg
EpiCypher	16-4111	EpiDyne® 核小体重塑检测底物 ST601-GATC1, 生物素标记	50 µg
EpiCypher	16-4112	EpiDyne® 核小体重塑检测底物 ST601-GATC1,2, 生物素标记	50 µg
EpiCypher	16-4113	EpiDyne® 核小体重塑检测底物 ST601-GATC1,2,3, 生物素标记	50 µg
EpiCypher	16-4114	EpiDyne® 核小体重塑检测底物 ST601-GATC1, 50-N-66, 生物素标记	50 µg
EpiCypher	16-4115	EpiDyne® 核小体重塑检测底物 ST601-GATC1,2, 50-N-66, 生物素标记	50 µg
EpiCypher	16-4116	EpiDyne® 核小体重塑检测底物 ST601-GATC1,2,3, 50-N-66, 生物素标记	50 µg
EpiCypher	16-4201	EpiDyne®-FRET 核小体重塑检测底物	50 µg
EpiCypher	16-8354	重组人组蛋白八聚体, H4K16ac	50 µg
EpiCypher	16-9001	dCypher™ 核小体 Full Panel	96-well plate
EpiCypher	19-1001	SNAP-ChIP® K-MetStat™ Panel	20 µL
EpiCypher	19-1002	SNAP-CUTANA™ K-MetStat Panel	50 Reactions
EpiCypher	19-1100	SNAP-ChIP® K-MetStat™ Panel	200 µL
EpiCypher	19-2001	SNAP-ChIP® OncoStat™ Panel	20 µL
EpiCypher	19-2100	SNAP-ChIP® OncoStat™ Panel	200 µL
EpiCypher	19-3001	SNAP-ChIP® K-AcylStat™ Panel	20 µL
EpiCypher	19-3100	SNAP-ChIP® K-AcylStat™ Panel	200 µL

关于EpiCypher公司：

EpiCypher是一家成立于2012年的表观遗传学公司。从专有组蛋白肽阵列平台EpiGold™开始，EpiCypher开发了一系列同类产品。同时，EpiCypher是重组核小体制造和开发的全球领导者。利用其独有技术，不断添加高纯度修饰重组核小体（dNucs™）产品。dNuc™多样性的产品为破译组蛋白编码和加速药物开发提供了强大的工具。

更多详情请联系 Epicypher 中国代理商上海金畔生物

Amresco官网

VWR中国官网代理商|Amresco代理商VWR中国

标签归档：核小体

EpiCypher——优质核小体的选择

如何选择核小体(nucleosomes)?

Methyl DNA Nucs DNA甲基化核小体

Mutant Nucs 氨基酸替换核小体

核小体

Mononucleosomes (H3.1ΔN32), Human Recombinant, Biotinylated

Mononucleosomes (H3.3ΔN32), Human Recombinant Biotinylated

Mononucleosomes (H4ΔN15), Human Recombinant Biotinylated

Mononucleosomes (H3.1ΔN2), Recombinant Human, Biotinylated

Mononucleosomes, Recombinant Human, Desthiobiotinylated

Tailless Nucleosomes, Recombinant Human, Biotinylated

Mononucleosomes (H3.1ΔN32), Human Recombinant

Mononucleosomes (H3.3 ΔN32), Human Recombinant

Dinucleosomes, Recombinant Human, Biotinylated

Dinucleosomes, Recombinant Human, Non-Biotinylated

EpiCypher核小体类产品列表

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