Homogeneous single-label biochemical Ras activation assay using time-resolved luminescence

Eija Martikkala; Stefan Veltel; Jonna Kirjavainen; Anita Rozwandowicz-Jansen; Urpo Lamminmäki; Pekka Hänninen; Harri Härmä

doi:10.1021/ac202723h

Homogeneous single-label biochemical Ras activation assay using time-resolved luminescence

Standard

Homogeneous single-label biochemical Ras activation assay using time-resolved luminescence. / Martikkala, Eija; Veltel, Stefan; Kirjavainen, Jonna; Rozwandowicz-Jansen, Anita; Lamminmäki, Urpo; Hänninen, Pekka; Härmä, Harri.

in: ANAL CHEM, Jahrgang 83, Nr. 24, 15.12.2011, S. 9230-3.

Publikationen: SCORING: Beitrag in Fachzeitschrift/Zeitung › SCORING: Zeitschriftenaufsatz › Forschung › Begutachtung

Harvard

Martikkala, E, Veltel, S, Kirjavainen, J, Rozwandowicz-Jansen, A, Lamminmäki, U, Hänninen, P & Härmä, H 2011, 'Homogeneous single-label biochemical Ras activation assay using time-resolved luminescence', ANAL CHEM, Jg. 83, Nr. 24, S. 9230-3. https://doi.org/10.1021/ac202723h

APA

Martikkala, E., Veltel, S., Kirjavainen, J., Rozwandowicz-Jansen, A., Lamminmäki, U., Hänninen, P., & Härmä, H. (2011). Homogeneous single-label biochemical Ras activation assay using time-resolved luminescence. ANAL CHEM, 83(24), 9230-3. https://doi.org/10.1021/ac202723h

Vancouver

Martikkala E, Veltel S, Kirjavainen J, Rozwandowicz-Jansen A, Lamminmäki U, Hänninen P et al. Homogeneous single-label biochemical Ras activation assay using time-resolved luminescence. ANAL CHEM. 2011 Dez 15;83(24):9230-3. https://doi.org/10.1021/ac202723h

Bibtex

@article{72291c0ced8743fc8ee19b14b44957be,

title = "Homogeneous single-label biochemical Ras activation assay using time-resolved luminescence",

abstract = "Mutations of the small GTP-binding protein Ras have been commonly found in tumors, and Ras oncogenes have been established to be involved in the early steps of cancerogenesis. The detection of Ras activity is critical in the determination of the cell signaling events controlling cell growth and differentiation. Therefore, development of improved methods for primary screening of novel potential drugs that target small GTPase or their regulators and their signaling pathways is important. Several assays have been developed for small GTPases studies, but all these methods have limitations for a high-throughput screening (HTS) use. Multiple steps including separation, use of radioactive labels or time-consuming immunoblotting, and a need of large quantities of purified proteins are decreasing the user-friendliness of these methods. Here, we have developed a homogeneous H-Ras activity assay based on a single-label utilizing the homogeneous quenching resonance energy transfer technique (QRET). In the QRET method, the binding of a terbium-labeled GTP (Tb-GTP) to small GTPase protein H-Ras protects the signal of the label from quenching, whereas the signal of the nonbound fraction of Tb-GTP is quenched by a soluble quencher. This enables a rapid determination of the changes in the activity status of Ras. The assay optimization showed that only 60 nM concentration of purified H-Ras protein was needed. The functionality of the assay was proved by detecting the effect of H-Ras guanine nucleotide exchange factor, Son of Sevenless. The signal-to-background ratio up to 7.7 was achieved with an average assay coefficient of variation of 9.1%. The use of a low concentration of purified protein is desirable and the signal-to-background ratio of 3.4 was achieved in the assay at a concentration of 60 nM for H-Ras and SOS proteins. The need of only one labeled molecule and the ability to decrease the quantities of purified proteins used in the experiments are valuable qualities in HTS showing the potential of the QRET method.",

keywords = "Energy Transfer, Guanine, Guanosine Triphosphate, High-Throughput Screening Assays, Luminescent Measurements, Terbium, ras Proteins",

author = "Eija Martikkala and Stefan Veltel and Jonna Kirjavainen and Anita Rozwandowicz-Jansen and Urpo Lamminm{\"a}ki and Pekka H{\"a}nninen and Harri H{\"a}rm{\"a}",

year = "2011",

month = dec,

day = "15",

doi = "10.1021/ac202723h",

language = "English",

volume = "83",

pages = "9230--3",

journal = "ANAL CHEM",

issn = "0003-2700",

publisher = "American Chemical Society",

number = "24",

}

RIS

TY - JOUR

T1 - Homogeneous single-label biochemical Ras activation assay using time-resolved luminescence

AU - Martikkala, Eija

AU - Veltel, Stefan

AU - Kirjavainen, Jonna

AU - Rozwandowicz-Jansen, Anita

AU - Lamminmäki, Urpo

AU - Hänninen, Pekka

AU - Härmä, Harri

PY - 2011/12/15

Y1 - 2011/12/15

N2 - Mutations of the small GTP-binding protein Ras have been commonly found in tumors, and Ras oncogenes have been established to be involved in the early steps of cancerogenesis. The detection of Ras activity is critical in the determination of the cell signaling events controlling cell growth and differentiation. Therefore, development of improved methods for primary screening of novel potential drugs that target small GTPase or their regulators and their signaling pathways is important. Several assays have been developed for small GTPases studies, but all these methods have limitations for a high-throughput screening (HTS) use. Multiple steps including separation, use of radioactive labels or time-consuming immunoblotting, and a need of large quantities of purified proteins are decreasing the user-friendliness of these methods. Here, we have developed a homogeneous H-Ras activity assay based on a single-label utilizing the homogeneous quenching resonance energy transfer technique (QRET). In the QRET method, the binding of a terbium-labeled GTP (Tb-GTP) to small GTPase protein H-Ras protects the signal of the label from quenching, whereas the signal of the nonbound fraction of Tb-GTP is quenched by a soluble quencher. This enables a rapid determination of the changes in the activity status of Ras. The assay optimization showed that only 60 nM concentration of purified H-Ras protein was needed. The functionality of the assay was proved by detecting the effect of H-Ras guanine nucleotide exchange factor, Son of Sevenless. The signal-to-background ratio up to 7.7 was achieved with an average assay coefficient of variation of 9.1%. The use of a low concentration of purified protein is desirable and the signal-to-background ratio of 3.4 was achieved in the assay at a concentration of 60 nM for H-Ras and SOS proteins. The need of only one labeled molecule and the ability to decrease the quantities of purified proteins used in the experiments are valuable qualities in HTS showing the potential of the QRET method.

AB - Mutations of the small GTP-binding protein Ras have been commonly found in tumors, and Ras oncogenes have been established to be involved in the early steps of cancerogenesis. The detection of Ras activity is critical in the determination of the cell signaling events controlling cell growth and differentiation. Therefore, development of improved methods for primary screening of novel potential drugs that target small GTPase or their regulators and their signaling pathways is important. Several assays have been developed for small GTPases studies, but all these methods have limitations for a high-throughput screening (HTS) use. Multiple steps including separation, use of radioactive labels or time-consuming immunoblotting, and a need of large quantities of purified proteins are decreasing the user-friendliness of these methods. Here, we have developed a homogeneous H-Ras activity assay based on a single-label utilizing the homogeneous quenching resonance energy transfer technique (QRET). In the QRET method, the binding of a terbium-labeled GTP (Tb-GTP) to small GTPase protein H-Ras protects the signal of the label from quenching, whereas the signal of the nonbound fraction of Tb-GTP is quenched by a soluble quencher. This enables a rapid determination of the changes in the activity status of Ras. The assay optimization showed that only 60 nM concentration of purified H-Ras protein was needed. The functionality of the assay was proved by detecting the effect of H-Ras guanine nucleotide exchange factor, Son of Sevenless. The signal-to-background ratio up to 7.7 was achieved with an average assay coefficient of variation of 9.1%. The use of a low concentration of purified protein is desirable and the signal-to-background ratio of 3.4 was achieved in the assay at a concentration of 60 nM for H-Ras and SOS proteins. The need of only one labeled molecule and the ability to decrease the quantities of purified proteins used in the experiments are valuable qualities in HTS showing the potential of the QRET method.

KW - Energy Transfer

KW - Guanine

KW - Guanosine Triphosphate

KW - High-Throughput Screening Assays

KW - Luminescent Measurements

KW - Terbium

KW - ras Proteins

U2 - 10.1021/ac202723h

DO - 10.1021/ac202723h

M3 - SCORING: Journal article

C2 - 22098697

VL - 83

SP - 9230

EP - 9233

JO - ANAL CHEM

JF - ANAL CHEM

SN - 0003-2700

IS - 24

ER -