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Ganetespib (STA-9090)

Name: Ganetespib (STA-9090)
Brand: Selleck Chemicals
SKU: S1159
Rating: 5 (73 reviews)

Catalog No.S1159 Purity:99.97%

Ganetespib (STA-9090) is an HSP90 inhibitor with IC50 of 4 nM in OSA 8 cells, induces apoptosis of OSA cells while normal osteoblasts are not affected; active metabolite of STA-1474. Phase 3.

Ganetespib (STA-9090) Chemical Structure

CAS No. 888216-25-9

Purity & Quality Control

Batch: Purity: 99.97%

99.97

Ganetespib (STA-9090) Related Products

Related Targets	HSP40 HSP70 HSP90 HSP105 HSF1	Click to Expand
Related Products	Tanespimycin (17-AAG) Luminespib (NVP-AUY922) Elesclomol (STA-4783) Alvespimycin (17-DMAG) HCl VER155008 BIIB021 Onalespib (AT13387) NVP-BEP800 KRIBB11 SNX-2112 HA15 Zelavespib (PU-H71) HSP990 (NVP-HSP990) NMS-E973 Apoptozole XL888 PF-04929113 (SNX-5422) KNK437 Teprenone TRC051384 VER-50589 Rocaglamide VER-49009 Pimitespib (TAS-116) JG98 DTHIB KW-2478	Click to Expand
Related Compound Libraries	Kinase Inhibitor Library Angiogenesis Related compound Library TGF-beta/Smad compound library Cytoskeletal Signaling Pathway Compound Library Anti-Cardiovascular Disease Compound Library	Click to Expand

Signaling Pathway

HSP (HSP90) Signaling Pathway

Cell Data

Cell Lines	Assay Type	Concentration	Incubation Time	Formulation	Activity Description	PMID
NCI-H1975	Growth Inhibition Assay		72 h		IC50=8 nM	22144665
NCI-H1975	Growth Inhibition Assay		48 h		IC50=16 nM	22144665
Calu-6	Growth Inhibition Assay				IC50=64 nM	23012248
Calu-1	Growth Inhibition Assay				IC50=58 nM	23012248
H2122	Growth Inhibition Assay				IC50=53 nM	23012248
A549	Growth Inhibition Assay				IC50=43 nM	23012248
H358	Growth Inhibition Assay				IC50=29 nM	23012248
H1734	Growth Inhibition Assay				IC50=28 nM	23012248
H727	Growth Inhibition Assay				IC50=28 nM	23012248
COR-L23	Growth Inhibition Assay				IC50=22 nM	23012248
H1792	Growth Inhibition Assay				IC50=20 nM	23012248
H2009	Growth Inhibition Assay				IC50=19 nM	23012248
SK-LU-1	Growth Inhibition Assay				IC50=18 nM	23012248
H2212	Growth Inhibition Assay				IC50=17 nM	23012248
H441	Growth Inhibition Assay				IC50=14 nM	23012248
H2030	Growth Inhibition Assay				IC50=12 nM	23012248
H23	Growth Inhibition Assay				IC50=11 nM	23012248
HOP-62	Growth Inhibition Assay				IC50=11 nM	23012248
IA-LM	Growth Inhibition Assay				IC50=10 nM	23012248
H460	Growth Inhibition Assay				IC50=8 nM	23012248
H157	Growth Inhibition Assay				IC50=7 nM	23012248
H1355	Growth Inhibition Assay				IC50=5 nM	23012248
VCaP	Growth Inhibition Assay				IC50=7 nM	23152004
LNCaP	Growth Inhibition Assay				IC50=8 nM	23152004
Ramos-RA1	Growth Inhibition Assay				IC50=7.4 nM	23303741
Karpas-299	Growth Inhibition Assay				IC50=9.6 nM	23303741
Kasumi-1	Growth Inhibition Assay				IC50=5.8 nM	23303741
CCRF-CEM (2)	Growth Inhibition Assay				IC50=7.2 nM	23303741
CCRF-CEM (1)	Growth Inhibition Assay				IC50=12.5 nM	23303741
MOLT-4	Growth Inhibition Assay				IC50=10.6 nM	23303741
RS4;11	Growth Inhibition Assay				IC50=13.5 nM	23303741
COG-LL-317	Growth Inhibition Assay				IC50=4.4 nM	23303741
NALM-6	Growth Inhibition Assay				IC50=11.7 nM	23303741
CHLA-136	Growth Inhibition Assay				IC50=23.2 nM	23303741
CHLA-90	Growth Inhibition Assay				IC50=22.3 nM	23303741
NB-EBc1	Growth Inhibition Assay				IC50=16.8 nM	23303741
NB-1643	Growth Inhibition Assay				IC50=7.4 nM	23303741
SJ-GBM2	Growth Inhibition Assay				IC50=12.9 nM	23303741
CHLA-258	Growth Inhibition Assay				IC50=6.4 nM	23303741
CHLA-10	Growth Inhibition Assay				IC50=5.7 nM	23303741
CHLA-9	Growth Inhibition Assay				IC50=4.6 nM	23303741
TC-71	Growth Inhibition Assay				IC50=4.5 nM	23303741
CHLA-266	Growth Inhibition Assay				IC50=27.1 nM	23303741
BT-12	Growth Inhibition Assay				IC50=14.3 nM	23303741
Rh30	Growth Inhibition Assay				IC50=5.6 nM	23303741
Rh18	Growth Inhibition Assay				IC50=6.2 nM	23303741
Rh41	Growth Inhibition Assay				IC50=10.4 nM	23303741
RD	Growth Inhibition Assay				IC50=8 nM	23303741
K033	Apoptosis Assay	100 nM	72 h		significantly induces apoptosis	23418523
M23	Apoptosis Assay	100 nM	72 h		significantly induces apoptosis	23418523
K029	Apoptosis Assay	100 nM	72 h		significantly induces apoptosis	23418523
K028	Apoptosis Assay	100 nM	72 h		significantly induces apoptosis	23418523
K008	Apoptosis Assay	100 nM	72 h		significantly induces apoptosis	23418523
K033	Function Assay	250 nM	24 h		induces a modest increase in G1 population	23418523
M23	Function Assay	250 nM	24 h		induces G1 and G2/M arrest	23418523
K029	Function Assay	250 nM	24 h		induces G1 arrest	23418523
K028	Function Assay	250 nM	24 h		induces G2 arrest	23418523
K008	Function Assay	250 nM	24 h		induces G2 arrest	23418523
K033	Cell Viability Assay				IC50=75.5 nM	23418523
M23	Cell Viability Assay				IC50=37.5 nM	23418523
K029	Cell Viability Assay				IC50=46 nM	23418523
K028	Cell Viability Assay				IC50=84 nM	23418523
K008	Cell Viability Assay				IC50=60 nM	23418523
H3122	Cell Viability Assay	0-1000 nM	72 h		IC50=10 nM	23533265
H2228	Cell Viability Assay	0-1000 nM	72 h		IC50=13 nM	23533265
A1847	Apoptosis Assay	10-100 nM	24/48/72 h		induces apoptosis time and dose dependently	23900136
OVCAR-8	Apoptosis Assay	10-100 nM	24/48/72 h		induces apoptosis time and dose dependently	23900136
OVCAR-5	Apoptosis Assay	10-100 nM	24/48/72 h		induces apoptosis time and dose dependently	23900136
SKOV-3	Cell Viability Assay	0-1000 nM	72 h		inhibits cell viability dose dependently	23900136
A1847	Cell Viability Assay	0-1000 nM	72 h		inhibits cell viability dose dependently	23900136
OVCAR-8	Cell Viability Assay	0-1000 nM	72 h		inhibits cell viability dose dependently	23900136
OVCAR-5	Cell Viability Assay	0-1000 nM	72 h		inhibits cell viability dose dependently	23900136
H146	Function Assay	30 nM	72 h		induces persistent G2/M phase arrest	24166505
GLC4	Function Assay	30 nM	72 h		induces persistent G2/M phase arrest	24166505
H82	Function Assay	30 nM	72 h		induces persistent G2/M phase arrest	24166505
AC3	Growth Inhibition Assay				IC50=25.9 nM	24166505
H1173	Growth Inhibition Assay				IC50=12.62 nM	24166505
H792	Growth Inhibition Assay				IC50=45.07 nM	24166505
H620	Growth Inhibition Assay				IC50=32.67 nM	24166505
N592	Growth Inhibition Assay				IC50=14.12 nM	24166505
H526	Growth Inhibition Assay				IC50=21.64 nM	24166505
H187	Growth Inhibition Assay				IC50=24.99 nM	24166505
H146	Growth Inhibition Assay				IC50=28.51 nM	24166505
H128	Growth Inhibition Assay				IC50=69.55 nM	24166505
H69	Growth Inhibition Assay				IC50=83.36 nM	24166505
GLC4	Growth Inhibition Assay				IC50=20.47 nM	24166505
H82	Growth Inhibition Assay				IC50=30.27 nM	24166505
MDA-MB-231	Function Assay	100 nM	24 h		inhibits the migratory and invasive capacity	24173541
BT-20	Function Assay	100/250 nM	24 h		resulted in a dose-dependent destabilization of EGFR, IGF-IR, MET, and CRAF	24173541
MDA-MB-435	Function Assay	100 nM	30 min		inhibits accumulation of HIF-1α	24248265
MDA-MB-231	Function Assay	100 nM	30 min		inhibits accumulation of HIF-1α	24248265
HCC2998	Growth Inhibition Assay				IC50=128 nM	24682747
SK-CO-1	Growth Inhibition Assay				IC50=81 nM	24682747
LS-123	Growth Inhibition Assay				IC50=73 nM	24682747
SNU-C2B	Growth Inhibition Assay				IC50=45 nM	24682747
LS-1034	Growth Inhibition Assay				IC50=31 nM	24682747
LoVo	Growth Inhibition Assay				IC50=22 nM	24682747
COLO-678	Growth Inhibition Assay				IC50=21 nM	24682747
NCI-H747	Growth Inhibition Assay				IC50=17 nM	24682747
COLO-205	Growth Inhibition Assay				IC50=14 nM	24682747
HCT 116	Growth Inhibition Assay				IC50=14 nM	24682747
HuTu-80	Growth Inhibition Assay				IC50=13 nM	24682747
HCT-15	Growth Inhibition Assay				IC50=8 nM	24682747
SW620	Growth Inhibition Assay				IC50=8 nM	24682747
LS-411 N	Growth Inhibition Assay				IC50=5 nM	24682747
RKO	Growth Inhibition Assay				IC50=4 nM	24682747
SW780	Growth Inhibition Assay				IC50=3451 nM	24784839
RT4	Growth Inhibition Assay				IC50=1733 nM	24784839
TCCSUP	Growth Inhibition Assay				IC50=142 nM	24784839
MGH-U3	Growth Inhibition Assay				IC50=53 nM	24784839
HT-1197	Growth Inhibition Assay				IC50=53 nM	24784839
5637	Growth Inhibition Assay				IC50=44 nM	24784839
35612	Growth Inhibition Assay				IC50=38 nM	24784839
KU-19-19	Growth Inhibition Assay				IC50=36 nM	24784839
LB831-BLC	Growth Inhibition Assay				IC50=34 nM	24784839
UM-UC3	Growth Inhibition Assay				IC50=33 nM	24784839
647-V	Growth Inhibition Assay				IC50=27 nM	24784839
HT-1376	Growth Inhibition Assay				IC50=21 nM	24784839
J82	Growth Inhibition Assay				IC50=18 nM	24784839
BFTC	Growth Inhibition Assay				IC50=17 nM	24784839
SCaBER	Growth Inhibition Assay				IC50=10 nM	24784839
639-V	Growth Inhibition Assay				IC50=10 nM	24784839
RT112	Growth Inhibition Assay				IC50=9 nM	24784839
T24	Growth Inhibition Assay				IC50=7 nM	24784839
SW-1710	Growth Inhibition Assay				IC50=6 nM	24784839
DSH1	Growth Inhibition Assay				IC50=6 nM	24784839
CAL27	Cytoxicity Assay	10/50 nM	24 h		decreases cell proliferation dose dependently	25205430
Detroit562	Cytoxicity Assay	10/50 nM	24 h		decreases cell proliferation dose dependently	25205430
FUDA	Cytoxicity Assay	10/50 nM	24 h		decreases cell proliferation dose dependently	25205430
SCC25	Cytoxicity Assay	10/50 nM	24 h		decreases cell proliferation dose dependently	25205430
HT-29	Function Assay	50nM	24 h	DMSO	induced G0/G1 arrest	25210794
HCT-116	Function Assay	50nM	24 h	DMSO	induced G0/G1 arrest	25210794
MGC-803	Function Assay	0.1-1000 nM	24 h		induces G2/M cell-cycle arrest	25590805
MKN-28	Cell Viability Assay	0.1-1000 nM	72 h		inhibits cell viability dose dependently	25590805
SGC-7901	Cell Viability Assay	0.1-1000 nM	72 h		inhibits cell viability dose dependently	25590805
MGC-803	Cell Viability Assay	0.1-1000 nM	72 h		inhibits cell viability dose dependently	25590805
MV411	Apoptosis Assay	30/80/150/250 nM	24/48/72 h		induces dose dependant induction of apoptosis	25882550
HL60	Apoptosis Assay	30/80/150/250 nM	24/48/72 h		induces dose dependant induction of apoptosis	25882550
TC32	qHTS assay				qHTS of pediatric cancer cell lines to identify multiple opportunities for drug repurposing: Primary screen for TC32 cells	29435139
A673	qHTS assay				qHTS of pediatric cancer cell lines to identify multiple opportunities for drug repurposing: Primary screen for A673 cells	29435139
Saos-2	qHTS assay				qHTS of pediatric cancer cell lines to identify multiple opportunities for drug repurposing: Primary screen for Saos-2 cells	29435139
BT-37	qHTS assay				qHTS of pediatric cancer cell lines to identify multiple opportunities for drug repurposing: Primary screen for BT-37 cells	29435139
RD	qHTS assay				qHTS of pediatric cancer cell lines to identify multiple opportunities for drug repurposing: Primary screen for RD cells	29435139
SK-N-SH	qHTS assay				qHTS of pediatric cancer cell lines to identify multiple opportunities for drug repurposing: Primary screen for SK-N-SH cells	29435139
NB1643	qHTS assay				qHTS of pediatric cancer cell lines to identify multiple opportunities for drug repurposing: Primary screen for NB1643 cells	29435139
OHS-50	qHTS assay				qHTS of pediatric cancer cell lines to identify multiple opportunities for drug repurposing: Primary screen for OHS-50 cells	29435139
A673	qHTS assay				qHTS of pediatric cancer cell lines to identify multiple opportunities for drug repurposing: Confirmatory screen for A673 cells)	29435139
SJ-GBM2	qHTS assay				qHTS of pediatric cancer cell lines to identify multiple opportunities for drug repurposing: Primary screen for SJ-GBM2 cells	29435139
SK-N-MC	qHTS assay				qHTS of pediatric cancer cell lines to identify multiple opportunities for drug repurposing: Primary screen for SK-N-MC cells	29435139
NB-EBc1	qHTS assay				qHTS of pediatric cancer cell lines to identify multiple opportunities for drug repurposing: Primary screen for NB-EBc1 cells	29435139
LAN-5	qHTS assay				qHTS of pediatric cancer cell lines to identify multiple opportunities for drug repurposing: Primary screen for LAN-5 cells	29435139
Rh18	qHTS assay				qHTS of pediatric cancer cell lines to identify multiple opportunities for drug repurposing: Primary screen for Rh18 cells	29435139
Click to View More Cell Line Experimental Data

Biological Activity

Description

Ganetespib (STA-9090) is an HSP90 inhibitor with IC50 of 4 nM in OSA 8 cells, induces apoptosis of OSA cells while normal osteoblasts are not affected; active metabolite of STA-1474. Phase 3.

Targets

HSP90 ^[1]
(OSA 8 cells)

4 nM

In vitro
In vitro	The 50% inhibitory concentrations (IC50) for Ganetespib against malignant mast cell lines are 10-50 times lower than that for 17-AAG, indicating that triazolone class of HSP90 inhibitors likely exhibits greater potency than geldanamycin based inhibitors. ^[1] Ganetespib inhibits MG63 cell lines with IC50 of 43 nM. ^[1] Ganetespib binds to the ATP-binding domain at the N-terminus of Hsp90 and serves as a potent Hsp90 inhibitor by causing degradation of multiple oncogenic Hsp90 client proteins including HER2/neu, mutated EGFR, Akt, c-Kit, IGF-1R, PDGFRα, Jak1, Jak2, STAT3, STAT5, HIF-1α, CDC2 and c-Met as well as Wilms' tumor 1. ^[2] Ganetespib, at low nanomolar concentrations, potently arrests cell proliferation and induces apoptosis in a wide variety of human cancer cell lines, including many receptor tyrosine kinase inhibitor- and tanespimycin-resistant cell lines. Ganetespib exhibits potent cytotoxicity in a range of solid and hematologic tumor cell lines, including those that express mutated kinases that confer resistance to small-molecule tyrosine kinase inhibitors. ^[3] Ganetespib treatment rapidly caused the degradation of known Hsp90 client proteins, exhibits superior potency to the ansamycin inhibitor 17-AAG, and shows sustained activity even with short exposure times.^[3] In anohter study, Ganetespib induces apoptosis of malignant canine mast cell lines. Ganetespib is active at significantly lower concentrations for C2 and BR canine malignant mast cells with IC50 of 19 and 4 nM, respectively, while 17-AAG inhibits C2 and BR canine malignant mast cells with IC50 of 958 and 44 nM, respectively. ^[4] Both the expression of WT and mutant Kit are downregulated by 100 nM Ganetespib after 24 hours in all lines treated including C2 and BMCMCs cells. However, no effects on PI3K or HSP90 expression are observed following treatment with Ganetespib.^[4]
Cell Research	Cell lines	OSA cells
	Concentrations	0.001-1μM
	Incubation Time	5 days
	Method	A total of 1.5 × 10³ OSA cells are seeded in 96-well plates in 10% serum-containing complete medium and incubated overnight to determine the 50% inhibitory concentrations. Plates are, harvested at day 5 following 0.001, 0.005, 0.01, 0.05, 0.1, 0.5 and 1 μM Ganetespib, treatment and analyzed. Fluorescence measurements are made using a plate reader with excitation at 485 nm and emission detection at 530 nm. Relative cell number is calculated as a percentage of the control wells: absorbance of sample/absorbance of DMSO treated cells × 100.
Experimental Result Images	Methods	Biomarkers	Images	PMID
	Western blot	EGFR / c-Met / IGF-1Rβ/ Akt / p-Akt / ERK / p-ERK p27(Kip1) / p21 (Cip1) / Cyclin D1 / Cyclin E / Cyclin B1 / CDK1 / CDK2 / CDK4 Survivin / Bcl-2 / Bcl-xl / Mcl-1 B-RAF / C-RAF / N-RAS HER2 / p-STAT3 / BIM CDK1 / Cyclin D1 / Cyclin B1 / p27 c-PARP / c-caspase 3 / caspase 8 / c-caspase 8 / caspase 9 / c-caspase 9 ErbB2 / pErbB2 / Src / pSrc / mTOR / pmTOR / Bad / pBad / GSK3 / pGSK3 Wee1 / p-Wee1 / Chk1 / p-Chk1		23418523
	Growth inhibition assay	Cell viability		23418523

In Vivo
In vivo	Administration of Ganetespib leads to significant tumor shrinkage in several tumor xenograft models in mice and appears to be less toxic. Furthermore Ganetespib demonstrated better tumor penetration compared with tanespimycin.^[2] Ganetespib inhibits in vivo tumor growth in both malignant mast cell and OSA xenograft models. Ganetespib significantly inhibits tumor growth when dosed with two repeating cycles of 25 mg/kg/day for 3 days, with a %T/C value of 18. Ganetespib is well-tolerated, with the vehicle and Ganetespib groups having average bodyweight changes relative to the start of the study of +0.3% and -8.1% on day 17, respectively.^[4]
Animal Research	Animal Models	Female severe combined immune-deficient (SCID) mice
	Dosages	25 mg/kg/day for 3 days
	Administration	Tail vein injection

NCT Number	Recruitment	Conditions	Sponsor/Collaborators	Start Date	Phases
Clinical Trial Information (data from https://clinicaltrials.gov, updated on 2024-05-22)
NCT02192541	Terminated	Neoplasms	National Cancer Institute (NCI)\|National Institutes of Health Clinical Center (CC)	December 2 2014	Phase 1
NCT02008877	Completed	Malignant Peripheral Nerve Sheath Tumors (MPNST)\|Sarcoma	Sarcoma Alliance for Research through Collaboration\|Synta Pharmaceuticals Corp.\|United States Department of Defense	December 2013	Phase 1\|Phase 2

References

[4] Lin TY, et al. Exp Hematol. 2008, 36(10), 1266-1277.

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Chemical Information & Solubility

Molecular Weight	364.4	Formula	C₂₀H₂₀N₄O₃
CAS No.	888216-25-9	SDF	Download Ganetespib (STA-9090) SDF
Smiles	CC(C)C1=C(C=C(C(=C1)C2=NNC(=O)N2C3=CC4=C(C=C3)N(C=C4)C)O)O
Storage (From the date of receipt)	3 years-20°Cpowder	Storage of Stock Solutions Aliquot the stock solutions to avoid repeated freeze-thaw cycles	1 year-80°Cin solvent
Storage (From the date of receipt)	3 years-20°Cpowder		1 month-20°Cin solvent

In vitro
Batch:

DMSO : 40 mg/mL ( (109.76 mM) Moisture-absorbing DMSO reduces solubility. Please use fresh DMSO.)

Ethanol : 9 mg/mL

Water : Insoluble

Molecular Weight Calculator

In vivo Batch: Add solvents to the product individually and in order.				In vivo Formulation Calculator
Homogeneous suspension	CMC-NA	≥5mg/ml	Taking the 1 mL working solution as an example, add 5 mg of this product to 1 ml of CMC-Na solution, mix evenly to obtain a homogeneous suspension with a final concentration of 5 mg/ml.
Homogeneous suspension	CMC-NA	≥5mg/ml	Taking the 1 mL working solution as an example, add 5 mg of this product to 1 ml of CMC-Na solution, mix evenly to obtain a homogeneous suspension with a final concentration of 5 mg/ml.
Clear solution	5%DMSO 1 40%PEG300 2 5%Tween80 3 50%ddH2O Validated by Selleck labs. Should you need adjustments to this formulation, contact our sales team for custom testing.	5.000mg/ml (13.72mM)	Taking the 1 mL working solution as an example, add 50 μL of 100 mg/ml clarified DMSO stock solution to 400 μL of PEG300, mix evenly to clarify it; add 50 μL of Tween80 to the above system, mix evenly to clarify; then continue to add 500 μL of ddH2O to adjust the volume to 1 mL. The mixed solution should be used immediately for optimal results.
Homogeneous suspension	CMC-NA	≥5mg/ml	Taking the 1 mL working solution as an example, add 5 mg of this product to 1 ml of CMC-Na solution, mix evenly to obtain a homogeneous suspension with a final concentration of 5 mg/ml.
Homogeneous suspension	CMC-NA	≥5mg/ml	Taking the 1 mL working solution as an example, add 5 mg of this product to 1 ml of CMC-Na solution, mix evenly to obtain a homogeneous suspension with a final concentration of 5 mg/ml.
Homogeneous suspension	CMC-NA	≥5mg/ml	Taking the 1 mL working solution as an example, add 5 mg of this product to 1 ml of CMC-Na solution, mix evenly to obtain a homogeneous suspension with a final concentration of 5 mg/ml.

Preparing Stock Solutions

Molarity Calculator

Mass	Concentration	Volume	Molecular Weight
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Dilution Calculator Molecular Weight Calculator

In vivo Formulation Calculator (Clear solution)

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Method for preparing DMSO master liquid: mg drug pre-dissolved in μL DMSO ( Master liquid concentration mg/mL, Please contact us first if the concentration exceeds the DMSO solubility of the batch of drug. )

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Method for preparing in vivo formulation: Take μL DMSO master liquid, next add μL Corn oil, mix and clarify.

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Tech Support

Answers to questions you may have can be found in the inhibitor handling instructions. Topics include how to prepare stock solutions, how to store inhibitors, and issues that need special attention for cell-based assays and animal experiments.

Handling Instructions

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Frequently Asked Questions

Question 1:
Does this inhibitor inhibit both isoforms of HSP90?

Answer:
We don't have the information now and it is not very clear in the literature either. From following two references, it indicates that Ganetespib might be specific to the alpha form “Ganetespib binds to the ATP binding site of Hsp90 alpha with a Kd of 110 nM” http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3477583/

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