YM-201636 | PIKfyve Inhibitor | AmBeed-信号通路专用抑制剂

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YM-201636 {[allProObj[0].p_purity_real_show]}

货号：A213349

YM-201636是一种有效且选择性的PIKfyve抑制剂，IC50为33 nM，同时也抑制p110α，IC50为3.3 μM。它抑制逆转录病毒的复制。

YM-201636 化学结构
CAS号：371942-69-7

YM-201636 3D分子结构
CAS号：371942-69-7

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YM-201636 纯度/质量文件产品仅供科研

货号：A213349 标准纯度： {[allProObj[0].p_purity_real_show]} 产品说明书

批次查询：批次纯度: COA SDS NMR HPLC CNMR LC-MS

全球学术期刊中引用的产品: • Cell, 2024, 101755. Ambeed. [ A399663 ]; • EMBO J., 2024. Ambeed. [ A295334 ]; • JMC, 2024, 67(20): 18265-18289. Ambeed. [ A538667 , A341145 , A117430 , A172297 ]; • JMC, 2024. Ambeed. [ A210558 , A1518164 ]; • Cell Death Discov., 2024, 10, 436. Ambeed. [ A384235 ]; 更多 >

PI3K 亚型比较

产品名称	C2β ↓ ↑	p110α ↓ ↑	p110β ↓ ↑	p110γ ↓ ↑	p110δ ↓ ↑	PI3K ↓ ↑	Vps34 ↓ ↑	其他靶点	纯度
A66	+ C2β, IC50: 462 nM	++ p110α, IC50: 32 nM							99%+
Taselisib	+ C2β, IC50: 292 nM	++++ PI3Kα, Ki: 0.29 nM	+++ PI3Kβ, Ki: 9.1 nM	++++ PI3Kγ, Ki: 0.97 nM	++++ PI3Kδ, Ki: 0.12 nM		+ hVps34, IC50: 374 nM		99%+
Gedatolisib		++++ PI3Kα, IC50: 0.4 nM		+++ PI3Kγ, IC50: 5.4 nM				mTOR	98%
HS-173		++++ PI3Kα , IC50: 0.8 nM							99%+
Serabelisib		+++ PI3Kα, IC50: 21 nM							99%+
GNE-477		++++ PI3Kα, IC50: 4 nM						mTOR	98%
YM-201636		+ p110α, IC50: 3.3 μM						PIKfyve	98%
AS-252424		+ PI3Kα, IC50: 935 nM		++ PI3Kγ, IC50: 33 nM					99%
Alpelisib		+++ PI3Kα, IC50: 5 nM							99%+
AS-604850		+ PI3Kα, IC50: 4.5 μM		+ PI3Kγ, IC50: 0.25 μM					98+%
SF2523		++ PI3Kα, IC50: 34 nM		++ PI3Kγ, IC50: 158 nM				mTOR,DNA-PK	99%+
Inavolisib		++++ PI3K alpha, IC50: 0.038 nM							99%+
Bimiralisib		++++ PI3Kα, Kd: 1.5 nM	+++ PI3Kβ, Kd: 11 nM	++ PI3Kγ, Kd: 25 nM	++ PI3Kδ, Kd: 25 nM			mTOR	99%+
GSK1059615		++++ PI3Kα, IC50: 0.4 nM	++++ PI3Kβ, IC50: 0.6 nM	+++ PI3Kγ, IC50: 5 nM	++++ PI3Kδ, IC50: 2 nM			mTOR	98%
GSK2636771			✔						98%
Fimepinostat		+++ PI3Kα, IC50: 19 nM	++ PI3Kβ, IC50: 54 nM		++ PI3Kδ, IC50: 39 nM				99%+
VS-5584		++++ PI3Kα, IC50: 2.6 nM	+++ PI3Kβ, IC50: 21 nM	++++ PI3Kγ, IC50: 3.0 nM	++++ PI3Kδ, IC50: 2.7 nM			mTOR	99%
Dactolisib		++++ p110α1, IC50: 4 nM	++ p110β, IC50: 75 nM	+++ p110γ, IC50: 5 nM	+++ p110δ, IC50: 7 nM				98+%
PI-103		++++ p110α, IC50: 2 nM	++++ p110β, IC50: 3 nM	+++ p110γ, IC50: 15 nM	++++ p110δ, IC50: 3 nM			mTOR,DNA-PK	99%+
PI-3065			+ p110β, IC50: 1078 nM		+++ p110δ, IC50: 15 nM				99%+
Voxtalisib		++ PI3Kα, IC50: 39 nM	++ PI3Kβ, IC50: 113 nM	+++ PI3Kγ, IC50: 9 nM	++ PI3Kδ, IC50: 43 nM			mTOR,DNA-PK	99%+
AZD-8835		+++ PI3Kα, IC50: 6.2 nM	+ PI3Kβ, IC50: 431 nM	++ PI3Kγ, IC50: 90 nM	+++ PI3Kδ, IC50: 5.7 nM				98%
Pilaralisib analogue		++ PI3Kα, IC50: 39 nM	++ PI3Kβ, IC50: 36 nM	+++ PI3Kγ, IC50: 23 nM	++ PI3Kδ, IC50: 36 nM				99%+
ZSTK474		+++ PI3Kα, IC50: 16 nM	++ PI3Kβ, IC50: 44 nM	++ PI3Kγ, IC50: 49 nM	+++ PI3Kδ, IC50: 4.6 nM	++ PI3K, IC50: 37 nM			98%
AS-605240		++ PI3Kα, IC50: 60 nM	+ PI3Kβ, IC50: 270 nM	+++ PI3Kγ, IC50: 8 nM	+ PI3Kδ, IC50: 300 nM				98%
TGX-221			+++ p110β, IC50: 5 nM		++ p110δ, IC50: 0.1 μM				99%+
PF-04691502		++++ PI3Kα, Ki: 1.8 nM	++++ PI3Kβ, Ki: 2.1 nM	++++ PI3Kγ, Ki: 1.9 nM	++++ PI3Kδ, Ki: 1.6 nM			mTOR	98+%
GDC-0084		++++ PI3Kα, Ki app: 2 nM	++ PI3Kβ, Ki app: 46 nM	+++ PI3Kγ, Ki app: 10 nM	++++ PI3Kδ, Ki app: 3 nM			mTOR	99%+
Buparlisib		++ p110α, IC50: 52 nM	+ p110β, IC50: 166 nM	+ p110γ, IC50: 262 nM	++ p110δ, IC50: 116 nM		+ Vps34, IC50: 2.4 μM	mTOR	98%
LY294002		+ p110α, IC50: 0.5 μM	+ p110β, IC50: 0.97 μM		+ p110δ, IC50: 0.57 μM			DNA-PK	99%+
AZD 6482		+ PI3Kα, IC50: 870 nM	+++ PI3Kβ, IC50: 10 nM		++ PI3Kδ, IC50: 80 nM			DNA-PK	99%+
Pictilisib		++++ p110α, IC50: 3 nM	++ p110β, IC50: 33 nM	++ p110γ, IC50: 75 nM	++++ p110δ, IC50: 3 nM			mTOR	99%+
PKI-402		++++ PI3Kα, IC50: 2 nM	+++ PI3Kβ, IC50: 7 nM	+++ PI3Kγ, IC50: 16 nM	+++ PI3Kδ, IC50: 14 nM			mTOR	99+%
Copanlisib		++++ PI3Kα, IC50: 0.5 nM	++++ PI3Kβ, IC50: 3.7 nM	+++ PI3Kγ, IC50: 6.4 nM	++++ PI3Kδ, IC50: 0.7 nM				99%+
Omipalisib		++++ p110α, Ki: 0.019 nM	++++ p110β, Ki: 0.13 nM	++++ p110γ, Ki: 0.06 nM	++++ p110δ, Ki: 0.024 nM				99%+
Izorlisib		+++ PI3Kα, IC50: 14 nM	++ PI3Kβ, IC50: 0.12 μM	++ PI3Kγ, IC50: 36 nM	+ PI3Kδ, IC50: 0.50 μM				99%+
AZD8186		++ PI3Kα, IC50: 35 nM	++++ PI3Kβ, IC50: 4 nM		+++ PI3Kδ, IC50: 12 nM				98+%
KU-0060648		++++ PI3Kα, IC50: 4 nM	++++ PI3Kβ, IC50: 0.5 nM	+ PI3Kγ, IC50: 0.59 μM	++++ PI3Kδ, IC50: 0.1 nM			DNA-PK	99%
Apitolisib		+++ p110α, IC50: 5 nM	++ p110β, IC50: 27 nM	+++ p110γ, IC50: 14 nM	+++ p110δ, IC50: 7 nM			mTOR	98%+
CZC24832			+ PI3Kβ, IC50: 1.1 μM	++ PI3Kγ, IC50: 27 nM					98+%
BGT226 maleate		++++ PI3Kα, IC50: 4 nM	++ PI3Kβ, IC50: 63 nM	++ PI3Kγ, IC50: 38 nM				mTOR	99%+
TG 100713		++ PI3Kα, IC50: 165 nM	+ PI3Kβ, IC50: 215 nM	++ PI3Kγ, IC50: 50 nM	+++ PI3Kδ, IC50: 24 nM				98%+
PI3K-IN-1		++ PI3Kα, IC50: 39 nM	++ PI3Kβ, IC50: 113 nM	+++ PI3Kγ, IC50: 9 nM	++ PI3Kδ, IC50: 43 nM			mTOR,DNA-PK	98+%
TG100-115		+ PI3Kα, IC50: 1.3 μM	+ PI3Kβ, IC50: 1.2 μM	++ PI3Kγ, IC50: 83 nM	+ PI3Kδ, IC50: 235 nM				98%
PIK-90		+++ PI3Kα, IC50: 11 nM	+ PI3Kβ, IC50: 350 nM	+++ PI3Kγ, IC50: 18 nM	++ PI3Kδ, IC50: 58 nM				99%+
PIK-294			+ p110β, IC50: 490 nM	++ p110γ, IC50: 160 nM	+++ p110δ, IC50: 10 nM				99%+
Duvelisib			++++ PI3Kβ, Ki: 1564 pM	++ PI3Kγ, Ki: 243 pM	++++ PI3Kδ, Ki: 23 pM				99%+
GDC-0326		++++ PI3Kα, Ki: 0.2 nM	++ PI3Kβ, Ki: 26.6 nM	+++ PI3Kγ, Ki: 10.2 nM	++++ PI3Kδ, Ki: 4 nM				98%
Quercetin Dihydrate			+ PI3Kβ, IC50: 5.4 μM	+ PI3Kγ, IC50: 2.4 μM	+ PI3Kδ, IC50: 3.0 μM				95%
Quercetin			+ PI3Kβ, IC50: 5.4 μM	+ PI3Kγ, IC50: 2.4 μM	+ PI3Kδ, IC50: 3.0 μM			Src,Sirtuin,PKC	97%
Leniolisib		+ PI3Kα, IC50: 0.244 μM	+ PI3Kβ, IC50: 0.424 μM	+ PI3Kγ, IC50: 2.23 μM	+++ PI3Kδ, IC50: 0.011 μM			DNA-PK	99%+
PIK-108			✔						98%
Eganelisib				+++ PI3Kγ, IC50: 16 nM					99%+
CAY10505				✔					98%
IPI-3063					++++ p110δ, IC50: 2.5 nM				99%
Nemiralisib					++++ PI3Kδ, pKi: 9.9				99%+
PF-4989216		++++ p110α, IC50: 2 nM		++ p110γ, IC50: 65 nM	++++ p110δ, IC50: 1 nM				99%+
PIK-75 HCl		+++ p110α, IC50: 5.8 nM		++ p110γ, IC50: 76 nM	+ p110δ, IC50: 0.51 μM			DNA-PK	99%+
Tenalisib				++ PI3Kγ, IC50: 33.2 nM	++ PI3Kδ, IC50: 24.5 nM				95+%
Acalisib					+++ p110δ, IC50: 14 nM				99%+
Umbralisib					+++ PI3Kδ, IC50: 22.2 nM				99%+
AMG319				+ PI3Kγ, IC50: 850 nM	+++ PI3Kδ, IC50: 18 nM				99%
IC-87114				+ PI3Kγ, IC50: 29 μM	+ PI3Kδ, IC50: 0.5 μM				99%+
Idelalisib				++ p110γ, IC50: 89 nM	++++ p110δ, IC50: 2.5 nM				98%
PIK-293				+ p110γ, IC50: 10 μM	+ p110δ, IC50: 0.24 μM				99%+
Vps34-PIK-III					+ PI3Kδ, IC50: 1.2μM		+++ Vps34, IC50: 0.018μM		99%+
GSK2292767					✔				99+%
Seletalisib				+ PI3Kγ, IC50: 282 nM	+++ PI3Kδ, IC50: 12 nM				99%+
P110δ-IN-1					++++ P110δ, IC50: 0.6 nM				98%
PI3Kδ-IN-5					++++ PI3Kδ, IC50: 0.9 nM				98%
SRX3207		+ PI3K alpha, IC50: 244 nM		+ PI3K gamma, IC50: 9790 nM	+ PI3K delta, IC50: 388 nM			Syk	98%
Parsaclisib HCl					++++ PI3Kδ, IC50: 1 nM				98%
IHMT-PI3Kδ-372					+++ PI3Kδ, IC50: 14 nM				98%
Trigonelline						✔		Akt	99%+
Wortmannin						++++ PI3K, IC50: 3 nM		DNA-PK,MLCK	99%+
Samotolisib						✔		DNA-PK	99%+
GNE-317						✔			99%+
Oroxin B						✔		PTEN,Akt	99%+
NU 7026						+ PI3K, IC50: 13 μM		DNA-PK	98+%
Deguelin						✔		Akt	99%+
Ailanthone						✔		CDK,ATM/ATR,Akt	98%
Resibufogenin						✔		ROS	98%
KU-57788						+ PI3K, IC50: 5 μM		mTOR,DNA-PK	99%+
Cinobufagine						✔		Akt	98%
α-Linolenic acid						✔			97% GC
MTX-211						✔		EGFR	98%
PI3K/mTOR Inhibitor-2						++++ PI3K, IC50: 3.4 nM		mTOR	99%+
SPP-86						✔			99%+
(E)-Akt inhibitor-IV						✔			98%
Vps34-IN-1							++ Vps34, IC50: 25 nM		98%
SAR405							++++ Vps34, IC50: 1.2 nM		98+%
3-Methyladenine				+ PI3Kγ, IC50: 60 μM			+ Vps34, IC50: 25 μM	Autophagy	98%
Vps34-IN-4							+++ VPS34, IC50: 15 nM		98%+
Autophinib							+++ Vps34, IC50: 19 nM	Autophagy	97%
1. 鼠标悬停在“+”上可以显示相关IC50的具体数值。"+"越多，抑制作用越强。2. "✔"表示该化合物对相应的亚型有抑制作用，但抑制强度暂时没有相关数据。

YM-201636 生物活性

靶点

p110α

p110α, IC50:3.3 μM

描述

PIKfyve is the mammalian type III PtdInsP kinase that acts on PtdIns3P (phosphatidylinositol 3-phosphate) to generate PtdIns(3,5)P₂. PtdIns(3,5)P₂ has been shown to have a role in the retrieval of cargoes to the trans-Golgi network (TGN), and has been implicated in insulin-regulated IRAP/GLUT4 vesicle transport. YM201636 is a novel, potent and selective inhibitor of PIKfyve, with a half-maximal inhibitory concentration (IC₅₀) of 33 nM. An IC₅₀ for PtdIns3P p110α was determined to be 3 μM, almost 100-fold higher than for PIKfyve. In serum-starved NIH3T3 cells, YM201636 at 800 nM decreased PtdIns(3,5)P₂ production by 80%. Acute treatment with YM201636 of various cell types, including mouse embryonic fibroblasts (MEFs), Madin–Darby canine kidney (MDCK), MCF10A, COS7 and NIH3T3 cells, caused the formation of large vesicular structures. The size and rate of formation are time- and concentration-dependent, with an A₅₀ of around 400 nM. In NIH3T3 cells treated with 800 nM YM201636 for 2 h, YM201636 became concentrated on the surface of a subset of enlarged vesicular structures and on some lumenal vesicles. When NIH3T3 cells were treated with YM201636, it was apparent that most of LC3 (the GFP(green fluorescent protein)-tagged autophagosome marker) accumulated inside the enlarged vesicles^[2]. YM201636 almost completely inhibited basal and insulin-activated 2-deoxyglucose uptake at doses as low as 160 nM, with an IC_{50_{of 54 nM for the net insulin response. In addition to PIKfyve, YM201636 also completely inhibited insulin-dependent activation of class IA PI 3-kinase^[3].}}

YM-201636 参考文献

[1]Sbrissa D, Ikonomov OC, et al. Functional dissociation between PIKfyve-synthesized PtdIns5P and PtdIns(3,5)P2 by means of the PIKfyve inhibitor YM201636. Am J Physiol Cell Physiol. 2012 Aug 15;303(4):C436-46.

[2]A selective PIKfyve inhibitor blocks PtdIns(3,5)P(2) production and disrupts endomembrane transport and retroviral budding

[3]YM201636, an inhibitor of retroviral budding and PIKfyve-catalyzed PtdIns(3,5)P2 synthesis, halts glucose entry by insulin in adipocytes

YM-201636 实验方案

计算器

存储液制备

1mg

5mg

10mg

1 mM

5 mM

10 mM

2.14mL

0.43mL

0.21mL

10.70mL

2.14mL

1.07mL

21.39mL

4.28mL

2.14mL

YM-201636 技术信息

CAS号	371942-69-7
分子式	C₂₅H₂₁N₇O₃
分子量	467.479

别名
运输	蓝冰

存储条件

液体 -20°C:3-6个月-80°C:12个月

粉末 Keep in dark place,Inert atmosphere,Room temperature

溶解度

DMSO: 45 mg/mL(96.26 mM)，注意：DMSO长时间开封后，会吸水并导致溶解能力下降，请避免使用长期开封的DMSO

动物实验配方

YM-201636 {[allProObj[0].p_purity_real_show]}

YM-201636 纯度/质量文件产品仅供科研

全球学术期刊中引用的产品

YM-201636 质控信息

YM-201636 生物活性

YM-201636 参考文献

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YM-201636 {[allProObj[0].p_purity_real_show]}

YM-201636 纯度/质量文件 产品仅供科研

全球学术期刊中引用的产品

YM-201636 质控信息

YM-201636 生物活性

YM-201636 参考文献

YM-201636 实验方案

YM-201636 技术信息

最近浏览的产品

大规格询价

摩尔计算器

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总药量计算器

工作液计算器

细胞研究

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确认信息

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YM-201636 纯度/质量文件产品仅供科研