荧光石墨烯量子点制备及其在细胞成像中的应用

利用电化学方法在碱性条件下电解石墨棒, 通过常温下水合肼还原, 得到5～10 nm的荧光石墨烯量子点(Graphene Quantum Dots, GQDs). 通过透射电子显微镜(TEM)、原子力显微镜(AFM)对所制备的GQDs进行形貌表征, GQDs的粒子大小均一, 为单层石墨烯. 通过傅里叶变换红外光谱(FTIR)、荧光光谱(PL)、紫外可见吸收光谱(UV-vis)、X 射线衍射光谱(XRD)对所制备的GQDs进行性质测定, 发现GQDs可以发出黄色荧光, 量子产率为14%, 毒性低、具有良好的水溶性、荧光稳定性和生物兼容性, 可顺利进入细胞, 在肿瘤细胞的成像研究方面具有广泛的应用前景.     

基于拟靶向液相色谱-质谱联用的胃癌患者血清代谢组分析

胃癌是一种高发的恶性肿瘤,是癌症相关死亡的第二大病因。早期筛查是提高患者生存率的有效手段,但目前临床上尚缺乏实现胃癌无创筛检的可靠标志物。本研究采用了基于液相色谱-质谱联用的拟靶向代谢组学方法分析了20例胃癌患者及40例正常人血清代谢组,以期发现新的潜在代谢标志物。代谢组数据的主成分分析和偏最小二乘法数据分析结果显示,胃癌患者与健康人群的血清代谢组存在明显的差异,结合非参数检验进一步筛选并定性出57个差异代谢物。其中二氢胆固醇经验证组样本验证,具有成为胃癌代谢标志物的潜力。本研究在发现胃癌的潜在代谢标志物的同时,也为胃癌患者代谢分型提供了重要的科学依据。     

Strategy for structural elucidation of drugs and drug metabolites using (MS)n fragmentation in an electrospray ion trap

Triple-stage quadrupole (TSQ) electrospray ionization (ESI) tandem mass spectrometry (MS/MS) and ion trap ESI-MS/MS can be used to cleave protonated molecules to produce carbocations and neutral molecules in the positive ion mode. Dissociation products which correspond to protonated forms of neutral fragment molecules can also be trapped and detected. These protonated molecules in turn can cleave via carbocation cleavage, ipso cleavage, onium cleavage or McLafferty or related rearrangements. One can elucidate the structures of metabolites from the differences in m/z ratios of the fragments arising from the original drug compound and its metabolite. This strategy for structural elucidation is further facilitated by estimates of the reactivity of drugs with oxygen diradicals involved in cytochrome P-450 cycles.     

吉西他滨类似物的设计、合成及体外抗肿瘤活性

吉西他滨是临床一线治疗恶性肿瘤的药物,但其4-位氨基(N4)易与脱氧胞苷脱氨酶(CDA)作用而失活,导致代谢稳定性差,严重影响了临床治疗效果。以吉西他滨为起始原料,经3步反应合成了N4保护的脂溶性吉西他滨衍生物(3a和3b),其结构经1H NMR,13C NMR和HR-MS(ESI)表征。体外活性测试结果显示:化合物3a对多种肿瘤细胞的抗增殖作用均强于临床药物吉西他滨(P<0.05)。酶稳定性实验结果表明:3a几乎不受CDA影响,代谢稳定性显著高于原药吉西他滨。     

The glucocorticoid derivative with the phthalimide group cationic nanocrystal for ophthalmic application: a design space development approach

The glucocorticoid derivative of budesonide with a phthalimide group is a drug candidate to treat inflammatory eye diseases; nevertheless, it presents low water solubility. Drug nanocrystals have been proposed to overcome this hurdle. The development of an innovative ophthalmic anti-inflammatory nanosuspension was performed using a design space approach. We obtained the particle size reduction of this glucocorticoid derivative on a nanometer scale (approximately 165.0 nm), applying wet bead milling on a super reduced scale. The design of experiment supported the optimization of the formula evaluating the parameters that influence reducing the particle size and also allowed determining the design space. Considering the two statistical models developed and the size range obtained, we proposed that the optimized formulation for the glucocorticoid derivative nanosuspension may be 1.0 wt% glucocorticoid derivative and 0.092 wt% cetylpyridinium chloride. This formulation was characterized by the morphological, physical–chemical, and mucoadhesive in vitro test and showed potential for ophthalmic use with reduced frequency of product application, improved efficiency, and safety, which may promote better patient compliance.     

基于i-motif的生物医学应用纳米系统:pH成像、药物控释和肿瘤诊疗

I-motif作为一种新型pH敏感元件,因其在不同pH条件下可以进行快速的构象转变,以及具有自动化合成、优异的生物相容性和灵活的功能化整合等优点,在生物医学领域引起了广泛的关注和研究热潮.该文介绍了i-motif的基本性能,综述了基于i-motif的纳米系统在细胞pH成像、pH控制的药物释放和pH响应型肿瘤诊疗一体化等...     

基于酶循环放大的DNA生物传感器用于检测食管鳞状细胞癌生物标志物蛋白PDGF-BB

食管鳞状细胞癌(ESCC)患者发病早期由于体内的肿瘤标志物种类少且含量低,难以在患病早期发现疾病从而快速反应并有效治疗.因此,找到一种合适的标志物对其进行快速高效检测是研究者亟待解决的问题.血小板衍生生长因子(PDGF-BB)在恶性肿瘤的早期诊断中具有极其重要的地位.该文基于酶循环放大荧光光谱设计了一种用于PDGF-B...     

甘油在微生物代谢合成及生物催化中的应用

生物柴油是一种可再生能源,因其可替代石油来源的柴油而日益受到重视。随着生物柴油工业的蓬勃发展,其制备过程中的主要副产物甘油出现明显的产能过剩。作为一种廉价的清洁资源,甘油的深度开发和利用既是发展生物柴油工业的关键,也符合绿色化学的发展要求。近年来,甘油不仅作为重要的起始原料用于一些高附加值化学品的制备,而且因其独特的理化性质和易降解、生物相容性好等特性,在生物催化和绿色溶剂领域的应用研究日趋活跃。本文主要综述了甘油在工业微生物发酵、生物合成和绿色溶剂领域的研究进展,并就其应用中存在的一些问题,如甘油原料品质和微生物利用效率等进行分析,同时展望了甘油在生物催化领域的应用前景。     

The Use of the Statistical Entropy in Some New Approaches for the Description of Biosystems

Some problems of describing biological systems with the use of entropy as a measure of the complexity of these systems are considered. Entropy is studied both for the organism as a whole and for its parts down to the molecular level. Correlation of actions of various parts of the whole organism, intercellular interactions and control, as well as cooperativity on the microlevel lead to a more complex structure and lower statistical entropy. For a multicellular organism, entropy is much lower than entropy for the same mass of a colony of unicellular organisms. Cooperativity always reduces the entropy of the system; a simple example of ligand binding to a macromolecule carrying two reaction centers shows how entropy is consistent with the ambiguity of the result in the Bernoulli test scheme. Particular attention is paid to the qualitative and quantitative relationship between the entropy of the system and the cooperativity of ligand binding to macromolecules. A kinetic model of metabolism. corresponding to Schrödinger’s concept of the maintenance biosystems by “negentropy feeding”, is proposed. This model allows calculating the nonequilibrium local entropy and comparing it with the local equilibrium entropy inherent in non-living matter.     

基于透明质酸构筑的药物递送载体及其应用

传统纳米药物控释载体主要通过细胞胞吞作用实现药物递送,其主要过程为被动靶向机制,因此会影响纳米载体在肿瘤组织的富集和治疗效果.近年来生物大分子透明质酸因其优异的水溶性、生物相容性、可降解性和肿瘤靶向性备受科研工作者青睐,已被广泛用于药物控释载体的构筑中,并成为靶向肿瘤治疗纳米载体领域的研究热点.本文根据透明质酸基纳米载...