博碩士論文 105324050 完整後設資料紀錄

DC 欄位 語言
DC.contributor化學工程與材料工程學系zh_TW
DC.creator周韋成zh_TW
DC.creatorWei-Cheng Chouen_US
dc.date.accessioned2018-7-12T07:39:07Z
dc.date.available2018-7-12T07:39:07Z
dc.date.issued2018
dc.identifier.urihttp://ir.lib.ncu.edu.tw:88/thesis/view_etd.asp?URN=105324050
dc.contributor.department化學工程與材料工程學系zh_TW
DC.description國立中央大學zh_TW
DC.descriptionNational Central Universityen_US
dc.description.abstract在近幾年來,核酸檢測的發展對於精準醫療的進展扮演很重要的角色,由於多晶矽奈米線場效電晶體具高靈敏度、迅速的反應時間及即時檢測,因此在核酸檢測應用端上已經成為一有力工具在。 在核酸檢測中,富含GC鹼基的核酸序列容易具有非專一性的結合,常常造成精準醫療發展上的阻礙。造成非專一性的結合是因為富含GC鹼基之序列容易形成二級結構,形成hairpin或是loop結構,在核酸檢測的訊號上帶來不準確性及可能在醫療上錯誤的執行。 為了能夠解決非專一性的核酸檢測,我們嘗試利用甲基化核酸DNA作為我們的檢測探針,甲基化核酸探針因為其核苷酸間磷酸根骨幹之官能基被甲基化,所以成為不帶電的DNA類似物。在我們實驗室先前的研究中,因為其不帶電的特性,在低鹽環境下能夠使DNA雙股在雜交時其靜電排斥效應減弱,形成穩定雙股螺旋結構,而一般DNA則因為靜電排斥力,其雙股螺旋結構較為不穩定,因此本研究設計nDNA於探針中,進一步針對基因檢測更困難的富含GC鹼基序列,嘗試得到較佳專一性,確實且有效率地提升DNA探針在與另一股DNA雜交時的辨識力。 在本研究中,選擇(3-aminopropyl)triethoxysilane(APTES)化合物為固定DNA探針之偶聯劑,為建立穩定且較佳的檢測訊號,所以先嘗試去找到APTES固定DNA探針的最佳化學條件,來使固定在多晶矽奈米線場效電晶體上之DNA探針具一致性,實驗結果發現,APTES溶於99%及95%酒精,在環境通入氮氣後比起沒有通入氮氣,其表面型態更為均勻,且固定上DNA探針經由FET量測,所得到之每一次量測訊號穩定許多。而後利用甲基化核酸DNA作為探針,檢測富含GC鹼基之序列,從實驗結果中,我們在低鹽濃度的情況下,確實有效地提升檢測富含GC鹼基的辨識力,且我們把在低鹽濃度之雜交環境溫度提升至40℃,更發現到nDNA探針辨識單一鹼基錯誤配對的能力進一步提升,因此從結果上來看,利用甲基化核酸DNA探針在多晶矽奈米線場效電晶體的核酸檢測上,與一般DNA探針比較下,甲基化核酸DNA具更大的潛力,配合雜交環境的選擇,可以創造更佳的檢測專一性。zh_TW
dc.description.abstractIn recent years, researches on detection of nucleic acid have played an important role in the development of precision medicine. Nanowire field effect transistor(NWFET) has been a powerful tool for DNA or protein sensor due to their high sensitivity, fast response time and can be applied in real-time detection. Nonspecific biosensing signal of these GC-rich nucleic acids will hamper the progress of the research into gene sequences. It is believed that the main cause of nonspecific biosensing of GC-rich sequences is the formation of a secondary structure such as hairpins or loops and result in self-complementary conformation. To solve the nonspecific biosensing, we try to make good use of phosphate methylated DNA(nDNA) as a detection probe on the sensor surface. It is an uncharged DNA analogue due to the backbone phosphate groups changed by methylphosphate groups, making no electrostatic repulsion during hybridization between nDNA and regular DNA. From the previous study of our laboratory, the perfect match sequences will become more stable due to the reduction of electrostatic repulsion between the complementary DNA. As the result, we can indeed increase the efficiency of mismatch discrimination. In our studies, we tried to find a optimized condition of incubating FET substrate with (3-aminopropyl)triethoxysilane(APTES) to achieve uniform ligand density. Followed by immobilized nDNA as probe for possible better binding/hybridization specificity of GC-rich target miRNA. By detecting HCV-3b RNA on the NWFET, nDNA probe can successfully improve the mismatch discrimination in GC-rich nucleic acids in a lower hybridization salt concentration. We conclude that nDNA probe can effectively increase specificity on detecting GC-rich nucleic acids in NWFET. With the advantages of lower salt concentration condition, we believe that designed nDNA probes provide tremendous potential in biosensing on NWFET with higher specificity comparing with that of natural DNA probe.en_US
DC.subject矽奈米線場效電晶體zh_TW
DC.subject核酸zh_TW
DC.subjectGC 含量zh_TW
DC.subject單一核苷酸多形性zh_TW
DC.subjectsilicon nanowire field effect transistoren_US
DC.subjectnucleic aciden_US
DC.subjectGC contenten_US
DC.subjectsingle nucleotide polymorphen_US
DC.title設計不帶電中性核酸探針於矽奈米線場效電晶體來改善富含GC鹼基核醣核酸之檢測專一性zh_TW
dc.language.isozh-TWzh-TW
DC.titleImprovement of GC-rich RNA detection specificity by methylated phosphate DNA probe design on nanowire field effect transistoren_US
DC.type博碩士論文zh_TW
DC.typethesisen_US
DC.publisherNational Central Universityen_US

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