交大校區生物科技學院應用微生物實驗室誠徵產業博士班數名(112 年8月起修業四年: 前兩年學校上課與研究,後兩年業界工作實習,修業四年期間獎助金由教育部與產業共同提供)
合作廠商: 益佳元生物科技股份有限公司
益佳元以益生菌應用與開發為主,研究方向包括免疫調節、代謝調節及其他功能性應用研究。
產學博士生研究方向為益生菌應用與開發
有意願的生科領域相關碩士或學士學位同學請先來信了解,與留意陽明交通大學博士班112年考試入學時程與簡章(交大校區生物科技學院產業博士班)
實驗室網頁: https://sites.google.com/view/cptlab
曾老師 cpts@nycu.edu.tw
江同學 candyi8113@gmail.com
Recent Publications
Preventing ischemia-reperfusion injury by acousto-mechanical local oxygen delivery
15
Mar
Mar
何奕儒助理教授研究團隊發表研究成果於Journal of Controlled Release
連結網址:https://www.sciencedirect.com/science/article/pii/S0168365923001852?via%3Dihub
Abstract
Ischemia-reperfusion (I/R) injury is a pathological process that causes vascular damage and dysfunction which increases recurrence and/or mortality in myocardial infarction, ischemic stroke, and organ transplantation. We hypothesized that ultrasound-stimulated oxygen-loaded microbubble (O2-MB) cavitation would enhance mechanical force on endothelium and simultaneously release oxygen locally at the targeted vessels. This cooperation between biomechanical and biochemical stimuli might modulate endothelial metabolism, providing a potential clinical approach to the prevention of I/R injury. Murine hindlimb and cardiac I/R models were used to demonstrate the feasibility of injury prevention by O2-MB cavitation. Increased mechanical force on endothelium induced eNOS-activated vasodilation and angiogenesis to prevent re-occlusion at the I/R vessels. Local oxygen therapy increased endothelial oxygenation that inhibited HIF-1α expression, increased ATP generation, and activated cyclin D1 for cell repair. Moreover, a decrease in interstitial H2O2 level reduced the expression of caspase3, NFκB, TNFα, and IL6, thus ameliorating inflammatory responses. O2-MB cavitation showed efficacy in maintaining cardiac function and preventing myocardial fibrosis after I/R. Finally, we present a potential pathway for the modulation of endothelial metabolism by O2-MB cavitation in relation to I/R injury, wound healing, and vascular bioeffects.
Recent Publications
Erinacine S from Hericium erinaceus mycelium promotes neuronal regeneration by inducing neurosteroids accumulation
15
Mar
Mar
黃兆祺教授研究團隊發表研究成果於Journal of Food and Drug Analysis
連結網址:https://www.jfda-online.com/journal/vol31/iss1/3/
Abstract
Erinacines derived from Hericium erinaceus have been shown to possess various health benefits including neuroprotective effect against neurodegenerative diseases, yet the underlying mechanism remains unknown. Here we found that erinacine S enhances neurite outgrowth in a cell autonomous fashion. It promotes post-injury axon regeneration of PNS neurons and enhances regeneration on inhibitory substrates of CNS neurons. Using RNA-seq and bioinformatic analyses, erinacine S was found to cause the accumulation of neurosteroids in neurons. ELISA and neurosteroidogenesis inhibitor assays were performed to validate this effect. This research uncovers a previously unknown effect of erinacine S on raising the level of neurosteroids.
生物科技學院第1屆傑出院友名單
國立陽明交通大學生物科技學院111學年度第1屆傑出院友當選名單出爐了!今年遴選出的3位傑出院友榮獲此殊榮。
當選的傑出院友將於112年4月8日院慶慶祝大會中公開表揚,並邀請傑出院友傳承其成功之心路歷程,以為後進學子之楷模。
報名連結:https://sites.google.com/view/2023-nycu-cbt-day/%E5%A0%B1%E5%90%8D
傑出院友名單如下:
吳世揚
(88年生科碩畢)
現職:
宣捷幹細胞生技股份有限公司總經理
傑出事蹟
- 協助推動特管法立案
- 協助新創生技公司獲得ISO、GMP等相關證照。
- 在細胞治療上取得授權,並大力推動細胞治療。
翁順隆
(104年生科博畢)
現職:
新竹馬偕醫院院長
傑出事蹟
- 成立竹竹苗首間Covid-19病毒檢測實驗室,榮獲中華民國醫師公會全國聯合會110年防疫特殊貢獻獎
- 新竹市醫師公會110年度防疫貢獻獎
郭鐘達
(92年生科博畢)
現職:
中華科技大學校長
傑出事蹟
- 未滿50歲任科技大學校長,彰顯生科院育才卓越
- 專利獲取及論文發表豐碩,體現生科院教導靈活多元
- 聘請多位院友至中華科技大學執教,發揚交大「飲水思源」校風
- 帶領中華科技大學多面向發展,延續交大「求實學、務實業」的教育特色
國立陽明交通大學112年度碩士班考試入學新生座談會暨正取生報到注意事項
1.請正取生親自攜身分證正本、歷年成績單、畢業證書正本,請於112年3月14日(星期二)上午九時三十分前,至博愛校區賢齊館310室辦理報到手續,逾時未報到者,以放棄錄取資格論。(報到時須繳驗學歷(力)證件,應屆畢業生尚未領取畢業證書者,可填寫切結書辦理報到。)另在職生須附上在職證明書正本。
2.本院謹訂於112年3月14日(二)上午10:00舉辦新生座談會並開放各實驗室參訪(中午備有餐點),歡迎正、備取生踴躍參加。
生物科技學院112學年新生座談會
時間:112年3月14日(星期二)
09:30–10:00正取生報到(地點:賢齊館310室)
10:00–10:30師生介紹(地點:賢齊館310室)
10:30–12:00參訪實驗室
12:00–13:00午餐(賢齊館310室)
13:00–16:00參訪實驗室
3.錄取系(所)聯絡方式,電話:03-5729287、傳真:03-5729288
4.切結書
5.放棄聲明書
碩士班考試榜單
謝仁俊教授研究團隊發表研究成果於Frontiers in Neuroscience
連結網址:https://www.frontiersin.org/articles/10.3389/fnins.2023.1114771/full
Introduction: This study sought to elucidate the cognitive traits of visual artists (VAs) from the perspective of visual creativity and the visual system (i.e., the most fundamental neural correlate).
Methods: We examined the local and long-distance intrinsic functional connectivity (FC) of the visual system to unravel changes in brain traits among VAs. Twenty-seven university students majoring in visual arts and 27 non-artist controls were enrolled.
Results: VAs presented enhanced local FC in the right superior parietal lobule, right precuneus, left inferior temporal gyrus (ITG), left superior parietal lobule, left angular gyrus, and left middle occipital gyrus. VAs also presented enhanced FC with the ITG that targeted the visual area (occipital gyrus and cuneus), which appears to be associated with visual creativity.
Discussion: The visual creativity of VAs was correlated with strength of intrinsic functional connectivity in the visual system. Learning-induced neuroplasticity as a trait change observed in VAs can be attributed to the macroscopic consolidation of consociated neural circuits that are engaged over long-term training in the visual arts and aesthetic experience. The consolidated network can be regarded as virtuoso-specific neural fingerprint.
謹訂於112年4月8日(六)於賢齊館舉辦生物科技學院20週年院慶,結合學術成果發表、院友回娘家、第一屆傑出院友頒獎典禮及生涯分享的生科院20週年年度盛事,誠摯邀請所有院友及在校同學共同參加。
活動網址:https://sites.google.com/view/2023-nycu-cbt-day/
