Microscopic analysis of defects in a high resistivity silicon detector irradiated to 1.7x10(15)n/cm(2)

Current-based microscopic defect analysis methods with optical filling techniques, namely current deep level transient spectroscopy (I-DLTS) and thermally stimulated current (TSC), have been used to study defect levels in a high resistivity silicon detector (p(+)-n-n(+)) induced by very high fluence neutron (VHFN) irradiation (1.7x10(15) n/cm(2)). As many as fourteen deep levels have been detected by I-DLTS. Arrhenius plots of the I-DLTS data have shown defects with energy levels ranging from 0.03 eV to 0.5 eV in the energy band gap. Defect concentrations of relatively shallow levels (E(t) < 0.33 eV) are in the order of 10(13)cm(-3), while those for relatively deep levels (E(t) > 0.33 eV) are in the order of 10(14) cm(-3). TSC data have shown similar defect spectra. A full depletion voltage of about 27,000 volts has been estimated by C-V measurements for the as-irradiated detector, which corresponds to an effective space charge density (N-eff) in the order of 2x10(14) cm(-3). Both detector leakage current and full depletion voltage have been observed to increase with elevated temperature annealing (ETA). The increase of the full depletion voltage corresponds to the increase of some deep levels, especially the 0.39 eV level. Results of positron annihilation spectroscopy have shown a decrease of total concentration of vacancy related defects including vacancy clusters with ETA, suggesting the breaking up of vacancy clusters as possible source of vacancies for the formation of single defects during the reverse anneal.

IL-2基因的突变及其与肠毒素融合基因的克隆和表达

由金黄色葡萄球菌分泌到胞外的单亚基蛋白中有肠毒素A和B。近年来两种毒素在肿瘤治疗研究方面取得了很大进展。白介素-2作为靶向分子，在抗肿瘤的药物中很有应用前景。本文分别对肠毒素A、肠毒素B和白介素-2进行了克隆和表达，并将白介素-2（125Ala）分别与肠毒素A227AI。肠毒素B进行了融合表达。从筛选到的天然金黄色葡萄球菌STSw的基因组中，通过PCR方法扩增出seb基因，同时突变了该基因两端几个稀有密码子。并将其克隆到7ZTS载体上进行表达，表达量占细胞总蛋白的33.5％。以seam基因为模板，通过重叠PCR将其227位天冬氨酸突变为丙氨酸，以降低其毒性。该突变基因重组到7ZTS载体中，并在JM109（DE3）中表达，表达量占细胞总蛋白的51.5％。通过重叠PCR法，对人的IL-2基因进行定点突变。共突变60个碱基，涉及51个氨基酸，其中第125位的半肤氨酸被突变为丙氨酸。该基因在大肠杆菌中表达量占总蛋白的30％。分别对上述三个工程菌的表达条件进行了探索。先制备出融合基因，再对融合基因进行表达，得到两种融合蛋白。它们是以6个甘氨酸和1个苏氨酸为链，将IL一2（125Ala）与肠毒素A227（Ala）、B分别连接起来，即IL-2（125Ala）-SEA227（Ala）和IL-2（125Ala）-SEB二者在大肠杆菌中表达量分别占总蛋白的10％和12％。以上实验结果为将几种蛋白开发成抗肿瘤靶向药物奠定了坚实基础。