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代理商厂商性质
广州市所在地
血液检测风疹/麻疹病毒诊断试剂
广州健仑生物科技有限公司
广州健仑长期供应各种ELISA试剂盒,主要代理进口和国产品牌的流行病毒ELISA检测试剂盒。例如:甲乙型流感病毒酶联免疫法检测试剂盒、黄热病毒酶联免疫法检测试剂盒、诺如病毒酶联免疫法检测试剂盒、登革病毒酶联免疫法检测试剂盒、基孔肯雅病毒酶联免疫法检测试剂盒、结核杆菌酶联免疫法病毒检测试剂盒、孢疹病酶联免疫法检测试剂盒、西尼罗河病毒酶联免疫法检测试剂盒、呼吸道合胞病毒酶联免疫法检测试剂盒、冠状病毒酶联免疫法检测试剂盒等等。虫媒体染病系列、呼吸道病原体系列、发热伴出疹系列、消化道及食源感染系列。
检验原理
血液检测风疹/麻疹病毒诊断试剂
用抗原包被微量板孔,制成固相载体。加患者血清到板孔中,其所含的抗体特异性地与固相载体中现存抗原结合,形成免疫复合物。除去多余物质后,加入结合了碱性磷酸酶的IgG、IgA或IgM抗体,使之与上述免疫复合物反应。洗板,除去多余的结合物,加入底物(对硝基苯磷酸盐)。其与酶结合的免疫复合物反应,产生有颜色产物,颜色强度与特异性抗体含量成正比。
产品规格:96T/盒
存储条件:4-8℃
我司同时还提供、美国FOCUS、西班牙DIA、美国trinity等试剂盒:
麻疹、风疹、甲流 、乙流、单疱疹1型、单疱疹2型、百日咳、百日咳毒素、腮腺炎、带状疱疹、单纯疱疹、HSV1型特异性、巨细胞-特异、风疹-特异、弓形虫-特异、棘球属、嗜肺军团菌、破伤风、蜱传脑炎、幽门螺旋杆菌、白色念珠菌、博氏疏螺旋体、细小病毒、钩端螺旋体、腺病毒、Q热柯克斯体、烟曲霉菌、埃可病毒、EB病毒、衣原体、耶尔森菌、空肠弯曲杆菌、炭疽杆菌、白喉、肠道病毒、柯萨奇病毒、肺炎衣原体、沙眼衣原体、土拉弗朗西斯菌、汉坦病毒、类风湿因子、呼吸道合胞病毒、单纯疱疹病毒质控品、巨细胞质控品、弓形虫质控品、风疹麻疹质控品、等试剂盒以。
我司还提供其它进口或国产试剂盒:登革热、疟疾、流感、A链球菌、合胞病毒、腮病毒、乙脑、寨卡、黄热病、基孔肯雅热、克锥虫病、违禁品滥用、肺炎球菌、军团菌、化妆品检测、食品安全检测等试剂盒以及日本生研细菌分型诊断血清、德国SiFin诊断血清、丹麦SSI诊断血清等产品。
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【公司名称】 广州健仑生物科技有限公司
【市场部】 杨永汉
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【腾讯 】 2042552662
【公司地址】 广州清华科技园创新基地番禺石楼镇创启路63号二期2幢101-103
在小脑的分叶中,为了简化命名,拉塞尔提出罗马字的命名 系统,他将小脑蚓部从前到后按Ⅰ~Ⅹ次序分成10个小叶;对小叶的 半球部分,则在代表各小叶的罗马字前冠以细菌,例如细菌Ⅵ即表示 小脑第Ⅵ小叶的半球部分。从发生学的观点来看,绒球小结叶出现zui早,是小脑zui古老的部分, 被称为古小脑,它主要接受来自前庭核和前庭神经的传入纤维,调节 躯干肌肉的活动,在维持肌紧张、身体平衡和姿势等方面起重要作用 ;前、后叶的蚓部及后叶蚓部的后外侧部出现得稍晚,称为旧小脑, 其主要功能与头部和身体的本体感受和外感受的传入信息有关,有调 节肌紧张的作用;小脑半球的大部分和部分蚓部发展得zui晚,称为新 小脑,它在人类zui为发达,主要接受经脑桥接转的来自大脑皮质的纤 维,参与由大脑皮层发起的随意运动的调节。在位相性的活动和肌肉 的协调运动过程中起重要作用。小脑的表面被覆着一层灰质,叫做小脑皮层;皮层的下方是小脑髓质 ,由出入小脑的神经纤维和4对小脑深部核团组成。小脑皮层分为3层 ,从表及里分别为分子层、浦肯野氏细胞层和颗粒细胞层,皮层里含 有星状细胞、篮状细胞、浦肯野氏细胞、细菌尔基氏细胞和颗粒细胞 等5种神经元。在这些细胞中只有浦肯野氏细胞发出轴突离开小脑皮层 ,成为小脑皮层中*的传出神经元;其他4种均为中间神经元,它们 的神经末梢都分布在小脑皮层之内。所有小脑叶片都有同样的神经组 织结构(图2)。在分子层内,星状细胞和篮状细胞(亦称内星状细胞 )的轴突走向均与小脑叶片的长轴相垂直。每个星状细胞都有抑制性 的轴树突触与数个浦肯野氏细胞的树突相接触,每个篮状细胞都有抑 制性的轴体突触通过它的筐篮状神经末梢与数个浦肯野氏细胞的胞体 相接触;在颗粒层内,每个颗粒细胞有一个胞体和4~6支短的树突。 颗粒细胞的轴突向上伸至分子层,在那里呈T字形分成两支,以相反的 方向沿着叶片的长轴走行,被称为平行纤维,其长度可达5~7毫米。 平行纤维与浦肯野氏细胞、星状细胞、篮状细胞和细菌尔基氏细胞的 树突形成兴奋性的轴树突触。
In the lobes of the cerebellum, in order to simplify the nomenclature, Russell proposed the Roman naming system. He divided the cerebellar vermis into 10 leaflets from Ⅰ to Ⅹ in order from anterior to posterior; on the hemispherical part of the leaflets, The Roman words preceded by bacteria, such as bacteria VI, indicate the hemispherical portion of the VI leaflets of the cerebellum. From the generative point of view, the pompano leaves appear the earliest, is the oldest part of the cerebellum, known as the ancient cerebellum, it mainly receives from the vestibular nucleus and vestibular nerve afferent fibers, regulating the activities of the trunk muscles, maintaining Muscle tension, body balance and posture plays an important role; anterior and posterior lobes vermis and posterolateral vermis appeared later in the lateral part, called the old cerebellum, its main function and the head and body ontology And outside the feelings of the incoming information on the regulation of muscle tension; most of the cerebellar hemispheres and part of the most developed earthworms, called the new cerebellum, which is the most developed in humans, mainly to accept the pylorus transfer from the brain Cortical fibers, involved in the regulation of voluntary motor movement initiated by the cerebral cortex. Plays an important role in the phase of the activities and the coordinated movement of muscles. The surface of the cerebellum is covered with a layer of gray matter, called the cerebellar cortex; below the cortex is the cerebellar medulla, which consists of nerve fibers exiting the cerebellum and 4 deep nuclei of the cerebellum. The cerebellar cortex is divided into three layers, from the table and in the molecular layer, Purkinje cell layer and granular cell layer, the cortex contains slate cells, basal cells, Purkinje cells, bacteria Erqi's cells and particles Cells and other 5 kinds of neurons. In these cells, only Purkinje cells emitted axons out of the cerebellar cortex and became the only efferent neurons in the cerebellar cortex. The other four were all interneurons whose nerve endings were distributed within the cerebellar cortex. All cerebellar lobes have the same neural structure (Figure 2). Within the molecular layer, the axons of slate cells and basal cells, also known as inner slate cells, are perpendicular to the long axis of the cerebellar lamina. Each slate cell has an inhibitory axonal dendrites in contact with the dendrites of several Purkinje cells, each with inhibitory axonal synapses passing through its basket nerve endings In contact with the cell bodies of several Purkinje cells; within the granular layer, each granulosa cell has a cell body and 4 to 6 short dendrites. The axons of granulosa cells extend up to the molecular layer, where they divide into two T-shaped branches, running in the opposite direction along the long axis of the blade, called parallel fibers, with lengths up to 5 to 7 mm. Parallel fibers form excitatory axonal synapses with Purkinje cells, astrocytes, basal cells and dendrites of bacterial Erkex cells.