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關於 translation of dna ,我們在網路上蒐集到這些相關的討論、資訊與評價

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在translation of dna這個產品中,有10篇Facebook貼文,粉絲數超過6萬的網紅媽媽監督核電廠聯盟,也在其Facebook貼文中提到, 輻射傷害的防護基本理念: ALARA (As Low As Reasonably Achievable),受曝劑量越低越好的合理抑低原則。 在輻射傷害防護的範疇內,總的來說,LNT(Linear-Non-Threshold)模式對於高劑量、高強度的輻射暴露的情況相對來說,更加的適用。在一般日常生活...
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translation of dna 在 媽媽監督核電廠聯盟 Facebook 的最佳解答

媽媽監督核電廠聯盟 By 媽媽監督核電廠聯盟

2021-05-25 23:19:14 有 14 人按讚
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輻射傷害的防護基本理念: ALARA (As Low As Reasonably Achievable),受曝劑量越低越好的合理抑低原則。

在輻射傷害防護的範疇內,總的來說,LNT(Linear-Non-Threshold)模式對於高劑量、高強度的輻射暴露的情況相對來說,更加的適用。在一般日常生活的狀態來說,避免輻射傷害,普遍採取 ALARA( As Low As Reasonably Achievable),也就是越低越好的合理抑低原則,這是人類關於游離輻射防護的基本理念。

ALARA( As Low As Reasonably Achievable; 越低越好的合理抑低 )原則也是美國能源部國家核子保安總署(DOE/NNSA)輻射 緊急事件支援及訓練中心(REAC/TS)出版之「The Medical Aspects of Radiation Incidents (台灣翻譯為:輻射傷害醫療處置)」手冊內容中所提及的輻射防護基本理念。

“ALARA (As Low As Reasonably Achievable) is the underlying philosophy associated with protecting people from ionizing radiation.

It basically means that one should not unnecessarily expose themselves to radiation without the benefit outweighing the risk.

Time, distance, andshielding are widely considered to be the primary
concerns. At REAC/TS, we like to add a fourth item to the list - quantity. All four of these concepts are used concurrently with the others. "

其基本意涵是 : 一個人應該避免不必要且無利益的輻射 曝露風險(這裡指的是非醫療性質的輻射暴露。任何輻射暴露都會造成傷害,但在治療重大疾病的時候,兩害相權取其輕,接受有限度且嚴格控管的輻射照射將體內惡性病變組織破壞,阻止其增生、擴散惡化的潛在利益大於輻射照射所引起的傷害的醫療應用案例,不屬於這裡所指的“不必要且無利益的輻射曝露風險”的範疇)。

此外,有報導指出:“...... 在日本的實際研究案例中,「餵飲氘水佔1/3的水,經過1個禮拜,老鼠腦部組織裡的氫被替換掉,老鼠變得眼睛上吊,有攻擊性,一直囓咬鐵籠的鐵網,反覆地昏睡或暴躁。」東京工業大學理工特任教授入口紀男(Norio Iriguchi),透過老鼠實驗,提醒福島氚污染水的危害。

入口紀男教授是日本核磁共振學會委員,透過上述實驗鼠的核磁共振影像,解說老鼠腦部組織內的氫被氘替換之後,所發生的變化。「左邊有點突出的是嗅腦(嗅覺發達中樞),右下突起的部份是延髓開端。目前只有腦部明顯地浮腫了。」

福島核災後,產生大量輻射污染水,其中氚因為無法用過濾去除,又稱為氚污染水。多位專家警告,氚污染水的危害,不只是體內輻射被曝,還有在體內被當成氫嵌入到蛋白質等組織的問題。而入口紀男(用有同樣效果的氘做)的實驗,具體呈現後者的狀況。

「氚在體內被當成氫嵌入」是什麼意思呢?擁有近40年的放射線治療經驗、北海道癌症中心名譽院長西尾正道詳細解釋道:「氚在人體內會被當成氫來代謝。人體有62%是水(H2O),氚會被當成氫來結合,在種種構成人體的高分子化合物的化學式裡也一樣。」

「氚因為有這樣和物質相結合的性質,在體內造成長期被曝。用醫學實驗,可以證明氚會被當成氫攝入到細胞核內。構成DNA的基因的4個鹽基,是靠氫來結合,換成氚進去的話(失去結合力),鹽基化學式產生變化,遺傳情報也會改變。導致健康上的實際損害。」而當被攝入的氚衰變成氦時,也會損傷細胞( http://www.inaco.co.jp/hiroshima_2_demo/pdf/20140103_tori_A4.pdf )。

對此,西尾正道等專家批判:「不能說自然界本來就有而不考慮,原本自然界裡氚的最大來源就是核試爆跟核電,排放標準也是為了沸水式原子爐把氚排到海裡而制定的,並不是因為有在科學上醫學上檢討健康被害而決定的。」「因為距離極近,即便氚的放射線弱,仍會相當程度地傷害DNA。」

又,氚水的化學式是HTO,因為氚很容易和生物體內的碳結合,成為有機結合型氚(Organically Bound Tritium、簡稱為OBT),跟氚水相比,後者滯留體內時間為20~50倍,被染色體等人體重要部份攝取。「氚水被放流後,經生物攝取變成有機結合型氚,人類去吃這些生物,便會蓄積在體內。」在核食檢測上,有機結合型氚的檢測程序,又比普通的氚來得複雜。

氚,被日本諾貝爾物理學獎得主小柴昌俊,與馬克斯威爾獎(美國物理學會頒發)得主長谷川晃,稱之為劇毒。

福島核電廠在災後,因為會不斷放出有放射性的蒸氣等污染,入口紀男比喻為「國土百萬年的惡夢」。而這惡夢除了往大氣的污染,還因為地下水流經,每天產生3-400噸的輻射污染水。

在日本政府規劃的輻射污染水處理方案裡,海放是成本最低的方法,比起地下埋設等耗資千億日圓以上的方法,海放只要17~34億日圓。另一方面民間、在地漁業團體與鄰國,持強烈反對的立場。....."

也有多項相關的醫學研究報告指出:
A 1961 experiment showed that mice dosed with 21.5 μCi/g of Cs-137 had a 50% fatality within 30 days (implying an LD50 of 245 μg/kg).

A similar experiment in 1972 showed that when dogs are subjected to a whole body burden of 3800 μCi/kg (140 MBq/kg, or approximately 44 μg/kg) of caesium-137 (and 950 to 1400 rads), they die within 33 days, while animals with half of that burden all survived for a year.

Important researches have shown a remarkable concentration of 137Cs in the exocrine cells of the pancreas, which are those most affected by cancer.

In 2003, in autopsies performed on 6 children dead in the polluted area near Chernobyl where they also reported a higher incidence of pancreatic tumors, Bandazhevsky found a concentration of 137Cs 40-45 times higher than in their liver, thus demonstrating that pancreatic tissue is a strong accumulator and secretor in the intestine of radioactive cesium.

一項重要的醫學研究發現,人體胰腺外分泌細胞中所聚積的137Cs濃度非常高,而胰腺外分泌細胞是受癌症影響最大的人體細胞。

在2003年由Bandazhevsky研究團隊,對六名生活在靠近車諾比核災污染區附近的兒童的屍體進行醫學檢驗解剖。

解剖研究發現這六名兒童患胰臟惡性腫瘤的比率,比一般正常狀態下來的更高,經檢驗,研究團隊發現這六名兒童胰臟中所含的Cs-137濃度,竟然是肝臟中所含Cs-137濃度的40-45倍之多。研究證實在人體內Cs-137最容易聚積在胰臟內。

胰臟癌是指胰臟細胞發生癌變而產生的腫瘤,這些腫瘤細胞具有侵犯其他組織的能力。胰臟癌很少發生在40歲以下的病人,半數以上的患者超過70歲。

此外,1961年的一項實驗發現對老鼠注射21.5 μCi/g 濃度的Cs-137,在30天之內有一半的受試老鼠死亡,這項實驗的結果等同於半至死劑量為0.000245公克(也就是百萬分之245公克),所謂半至死劑量指的是指在固定濃度下,暴露一定時間(通常1~4 小時)後,觀察14 天, 能使試驗動物組群半數(50 %)死亡的濃度。

在1972 年有另外一項類似的實驗, 對受試驗的狗群注射3800 μCi/kg (140 MBq/kg, or approximately 44 μg/kg,大約百萬分之44公克濃度)Cs-137,這群受試的狗在33天內全數死亡,而另一群接受一半劑量的受試狗群,則可以存活到為期一年。

從上述的那些實際醫學研究例證,包括了比較適用於LNT模式的狀態,以及一般日常生活環境下遭遇到低劑量但是長期輻射暴露累積下來的狀態。ALARA( As Low As Reasonably Achievable; 合理抑低 )原則在兩種狀態下通通一體適用。

參考資料:
https://orise.orau.gov/resources/reacts/documents/medical-aspects-of-radiation-incidents.pdf

http://www.inaco.co.jp/hiroshima_2_demo/pdf/20140103_tori_A4.pdf

https://e-info.org.tw/node/221554

^Moskalev, Yu. I. (1961). "Biological Effects of Cesium-137". In Lebedinskiĭ, A. V.; Moskalev, Yu. I. (eds.). Distribution, Biological Effects, and Migration of Radioactive Isotopes. Translation Series. United States Atomic Energy Commission (published April 1974). p. 220. AEC-tr-7512.

^ H.C. Redman; et al. (1972). "Toxicity of 137-CsCl in the Beagle. Early Biological Effects". Radiation Research. 50 (3): 629–648. Bibcode:1972RadR...50..629R. doi:10.2307/3573559. JSTOR 3573559. PMID 5030090.
^ Nelson A , Ullberg S, Kristoffersson H, Ronnback C (1961). "Distribution of Radiocesium in Mice". Acta Radiologica. 55, 5 (5): 374–384.
doi:10.3109/00016926109175132. PMID 13728254.

^ Bandazhevsky Y.I. (2003). "Chronic Cs-137 incorporation in children's organs". Swiss Med. Wkly. 133 (35–36): 488–90. PMID 14652805.

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translation of dna 在 國家衛生研究院-論壇 Facebook 的最讚貼文

國家衛生研究院-論壇 By 國家衛生研究院-論壇

2021-02-17 07:30:00 有 140 人按讚
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【mRNA疫苗臨床試驗95%有效! mRNA疫苗會是COVID-19的救世主嗎?】:發表在新英格蘭醫學期刊(NEJM)上的兩篇論文提到【註1】,兩個mRNA疫苗臨床研究分別收案3萬多人與4萬多人,在打完疫苗之後的兩個月追蹤當中,施打疫苗讓COVID-19感染率減少了95%!【註3】
  
在本文開始前,在此先簡述說明一下「分子生物學的中心法則」,建立對DNA、RNA、mRNA的基礎認識。
  
■分子生物學的中心法則 (central dogma)(圖1)
用最簡單最直接的方式來描述的話,生物體的遺傳訊息是儲存在細胞核的DNA中,每次細胞分裂時,DNA可以複製自己 (replication),因而確保每一代的細胞都帶有同樣數量的DNA。
  
而當細胞需要表現某個基因時,會將DNA的訊息轉錄 (transcribe) 到RNA上頭,再由RNA轉譯 (translate) 到蛋白質,而由蛋白質執行身體所需要的功能。這也就是所謂的分子生物學的中心法則 (central dogma)。
  
對於最終會製造成蛋白質的基因來說,RNA是扮演了中繼的角色,也就是說遺傳訊息本來儲存在 DNA 上頭,然後經過信使 RNA (messenger RNA, mRNA) 的接棒,最後在把這個訊息傳下去,製造出蛋白質。【註4】
  
■冠狀病毒的基因組由RNA構成
RNA不如DNA穩定,複製過程容易出錯,因此一般RNA病毒的基因組都不大。但冠狀病毒鶴立雞群,基因組幾乎是其他RNA病毒的三倍長,是所有RNA病毒中最大、最複雜的種類。
  
冠狀病毒還能以重組RNA的方式,相當頻繁地產生變異,但是基因組中位在最前端的RNA序列相對穩定,因為其中有掌控病毒蛋白酶與RNA聚合酶的基因,一旦發生變異,冠狀病毒很可能無法繼續繁衍。
  
目前抗病毒藥物的研發策略之一,正是設法抑制病毒RNA複製酶(RdRp)。而最前端的RNA序列也是現階段以反轉錄聚合酶連鎖反應(RT-PCR)檢驗新冠病毒時鎖定的目標。中央研究院院士賴明詔表示,不同病毒的核酸序列當中還是有各自的獨特變異,正好用來區分是哪一種冠狀病毒。【註5】
  
■SARS-CoV-2是具有3萬個鹼基的RNA病毒
中國科學院的《國家科學評論》(National Science Review)期刊【註2】,2020年3月發表《關於SARS-CoV-2的起源和持續進化》論文指出,現已發生149個突變點,並演化出L、S亞型。
  
病毒會變異的原因可略分成兩種:
▶一是「自然演變」
冠狀病毒是RNA病毒,複製精準度不如DNA病毒精準度高,只要出現複製誤差,就是變異。
▶二是「演化壓力」
當病毒遇到抗體攻擊,就會想辦法朝有抗藥性的方向演變,找出生存之道。【註6】
  
■mRNA 疫苗是一種新型預防傳染病的疫苗
近期,美國莫德納生物技術公司(Moderna)與輝瑞公司(Pfizer),皆相繼宣布其COVID-19 mRNA疫苗的研究成果。
  
莫德納公司在2020年11月30日宣布他們的mRNA-1273疫苗在三期臨床試驗達到94.1%(p<0.0001)的超高保護力,受試者中約四成為高風險族群(患糖尿病或心臟病等),7000人為高齡族群(65歲以上),另也包含拉丁裔與非裔族群(報告中未提到亞洲裔)。
  
傳統大藥廠輝瑞公司,亦在美國時間11月18日發佈令人振奮的新聞稿:他們的RNA疫苗(BNT162b2)三期臨床試驗已達設定終點,保護力高達95%(p<0.0001)。該試驗包含了4萬名受試者,其中約有四成受試者為中高齡族群(56~85歲),而亞洲裔受試者約占5%。
  
■mRNA疫苗為什麼可以對抗病毒?
為什麼mRNA疫苗會有用?就讓我們先從疫苗的原理「讓白血球以為有外來入侵者談起」。
  
在過往,疫苗策略大致上可分為兩種:
● 將病毒的屍體直接送入人體,如最早的天花疫苗(牛痘,cowpox)、小兒麻痺疫苗(沙克疫苗,polio vaccines)、肺結核疫苗(卡介苗,Bacillus Calmette-Guérin, BCG)以及流感疫苗等。
 
✎補正
卡介苗 BCG(Bacillus Calmette-Guerin vaccine) :卡介苗是一種牛的分枝桿菌所製成的活性疫苗,經減毒後注入人體,可產生對結核病的抵抗力,一般對初期症候的預防效果約85%,主要可避免造成結核性腦膜炎等嚴重併發症。
 
▶以流感疫苗為例,科學家通常先讓病毒在雞胚胎大量繁殖後,再將其殺死,也有部分藥廠會再去除病毒屍體上的外套膜(envelope),進一步降低疫苗對人體可能產生的副作用後,再製成疫苗。
  
● 將病毒的蛋白質面具,裝在另一隻無害的病毒上再送入人體,如伊波拉病毒(Ebola virus disease, EVD)疫苗等。
▶以伊波拉病毒疫苗為例,科學家會剪下伊波拉病毒特定的醣蛋白(glycoproteins)基因,置換入砲彈病毒(Rhabdoviridae)的基因組中,使砲彈病毒長出伊波拉病毒的醣蛋白面具。
  
上述例子都是將致命病毒的部分殘肢送入人體,當病毒被樹突細胞(dendritic cells)或巨噬細胞(macrophages)等抗原呈現細胞(antigen-presenting cell, APC)吃掉後,再由細胞將病毒殘肢吐出給其他白血球,進而活化整個免疫系統,然而,mRNA疫苗採取了更奇詭的路數 - 「讓人體細胞自己生產病毒殘肢!」
  
■mRNA 疫苗設計原理(圖2)
將人工設計好可轉譯出病毒蛋白質片段的mRNA,包裹於奈米脂質顆粒中,送入淋巴結組織內,奈米脂質顆粒會在細胞中釋出RNA,使人體細胞能自行產出病毒蛋白質片段,呈現給其他白血球,活化整個免疫系統。
  
■mRNA疫苗設計流程(圖3)
1「科學家獲得病毒的全基因序列」
因社群媒體的發達、公衛專家、病毒研究者以及期刊編輯的努力,這次的COVID-19病毒序列很快的被發表;中國北京疾病管制局的研究團隊,挑選了九位患者,其中有八位,都有前往華南海鮮市場的病史,並從這些患者採取了呼吸道分泌物的檢體,運用次世代定序 (NGS,Next Generation Sequencing) 的方式,拼湊出新型冠狀病毒全部與部分的基因序列。並陸續將這些序列資料,提供給全世界的病毒研究者交互確認,修正序列的錯誤。
  
2「解析病毒基因群裡所有的功能,選定目標蛋白質(Covid-19病毒棘蛋白質)」
以冠狀病毒為例,通常會選病毒表面的棘狀蛋白(spike protein)。因為棘蛋白分布於病毒表面,可作為白血球的辨識目標,同時病毒需透過棘蛋白和人體細胞受體(receptor)結合,進而撬開人體細胞,因此以病毒繁殖的策略而言,此處的蛋白質結構較穩定。
  
3「製造要送入人體的mRNA,挑選出會製造棘蛋白的mRNA進行修飾」
挑選會轉譯(translation)出目標蛋白質的mRNA,並進行各項修飾,以提高該人工mRNA在細胞裡被轉譯成蛋白質的效率。如:輝瑞的mRNA疫苗(BNT162b1)選用甲基化(methylation)後的偽尿嘧啶(1-methyl-pseudouridine)取代mRNA裡的原始尿嘧啶(uracil, U),有助於提升mRNA的穩定性,並提高mRNA被轉譯成病毒棘蛋白的效率。
  
4「將人工mRNA裹入特殊載體,將mRNA包裹入特殊載體顆粒中」
因為mRNA相當脆弱且容易被分解,因此需要對載體進行包裹和保護。然而,有了載體後,接踵而來的問題是「該怎麼送到正確的位置(淋巴結)?」。而輝瑞和莫德納不約而同地都選用了奈米脂質顆粒(lipid nanoparticles)包裹mRNA載體,奈米脂質顆粒通常由帶電荷的脂質(lipid)、膽固醇(cholesterol)或聚乙二醇(polyethylene glycol, PEG)修飾過的脂質等組成,可以保護RNA,並將mRNA送到抗原呈現細胞豐富的淋巴結組織。
  
5「包覆mRNA的奈米脂質顆粒,注射在肌肉組織」
使其能循環到淋巴結,被淋巴結中的細胞吃掉。奈米脂質顆粒釋放出mRNA,使細胞產出病毒蛋白質片段,進而呈現給其他白血球並活化整個免疫系統。【註7】
  
mRNA可將特定蛋白質的製造指示送至細胞核糖體(ribosomes)進行生產。mRNA 疫苗會將能製造新冠病毒棘狀蛋白的 mRNA 送至人體內,並不斷製造棘狀蛋白,藉此驅動免疫系統攻擊與記憶此類病毒蛋白,增加人體對新冠病毒的免疫力,最終 mRNA 將被細胞捨棄。
  
值得注意的是,由於 mRNA 疫苗並無攜帶所有能製造新冠病毒的核酸(nucleic acid),且不會進入人體細胞核,所以施打疫苗無法使人感染新冠病毒。
  
Pfizer、BioNTech 研發的 BNT162b2 是美國第 1 個取得 EUA 的 mRNA 疫苗,施打對象除成年人,還包含 16 歲以上非成年人。且相比 Moderna 製造的 mRNA-1273 疫苗,患者施打第 2 劑 BNT162b2 的副作用較輕微。
  
Moderna 也不遑多讓,mRNA-1273 於 2020 年 12 月中取得 EUA,且具備在 -20°C 儲存超過 30 天的優勢。在臨床試驗中,使用 mRNA-1273 的 196 位受試者皆無演變成重度 COVID-19,相較安慰劑組中卻有 30 人最終被標為重度 COVID-19 患者。【註8】
  
為了觸發免疫反應,許多疫苗會將一種減弱或滅活的細菌注入我們體內。mRNA疫苗並非如此。相反,該疫苗教會我們的細胞如何製造出一種蛋白質,甚至一種蛋白質片段,從而觸發我們體內的免疫反應。如果真正的病毒進入我們的身體,這種產生抗體的免疫反應可以保護我們免受感染。【註9】
  
【Reference】
▶DNA的英文全名是Deoxyribonucleic acid,中文翻譯為【去氧核糖核酸】
▶RNA 的英文全名是 Ribonucleic acid,中文翻譯為【核糖核酸】。
  
1.來源
➤➤資料
∎【註1】
Baden LR, El Sahly HM, Essink B, et al. Efficacy and Safety of the mRNA-1273 SARS-CoV-2 Vaccine. N Engl J Med. 2020 Dec 30:NEJMoa2035389. doi: 10.1056/NEJMoa2035389. Epub ahead of print. PMID: 33378609; PMCID: PMC7787219.
https://www.nejm.org/doi/full/10.1056/NEJMoa2035389
  
Polack FP, Thomas SJ, Kitchin N, et al. Safety and Efficacy of the BNT162b2 mRNA Covid-19 Vaccine. N Engl J Med. 2020 Dec 31;383(27):2603-2615. doi: 10.1056/NEJMoa2034577. Epub 2020 Dec 10. PMID: 33301246; PMCID: PMC7745181.
https://www.nejm.org/doi/full/10.1056/NEJMoa2034577
  
∎【註2】
Xiaoman Wei, Xiang Li, Jie Cui, Evolutionary perspectives on novel coronaviruses identified in pneumonia cases in China, National Science Review, Volume 7, Issue 2, February 2020, Pages 239–242, https://doi.org/10.1093/nsr/nwaa009
  
∎【註3】
▶蘇一峰 醫師:https://www.facebook.com/bsbipoke
▶中時新聞網 「mRNA疫苗臨床試驗95%有效 醫:哪國搶到就能結束比賽」:
https://www.chinatimes.com/realtimenews/20210104004141-260405?chdtv
  
∎【註4】
( 台大醫院 National Taiwan University Hospital-基因分子診斷實驗室)「DNA、RNA 以及蛋白質」:https://www.ntuh.gov.tw/gene-lab-mollab/Fpage.action?muid=4034&fid=3852
  
∎【註5】
《科學人》粉絲團 - 「新冠病毒知多少?」:https://sa.ylib.com/MagArticle.aspx?id=4665
  
∎【註6】
(報導者 The Reporter)【肺炎疫情關鍵問答】科學解惑 - 10個「為什麼」,看懂COVID-19病毒特性與防疫策略:https://www.twreporter.org/a/covid-19-ten-facts-ver-2
  
∎【註7】
科學月刊 Science Monthly - 「讓免疫系統再次偉大!mRNA疫苗會是COVID-19的救世主嗎?」:https://www.scimonth.com.tw/tw/article/show.aspx?num=4823&page=1
  
∎【註8】
GeneOnline 基因線上 「4 大 COVID-19 疫苗大解密!」 :https://geneonline.news/index.php/2021/01/04/4-covid-vaccine/
  
∎【註9】
(CDC)了解mRNA COVID-19疫苗
https://chinese.cdc.gov/coronavirus/2019-ncov/vaccines/different-vaccines/mrna.html
  
➤➤照片
∎【註4】:
圖1、分子生物學中心法則
  
∎【註7】:
圖2:mRNA 疫苗設計原理
圖3:mRNA 疫苗設計流程圖
  
  
2. 【國衛院論壇出版品 免費閱覽】
▶國家衛生研究院論壇出版品-電子書(PDF)-線上閱覽:
https://forum.nhri.org.tw/publications/
  
3. 【國衛院論壇學術活動】
https://forum.nhri.org.tw/events/
  
#國家衛生研究院 #國衛院 #國家衛生研究院論壇 #國衛院論壇 #衛生福利部 #疾病管制署 #COVID-19 #mRNA疫苗 #新英格蘭醫學醫學期刊 #NEJM

衛生福利部 / 疾病管制署 - 1922防疫達人 / 財團法人國家衛生研究院 / 國家衛生研究院-論壇

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translation of dna 在 臨床筆記 Facebook 的最佳解答

臨床筆記 By 臨床筆記

2021-01-25 07:47:51 有 107 人按讚
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SARS-CoV-2的疫苗研發製造的策略:

1.去活化病毒疫苗(inactivated virus vaccines):

病毒已經是被用物理的或化學的去活化(Viruses are physically or chemically inactivated),但是仍然保存病毒顆粒的完整性(preserve the integrity of the virus paticle),它們充當免疫抗原(immunogen)。

2.病毒類似的顆粒或奈米顆粒的疫苗(Virus -like particle or nanoparticle vaccines):

結構性的病毒的蛋白質已經被共同表現(structural viral proteins are co-expressed),,形成沒有感染性的顆粒(form non-infectious particles),來當作疫苗的免疫抗原(vaccine immunogen),它們類似真實的類病毒(real virions)但是缺乏病毒的基因體(lack the virus genome)。

3.蛋白質次單元的疫苗(Protein subunit vaccines):

這種策略只有包括關鍵性的病毒的蛋白質或胜太(only key proteins or peptides),它們能夠在細菌(bacteria)酵母菌(yeast)昆蟲或脯乳類細胞(insect or mammalian cells)中在人體外被製造(manufactured in vitro),目前最大多數的在臨床期和臨床前期階段登錄在案候選的SARS-CoV-2疫苗,都是根據這種策略研發製造的。

4.病毒引導導航導向的疫苗(virus-vectored vaccines):

編碼致病原抗原的基因(genes encoding pathogen antigen),是被導入非複製的或複製的病毒載體(cloned into non-replicating or replicating virus vectors)例如腺病毒(adenvirus),這些抗原在免疫化作用後,由被轉換的宿主細胞產生(the antigens are produced by transduced host cells after immunization)。

5.DNA和mRNA疫苗(DNA and mRNA vaccines):

DNA和mRNA疫苗(DNA and mRNA vaccines),有可以快速製造用來抵抗突現性的致病原的優勢(DNA and mRNA vaccines have the advantage of rapid manufacturing against pathogens),DNA 疫苗(DNA vaccines),藉由再重組的DNA 質體所編碼的病毒的抗原(viral antigens encoded by a recombinant DNA plasmid),在宿主細胞中經由次序性的轉錄到轉譯的過程產生(produced in host cells via sequential transcription-to translation process)。相反地,mRNA 疫苗(mRNA vaccines)是藉由在人體外的轉錄過程被合成(synthesized by in vitro transcription),它們經由在人體內的直接的蛋白質轉譯,在細胞質中產生病毒的抗原(they produce viral antigens in the cytoplasm through direct protein trsnslation in vivo)。

6.活的減毒的病毒疫苗(Live-attenuated virus vaccines):
在這種策略中,病毒是藉由在人體外或人體內的過程或反向的遺傳的突變的產生作用而被減毒(virus is attenuated by in vitro or in vivo passage or reverse genetic mutagenesis),這個結果病毒變成沒有致病性或變成弱的致病性(the resulting virus becomes non-pathogenic or weakly pathogenic),但是仍然維持保持類似活的病毒感染的免疫抗原性(retains immunogenecity by mimicking live virus infection)。

資料來源:
Viral targets for vaccines against COVID-19
Nature Reviews Immunology(2020)18 DEC 2020)

感謝 #Cheng_Sheng_Tai 醫師提供資料

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コバにゃんチャンネル By コバにゃんチャンネル

2021-10-01 13:19:08 有 9 人看過 有 1 人喜歡
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コバにゃん☆です?
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長照是一個劇變的旋轉舞台 百年難得一見 沒有準備的人 被旋轉舞台甩出去 不是坐下就是躺下 而大象中醫是太極的推手 推動著旋轉舞台 讓 所有爬不起來的人 背後有一股推手力量 支撐再站起來
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長照是一個劇變的旋轉舞台 百年難得一見 沒有準備的人 被旋轉舞台甩出去 不是坐下就是躺下 而大象中醫是太極的推手 推動著旋轉舞台 讓 所有爬不起來的人 背後有一股推手力量 支撐再站起來
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看看搜尋的結果吧:

translation of dna 在 Translate tool - Expasy 的相關結果

Translate is a tool which allows the translation of a nucleotide (DNA/RNA) sequence to a protein sequence. DNA or RNA sequence. Output format. ... <看更多>

translation of dna 在 Translation: DNA to mRNA to Protein | Learn Science at Scitable 的相關結果

A schematic diagram shows the transcription and translation processes in three basic steps. First,. Figure 1: A gene is expressed through the processes of ... ... <看更多>

translation of dna 在 Translation (biology) - Wikipedia 的相關結果

In molecular biology and genetics, translation is the process in which ribosomes in the cytoplasm or endoplasmic reticulum synthesize proteins after the ... ... <看更多>

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#44. Dna replication, transcription and translation - SlideShare

Dna replication, transcription and translation. 9. The Molecular Basis of Inheritance Figure 16.7a, c C T A A T CG 1962: Nobel Prize in Physiology and ...

#45. What is a translation of DNA? | Socratic

Translation is process of protein synthesis directed by mRNA; it takes place on ribosomal surface. So DNA is not directly involved in ...

#46. 1: DNA Replication, Transcription and Translation - Biology ...

1: DNA Replication, Transcription and Translation · messenger RNA=mRNA: will be translated into specific amino acid sequence of a protein

#47. DNA, RNA, replication, translation, and transcription - UCSB ...

DNA, RNA, replication, translation, and transcription. Overview. Recall the central dogma of biology: DNA (genetic information in genes) → RNA (copies of ...

#48. Gene expression: DNA to protein | Biological Principles

Describe the process of and key components required for translation. Predict the likely effects of mutations in DNA on protein amino acid sequence, ...

#49. DNA translation - Science topic - ResearchGate

When we translate the DNA sequence into amino acids it usually gives asterisk * sign indicating the number of stop codons. But by removing this signs our ...

#50. How Does DNA Translation Work? - Sciencing

Translation is the final step of translating a DNA sequence into a functional protein. RNA/protein complex molecules called "ribosomes" attach ...

#51. Genetic code, translation - DNA from the Beginning

Animation in Concept 22: DNA words are three letters long, DNA from the Beginning.

#52. trans: Translation from DNA to Amino Acid Sequences in ape

trans translates DNA sequences into amino acids. complement returns the (reverse) complement sequences.

#53. translation: dna protein - ONLINE ANALYSIS TOOLS

Translate (ExPASy, Switzerland) - is a tool which allows the translation of a nucleotide (DNA/RNA) sequence to a protein sequence. red_bullet.gif (914 bytes) ...

#54. DNA to mRNA to Protein Converter

Translates DNA or mRNA to the other and a Protein strand (amino acids). Input Strand. Go to Output. DNA OR mRNA. Input Keypad. A T. G C. Convert Clear ...

#55. Transcription vs Translation Worksheet | Technology Networks

Here, we will focus on eukaryotic cells. DNA vs RNA To understand fully the different processes involved in gene expression, it is key that you ...

#56. Save the protein translation of a DNA Sequence - User Guides

Translate a CDS Feature. Open a DNA file with a Translated Feature (CDS). In Map view, click on the Feature to select the open ...

#57. eZ-101: Protein Translation - e-Zyvec

Messenger RNA (mRNA), transcribed from DNA, will be processed by the ribosomal machinery to produce the corresponding protein. Using the genetic code, ribosomes ...

#58. Transcription and Translation Practice.pdf - Jeffco Public ...

RNA contains Uracil instead of. Thymine. Page 2. Now try these examples: First transcribe the DNA into mRNA and then use the genetic code to translate the mRNA ...

#59. DNA Replication, Transcription & Translation (A Level) - the ...

DNA is converted into protein in two processes which sound annoyingly similar - transcription and translation. Semi-conservative DNA replication. During cell ...

#60. CHANGING THE LANGUAGE OF DNA | SCQ - The Science ...

Translation is the process where mRNA is read and translated into a string of amino acids. This process takes place at organelles called ...

#61. DNA | translate English to Russian: Cambridge Dictionary

Translation of DNA – English–Russian dictionary · Translations of DNA · Browse · Test your vocabulary with our fun image quizzes.

#62. Microbe breaks 'universal' DNA rule by using two different ...

DNA is often referred to as the blueprint for life, ... discovered a microbe that uses two different translations of the DNA code at random.

#63. DNA Replication, Transcription and Translation - Proteopedia

2 Transcription and Translation. 2.1 RNA polymerase binding to specific site on double-helical DNA; 2.2 Synthesis of RNA; 2.3 Termination of Transcription.

#64. Create, view and analyze translations | Benchling Help Center

Translate a DNA sequence, create an annotation and generate biochemical properties for that translation.

#65. 2.7 DNA replication, transcription and translation - Peoria ...

U4 Transcription is the synthesis of mRNA copied from the DNA base sequences by RNA polymerase. 2.7.U5 Translation is the synthesis of polypeptides on.

#66. What Molecule Is the Result of DNA Translation? - Education ...

Translation is the second of two steps that turn DNA into you. Transcription. Genes consist of sequences of molecules, called bases, in your DNA. During ...

#67. Nick translation DNA labeling system 2.0 - ENZ-GEN111

The Nick Translation DNA Labeling System 2.0 provides a simple and efficient method for generating labeled DNA. The complete system includes all of the ...

#68. DNA Replication Antibodies, Lysates, Proteins, and RNAi ...

Next, transcription of this complementary DNA strand involves synthesizing mRNA within the nucleus. The next step, translation, converts this mRNA into ...

#69. Transcription vs Translation- Definition, 15 Differences ...

Transcription Definition. Transcription is the process where the genetic information on a DNA strand is transferred into an RNA strand by a ...

#70. Name

the following DNA strand into mRNA and translate that strand into a polypeptide chain, identifying the codons, anticodons, and amino acid sequence. DNA: CG ...

#71. Regulation of p53 Translation and Induction after DNA ...

Increases in p53 protein levels after DNA damage have largely been attributed to ... Effects of DNA Damage and the 5′UTR on p53 Translation.

#72. AP Biology : Translation - Varsity Tutors

No new molecules of RNA or DNA are synthesized during this process. tRNA is used to bring amino acids to the ribosome, binding an anticodon to the exposed codon ...

#73. From DNA to Protein

Transcription of the DNA Molecule: Including the origin of messenger. RNA(mRNA), transfer RNA (tRNA), and ribosomal RNA (rRNA). • Translation of the mRNA ...

#74. Making Sentences of DNA - Utah Education Network

... synthesis using sentences for DNA/RNA codes and words for amino acids. They will transcribe and translate the DNA into a sentence.

#75. DNA, RNA, Transcription, and Translation (Protein Synthesis)

DNA, RNA, Transcription, and. Translation (Protein Synthesis). Standard H.B.4 The student will demonstrate an understanding of the specific mechanisms by ...

#76. DNA and Proteins - Genetics Generation

Once the mRNA molecule has been synthesized, specific chemical modifications must be made that enable the mRNA to be translated into protein. 2. Translation: ...

#77. Transcription and Translation | McGraw-Hill Education

Question: How is the DNA of the genome translated into functional proteins? The original definition of the term gene was based on the capacity of sections ...

#78. Unit 6 PPT #2

Starts with DNA….transcribed into mRNA…..translated into proteins by tRNA. This process is known as: Central Dogma of. Molecular Biology ...

#79. Comprehensive identification of translation start sites by ...

Recent advances in DNA sequencing has permitted rapid determination of the complete genomes of thousands of bacteria. 1 Computational analyses of ...

#80. 'Start Codons' in DNA and RNA May Be More Numerous Than ...

A central principle regarding translation has long held that only a small number of three-letter sequences in mRNA, known as start codons, could ...

#81. transcription, translation

DNA > messenger RNA > protein. a protein is a molecule made of amino acids. proteins are the only direct product of the translation of the DNA genetic code.

#82. A Science Odyssey: DNA Workshop: Text Version - PBS

Transcription: Unzip DNA ... Selecting the "Unzip" button causes a portion of the DNA molecule to split ... Translation: Match tRNA anticodon to mRNA codon.

#83. Starting off in Bioinformatics — Turning DNA sequences into ...

Turning DNA into Proteins. When you know a DNA sequence, you can translate it into the corresponding protein sequence by using the genetic code. This is the ...

#84. Transcription and Translation | Ask A Biologist

However, the genetic code on the DNA is contained in the nucleus, ... The actual step of protein production is called translation.

#85. Transcription and Translation | Basic Biology

During translation, the RNA molecule created in the transcription process delivers information from the DNA to the protein-building machines.

#86. Chapter: Transcription & Translation - The Biology Primer

The nucleotides of RNA are known as ribonucleotides. These nucleotides bond to the template strand via hydrogen bonds after the DNA molecule opens up. And then ...

#87. Translation or Protein Synthesis - Hyperphysics

The information required to build proteins resides on the DNA in the form of sequences of bases, and has the form of triplets of bases called "codons" following ...

#88. DNA to Protein | STEM Resource Finder

Explore how the code embedded in DNA is translated into a protein. DNA transcription and mRNA translation are modeled.

#89. Regulation of Transcription | Concise Medical Knowledge

Central dogma: To express a gene, DNA is transcribed into RNA, which is then translated into a protein (or a protein fragment known as a ...

#90. DNA Transcription and Translation | Crash Course Biology

Hank imagines the secret recipes and instruction manuals that that help explain DNA transcription and translation. Of course, this is done through an ...

#91. Translation of DNA or RNA to protein - CLC Manuals ...

Translation of DNA or RNA to protein. In CLC Genomics Workbench you can translate a nucleotide sequence into a protein sequence using the Toolbox tools.

#92. Differentiate between transcription and translation. - Vedantu

Complete answer: The central dogma in molecular biology shows that DNA makes mRNA and mRNA make proteins. DNA transcription → mRNA translation→Proteins The ...

#93. DNA/RNA TRANSLATOR

DNA /RNA Translator · The translator takes a DNA or RNA sequence consisting of A, T or U, C, and G. · Ambiguous nucleotides (e.g. M, V, X) are not recognized.

#94. Chapter 9 Genetics Chromosome Genes • DNA RNA Protein ...

DNA. RNA. Protein. –Replication - copy DNA. –Transcription - make mRNA. –Translation - make protein. Flow of Genetics/Information. The Central Dogma ...

#95. 5.7 Protein Synthesis - Human Biology

During translation, the genetic code in mRNA is read and used to make a ... Figure 5.7.2 Transcription uses the sequence of bases in a strand of DNA to make ...

#96. Labeling of DNA Probes by Nick Translation - CSH Protocols

Abstract. In this method, E. coli DNA Pol I binds to a nick or short gap in duplex DNA. The 5′ → 3′ exonuclease activity of Pol I then removes nucleotides ...

#97. How does the information in our DNA build life? - Helix Blog

These messages originate in your DNA and are then translated into life's molecular machinery known as proteins.