标签归档:ssl

ReadiCleave XFD532 SSL-NHS 酯 货号7051-AAT Bioquest荧光染料

发表于

上海金畔生物科技有限公司代理AAT Bioquest荧光染料全线产品,欢迎访问AAT Bioquest荧光染料官网了解更多信息。

ReadiCleave XFD532 SSL-NHS 酯

ReadiCleave XFD532 SSL-NHS 酯

货号 7051 存储条件 在零下15度以下保存, 避免光照
规格 1 mg 价格 4140
Ex (nm) 534 Em (nm) 553
分子量 988.21 溶剂 DMSO
产品详细介绍

简要概述

产品基本信息

货号:7051

产品名称:ReadiCleave XFD532 SSL-NHS 酯

规格:1mg

储存条件:-15℃避光防潮

保质期:12个月

 

产品物理化学光谱特性

分子量:988.21

外观:固体

溶剂:DMSO

激发波长(nm):534

发射波长(nm):553

 

产品介绍

基于荧光的方法在灵敏度和方便性方面对生物检测具有许多优势。许多生物分子可以很容易地用荧光标签标记,用于荧光成像和流式细胞术分析。然而,大多数现有的荧光标签用于永久标记生物目标,添加的荧光标签不能从这些生物目标上切割下来,以进行进一步的下游分析,例如质谱分析或其他检测模式。 AAT Bioquest 的 ReadiCleave 探针使荧光标签能够与生物靶标结合,在需要时可以从该靶标上去除添加的荧光标签。 ReadiCleave XFD 532 琥珀酰亚胺酯包含一个 S-S 探针,可以用 TCEP 或 DTT 切割以从目标分子中去除 Alexa Fluor 532 荧光团。裂解可通过加入 DTT 或 TCEP 溶液并从室温至 65°C 孵育 1-10 分钟来进行。金畔生物是AAT Bioquest的中国代理商,为您提供最优质的ReadiCleave XFD532 SSL-NHS 酯。

点击查看光谱

 

参考文献

Encapsulation of Plant Viral Particles in Calcite Crystals.
Authors: Al-Handawi, Marieh B and Commins, Patrick and Shukla, Sourabh and Didier, Pascal and Tanaka, Masahiko and Raj, Gijo and Veliz, Frank A and Pasricha, Renu and Steinmetz, Nicole F and Naumov, Panče
Journal: Advanced biosystems (2018): e1700176
Multilayer Hydrogel Capsules of Interpenetrated Network for Encapsulation of Small Molecules.
Authors: Kozlovskaya, Veronika and Chen, Jun and Zavgorodnya, Oleksandra and Hasan, Mohammad B and Kharlampieva, Eugenia
Journal: Langmuir : the ACS journal of surfaces and colloids (2018): 11832-11842
Light emitting diode, photodiode-based fluorescence detection system for DNA analysis with microchip electrophoresis.
Authors: Hall, Gordon H and Glerum, D Moira and Backhouse, Christopher J
Journal: Electrophoresis (2016): 406-13
Assessing the efficacy of co-inoculation of wheat seedlings with the associative bacteria Paenibacillus polymyxa 1465 and Azospirillum brasilense Sp245.
Authors: Yegorenkova, Irina V and Tregubova, Kristina V and Burygin, Gennady L and Matora, Larisa Y and Ignatov, Vladimir V
Journal: Canadian journal of microbiology (2016): 279-85
Engineered drug-protein nanoparticle complexes for folate receptor targeting.
Authors: Ren, Dongmei and Kratz, Felix and Wang, Szu-Wen
Journal: Biochemical engineering journal (2014): 33-41
Fluorescence correlation spectroscopy with a doughnut-shaped excitation profile as a characterization tool in STED microscopy.
Authors: Tressler, Charmaine and Stolle, Michael and Fradin, Cécile
Journal: Optics express (2014): 31154-66
Calcium-regulated conformational change in the C-terminal end segment of troponin I and its binding to tropomyosin.
Authors: Zhang, Zhiling and Akhter, Shirin and Mottl, Steven and Jin, Jian-Ping
Journal: The FEBS journal (2011): 3348-59
Protein nanocapsules containing doxorubicin as a pH-responsive delivery system.
Authors: Ren, Dongmei and Kratz, Felix and Wang, Szu-Wen
Journal: Small (Weinheim an der Bergstrasse, Germany) (2011): 1051-60
Single-molecule immunosorbent assay as a tool for human immunodeficiency virus-1 antigen detection.
Authors: Li, Jiangwei and Xie, Wenjun and Fang, Ning and Yeung, Edward S
Journal: Analytical and bioanalytical chemistry (2009): 489-97
Real-time single-molecule kinetics of trypsin proteolysis.
Authors: Li, Jiangwei and Yeung, Edward S
Journal: Analytical chemistry (2008): 8509-13

说明书
ReadiCleave XFD532 SSL-NHS 酯.pdf

ReadiCleave SSL 生物素 NHS 酯 CAS 122266-55-1 货号3030-AAT Bioquest荧光染料

发表于

上海金畔生物科技有限公司代理AAT Bioquest荧光染料全线产品,欢迎访问AAT Bioquest荧光染料官网了解更多信息。

ReadiCleave SSL 生物素 NHS 酯 CAS 122266-55-1

ReadiCleave SSL 生物素 NHS 酯 CAS 122266-55-1

ReadiCleave SSL 生物素 NHS 酯 CAS 122266-55-1 货号3030 货号 3030 存储条件 在零下15度以下保存, 避免光照
规格 5 mg 价格 3612
Ex (nm) Em (nm)
分子量 504.64 溶剂 DMSO
产品详细介绍

简要概述

产品基本信息

货号:3030

产品名称:ReadiCleave SSL 生物素 NHS 酯

CAS:122266-55-1

规格:5mg

储存条件:保存在冰箱-15℃干燥

保质期:24个月

 

产品物理化学光谱特性

分子量:504.64

溶剂:DMSO

 

产品介绍

ReadiCleave SSL 生物素 NHS 酯是一种可裂解的生物素化试剂,可以有效地将生物素部分引入含胺的生物分子中。 这种生物素化合物包含一个可切割的接头,可在需要时使用还原剂(如 DTT 或 TCEP)切割该接头以去除生物素标记。

 

参考文献

4-Thiouridine-Enhanced Peroxidase-Generated Biotinylation of RNA.
Authors: Huang, Jinguo and Zhao, Ruiqi and Qin, Shanshan and Yang, Shixi and Li, Wei and Mo, Jing and Wang, Fang and Du, Yuhao and Weng, Xiaocheng and Zhou, Xiang
Journal: Chembiochem : a European journal of chemical biology (2021): 212-216

A Toolbox for Efficient Proximity-Dependent Biotinylation in Zebrafish Embryos.
Authors: Rosenthal, Shimon M and Misra, Tvisha and Abdouni, Hala and Branon, Tess C and Ting, Alice Y and Scott, Ian C and Gingras, Anne-Claude
Journal: Molecular & cellular proteomics : MCP (2021): 100128

A proximity-dependent biotinylation map of a human cell.
Authors: Go, Christopher D and Knight, James D R and Rajasekharan, Archita and Rathod, Bhavisha and Hesketh, Geoffrey G and Abe, Kento T and Youn, Ji-Young and Samavarchi-Tehrani, Payman and Zhang, Hui and Zhu, Lucie Y and Popiel, Evelyn and Lambert, Jean-Philippe and Coyaud, Étienne and Cheung, Sally W T and Rajendran, Dushyandi and Wong, Cassandra J and Antonicka, Hana and Pelletier, Laurence and Palazzo, Alexander F and Shoubridge, Eric A and Raught, Brian and Gingras, Anne-Claude
Journal: Nature (2021): 120-124

Autophagosome content profiling using proximity biotinylation proteomics coupled to protease digestion in mammalian cells.
Authors: Zellner, Susanne and Nalbach, Karsten and Behrends, Christian
Journal: STAR protocols (2021): 100506

Coupling of Cell Surface Biotinylation and SILAC-Based Quantitative Proteomics Identified Myoferlin as a Potential Therapeutic Target for Nasopharyngeal Carcinoma Metastasis.
Authors: Li, Maoyu and Peng, Fang and Wang, Guoqiang and Liang, Xujun and Shao, Meiying and Chen, Zhuchu and Chen, Yongheng
Journal: Frontiers in cell and developmental biology (2021): 621810

Directly Quantifiable Biotinylation Using a Water-Soluble Isatoic Anhydride Platform.
Authors: Fessler, Adam B and Fowler, Anthony J and Ogle, Craig A
Journal: Bioconjugate chemistry (2021): 904-908

In Situ Membrane Biotinylation Enables the Direct Labeling and Accurate Kinetic Analysis of Small Extracellular Vesicles in Circulation.
Authors: Yu, Zi-Li and Zhao, Yi and Miao, Fan and Wu, Min and Xia, Hou-Fu and Chen, Zhuo-Kun and Liu, Hai-Ming and Zhao, Yi-Fang and Chen, Gang
Journal: Analytical chemistry (2021): 10862-10870

In vivo discovery of RNA proximal proteins via proximity-dependent biotinylation.
Authors: Lin, Xianzhi and Fonseca, Marcos A S and Breunig, Joshua J and Corona, Rosario I and Lawrenson, Kate
Journal: RNA biology (2021): 1-15

Kinase-Catalyzed Biotinylation to Map Cell Signaling Pathways: Application to Epidermal Growth Factor Signaling.
Authors: Ramanayake-Mudiyanselage, Vindya and Embogama, D Maheeka and Pflum, Mary Kay H
Journal: Journal of proteome research (2021)

Off-the-shelf proximity biotinylation for interaction proteomics.
Authors: Santos-Barriopedro, Irene and van Mierlo, Guido and Vermeulen, Michiel
Journal: Nature communications (2021): 5015

说明书
ReadiCleave SSL 生物素 NHS 酯 CAS 122266-55-1.pdf

ReadiCleave ROXtra SSL-NHS 酯 货号7052-AAT Bioquest荧光染料

发表于

上海金畔生物科技有限公司代理AAT Bioquest荧光染料全线产品,欢迎访问AAT Bioquest荧光染料官网了解更多信息。

ReadiCleave ROXtra SSL-NHS 酯

ReadiCleave ROXtra SSL-NHS 酯

货号 7052 存储条件 在零下15度以下保存, 避免光照
规格 1 mg 价格 4128
Ex (nm) Em (nm)
分子量 1193.49 溶剂 DMSO
产品详细介绍

简要概述

产品基本信息

货号:7052

产品名称:ReadiCleave ROXtra SSL-NHS 酯

规格:1mg

储存条件:-15℃避光防潮

保质期:12个月

 

产品物理化学光谱特性

分子量:1193.49

外观:固体

溶剂:DMSO

 

产品介绍

基于荧光的方法在灵敏度和方便性方面对生物检测具有许多优势。许多生物分子可以很容易地用荧光标签标记,用于荧光成像和流式细胞术分析。然而,大多数现有的荧光标签用于永久标记生物目标,添加的荧光标签不能从这些生物目标上切割下来,以进行进一步的下游分析,例如质谱分析或其他检测模式。 AAT Bioquest 的 ReadiCleave 接头可将荧光标签与生物靶标结合,在需要时可将添加的荧光标签从该靶标上去除。 ReadiCleave ROXtra 琥珀酰亚胺酯包含一个 S-S 接头,可以用 TCEP 或 DTT 切割,以从目标分子中去除 ROXtra 荧光团。 ROXtra 具有与 ROX 几乎相同的光谱,具有更高的荧光量子产率和更高的稳定性。裂解可通过加入 DTT 或 TCEP 溶液并从室温至 65°C 孵育 1-10 分钟来进行。金畔生物是AAT Bioquest的中国代理商,为您提供最优质的ReadiCleave XFD488 AML-NHS 酯。 

 

参考文献

Developmental Validation of a Rapidly Mutating Y-STR Panel Labeled by Six Fluoresceins for Forensic Research.
Authors: Jin, Xiaoye and Zhang, Hongling and Ren, Zheng and Wang, Qiyan and Liu, Yubo and Ji, Jingyan and Zhang, Han and Yang, Meiqing and Zhou, Yongsong and Huang, Jiang
Journal: Frontiers in genetics (2022): 777440
An aptasensor for the detection of Pb2+ based on photoinduced electron transfer between a G-quadruplex-hemin complex and a fluorophore.
Authors: Wang, Ya and Ye, Tai and Yuan, Min and Cao, Hui and Yu, Jingsong and Yin, Fengqin and Wu, Xiuxiu and Hao, Liling and Xu, Fei
Journal: Luminescence : the journal of biological and chemical luminescence (2022): 14-20
SARS-CoV-2 Detection using Real Time PCR by a Commercial Diagnostic Kit.
Authors: Roy, S and Paul, S K and Barman, T K and Ahmed, S and Haque, N and Mazid, R and Debnath, P and Roy, S A
Journal: Mymensingh medical journal : MMJ (2020): 596-600
Bimetallic organic framework-based aptamer sensors: a new platform for fluorescence detection of chloramphenicol.
Authors: Lu, Zijing and Jiang, Yansong and Wang, Peng and Xiong, Weiwei and Qi, Baoping and Zhang, Yingkun and Xiang, Dongshan and Zhai, Kun
Journal: Analytical and bioanalytical chemistry (2020): 5273-5281
RT-qPCR Detection of Low-Copy HIV RNA with Yin-Yang Probes.
Authors: Kireev, Dmitry E and Farzan, Valentina M and Shipulin, German A and Korshun, Vladimir A and Zatsepin, Timofei S
Journal: Methods in molecular biology (Clifton, N.J.) (2020): 27-35
In Situ Imaging of Pathological Collagen by Electrostatic Repulsion-Destabilized Peptide Probes.
Authors: Cai, Xiangdong and Wei, Wenyu and Liu, Zhao and Bai, Zhongtian and Lei, Junqiang and Xiao, Jianxi
Journal: ACS applied bio materials (2020): 7492-7499
Developmental validation of the Microreader™ 20A ID system.
Authors: Qu, Shengqiu and Li, Hang and Li, Yifan and Lv, Meili and Yang, Fan and Zhu, Jing and Yu, Zailiang and Liu, Yuqing and Chen, Chuguang and Wang, Yinji and Li, Zhuo and Zhang, Lin and Liang, Weibo
Journal: Electrophoresis (2019): 3099-3107
Real-Time Reverse Transcription PCR as a Tool to Study Virulence Gene Regulation in Bacterial Pathogens.
Authors: Aviv, Gili and Gal-Mor, Ohad
Journal: Methods in molecular biology (Clifton, N.J.) (2018): 23-32
Visualizing Oxidative Cellular Stress Induced by Nanoparticles in the Subcytotoxic Range Using Fluorescence Lifetime Imaging.
Authors: Balke, Jens and Volz, Pierre and Neumann, Falko and Brodwolf, Robert and Wolf, Alexander and Pischon, Hannah and Radbruch, Moritz and Mundhenk, Lars and Gruber, Achim D and Ma, Nan and Alexiev, Ulrike
Journal: Small (Weinheim an der Bergstrasse, Germany) (2018): e1800310
Developmental validation of a 6-dye STR kit with 27 loci.
Authors: Li, Shuanglin and Chen, Ling and Wang, Yanfang and Xu, Quyi and Liu, Hong and Li, Yue and Liu, Chao
Journal: International journal of legal medicine (2018): 335-342

说明书
ReadiCleave ROXtra SSL-NHS 酯.pdf

ReadiCleave Cy5-SSL-NHS 酯 货号7050-AAT Bioquest荧光染料

发表于

上海金畔生物科技有限公司代理AAT Bioquest荧光染料全线产品,欢迎访问AAT Bioquest荧光染料官网了解更多信息。

ReadiCleave Cy5-SSL-NHS 酯

ReadiCleave Cy5-SSL-NHS 酯

货号 7050 存储条件 在零下15度以下保存, 避免光照
规格 1 mg 价格 4740
Ex (nm) 651 Em (nm) 670
分子量 1018.33 溶剂 DMSO
产品详细介绍

简要概述

产品基本信息

货号:7050

产品名称:ReadiCleave  Cy5-SSL-NHS 酯

规格:1mg

储存条件:-15℃避光防潮

保质期:12个月

 

产品物理化学光谱特性

分子量:1018.33

外观:固体

溶剂:DMSO

激发波长(nm):651

发射波长(nm):670

 

产品介绍

基于荧光的方法在灵敏度和方便性方面对生物检测具有许多优势。许多生物分子可以很容易地用荧光标签标记,用于荧光成像和流式细胞术分析。然而,大多数现有的荧光标签用于永久标记生物目标,添加的荧光标签不能从这些生物目标上切割下来,以进行进一步的下游分析,例如质谱分析或其他检测模式。 AAT Bioquest 的 ReadiCleave 探针使荧光标签能够与生物靶标结合,在需要时可以从该靶标上去除添加的荧光标签。 ReadiCleave Cy5-SSL-NHS 酯包含一个 S-S 探针,可以用 TCEP 或 DTT 切割以从目标分子中去除 Cy5 荧光团。裂解可通过加入 DTT 或 TCEP 溶液并从室温至 65°C 孵育 1-10 分钟来进行。金畔生物是AAT Bioquest的中国代理商,为您提供最优质的ReadiCleave  Cy5-SSL-NHS 酯。 

点击查看光谱

 

参考文献

Repurposing an atherosclerosis targeting peptide for tumor imaging.
Authors: Kovacs, Luciana and Davis, Ryan A and Ganguly, Tanushree and Chammas, Roger and Sutcliffe, Julie L
Journal: Biomedicine & pharmacotherapy = Biomedecine & pharmacotherapie (2022): 112469
Small molecule based EGFR targeting of biodegradable nanoparticles containing temozolomide and Cy5 dye for greatly enhanced image-guided glioblastoma therapy.
Authors: Schmitt, Rebecca R and Mahajan, Supriya D and Pliss, Artem and Prasad, Paras N
Journal: Nanomedicine : nanotechnology, biology, and medicine (2022): 102513
Nucleic Acid-Gated Covalent Organic Frameworks for Cancer-Specific Imaging and Drug Release.
Authors: Gao, Peng and Shen, Xiaoying and Liu, Xiaohan and Chen, Yuanyuan and Pan, Wei and Li, Na and Tang, Bo
Journal: Analytical chemistry (2021): 11751-11757
Near-Infrared Bioluminescence Imaging of Animal Cells with Through-Bond Energy Transfer Cassette.
Authors: Abe, Masahiro and Nishihara, Ryo and Kim, Sung-Bae and Suzuki, Koji
Journal: Methods in molecular biology (Clifton, N.J.) (2021): 103-110
SARS-CoV-2 Detection using Real Time PCR by a Commercial Diagnostic Kit.
Authors: Roy, S and Paul, S K and Barman, T K and Ahmed, S and Haque, N and Mazid, R and Debnath, P and Roy, S A
Journal: Mymensingh medical journal : MMJ (2020): 596-600
Optimizing the Biodistribution of Radiofluorinated Barbiturate Tracers for Matrix Metalloproteinase Imaging by Introduction of Fluorescent Dyes as Pharmacokinetic Modulators.
Authors: Schwegmann, Katrin and Hohn, Michael and Hermann, Sven and Schäfers, Michael and Riemann, Burkhard and Haufe, Günter and Wagner, Stefan and Breyholz, Hans-Jörg
Journal: Bioconjugate chemistry (2020): 1117-1132
Targeting and imaging colorectal cancer by activatable cell-penetrating peptides.
Authors: Zeng, Ziwei and Chen, Junji and Luo, Shuangling and Dong, Jianghui and Hu, Huanxin and Yang, Zihuan and Feng, Xingzhi and Liu, Yiting and Liu, Binbin and Pan, Guangyu and Zhou, Fiona H and Wang, Liping and Kang, Liang
Journal: American journal of translational research (2020): 1754-1766
Simultaneous and ultrasensitive detection of multiple microRNAs by single-molecule fluorescence imaging.
Authors: Zhang, Hongding and Huang, Xuedong and Liu, Jianwei and Liu, Baohong
Journal: Chemical science (2020): 3812-3819
A split aptamer sensing platform for highly sensitive detection of theophylline based on dual-color fluorescence colocalization and single molecule photobleaching.
Authors: Liu, Shi Gang and Zhang, Dong and He, Yu and Gao, Wenli and Shi, Xingbo
Journal: Biosensors & bioelectronics (2020): 112461
Hybrid Tracers Based on Cyanine Backbones Targeting Prostate-Specific Membrane Antigen: Tuning Pharmacokinetic Properties and Exploring Dye-Protein Interaction.
Authors: Hensbergen, Albertus W and Buckle, Tessa and van Willigen, Danny M and Schottelius, Margret and Welling, Mick M and van der Wijk, Felicia A and Maurer, Tobias and van der Poel, Henk G and van der Pluijm, Gabri and van Weerden, Wytske M and Wester, Hans-Jürgen and van Leeuwen, Fijs W B
Journal: Journal of nuclear medicine : official publication, Society of Nuclear Medicine (2020): 234-241

说明书
ReadiCleave Cy5-SSL-NHS 酯.pdf

ReadiCleave ROXtra SSL-NHS 酯 货号7052-AAT Bioquest荧光染料

发表于

上海金畔生物科技有限公司代理AAT Bioquest荧光染料全线产品,欢迎访问AAT Bioquest荧光染料官网了解更多信息。

ReadiCleave ROXtra SSL-NHS 酯

ReadiCleave ROXtra SSL-NHS 酯

货号 7052 存储条件 在零下15度以下保存, 避免光照
规格 1 mg 价格 4128
Ex (nm) Em (nm)
分子量 1193.49 溶剂 DMSO
产品详细介绍

简要概述

产品基本信息

货号:7052

产品名称:ReadiCleave ROXtra SSL-NHS 酯

规格:1mg

储存条件:-15℃避光防潮

保质期:12个月

 

产品物理化学光谱特性

分子量:1193.49

外观:固体

溶剂:DMSO

 

产品介绍

基于荧光的方法在灵敏度和方便性方面对生物检测具有许多优势。许多生物分子可以很容易地用荧光标签标记,用于荧光成像和流式细胞术分析。然而,大多数现有的荧光标签用于永久标记生物目标,添加的荧光标签不能从这些生物目标上切割下来,以进行进一步的下游分析,例如质谱分析或其他检测模式。 AAT Bioquest 的 ReadiCleave 接头可将荧光标签与生物靶标结合,在需要时可将添加的荧光标签从该靶标上去除。 ReadiCleave ROXtra 琥珀酰亚胺酯包含一个 S-S 接头,可以用 TCEP 或 DTT 切割,以从目标分子中去除 ROXtra 荧光团。 ROXtra 具有与 ROX 几乎相同的光谱,具有更高的荧光量子产率和更高的稳定性。裂解可通过加入 DTT 或 TCEP 溶液并从室温至 65°C 孵育 1-10 分钟来进行。金畔生物是AAT Bioquest的中国代理商,为您提供最优质的ReadiCleave XFD488 AML-NHS 酯。 

 

参考文献

Developmental Validation of a Rapidly Mutating Y-STR Panel Labeled by Six Fluoresceins for Forensic Research.
Authors: Jin, Xiaoye and Zhang, Hongling and Ren, Zheng and Wang, Qiyan and Liu, Yubo and Ji, Jingyan and Zhang, Han and Yang, Meiqing and Zhou, Yongsong and Huang, Jiang
Journal: Frontiers in genetics (2022): 777440
An aptasensor for the detection of Pb2+ based on photoinduced electron transfer between a G-quadruplex-hemin complex and a fluorophore.
Authors: Wang, Ya and Ye, Tai and Yuan, Min and Cao, Hui and Yu, Jingsong and Yin, Fengqin and Wu, Xiuxiu and Hao, Liling and Xu, Fei
Journal: Luminescence : the journal of biological and chemical luminescence (2022): 14-20
SARS-CoV-2 Detection using Real Time PCR by a Commercial Diagnostic Kit.
Authors: Roy, S and Paul, S K and Barman, T K and Ahmed, S and Haque, N and Mazid, R and Debnath, P and Roy, S A
Journal: Mymensingh medical journal : MMJ (2020): 596-600
Bimetallic organic framework-based aptamer sensors: a new platform for fluorescence detection of chloramphenicol.
Authors: Lu, Zijing and Jiang, Yansong and Wang, Peng and Xiong, Weiwei and Qi, Baoping and Zhang, Yingkun and Xiang, Dongshan and Zhai, Kun
Journal: Analytical and bioanalytical chemistry (2020): 5273-5281
RT-qPCR Detection of Low-Copy HIV RNA with Yin-Yang Probes.
Authors: Kireev, Dmitry E and Farzan, Valentina M and Shipulin, German A and Korshun, Vladimir A and Zatsepin, Timofei S
Journal: Methods in molecular biology (Clifton, N.J.) (2020): 27-35
In Situ Imaging of Pathological Collagen by Electrostatic Repulsion-Destabilized Peptide Probes.
Authors: Cai, Xiangdong and Wei, Wenyu and Liu, Zhao and Bai, Zhongtian and Lei, Junqiang and Xiao, Jianxi
Journal: ACS applied bio materials (2020): 7492-7499
Developmental validation of the Microreader™ 20A ID system.
Authors: Qu, Shengqiu and Li, Hang and Li, Yifan and Lv, Meili and Yang, Fan and Zhu, Jing and Yu, Zailiang and Liu, Yuqing and Chen, Chuguang and Wang, Yinji and Li, Zhuo and Zhang, Lin and Liang, Weibo
Journal: Electrophoresis (2019): 3099-3107
Real-Time Reverse Transcription PCR as a Tool to Study Virulence Gene Regulation in Bacterial Pathogens.
Authors: Aviv, Gili and Gal-Mor, Ohad
Journal: Methods in molecular biology (Clifton, N.J.) (2018): 23-32
Visualizing Oxidative Cellular Stress Induced by Nanoparticles in the Subcytotoxic Range Using Fluorescence Lifetime Imaging.
Authors: Balke, Jens and Volz, Pierre and Neumann, Falko and Brodwolf, Robert and Wolf, Alexander and Pischon, Hannah and Radbruch, Moritz and Mundhenk, Lars and Gruber, Achim D and Ma, Nan and Alexiev, Ulrike
Journal: Small (Weinheim an der Bergstrasse, Germany) (2018): e1800310
Developmental validation of a 6-dye STR kit with 27 loci.
Authors: Li, Shuanglin and Chen, Ling and Wang, Yanfang and Xu, Quyi and Liu, Hong and Li, Yue and Liu, Chao
Journal: International journal of legal medicine (2018): 335-342

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