- 產(chǎn)品描述
賽潤風(fēng)疹麻疹抗原抗體檢測試劑盒
廣州健侖生物科技有限公司
廣州健侖長期供應(yīng)各種ELISA試劑盒,主要代理進口和國產(chǎn)品牌的流行病毒ELISA檢測試劑盒。例如:甲乙型流感病毒酶聯(lián)免疫法檢測試劑盒、黃熱病毒酶聯(lián)免疫法檢測試劑盒、諾如病毒酶聯(lián)免疫法檢測試劑盒、登革病毒酶聯(lián)免疫法檢測試劑盒、基孔肯雅病毒酶聯(lián)免疫法檢測試劑盒、結(jié)核桿菌酶聯(lián)免疫法病毒檢測試劑盒、孢疹病酶聯(lián)免疫法檢測試劑盒、西尼羅河病毒酶聯(lián)免疫法檢測試劑盒、呼吸道合胞病毒酶聯(lián)免疫法檢測試劑盒、冠狀病毒酶聯(lián)免疫法檢測試劑盒等等。蟲媒體染病系列、呼吸道病原體系列、發(fā)熱伴出疹系列、消化道及食源感染系列。
檢驗原理
賽潤風(fēng)疹麻疹抗原抗體檢測試劑盒
用抗原包被微量板孔,制成固相載體。加患者血清到板孔中,其所含的抗體特異性地與固相載體中現(xiàn)存抗原結(jié)合,形成免疫復(fù)合物。除去多余物質(zhì)后,加入結(jié)合了堿性磷酸酶的IgG、IgA或IgM抗體,使之與上述免疫復(fù)合物反應(yīng)。洗板,除去多余的結(jié)合物,加入底物(對硝基苯磷酸鹽)。其與酶結(jié)合的免疫復(fù)合物反應(yīng),產(chǎn)生有顏色產(chǎn)物,顏色強度與特異性抗體含量成正比。
產(chǎn)品規(guī)格:96T/盒
存儲條件:4-8℃
我司同時還提供、美國FOCUS、西班牙DIA、美國trinity等試劑盒:
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【公司名稱】 廣州健侖生物科技有限公司
【市場部】 楊永漢
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【騰訊 】 2042552662
【公司地址】 廣州清華科技園創(chuàng)新基地番禺石樓鎮(zhèn)創(chuàng)啟路63號二期2幢101-103
攀緣 纖維傳入系統(tǒng)包括來自大腦皮層、腦干網(wǎng)狀核群、紅核以及小腦深部 核團的沖動,投射到延髓的下橄欖核,然后投射到對側(cè)的全部小腦皮 層。從下橄欖核到小腦皮層的投射有著相當(dāng)精細(xì)的對應(yīng)關(guān)系。下橄欖 核為一板層結(jié)構(gòu),由背側(cè)副橄欖核、主橄欖核和內(nèi)側(cè)副橄欖核等3個部 分組成。副橄欖核的不同部分投射到小腦蚓部皮層的不同縱區(qū),主橄 欖核的背板和腹板投射到一側(cè)小腦半球,而主橄核的外側(cè)枝和背帽則 投射到絨球小結(jié)葉。此外,由于研究的不斷深入,還提出了小腦第3傳 入系統(tǒng),即單胺能神經(jīng)元傳入投射。它與苔狀纖維和攀緣纖維有著不 同的形態(tài)學(xué)和生理學(xué)特征。這種單胺能神經(jīng)纖維的數(shù)量較苔狀纖維和 攀緣纖維要少得多。根據(jù)單胺能神經(jīng)元傳入末梢產(chǎn)生和釋放的遞質(zhì)不 同,又可將它進一步分為去甲腎上腺素能投射和5-羥色胺能投射。前 者起源于延髓的藍(lán)斑,投射到整個小腦皮層,以蚓部、絨球和腹側(cè)旁 絨球zui為密集;后者起源于中縫核群,投射到除小腦皮層第Ⅵ小葉以 外的幾乎所有區(qū)域,其中第ⅥAⅩ小葉的蚓部和細(xì)菌ⅧA部位的皮層投 射密度zui大。第3傳入系統(tǒng)在小腦可能起一種調(diào)節(jié)作用,而不是象苔狀 纖維或攀緣纖維傳入系統(tǒng)那樣起著特異信息的傳遞作用。形態(tài)學(xué)和電生理學(xué)研究證明在小腦有一種皮層核團的微復(fù)合體的結(jié)構(gòu) 與機能單位。這一單位是由小腦皮層核團投射的微縱區(qū),以及與它相 對應(yīng)的下橄欖核—小腦皮層區(qū)投射共同組成。有人測算人類小腦的結(jié) 構(gòu)與機能單位多達(dá)5 000個。由于皮層核團微復(fù)合體的活動,使小腦在 調(diào)控運動中對于信號的處理更為精確。從外觀上看,小腦中間有一條縱貫上下的狹窄部分,卷曲如蟲,稱為 蚓部。蚓部兩側(cè)有兩個膨隆團塊稱為小腦半球。在小腦蚓部和半球表 面有一些橫行的溝和裂,將小腦分成許多回、葉和小葉。在這些橫貫 小腦表面的溝和裂中,后外側(cè)裂和原裂是小腦分葉的依據(jù)。后外側(cè)裂 將小腦分成絨球小結(jié)葉和小腦體兩大部分,而原裂又將小腦體分成前 葉和后葉。這樣,前葉、后葉和絨球小結(jié)葉便構(gòu)成了小腦3個橫向組成 的分部。
Climbing fiber afferent systems include impulses from the cerebral cortex, reticular nucleus of the brainstem, the red nucleus, and the deep nuclei of the cerebellum that project into the medulla oblongata and then onto the contralateral cerebellar cortex. The projection from the olives to the cerebellar cortex has a very fine correspondence. Under the olive core is a lamellar structure, composed of three parts of the dorsal olive branch, the main olive branch and the medial olive branch. Different parts of the secondary olive kernel are projected onto different longitudinal regions of the cortex of the cerebellar vermis. The back and web of the main olive kernel project into one side of the cerebellar hemisphere, whereas the lateral branch and the back cap of the main olive branch project onto the pompons . In addition, due to the deepening of research, also proposed the third cerebellar afferent system, that is, the introduction of monoaminergic neurons projection. It has different morphological and physiological characteristics with mossy fibers and climbing fibers. The number of monoaminergic fibers is much less than that of the mossy fiber and the climbing fiber. Depending on the neurotransmitter produced and delivered by the monoamine neurons, they can be further divided into noradrenergic projection and serotonergic projection. The former originated in the medulla oblonga and projected onto the entire cerebellar cortex, with the most densely popliteal, pompon and ventral pompons; the latter originated from the nucleus of the meridian, projecting to almost all areas other than the Ⅵ leaflets of the cerebellar cortex , In which the ⅥAx lobular vermis and bacteria Ⅷ A part of the largest cortical projection density. The third afferent system may play a regulatory role in the cerebellum, rather than transmitting specific messages as if the mossy fibers or climbing fibers were introduced into the system. Morphological and electrophysiological studies have demonstrated the structure and functional units of the microcoplex that has a cortical nucleus in the cerebellum. This unit is composed of the micro-longitudinal zone projected by the cerebellar cortex nucleus and the corresponding projection of the lower olive-cerebellar cortex. Someone estimates up to 5,000 human cerebellum structures and functional units. Due to the activity of the cortical micro-complex, the cerebellum is more accurate in the signal processing in regulating movement. From the appearance point of view, the middle of the cerebellum has a vertical part of the upper and lower narrow, curly, such as insects, called the vermis. Vermis on both sides of the two bulky clumps called the cerebellar hemispheres. In the cerebellar vermis and hemispherical surface there are some rows of furrows and cracks, the cerebellum is divided into many back, leaves and leaflets. In these across the cerebellar surface of the furrows and fissures, posterior lateral fissures and fissures are the basis of cerebellar lobulations. The posterior lateral fissure divides the cerebellum into pompons and the cerebellar body, which are divided into anterior and posterior lobes. In this way, the anterior lobe, posterior lobe and pompano leaves constitute the three cerebrum lateral composition of the division.