分组密码结构抗Simon量子算法攻击研究

本文首先对Simon量子算法作出了进一步研究,证明了Simon承诺中存在周期的随机函数具有唯一周期的概率接近1.随后总结了对常见分组密码结构进行Simon量子算法攻击的一般性步骤,指出对Feistel结构及其扩展结构应用Simon算法时,只需要中间的轮函数为置换,就可以构造出完全满足Simon承诺的周期函数.同时修正了Dong等人对RC6算法结构攻击中的错误,并且对三轮MISTY-L和MISTY-R进行了区分攻击.最后论证了在选择明文攻击下,三轮Lai-Massey结构能够抵抗Simon量子算法攻击.

针对真实RFID标签的侧信道攻击

随着侧信道分析理论的不断发展,其对缺乏保护的小型密码设备如RFID标签等的威胁也越来越严重.为了保证数据的安全性,不少种类的RFID标签可对通讯时的数据进行加密,然而目前这类RFID标签在软硬件设计上仍然缺乏足够的抗侧信道攻击措施.为研究在将侧信道分析理论应用于真实RFID标签攻击时的难度和实际攻击效果,本文选取了近年来新兴的一款具有广阔应用前景的可编程RFID标签(TB-WISP 5.0)进行侧信道攻击.攻击从目标所运行的简单双向认证协议中的选择明文攻击漏洞入手,以无触发信号、非侵入式的采集方式获取到了目标运行AES加密时的功耗和电磁泄露轨迹,并分别利用这两种轨迹,通过侧信道分析理论成功恢复出了其完整的密钥信息.这一实验结果充分说明了当下加强小型密码设备抗侧信道攻击设计的迫切性和必要性.之后,本文给出了在具有低功耗、轻量化、快速计算需求的可编程RFID标签设备上设计抗侧信道分析措施的一些建议.

藻青菌环八肽Samoamide A的固相合成

以2-氯三苯甲基氯(CTC)树脂为固相载体,N,N′-二异丙基碳二亚胺(DIC)和1-羟基苯并三唑(HoBt)为缩合体系,通过9-芴甲氧羰基(Fmoc)固相合成法合成直链肽,然后将其从树脂上切下,以HoBt、苯并三唑-1-基氧三吡咯烷基六氟磷酸(PyBOP)和N,N′-二异丙基乙二胺(DIPEA)为环合试剂进行液相环合合成了广谱抗癌的藻青菌环八肽Samoamide A。将Samoamide A进行制备液相色谱纯化,采用MS、NMR等对其进行表征。结果表明,顺利得到纯度为99.12%的藻青菌环八肽Samoamide A,总收率为42.8%。该方法操作简便,收率高,适合于类似环肽的化学合成。目标化合物可作为筛选抗癌药物的先导化合物进行深入研究。

HPLC法测定聚酯药用滴眼剂瓶中对苯二甲酸的含量

建立聚酯药用滴眼剂瓶中对苯二甲酸含量HPLC检测方法。测定对苯二甲酸的色谱条件:Venusil MP C_(18)色谱柱(4.6 mm×250 mm),流动相:甲醇-水(用冰乙酸调节pH为3.0)(60:40),流速:0.8 mL/min,检测波长:240 nm,柱温:25℃。对苯二甲酸线性范围为0.04945~0.2967μg,相关系数r为1.0,平均回收率为100.40%,RSD为1.34%。本方法可用于聚酯药用滴眼剂瓶中对苯二甲酸含量的测定。

鬼针草属植物基源考证及开发前景分析

目的:对鬼针草属植物的基源、应用前景、及存在问题进行分析,为其产品开发提供依据。方法:以"鬼针草属、金盏银盘、婆婆针、鬼针草、狼杷草"等为关键词,检索《中国植物志》全文电子版网站、药智数据网、专利检索、国家药品监督管理局官网、中国知网、查阅了《本草拾遗》《植物名实图考长编》《植物名实图考》,并进行概况分析。结果:自唐代《本草拾遗》起,鬼针草属植物有悠久的使用历史,在《中国植物志》、地方药材标准、地方中药材炮制规范、中国药典、古代本草均有记载、其提取物收载在《已使用化妆品原料名称目录(2015版)》中。部颁标准收载了20个复方中成药产品;发明专利申请达1 840个,有效专利127项,涉及除草剂、环境污染的修复、药品、食品、日用品、饲料及兽药等。常出现了同名异物的现象。结论:鬼针草野生资源储量丰富且易采收,有广泛的开发应用价值,值得推广。

国内外医用一次性防护服标准的比对分析

针对医用防护服的安全问题,从国内外医用防护服的标准现状着手,重点从液体阻隔性能、物理机械性能和舒适性3个方面分析比较了国内与欧盟、美国、日本等发达国家医用防护服标准的优缺点,并对我国医用防护服标准的不足之处提出改进建议,以期为国内医用防护服标准的发展和制定提供参考依据。

Enhanced interferon-y secretion and antitumor activity of T-lymphocytes activated by dendritic cells loaded with glycoengineered myeloma antigens

Background Immunotherapy is emerging as a promising cure for cancer. However, a severe problem in this area is the immune tolerance to tumor cells and tumor-associated antigens, as evidenced by the ability of cancer to escape immune surveillance. To overcome this problem this work examined the potential of improving the antigenicity of myeloma by metabolic engineering of its cell surface carbohydrate antigens （i.e., glycoengineering） and presentation of the modified tumor antigens by dendritic cells （DCs） to generate cytotoxic T-lymphocytes （CTLs）. Methods CD138^＋ myeloma cells were isolated from 11 multipe myeloma （MM） patients by the immunomagnetic bead method. The MM cells were treated with N-propionyI-D-mannosamine （ManNPr）, a synthetic analog of N-acetyl-D-mannosamine （ManNAc）, the natural biosynthetic precursor of N-acetyl sialic acid （NeuNAc）, to express unnatural N-propionylated sialoglycans. The glycoengineered cells were then induced to apoptosis, and the apoptotic products were added to cultured functional DCs that could present the unnatural carbohydrate antigens to autologous T-lymphocytes. Results It was found that the resultant DCs could activate CD4^＋ and CD8^＋ T-lymphocytes, resulting in increased expression of T cell surface markers, including CD8CD28 and CD4CD29. Moreover, upon stimulation by glycoengineered MM cells, these DC-activated T-lymphocytes could release significantly higher levels of IFN-y （P〈0.05）. Lactate dehydrogenase （LDH） assays further showed that the stimulated T-lymphocytes were cytotoxic to glycoengineered MM cells. Conclusions This work demonstrated that glycoengineered myeloma cells were highly antigenic and the CTLs induced by the DCs loaded with the unnatural myeloma antigens were specifically cytotoxic to the glycoengineered myeloma. This may provide a new strategy for overcoming the problem of immune tolerance for the development of effective immunotherapies for MM.