人红细胞NADH－细胞色素b5还原酶的分离纯化与鉴定

 人红细胞ＮＡＤＨ－细胞色素ｂ５还原酶的分离纯化与鉴定黄长晖,朱忠勇,唐玉钗（南京军区福州总院全军医学检验中心实验科,福州３５０００１）ＮＡＤＨ细胞色素ｂ５还原酶（Ｃｙｔｂ５Ｒ,Ｅ．Ｃ．１．６．２．２．）是红细胞内催化高铁血红蛋白还原为血红蛋白的关键酶...     

人IL-6和TNF突变体重组融合蛋白表达质粒的构建及在大肠杆菌中的表达

本文利用PCR技术,对人肿瘤坏死因子α(hTNFα)基因进行了改造,并将其与人白细胞介素-6(hIL-6)成熟肽编码区cDNA进行融合,构建了5′IL-6-TNF△融合蛋白的表达质粒pBVIL6-TNFA△。DNA序列分析证明,PCR扩增片段核苷酸序列与引物设计序列及相应的cDNA序列完全一致;重组子用限制性内切酶酶切鉴定,含有正确的IL6-TNF△融合cDNA片段;表达产物经SDS-聚丙烯酰胺凝胶电泳,分子量约为37kD,与预计的相符合;生物学活性分析初步表明,该融合蛋白具有抗肿瘤活性。     

不同磷脂和糖脂对莱氏衣原体膜上Mg~（2＋）－ATPase活性的影响

莱氏衣原体膜上Ｍｇ~（２＋）－ＡＴＰａｓｅ用ＤＯＣ溶解后,经Ｓｅｐｈａｒｏｓｅ－６Ｂ和ＤＥＡＥ－ＣｅｌｌｕｌｏｓｅＤＥ－５２离子交换柱,得到了部分纯化的Ｍｇ~（２＋）ＡＴＰａｓｅ,并将此ＡＴＰａｓｅ与不同极性头部的磷脂和膜糖脂重组,研究了不同的极性头部的磷脂和膜糖脂对ＡＴＰａｓｅ活性的影响。此酶的活性不依赖酸性磷脂,ＰＧ、ＤＰＧ、大豆磷脂等明显抑制酶活性,中性磷脂ＤＭＰＣ、ＰＥ、ＰＣ则能增加酶活性,其中尤以非双层脂ＰＥ的作用最为明显。从莱氏衣原体膜上提取的糖脂（ＭＧＤＧ,ＤＧＤＧ）单独和ＡＴＰａｓｅ重组时,酶活性增加并不明显,当ＭＧＤＧ和ＤＧＤＧ以等比例混合时,能大大地增加酶活性。这表明Ｍｇ~（２＋）－ＡＴＰａｓｅ的活性很大程度上与磷脂的表面电荷及磷脂的组成相关。     

氰类和酯类取代基水溶金属卟啉与DNA相互作用的共振拉曼研究

用共振拉曼和紫外－可见吸收光谱研究了水溶金属卟啉４－Ｎ－乙酸乙酯基－吡啶基铜卟啉和镍卟啉［简称Ｃｕ（ＮＥＡＥ）和Ｎｉ（ＮＥＡＥ）］及４－Ｎ－乙腈基－吡啶基铜卟啉［简称Ｃｕ（ＮＡＣＮ）］与小牛胸腺ＤＮＡ的相互作用。分析表明Ｃｕ（ＮＥＡＥ）、Ｎｉ（ＮＥＡＥ）和Ｃｕ（ＮＡＣＮ）分别以外部键联、部分插入和沟槽方式与ＤＮＡ作用;卟啉插入ＤＮＡ时吡啶基团向卟啉环平面转动但不可能转成与之共面;而以非插入方式作用时吡啶基团会向垂直于或者平行于卟啉环平面转动。吡啶取代基的大小和空间位阻是影响相互作用方式的关键因素之一。     

广西HBsAg阳性母亲的胎儿肝、肾细胞中乙肝病毒DNA存在状态的研究

采用核酸分子杂交Ｓｏｕｔｈｅｒｎ印迹法,以３２Ｐ标记的ＨＢＶＤＮＡ为探针,检测ＨＢｓＡｇ阳性母亲引产的４０例胎儿的肝、肾组织。结果有２例胎肝和１例胎肾细胞ＤＮＡ出现大于３．２ｋｂ的杂交带,表明ＨＢＶＤＮＡ已处于整合状态。胎肾细胞基因组中查出ＨＢＶＤＮＡ整合为首次报道。     

促髓细胞分化的锌指基因单向PCR扩增直接测序的研究

锌指基因是一种造血调节基因,编码锌指结构蛋白,主要在髓细胞中表达,促进髓细胞分化,在急性早幼粒白血病维甲酸治疗中,促使病情缓解。本文报道了我们从基因分子上研究锌指基因作用中,探索并建立了单向聚合酶链反应（ＰＣＲ）扩增特定单链ＤＮＡ,直接测序的新方法。它能产生质和量均佳的单链ＤＮＡ,无需纯化即可直接用于测序,使复杂的测序研究简便易行,可在２,３天内完成。这种单向ＰＣＲ扩增特定单链ＤＮＡ直接测序的方法,经对锌指基因的ｃＤＮＡ测序,得到验证。此法不仅适用于疾病研究中的ＤＮＡ测序,还可制各单链ＤＮＡ探针,更利于基因结构组成的研究。     

Carbohydrate moiety of the Petunia inflata S3 protein is not required for self-incompatibility interactions between pollen and pistil.

For Petunia inflata and Nicotiana alata, which display gametophytic self-incompatibility, S proteins (the products of the multiallelic S gene in the pistil) have been shown to control the pistil's ability to recognize and reject self-pollen. The biochemical mechanism for rejection of self-pollen by S proteins has been shown to involve their ribonuclease activity; however, the molecular basis for self/non-self recognition by S proteins is not yet understood. Here, we addressed whether the glycan chain of the S3 protein of P. inflata is involved in self/non-self recognition by producing a nonglycosylated S3 protein in transgenic plants and examining the effect of deglycosylation on the ability of the S3 protein to reject S3 pollen. The S3 gene was mutagenized by replacing the codon for Asn-29, which is the only potential N-glycosylation site of the S3 protein, with a codon for Asp, and the mutant S3 gene was introduced into P. inflata plants of the S1S2 genotype. Six transgenic plants that produced a normal level of the nonglycosylated S3 protein acquired the ability to reject S3 pollen completely. These results suggest that the carbohydrate moiety of the S3 protein does not play a role in recognition or rejection of self-pollen and that the S allele specificity determinant of the S3 protein and those S proteins that contain a single glycan chain at the same site as the S3 protein must reside in the amino acid sequence itself.     

Female Gametophyte Development in Maize: Microtubular Organization and Embryo Sac Polarity

The developmental stages of the maize embryo sac were correlated with the corresponding silk lengths of ear florets in the female inflorescence. The development of embryo sacs in the ovules of spikes occurs in a gradient pattern with the initiation of the embryo sac beginning at the base of the ear and progressing to the top. At the beginning of meiosis, the presence of conspicuous cortical microtubules coincides with the extensive elongation of the megasporocyte. The spindles at metaphase I and II align along the long axis of the megasporocyte leading to the linear alignment of the dyad and tetrad of megaspores. During megagametogenesis, micropylar and chalazal nuclei of the embryo sac undergo synchronized divisions and migration at the second and third mitosis. Radiate perinuclear microtubules are present during the interphase of the second and third mitosis, and inter-sister nuclear microtubules occur at the late four-nucleate embryo sac. The configuration and orientation of the spindles, phragmoplasts, and pairs of nuclei result in precise positioning of the nuclei. The fusion of the polar nuclei and the formation of a microtubule organizing center-like structure in the filiform apparatus occur right after the first division of the antipodal cells. The different patterns of organization of microtubules in the cells of the mature embryo sac reflect their structural adaptations for their future function.     

Increase in cytoskeletal actin induced by inositol 1,4-bisphosphate in saponin-permeated pig platelets

Inositol 1,4-bisphosphate (IP₂), which rapidly accumulates during cell activation, strongly stimulates an increase in cytoskeletal actin in saponin-permeated platelets, and the effect is insensitive to 5′-Chloro-5′-deoxyadenosine. Within 10 s, the amount of cytoskeletal actin in platelets rapidly increases by 41%, and then slowly increases further. IP₂ induces the increase in cytoskeletal actin in a dose-dependent manner. The half-maximal effect requires approximately 2 μM of IP₂ Inositol 1,4,5- triphosphate, the messenger for Ca²⁺ release, causes the increase in cytoskeletal actin, but is less effective than IP₂. Inositol 1-monophosphate and inositol 2-monophosphate have no effect on cytoskeletal actin. Phorbol 12-myristate 13-acetate, which has been shown to activate IP₃ 5′-phosphatase through protein kinase C, stimulates the increase in cytoskeletal actin. Spermine, an inhibitor of IP₃ 5′-phosphatase, inhibits the thrombin stimulated increase in cytoskeletal actin. These results suggest that IP₂ may be a messenger that controls the organization of actin filaments during cell activation. This study presents the first evidence for IP₂ as a messenger during cell activation.     

Effects of hypothalamic microinjection of PGE2 on body temperature and sympathetic nervous activities in the rabbit

The febrile response and sympathetic nervous response to hypothalamic microinjections of prostaglandin E₂ (PGE₂) were investigated in anesthetized rabbits. Microninjection of PGE₂ (500–1000 ng) caused an increase in rectal temperature of more than 0.3°C in 13 of 50 loci in the preoptic and anterior hypothalamic area (PO/AH). At 8 of these 13 loci, PGE₂ elicited response patterns in the sympathetic nervous system, such as an increase in cutaneous sympathetic nervous activity and decrease in renal sympathetic nervous activity. This pattern of sympathetic nervous responses was induced with a simultaneous increase in rectal temperature of more than 0.5°C. The 8 loci were distributed in the preoptic area, especially in the vicinity of the supraoptic nucleus. Electrolytic lesions of this region were made bilaterally, and intracerebroventricular injection of PGE₂ (8 µg/kg) was found to inhibit fever and sympathetic activity. The results demonstrate that the action of PGE₂ is responsible for the response patterns of sympathetic twigs during fever. The preoptic area, especially in the vicinity of the supraoptic nucleus, is most sensitive to PGE₂ for the patternized response of sympathetic neurons and fever.