Your search keyword '"Tian-Cai Liu"' showing total 3 results

1. Study on molecular interactions between proteins on live cell membranes using quantum dot-based fluorescence resonance energy transfer.

Author

Tian-Cai Liu, Hai-Li Zhang, Jian-Hao Wang, Hai-Qiao Wang, Zhi-Hong Zhang, Xiao-Feng Hua, Yuan-Cheng Cao, Qing-Ming Luo, and Yuan-Di Zhao

Subjects

*MONOCLONAL antibodies, *FLUORESCENCE spectroscopy, *QUANTUM dots, *CELLS, *MICE

Abstract

Mouse anti-human CD71 monoclonal antibody (anti-CD71) was conjugated with red quantum dots (QDs; 5.3 nm, emission wavelength λ em = 614 nm) and used to label HeLa cells successfully. Then green QD-labeled goat anti-mouse immunoglobulin G (IgG; the size of the green QDs was 2.2 nm; λ em = 544 nm) was added to bind the red-QD-conjugated anti-CD71 on the cell surface by immunoreactions. Such interaction between anti-CD71 and IgG lasted 4 min and was observed from the fluorescence spectra: the fluorescence intensity of the “red” peak at 614 nm increased by 32%; meanwhile that of the “green” one at 544 nm decreased by 55%. The ratio of the fluorescence intensities ( I 544 nm/ I 614 nm) decreased from 0.5 to 0.2. The fluorescence spectra as well as cell imaging showed that fluorescence resonance energy transfer took place between these two kinds of QDs on the HeLa cells through interactions between the primary antibody and the secondary antibody. [ABSTRACT FROM AUTHOR]

Published

2008

2. A Feasible and Quantitative Encoding Method for Microbeads with Multicolor Quantum Dots.

Author

Hai-Qiao Wang, Zhen-Li Huang, Tian-Cai Liu, Jian-Hao Wang, Yuan-Cheng Cao, Xiao-Feng Hua, Xiu-Qing Li, and Yuan-Di Zhao

Subjects

QUANTUM dots, IMMUNOGLOBULINS, ANALYTICAL chemistry, POLYSTYRENE

Abstract

Abstract??Multicolor encoded beads were achieved by incorporating two color core-shell quantum dots (QDs) (CdSe/ZnS) to commercial polystyrene (PS) beads. By controlling the concentration ratios of the two quantum dots (QDs) in doping solutions, a series of codes with different intensity ratios were obtained. Based on the multiple encoded carboxylic modified polystyrene beads, fluorescent dyes labeled antibodies were distinguished successfully on the beads? surface. It suggests that the encoded beads from this method have the practicability in biological applications and chemical analysis. [ABSTRACT FROM AUTHOR]

Published

2007

3. Characterization of the coupling of quantum dots and immunoglobulin antibodies.

Author

Xiao-Feng Hua, Tian-Cai Liu, Yuan-Cheng Cao, Bo Liu, Hai-Qiao Wang, Jian-Hao Wang, Zhen-Li Huang, and Yuan-Di Zhao

Subjects

*QUANTUM dots, *IMMUNOGLOBULINS, *CIRCULAR dichroism, *BIOLOGICAL reagents, *CENTRIFUGATION

Abstract

Water-soluble quantum dots (QDs) were used to label goat anti-human immunoglobulin antibodies (Abs), and the labeling process was characterized by column purification. The QDs obtained in organic solvent were modified with mercaptoacetic acid (MAA) and became water-soluble. These water-soluble QDs were linked to the antibodies using the coupling reagents ethyl-3-(dimethyl aminopropyl) carbodiimide (EDC) and N-hydroxysuccinimide (NHS). The linking process was shown to be effective by ultra-filter centrifugation and column purification. After comparing the quantities of Abs and water-soluble QDs involved in the linking reaction via column purification, it was found that a molar Abs:QD ratio of >1.2 resulted in most of the water-soluble QDs becoming covalently linked to the Abs. The circular dichroism (CD) spectra of Abs and QD–Ab conjugates were very similar to each other, indicating that the secondary structure of Abs remained largely intact after the conjugation. Finally, antigen (Ag)–antibody (Ab) recognition reactions perfomed on the surface of a glass slide showed that the conjugate retained the activity of Abs. This work lends support to the idea of linking biomolecules to QDs, and thus should aid the application of QDs to the life sciences. [Figure not available: see fulltext.] [ABSTRACT FROM AUTHOR]

Published

2006