博碩士論文 105324062 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曾也家zh_TW
DC.creatorYeh-Chia Tsengen_US
dc.date.accessioned2018-7-30T07:39:07Z
dc.date.available2018-7-30T07:39:07Z
dc.date.issued2018
dc.identifier.urihttp://ir.lib.ncu.edu.tw:444/thesis/view_etd.asp?URN=105324062
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幹細胞於再生醫學以及組織工程之應用上是相當具有前瞻性的研究來源。其中,人類胚胎幹細胞以其能保有細胞原有之多功能特性而常用於生醫領域上之研究。常見的塗層培養材料,如:基質膠、層黏蛋白511、層黏蛋白521、重組玻連蛋白等等。這些塗層材料皆是以細胞分泌之細胞外間質而來。在本研究中,有三組不同的奈米片段設計,用以探索人類胚胎幹細胞於無異種材料上之生長,包含:(一)以聚(乙二醇)2-氨基乙基醚乙酸交聯劑接枝於聚(乙烯醇 - 共 - 衣康酸)水凝膠與寡玻?之間之材料 (二)於聚(乙烯醇 - 共 - 衣康酸)水凝膠接枝含不同長度之結合片段之寡?之材料 (三)可塗層於培養盤之奈米片段設計之材料,以上材料將透過鑑定分析評估其在生物醫學領域上之應用。 (一)以聚(乙二醇)2-氨基乙基醚乙酸交聯劑接枝於聚(乙烯醇 - 共 - 衣康酸)水凝膠與寡玻?間,為了使先前的研究能得以改善其表面所需寡?濃度高之問題(高於500μg/ml),本研究中利用交聯劑特性於表面提供了一長鏈結構,一則使得表面結構更加地具有彈性,便於細胞貼附時更容易找到寡?上之鍵結部位,使得表面所需之寡?含量降低。二則能模仿如同細胞外間質蛋白上之微環境供細胞更好地貼附及生長。 (二)於聚(乙烯醇 - 共 - 衣康酸)水凝膠接枝含不同長度之結合片段之寡?之設計,包含:單鏈寡?、含有結合片段之單鏈寡?、雙鏈寡?以及含有結合片段之雙鏈寡?,透過設計以上序列以探索不同結合片段於寡?上所造成之影響,並藉由人類胚胎幹細胞培養於此材料上做多能性測試以及誘導成為心肌細胞以評估其在無異種環境下生醫領域之應用特性。 (三)為了改善小分子寡?接枝於聚(乙烯醇 - 共 - 衣康酸)水凝膠時所需之高濃度用量(高於500μg/ml),希冀將疏水特性之寡?鏈連接於寡玻?之上以此模仿細胞外間質能塗層於培養盤之表面的特性,提供一種更為方便製作培養盤之方法。 以上奈米片段分子之設計,提供了三種於使用小分子寡玻?製作培養盤時之改良方法,以能使得小分子寡?能更好地運用於幹細胞培養以及再生醫學之臨床應用,並透過X射線光電子能譜、細胞型態之觀察以及免疫蛋白染色等,完整的評估其特性。zh_TW
dc.description.abstractStem cells are an attractive prospect for regenerative medicine and tissue engineering. The dishes coated with Matrigel, Synthemax II, Laminin 511, Laminin 521, and Cellstart are typically used for the cell culture substrates for human embryonic stem cells (hESCs). These coating materials were based on extracellular matrix (ECM), which were secreted from cells. Our previous study showed that hESCs can be cultured on polyvinylalcohol-co-itaconic acid (PVA-IA) hydrogels conjugated with higher concentration of oligovitronectin (>500 μg/mL) as hESC culture substrates. In order to solve the reason of the higher concentration usage of oligovitronectin conjugated on PVA-IA hydrogels, we designed another PVA-IA hydrogels conjugated with oligovitronectin for hESCs culture substrates using crosslinker of PEG-AEAC (Poly(ethylene glycol)-2-aminoethyl ether acetic acid) and we evaluated hESC attachment and pluripotency cultured on these hydrogels. The PVA-IA hydrogels were prepared by coating aqueous PVA-IA solution on the tissue culture polystyrene (TCPS) dishes and were crosslinked with glutaraldehyde to control hydrogel stiffness. Twice activation was performed to conjugate oligovitronectin on PVA-IA hydrogels via PEG-AEAC crosslinker by the peptide bonding reaction between carboxylic group and amino group. We investigated the effect of long crosslinking agent of PEG-AEAC on the culture of hESCs on PVA-IA hydrogels grafted with oligovitronectin via PEG-AEAC. We have also tried same reaction but with different length of PEG-AEAC to evaluate the length effect on the culture of hESCs in the dishes. After the long term culture of hESCs on the PVA-IA hydrogels (more than 10 passages), we evaluated pluripotency and differentiation ability of hESCs. Moreover, we design several oligopeptide sequence with different length of joint segment to investigate which oligopeptide-grafted hydrogel molecular design with optimal length of joint segments supported the proliferation of hESCs while hESCs maintained their pluripotency and differentiation ability into cardiomyocytes under xeno-free cell culture conditions. In addition, we designed the small molecules of oligopeptides for hESC culture, which could be coated directly to the TCPS dishes in order to decrease the concentration of these small molecules of oligopeptides used and also to provide a much more convenient way to prepare hESC culture dishes.en_US
DC.subject人類胚胎幹細胞zh_TW
DC.subject奈米片段zh_TW
DC.subject細胞培養zh_TW
DC.subject無異種zh_TW
DC.subject分子設計zh_TW
DC.subject生醫材料zh_TW
DC.subjecthuman embryonic stem cellsen_US
DC.subjectmolecular designen_US
DC.subjectnanosegmentsen_US
DC.subjectxeno-freeen_US
DC.subjectcell cultureen_US
DC.subjectbiomaterialsen_US
DC.title用於人類胚胎幹細胞生長之生醫材料其奈米片段分子之設計zh_TW
dc.language.isozh-TWzh-TW
DC.titleMolecular Design of Nanosegments on Cell Culture Biomaterials for Proliferation of Human Embryonic Stem Cellsen_US
DC.type博碩士論文zh_TW
DC.typethesisen_US
DC.publisherNational Central Universityen_US

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