不同尺寸形貌抑冰微纳米材料对细胞冷冻保护性能的影响

Cryoprotective effects of deicing micro/nanomaterials with different sizes and shapes on cells

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摘要抑冰纳米材料被广泛研究以提高对细胞、组织或器官等的冷冻保存效率。不同组分、尺寸、形貌的抑冰纳米材料可有效抑制冰晶的形成和生长,从而减少对生物样品冻存的损伤。本研究通过水热法制备出不同尺寸的碳复合体微粒(carbon composite particles,CCPs)和特殊形貌的微纳米材料。结果显示随着碳复合体微粒粒径尺寸减小,细胞冻存保护效果增强。而相较于球形结构的碳复合体微粒,不对称纳米粒子(Janus nanoparticles)和纳米花(WSP nanoflower)材料对细胞冻存的保护作用明显增强。另外,将适当浓度微纳米抑冰材料与商品化冷冻保护剂联合使用,可进一步提高对细胞冷冻保护的效果。本文制备的微纳米防冻材料可有效提高细胞的冷冻保存效率,在生物医学研究和低温保存应用中具有巨大的潜力。 Extensive studies have been conducted on deicing nanomaterials to improve the cryoprotective effects on cells,tissues,and organs.The nanomaterials with different composition,sizes,and shapes can inhibit the formation and growth of ice crystals,thereby reducing the damage to the cryopreserved samples.In this study,the carbon composite particles(CCPs)with different sizes and shapes were prepared by the hydrothermal method.The results demonstrated that the cryoprotective effect of CCPs enhanced with the decrease in particle size.Compared with spherical CCPs,Janus nanoparticles and WSP nanoflower with special shapes demonstrated improved protective effects on cryopreserved cells.In addition,the combination of deicing micro/nanomaterials at appropriate concentrations with commercial cryoprotectants exerted improved cryoprotective effects on cells.The prepared deicing micro/nanomaterials can improve cell cryopreservation,demonstrating great application potential in biomedical research and cryopreservation.

作者许淼宋玉张静金秋赵叶瑜耿华曼翁晓刚刘忠华程金菊颜廷胜 XU Miao;SONG Yu;ZHANG Jingjinqiu;ZHAO Yeyu;GENG Huaman;WENG Xiaogang;LIU Zhonghua;CHENG Jinju;YAN Tingsheng(Key Laboratory of Animal Cellular and Genetic Engineering of Heilongjiang Province,Northeast Agricultural University,Harbin 150030,Heilongjiang,China;School of Life Science,Northeast Agricultural University,Harbin 150030,Heilongjiang,China;School of Food Science,Northeast Agricultural University,Harbin 150030,Heilongjiang,China)

机构地区东北农业大学黑龙江省动物细胞与遗传工程重点实验室东北农业大学生命科学学院东北农业大学食品科学学院

出处《生物工程学报》 CAS CSCD 北大核心 2024年第7期2294-2307,共14页 Chinese Journal of Biotechnology

基金科技创新2030-重大项目(2023ZD0407503) 黑龙江省优秀青年科学基金(YQ2023C020) 中国博士后科学基金(2023MD734140)。

关键词抑冰材料细胞冻存碳复合体微粒纳米花不对称纳米粒子 deicing materials cell cryopreservation carbon composite nanoparticles nanoflower Janus nanoparticle

分类号 TB383.1 [一般工业技术—材料科学与工程] Q2-33 [生物学—细胞生物学]

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参考文献3

1郑明心,谭臻至,袁金颖.光响应Janus粒子体系的构建与应用[J].化学进展,2022,34(11):2476-2488. 被引量：1
2郭颖,李午戊,刘洋.碳点的性质及其在化学发光分析中的研究进展[J].应用化学,2016,33(6):624-632. 被引量：4
3廖子萱,王宇辉,郑建萍.碳点基水相室温磷光复合材料研究进展[J].化学进展,2023,35(2):263-273. 被引量：2

二级参考文献67

1王莉,吕婷,阮枫萍,邓德刚,徐时清.水热法制备的荧光碳量子点[J].发光学报,2014,35(6):706-709. 被引量：31
2Xu X, Ray R, Gu Y, et al. Electrophoretic Analysis and Purification of Fluorescent Single-Walled Carbon Nanotube Fragments[J]. JAm Chem Soc,2004,126(40) :12736-12737.
3Sun Y P,Zhou B, Lin Y, et al. Quantum-Sized Carbon Dots for Bright and Colorful Photoluminescence [ J ]. J Am Chem Soc, 2006,128 ( 24 ) : 7756-7757.
4Pan D, Guo L, Zhang J,et al. Cutting sp2 Clusters in Graphene Sheets into Colloidal Graphene Quantum Dots with Strong Green Fluorescence [ J ]. J Mater Chem,2012,22 (8) :3314-3318.
5Sun D, Ban R, Zhang P H,et al. Hair Fiber as a Precursor for Synthesizing of" Sulfur- and Nitrogen-co-doped Carbon Dots with Tunable Luminescence Properties [ J ]. Carbon ,2013,64:424-434.
6Deng H, Ren Y, Shen W, et al. An Uhrasensitive Homogeneous Chemiluminescent Assay for MicroRNAs [ J ]. Chem Commun, 2013,49 ( 82 ) : 9401-9403.
7Li B, Zhang Z,Jin Y. Plant Tissue-based Chemiluminescence Flow Biosensor for Glycolic Acid [ J ]. Anal Chem,2001,73 (6) : 1203-1206.
8Li B, Deng Q, Guo L, et al. Secondary Chemil Reducing Agents [ J ]. Microchim Acta ,2008 ,162 ( 1 ) : 189-198.
9Jiang H, Ju H. Electrochemiluminescenc~ Quantum Dots Film/Peroxide System[J]. Emission of the Luminol-ferricyanide System Induced by Sensors for Scavengers of Hydroxyl Radical Based on Its Annihilation in CdSe Anal Chem ,2007,79( 17 ) :669045696.
10Wang Y, Lu J, Tang L, et al. Graphene Oxide Amplified Electrogenerated Chemiluminescence of Quantum Dots and Its Selective Sensing for Glutathione from Thiol-containing Compounds [ J ]. Anal Chem, 2009,81 ( 23 ) : 9710 -9715.

共引文献4

1李文武,赵维维,张素歌,肖向勤,曾文渊,贾欣,姚寒春.荧光碳量子点催化鲁米诺发光体系测定2-甲氧基雌二醇[J].郑州大学学报（医学版）,2017,52(4):419-423. 被引量：1
2于海萍,黄述朝,高吉刚,王晓艳.碳点荧光法测定羟基自由基和葡萄糖[J].广州化工,2018,46(13):70-72. 被引量：1
3董美含,李锋,徐永娟,董艳超,李旻濠,孔垂龙,陈薪阳,杨久堰,孙嘉毅.磷光碳点粉末的合成及其在抗背景干扰的潜指纹成像中的应用[J].无机化学学报,2023,39(8):1527-1535. 被引量：1
4闫立东,胡朝帅,程俊霞,朱亚明,赵雪飞.煤基碳量子点制备及对环境水中Cr(Ⅵ)的测定[J].发光学报,2023,44(12):2265-2276. 被引量：1

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4Peikun Li,Jiahui Jia,Zixin Geng,Saizhao Pang,Ruirui Wang,Muhammad Bilal,Hongjie Bian,Jiandong Cui,Shiru Jia.A dual enzyme-phosphate hybrid nanoflower for glutamate detection[J].Particuology,2023(12):63-70.
5Zhi Peng,Zemin Feng,Xuelian Zhou,Siwen Li,Xuejing Yin,Zekun Zhang,Ningning Zhao,Zhangxing He,Lei Dai,Ling Wang,Chao Lu.Polymer engineering for electrodes of aqueous zinc ion batteries[J].Journal of Energy Chemistry,2024,91(4):345-369. 被引量：1
6李敬武.浅析水利渠道工程的防渗技术与设计原则[J].中文科技期刊数据库（文摘版）工程技术,2024(4):0192-0195.
7陈亚晖.基于文化生态学理念的承德避暑山庄与周边遗产保护及传承研究[J].沈阳文旅,2024(7):82-84.
8Xiya Guan,Yu Sun,Simeng Zhao,Haibo Li,Suyuan Zeng,Qingxia Yao,Rui Li,Hongyan Chen,Konggang Qu.Selectively nucleotide-derived RuP on N,P-codoped carbon with engineered mesopores for energy-efficient hydrogen production assisted by hydrazine oxidation[J].SusMat,2024,4(1):166-177.
9Deqing He,Zihao Xie,Qian Yang,Wei Wang,Chao Su.Tungsten oxide/nitrogen-doped carbon nanotubes composite catalysts for enhanced redox kinetics in lithium-sulfur batteries[J].Chinese Journal of Chemical Engineering,2024,67(3):58-67.

生物工程学报

2024年第7期

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不同尺寸形貌抑冰微纳米材料对细胞冷冻保护性能的影响

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