不完全抗原,即半抗原(hapten)是隻具有免疫反應性,而無免疫原性的物質,故又稱不完全抗原。 半抗原與蛋白質載體結合後,就獲得了免疫原性。 複合半抗原不具有免疫原性,只具免疫反應性,如絕大多數多糖(如肺炎球菌的莢膜多糖)和所有的類脂等;簡單半抗原既不具免疫原性,又不具免疫反應性,但能阻止抗體與相應抗原或複合半抗原結合。 免疫原通常為蛋白質或多醣類,以蛋白質為最強的免疫原,其次為多醣類。 脂質與核酸並不能成為免疫原,除非與蛋白質結合才能活化免疫反應。 就蛋白質而言,經過特定的抗原呈現細胞處理後,形成小分子的肽(peptide)片段,再與細胞表面之主要組織相容性複合物(MHC)結合,才能被辨識而活化免疫系統。
得出陽 性結果後,必須送交指定的世衞 H5 參考實驗室作進一步測試及核 實,在國內即為北京的中國疾病預防控制中心病毒學研究所。 所以關於潮射液體成分的研究幾乎全部集中在試圖證明射出物不是尿液,它們會測量尿素、肌酸酐、前列腺酸性磷酸酶、前列腺特異性抗原、葡萄糖和果糖等物質的水平。 機譯:通過過敏性母親的母乳通過食物抗原的轉移誘導的口服耐受性可防止後代在小鼠食物過敏模型中發展爲過敏症狀。
antigens中文: 抗原性概念解釋
機體其它自身組織的蛋白可因電離輻射、燒傷、某些化學藥品和某些微生物等理化和生物因素的作用發生變性時,也可成爲自身抗原,引起自身免疫疾病,如紅斑狼瘡病、白細胞減少病、慢性肝炎等。 (3)特異性是指一種抗原只能與相應的抗體或效應T細胞發生特異性結合。 抗原的特異性是由分子表面的特定化學基團所決定的,這些化學基團稱爲抗原決定簇。 抗原以抗原決定簇與相應淋巴細胞的抗原受體結合而激活淋巴細胞引起免疫應答。
- 兩種方式各有特點,非滅活型不含裂解鹽,但是保存的病毒完整性更好,檢出率更高,除了核酸檢測外還可以用於其他研究;滅活型病毒保存液則使用上更安全,操作環境要求也不用那麼嚴格。
- 聲明:以上例句、詞分類均由互聯網資源自動生成,部分未經過人工審覈,其表達內容亦不代表本軟件觀點;若發現問題,歡迎向我們指正。
- 現時有數間製造商正測試這種利用輔藥以減 省 抗原的 策略 是否奏 效。
- PAV的不同抗原的常規免疫接種的覆蓋率仍然較低,尤其是涉及到多劑量接種時,這表明公共衛生設施在整個國土上,特別是在農村地區的密度較低。
TCR與配體結合的精確模式尚未清楚,一個合理的說法是TCR中α和β鏈的V段接觸MHC分子的α螺旋(形成MHC分子頂端槽的肽段),使高可變的連接部(V-J及V-D-J)與抗原肽段相結合。 是一種便於使用的檢測試劑盒,能在20分鐘內在耳部切口組織和血清樣品中檢出高水平牛病毒性腹瀉病毒( B VDV) 抗原。 古巴國家腎臟移植計劃的目的是,在科學和倫理學基礎上對人類白細胞抗原 的 組織相容性進行研究,爲此需要使用高質量的人類白細胞抗原試劑,幾年以來 一直通過第三國向 One Lambda 公司購買。 目前最常用於病毒裂解的胍鹽是異硫氰酸胍、鹽酸胍,他們無RNA酶和DNA酶活性,能夠破壞RNA酶的分子結構,使樣本中可能存在的核酸酶失活,起到穩定保存病毒樣本的作用。 兩種方式各有特點,非滅活型不含裂解鹽,但是保存的病毒完整性更好,檢出率更高,除了核酸檢測外還可以用於其他研究;滅活型病毒保存液則使用上更安全,操作環境要求也不用那麼嚴格。 HAV病毒有實心和空心兩種顆粒形態,實心顆粒有完整病毒,有傳染性;空心者無傳染性,但有抗原性。
antigens中文: 抗原性
由於流感病毒的抗原性變化較快,人類無法獲得持久免疫力。 從生物進化過程來看,異種動物間的血緣關係越遠,則免疫原性越強。 如馬的血清和各種微生物與人的血緣關係遠,所以免疫原性強。 而馬的血清與驢、騾的血緣關係近,所以免疫原性相對就弱。
抗原性的強弱與抗原分子的大小、化學成分、抗原決定簇的結構、抗原與被免疫動物親緣關係的遠近等有密切關係。 通常認爲抗原的分子量愈大、化學組成愈複雜、立體結構愈完整以及與被免疫動物的親緣關係愈遠,則抗原性愈強。 抗原的物理狀態也對抗原性發生影響,例如蛋白質,聚合狀態的比單體的抗原性強,一般球形分子的比纖維形分子的抗原性強。 antigens中文2025 抗原加入佐劑改變物理狀態後,抗原性也得到增強。 例如,分子量高達10萬的明膠由於缺乏苯環氨基酸,穩定性較差,在進入機體後容易被酶降解成低分子物質,如果加入少量酪氨酸(苯環氨基酸),就能增強其抗原性。
antigens中文: 抗原遞呈
無法被分解或被主要組織相容性複合體(MHC)呈現的大分子,則歸類為劣質免疫原。 抗原呈現細胞內的分解酵素僅能對L-胺基酸作用,由D-胺基酸(與L-氨基酸互爲手性異構體)構成的聚合物並無法被處理分解,而這些聚合物即劣質免疫原。 D-氨基酸通常存在於抗生素和細菌細胞壁中,在動植物中也有發現。 T細胞對抗原的識別 T淋巴細胞介導的免疫應答也稱細胞免疫應答。
有效的病毒保存是準確核酸檢測結果的重要保障,構建穩定高效的病毒保存液,作爲病毒的採集、運輸保存及檢測的溶液介質是其中關鍵。 組織中部分抗原在甲醛或多聚甲醛固定過程中,發生了蛋白之間交聯及醛基的封閉作用,從而失去抗原性。 甲型易引起大流行,病情較重;乙丙型引起流行或散發,病情較輕。
antigens中文: 抗原 名 ()
免疫佐劑也可能引起一些副作用:佐劑常混有微量的其他物質,這些物質進入有機體後也可引起抗體的產生,影響抗體的特異性。 注射完全佐劑可引起局部炎症反應,使局部組織壞死。 分子大小:分子量越大的物質免疫性越強,活性免疫原的分子量約為100,000。 分子量在5,000~10,000者屬於較差的免疫原,另有少數分子量小於1,000的分子被發現仍具有免疫原的特性。
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” width=”605px” alt=”antigens中文”/>
臨牀上常用的各種抗毒素血清,一般都是用免疫馬來製備的。 一方面,抗毒素能中和與其相應的外毒素,起到防治疾病的作用;另一方面,它能刺激人體產生抗馬血清蛋白的抗體,當再次接受馬的免疫血清時,有可能發生超敏反應。 可與MHCⅡ類分子結合的都是蛋白性抗原;多糖和脂類不易於MHCⅡ類分子連接,難以被TH細胞識別,因而多不是良好的免疫原;但有時可以誘導抗體性免疫應答。
antigens中文: antigens中文是什麼意思
脂質的辨識作用在某些對抗病原體的免疫反應上十分重要。 T細胞能辨識結核分枝桿菌和痲瘋分枝桿菌細胞壁的脂質,進行細胞媒介免疫反應,防止受病原菌感染。 antigens中文2025 半抗原(hapten)是一種小分子,只有在跟大分子結合後才能激發免疫反應,產生對應此半抗原的抗體;半抗原單獨存在時,卻無法有效地激發免疫反應。 它多半不是蛋白質,進入體內後不會刺激抗體產生。 半抗原與具抗原性的大分子化合物或蛋白質結合後,便可刺激抗體產生,並與完全抗原所產生之抗體起反應。 antigens中文 本網站銷售的所有產品僅用於工業應用或者科學研究等非醫療目的,不可用於人類或動物的臨牀診斷或者治療,非藥用,非食用。
您可以單擊提供的鏈接,也可以將鏈接URL複製到Web瀏覽器以查看文檔。 阿拉丁生化科技是服務於科研和應用領域的知名供應商,以豐富的產品種類和規格、便捷的電商服務平臺、先進的質量控制體系以及健全的服務網絡服務於廣大的科學工作者。 PSA是攝護腺特定抗原(Prostate-Specific Antigen)的簡稱。 它是一種人體的酵素,主要分佈在男性的攝護腺。 因為這個分佈的專一特性,所以醫學上常常 …
antigens中文: 阿拉丁®IVD原材料家族成員:異硫氰酸胍/鹽酸胍
除了與抗體結合之外,抗原還可以被B細胞受體(BCR, B Cell Receptor)和T細胞受體(TCR, T Cell Receptor)識別。 B細胞受體和抗體結合抗原的模式基本相同,都是基於蛋白質大分子摺疊形成的三級結構進行識別。 antigens中文 因此當蛋白質抗原變性,原有的三級結構被破壞後,抗體和B細胞受體識別蛋白質抗原的能力就會下降。
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” width=”609px” alt=”antigens中文”/>
HAV病毒有四個蛋白,其中VP1基因主要爲病毒核殼蛋白基因,含有中和抗體的的抗原決定簇。 儘管有四個基因型,但其抗原性相似,故HAV只有一個血清型和一個抗原抗體系統。 antigens中文2025 抗原的處理和提呈 由於所有有核細胞均表達MHCⅠ類分子,因此,所有有核細胞均具有通過MHCⅠ類分子途徑加工處理和提呈抗原的能力。
antigens中文: 免疫原性的影響因素
呈遞活;在體動物實驗,用溴脫氧尿苷處理後以流式細胞術檢測B細胞(存在或不存在時)對胰島內T細胞活影響。 有些物質如隱蔽的自身成分(眼晶體蛋白、精子等),在正常情況下與免疫系統是隔絕的。 但是一旦屏障遭到破壞,這些物質進入血流,即可與免疫活性細胞接觸而成爲自身抗原異物。 作爲補體補體途徑的一部分,補體級聯的自發激活將C3轉化爲C3b,C3b是一種可以在與抗原表面結合時起調理素作用的成分。
antigens中文: 抗原動物免疫血清
抗原呈現細胞(Antigen-presenting cell)是聯繫. 預計ESETEC®系統在生產那些使用傳統表達系統難以生產的 新型 抗原方 面可 以具 有明顯的優點。 26 輔藥是一種化學物質,可加於疫苗的配方, 加強免疫反應,理論上可以做到以較少劑量的 抗原產 生所 需的免疫反 應。