细胞间自由和胶囊共轭氰基染料的交换。

Zhanna V Kozyreva, Polina A Demina, Olga I Gusliakova, Gleb B Sukhorukov, Olga A Sindeeva
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引用次数: 0

摘要

荧光染料(尤其是可光电转换的氰基染料)传统上被用作研究单细胞或细胞群相互作用和迁移的标记。然而,它们的应用也有一些缺点,如细胞毒性和共培养过程中细胞间的染料转移。后者会导致研究结果严重失真。与此同时,由于缺乏有价值的替代方法,这一严重问题被掩盖起来。在此,我们提出了低毒性的 3.5 号和 5.5 号氰基化合物封装形式,这种形式可实现细胞内摄取,便于单细胞标记和追踪,是现有染色法的有效替代品。只有 16.9% 的肌母细胞(C2C12)交换了封装染料,而 99.7% 的细胞交换了游离形式的相同染料。同时应用几种封装的氰基染料,再加上光电转换的可能性,可对单个细胞进行多色编码。对氰基染料进行封装可实现可靠的标记,并减少染料在细胞间的转移。
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Exchange of free and capsule conjugated cyanine dyes between cells.

Fluorescent dyes (especially photoconvertible cyanine dyes) are traditionally used as labels to study single-cell or cell-group interactions and migration. Nevertheless, their application has some disadvantages, such as cytotoxicity and dye transfer between cells during co-cultivation. The latter can lead to serious distortions in research results. At the same time, the lack of a worthy alternative explains the reasons for hushing up this serious problem. Here, we propose low-cytotoxicity encapsulated forms of cyanine 3.5 and cyanine 5.5, enabling intracellular uptake and facilitating single-cell labeling and tracking as an efficient alternative to existing staining. Only 16.9% of myoblasts (C2C12) exchanged encapsulated dyes compared with 99.7% of cells that exchanged the free form of the same dyes. Simultaneous application of several encapsulated cyanine dyes, combined with the possibility of photoconversion, provides multi-color coding of individual cells. Encapsulation of cyanine dyes allows reliable labeling and reduces the transfer of the dyes between cells.

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来源期刊
Journal of materials chemistry. B
Journal of materials chemistry. B 化学科学, 工程与材料, 生命科学, 分析化学, 高分子组装与超分子结构, 高分子科学, 免疫生物学, 免疫学, 生化分析及生物传感, 组织工程学, 生物力学与组织工程学, 资源循环科学, 冶金与矿业, 生物医用高分子材料, 有机高分子材料, 金属材料的制备科学与跨学科应用基础, 金属材料, 样品前处理方法与技术, 有机分子功能材料化学, 有机化学
CiteScore
12.00
自引率
0.00%
发文量
0
审稿时长
1 months
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