QSY™ 7 Carboxylic Acid, Succinimidyl Ester

Citations & References (32)

Invitrogen™

QSY™ 7 Carboxylic Acid, Succinimidyl Ester

QSY-7スクシンイミジルエステルは、脂肪族アミンの修飾を介してペプチドおよびオリゴヌクレオチドFRETプローブを調製するための、非蛍光のアクセプター色素です。詳細を見る

製品番号（カタログ番号）	数量
Q10193 または、製品番号Q-10193	5 mg

製品番号（カタログ番号） Q10193

または、製品番号Q-10193

価格（JPY）

37,600

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Ends: 27-Mar-2026

62,700

割引額 25,100 (40%)

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QSY-7スクシンイミジルエステルは、脂肪族アミンの修飾を介してペプチドおよびオリゴヌクレオチドFRETプローブを調製するための、非蛍光のアクセプター色素です。

研究用にのみ使用できます。診断用には使用いただけません。

化学反応性アミン

標識または色素QSY™ 7

製品タイプスクシンイミジルエステル

数量5 mg

反応性部分活性エステル、スクシンイミジルエステル

出荷条件室温

標識タイプクエンチャー色素

製品ラインQSY

Unit SizeEach

組成および保存条件

フリーザー(-5∼-30度)に保存し、遮光してください。

引用および参考文献 (32)

引用および参考文献

Abstract

Identification and characterization of avian retroviruses in chicken embryo-derived yellow fever vaccines: investigation of transmission to vaccine recipients.

Authors:Hussain AI,Johnson JA,Da Silva Freire M,Heneine W

Journal:Journal of virology

PubMed ID:12502826

All currently licensed yellow fever (YF) vaccines are propagated in chicken embryos. Recent studies of chick cell-derived measles and mumps vaccines show evidence of two types of retrovirus particles, the endogenous avian retrovirus (EAV) and the endogenous avian leukosis virus (ALV-E), which originate from the chicken embryonic fibroblast substrates. In ... More

Genome-wide protective response used by group A Streptococcus to evade destruction by human polymorphonuclear leukocytes.

Authors:Voyich JM, Sturdevant DE, Braughton KR, Kobayashi SD, Lei B, Virtaneva K, Dorward DW, Musser JM, DeLeo FR

Journal:Proc Natl Acad Sci U S A

PubMed ID:12574517

Group A Streptococcus (GAS) evades polymorphonuclear leukocyte (PMN) phagocytosis and killing to cause human disease, including pharyngitis and necrotizing fasciitis (flesh-eating syndrome). We show that GAS genes differentially regulated during phagocytic interaction with human PMNs comprise a global pathogen-protective response to innate immunity. GAS prophage genes and genes involved in ... More

Group A Streptococcus gene expression in humans and cynomolgus macaques with acute pharyngitis.

Authors:Virtaneva K, Graham MR, Porcella SF, Hoe NP, Su H, Graviss EA, Gardner TJ, Allison JE, Lemon WJ, Bailey JR, Parnell MJ, Musser JM

Journal:Infect Immun

PubMed ID:12654842

The molecular mechanisms used by group A Streptococcus (GAS) to survive on the host mucosal surface and cause acute pharyngitis are poorly understood. To provide new information about GAS host-pathogen interactions, we used real-time reverse transcription-PCR (RT-PCR) to analyze transcripts of 17 GAS genes in throat swab specimens taken from ... More

Rapid diagnosis of Ebola hemorrhagic fever by reverse transcription-PCR in an outbreak setting and assessment of patient viral load as a predictor of outcome.

Authors:Towner JS, Rollin PE, Bausch DG, Sanchez A, Crary SM, Vincent M, Lee WF, Spiropoulou CF, Ksiazek TG, Lukwiya M, Kaducu F, Downing R, Nichol ST

Journal:J Virol

PubMed ID:15047846

The largest outbreak on record of Ebola hemorrhagic fever (EHF) occurred in Uganda from August 2000 to January 2001. The outbreak was centered in the Gulu district of northern Uganda, with secondary transmission to other districts. After the initial diagnosis of Sudan ebolavirus by the National Institute for Virology in ... More

The HtrA protease from Streptococcus pneumoniae digests both denatured proteins and the competence-stimulating peptide.

Authors:Cassone M, Gagne AL, Spruce LA, Seeholzer SH, Sebert ME,

Journal:J Biol Chem

PubMed ID:23012372

'The HtrA protease of Streptococcus pneumoniae functions both in a general stress response role and as an error sensor that specifically represses genetic competence when the overall level of biosynthetic errors in cellular proteins is low. However, the mechanism through which HtrA inhibits development of competence has been unknown. We ... More

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