| 励起波長 |
429
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| 蛍光波長 |
466
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| 検出系 |
発光
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| 構成内容 |
Component A: Luciferase Substrate (Light-sensitive) 1 vial
Component B: Reaction Buffer 1 vial
Component C: Assay Buffer 1 vials
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| 参考文献 |
Chung E, Yamashita H, Au P, Tannous BA, Fukumura D, Jain RK.. (2009). Secreted Gaussia luciferase as a biomarker for monitoring tumor progression and treatment response of systemic metastases. PLoS One, 4, e8316.
Enjalbert B, Rachini A, Vediyappan G, Pietrella D, Spaccapelo R, Vecchiarelli A, Brown AJ, d'Enfert C.. (2009). A multifunctional, synthetic Gaussia princeps luciferase reporter for live imaging of Candida albicans infections. Infect Immun, 77, 4847.
Kim SB, Sato M, Tao H.. (2009). Split Gaussia luciferase-based bioluminescence template for tracing protein dynamics in living cells. Anal Chem, 81, 67.
Maguire CA, Deliolanis NC, Pike L, Niers JM, Tjon-Kon-Fat LA, Sena-Esteves M, Tannous BA.. (2009). Gaussia luciferase variant for high-throughput functional screening applications. Anal Chem, 81, 7102.
Patel KG, Ng PP, Kuo CC, Levy S, Levy R, Swartz JR.. (2009). Cell-free production of Gaussia princeps luciferase--antibody fragment bioconjugates for ex vivo detection of tumor cells. Biochem Biophys Res Commun, 390, 971.
Santos EB, Yeh R, Lee J, Nikhamin Y, Punzalan B, La Perle K, Larson SM, Sadelain M, Brentjens RJ.. (2009). Sensitive in vivo imaging of T cells using a membrane-bound Gaussia princeps luciferase. Nat Med, 15, 338.
Tannous BA.. (2009). Gaussia luciferase reporter assay for monitoring biological processes in culture and in vivo. Nat Protoc, 4, 582.
Goerke AR, Loening AM, Gambhir SS, Swartz JR.. (2008). Cell-free metabolic engineering promotes high-level production of bioactive Gaussia princeps luciferase. Metab Eng, 10, 187.
Inouye S, Sahara Y.. (2008). Identification of two catalytic domains in a luciferase secreted by the copepod Gaussia princeps. Biochem Biophys Res Commun, 365, 96.
Ruecker O, Zillner K, Groebner-Ferreira R, Heitzer M.. (2008). Gaussia-luciferase as a sensitive reporter gene for monitoring promoter activity in the nucleus of the green alga Chlamydomonas reinhardtii. Mol Genet Genomics, 280, 153.
Shao N, Bock R.. (2008). A codon-optimized luciferase from Gaussia princeps facilitates the in vivo monitoring of gene expression in the model alga Chlamydomonas reinhardtii. Curr Genet, 53, 381.
Knappskog S, Ravneberg H, Gjerdrum C, Trosse C, Stern B, Pryme IF.. (2007). The level of synthesis and secretion of Gaussia princeps luciferase in transfected CHO cells is heavily dependent on the choice of signal peptide. J Biotechnol, 128, 705.
Suzuki T, Usuda S, Ichinose H, Inouye S.. (2007). Real-time bioluminescence imaging of a protein secretory pathway in living mammalian cells using Gaussia luciferase. FEBS Lett, 581, 4551.
Trosse C, Ravneberg H, Stern B, Pryme IF.. (2007). Vectors encoding seven oikosin qsignal peptides transfected into CHO cells differ greatly in mediating Gaussia luciferase and human endostatin production although mRNA levels are largely unaffected. Gene Regul Syst Bio, 1, 303.
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| 使用文献 |
Wei Zhengxi, Sakamuru Srilatha, Zhang Li, Zhao Jinghua, Huang Ruili, Kleinstreuer Nicole C, Chen Yanling, Shu Yan, Knudsen Thomas B, Xia Menghang. (2019). Identification and profiling of environmental chemicals that inhibit the TGFβ/SMAD signaling pathway. Chemical research in toxicology.
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| メーカー |
品番 |
包装 |
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ABD
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12530
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1 PLATE
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※表示価格について
| 当社在庫 |
なし
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| 納期目安 |
1週間程度
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| 保存温度 |
-20℃
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