Protein G beads

プロテインジービーズ

Protein G beads

Protein G beads（プロテインジービーズ）は、アフィニティ精製で主に抗体(IgG) をビーズへ固定化することが可能です。抗原-抗体反応を利用した免疫沈降実験や抗体精製などに使用可能です。

Protein Gは、連鎖球菌(グループG) の細胞壁由来のタンパク質です。

Protein G beads

免疫沈降細胞分離ウイルス・エクソソーム分離抗体固定化 Protein A beads HM beads (FG beads HM) FF beads/ FS beads 受託サービスバッファ磁石スタンド

Protein A beads

磁気ビーズ

この製品のラインナップは、通常のFG beadsと高磁気応答性タイプのHM beadsがあります。

ビーズ	FG beads	HM beads （高磁気応答性タイプ）
Code（形式）	TAS8848N1173	TAB8848N3173
価格（税別）	5 mg 35,000円 (5 mg×1本)	5 mg 70,000円 (5 mg×1本)
	10 mg 50,000円 (5 mg×2本)	10 mg 100,000円 (5 mg×2本)
	20 mg 80,000円 (5 mg×4本)	20 mg 160,000円 (5 mg×4本)
保存条件	4℃（2～8℃）（凍結禁止）
保存溶媒	10 mM HEPES(pH7.9), 50 mM KCl, 1 mM EDTA, 10%glycerol	10 mM HEPES(pH7.9)
磁化	超常磁性(≧10 emu/g)	超常磁性(≧20 emu/g)
ビーズ径	180±30 nm	140±20 nm
濃度	20 mg/ml
表面修飾	Protein G
官能基量	≧35 ug Human IgG/mg of beadss

蛍光ビーズ

蛍光色素を内包させたビーズで、磁性体を持つFF beadsと非磁性のFS beadsがあります。

ビーズ			FF beads （磁性タイプ）	FS beads （非磁性タイプ）
Code （形式）	蛍光色素	Europium	TAB8849N2173	TAB5849N2173
価格（税別）			1 mg 22,500円 (1 mg×1本)
			5 mg 90,000円 (5 mg×1本)
			10 mg 129,000円 (5 mg×2本)
			20 mg 206,000円 (5 mg×4本)
保存条件			4℃（2～8℃）（凍結禁止）、遮光
保存溶媒			10 mM HEPES(pH7.9), 50 mM KCl, 1 mM EDTA, 10%glycerol
磁化			超常磁性(≧10 emu/g)	無し
ビーズ径			180±30 nm	400±20 nm
濃度			10 mg/mL
表面修飾			Protein G
官能基量			≧35 ug Human IgG/mg of beads

Protein A 、Protein GのIgGへの結合性

※横スクロールしてご覧ください

動物種	ヒト				マウス				ラット				ウシ
サブクラス	IgG₁	IgG₂	IgG₃	IgG₄	IgG₁	IgG_2a	IgG_2b	IgG₃	IgG₁	IgG_2a	IgG_2b	IgG_2c	IgG₁	IgG₂
Protein A	◎	◎	△	◎	△	◎	◎	◎	〇	×	×	◎	×	◎
Protein G	◎	◎	◎	◎	◎	◎	◎	◎	〇	◎	〇	◎	◎	◎

動物種	ニワトリ		ウサギ	ウマ	ヤギ		モルモット	イヌ	ネコ	ハムスター	ヒツジ		ブタ
サブクラス	IgG	IgY	IgG	IgG	IgG₁	IgG₂	IgG	IgG	IgG	IgG	IgG₁	IgG₂	IgG
Protein A	×	×	◎	△	×	◎	◎	◎	◎	△	×	◎	◎
Protein G	×	×	◎	◎	◎	◎	〇	◎	〇	–	◎	◎	◎

プロトコール
SDS
論文・技術情報
関連製品
FAQ

SDS for Protein G beads

SDS for HM Protein G beads

SDS for FF Eu Protein G beads

SDS for FS Eu Protein G beads

技術情報

FG beadsカタログ

詳しく見る→
受託サービス詳細資料

詳しく見る→
FG winds issue 5

免疫沈降(1)
詳しく見る→
FG winds issue 6

免疫沈降(2)
詳しく見る→
FG winds issue 7

免疫沈降(3)
詳しく見る→
FG winds issue 8

免疫沈降(4)
詳しく見る→
FG WAVE 3

ユーザーボイス ‐北海道大学　小原圭介先生
詳しく見る→
FG WAVE 5

ユーザーボイス ‐信州大学　高木優二先生
詳しく見る→
クロマチン免疫沈降①

東京医科大学　山本淳一先生
詳しく見る→
クロマチン免疫沈降②

Houston Methodist Research Institute Weill Cornell Medical College　堀越信夫先生
詳しく見る→
Protein A beads / Protein G beads

詳しく見る→

論文

Hirokazu Ohata et al.(2023)

PROX1 induction by autolysosomal activity stabilizes persister-like state of colon cancer via feedback repression of the NOX1-mTORC1 pathway
Cell Reports 42, 112519 June 27, 2023
Hidenori Machino et al.(2023)

Integrative analysis reveals early epigenetic alterations in high-grade serous ovarian carcinomas
Experimental & Molecular Medicine (2023) 55:2205–2219
Jingyun Jin et al.(2023)

The N‑terminal disordered region of ChsB regulates its efcient
Current Genetics (2023) 69:175–188
Dozen et al.(2022)

Tumor Suppressive Role of the PRELP Gene in Ovarian Clear Cell Carcinoma
J. Pers. Med. 2022, 12(12), 1999; https://doi.org/10.3390/jpm12121999
Fujii et al.(2022)

α1,4- Linked N- acetylglucosamine suppresses gastric cancer development by inhibiting Mucin-1-mediated signaling.
Cancer Science. 2022;00:1–12
Hamada et al.(2022)

An oncogenic splice variant of PDGFRα in adult glioblastoma as a therapeutic target for selective CDK4/6 inhibitors
Scientifc Reports (2022) 12:1275
Iizumi et al.(2022)

Stabilization of CDK6 by ribosomal protein uS7, a target protein of the natural product fucoxanthinol
COMMUNICATIONS BIOLOGY (2022) 5:564
Amina Bolatkan et al.(2022)

Downregulation of METTL6 mitigates cell progression, migration, invasion and adhesion in hepatocellular carcinoma by inhibiting cell adhesion molecules
INTERNATIONAL JOURNAL OF ONCOLOGY 60: 4, 2022
Kambe et al.(2021)

Enhanced β2-microglobulin binding of a “navigator” molecule bearing a single-chain variable fragment antibody for artificial switching of metabolic processing pathways
Biomater. Sci., 2021, 9, 5551–5558
Kaneko et al.(2021)

Genome-Wide Chromatin Analysis of FFPE Tissues Using a Dual-Arm Robot with Clinical Potential
Cancers 2021, 13, 2126
Ozawa et al.(2021)

Exploiting ubiquitin ligase cereblon as a target for small-molecule compounds in medicine and chemical biology
Cell Chemical Biology 28, July 15, 2021
Miyachi et al.(2021)

Serum Anti-oligodendrocyte Autoantibodies in Patients With Multiple Sclerosis Detected by a Tissue-Based Immunofluorescence Assay
Front Neurol. 2021 Aug 5;12:681980
S. Kageyama et al. (2021)

Identification of the mutation signature of the cancer genome caused by irradiation
Radiotherapy and Oncology 155 (2021) 10
Obara et al.(2020)

N-glycosylation of Rim21 at an unconventional site fine-tunes its behavior in the plasma membrane
Cell Structure and Function 2020, https://doi.org/10.1247/csf.19021
Y. Kambe et al. (2020)

Artificial switching of the metabolic processing pathway of an etiologic factor, β2-microglobulin, by a “navigator” molecule
Journal of Controlled Release 327 (2020) 8–18
Fujimori et al.(2019)

Mismatch repair dependence of replication stress-associated DSB recognition and repair
Heliyon 5 (2019) e03057
Yamagami et al.(2018)

ISGF3 with reduced phosphorylation is associated with constitutive expression of interferon-induced genes in aging cells
npj Aging and Mechanisms of Disease (2018)4:11
T. Fujii et al. (2018)

A Novel Autoantibody against Plexin D1 in Patients with Neuropathic Pain
Ann. Neurol., 84, 200 (2018).
Wang et al.(2017)

Transport Granules Bound with Nuclear Cap Binding Protein and Exon Junction Complex Are Associated with Microtubules and Spatially Separated from eIF4E Granules and P Bodies in Human Neuronal Processes
Front. Mol. Biosci. 4:93. doi: 10.3389/fmolb.2017.00093
Saito et al.(2017)

TLR7 mediated viral recognition results in focal type I interferon secretion by dendritic cells
NATURE COMMUNICATIONS 8: 1592
Kakumu et al.(2017)

Xeroderma pigmentosum group C protein interacts with histones: regulation by acetylated states of histone H3
Genes to Cells (2017) 22, 310–327
K. Nakata et al. (2017)

A proteomics method using immunoaffinity fluorogenic derivatization-liquid chromatography/tandem mass spectrometry (FD‐LC‐MS/MS) to identify a set of interacting proteins.
Biomedical Chromatography, DOI: 10.1002/bmc.4063 (2017).
S. Tsubota et al. (2017)

PRC2-Mediated Transcriptomic Alterations at the Embryonic Stage Govern Tumorigenesis and Clinical Outcome in MYCN-Driven Neuroblastoma
Cancer Res., DOI: 10.1158 (2017)
A. Kimura et al. (2016)

N-Myristoylation of the Rpt2 subunit of the yeast 26S proteasome is implicated in the subcellular compartment?specific protein quality control system
Journal of Proteomics, 130, 33 (2016)
Y. Atsumi et al. (2015)

ATM and SIRT6/SNF2H Mediate Transient H2AX Stabilization When DSBs Form by Blocking HUWE1 to Allow Efficient γH2AX Foci Formation
Cell Reports, 13, 2728 (2015).
S. Masaki et al. (2015)

Identification of the Specific Interactors of the Human Lariat RNA Debranching Enzyme 1 Protein
Int. J. Mol. Sci., 16, 3705 (2015).
S. Yamauchi et al. (2015)

Opt2 mediates the exposure of phospholipids during cellular adaptation to altered lipid asymmetry
J Cell Sci (2015) 128 (1): 61–69.
M. Arita et al. (2015)

Development of an efficient entire-capsid-coding-region amplification method for direct detection of poliovirus from stool extracts
J. Clin. Microbiol., 53, 73 (2015).
M.Arita. (2013)

Development of poliovirus extraction method from the stool extracts by using magnetic nanoparticles sensitized with soluble poliovirus receptor.
J. Clin. Microbiol. DOI:10.1128 (2013).
M. Oda et al. (2013)

DNA Methylation Restricts Lineage-specific Functions of Transcription Factor Gata4 during Embryonic Stem Cell Differentiation
PLOS Genetics, 9, e1003574 (2013).

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