113學年度博士班入學考試簡章及重要日程公告

113學年度博士班入學考試簡章及重要日程公告

網路報名:
113.03.04(週一)09:00起~113.03.18(週一)18:00止

(最後取得虛擬轉帳帳號時間為113.03.18(週一)15:00止)

報名方式:
一律採網路報名(網路填表並上傳報名相關資料,報名流程請詳閱招生簡章說明),恕不受理現場報名。

自行下載甄試報到單:
113.04.12(週一)

面試日期:
113.04.18(週四)~113.04.20(週六)詳見各系所學位學程簡章

放榜日期:
113.04.26(週五)

報名系統將於113.03.04開放上午09:00開放
博士班入學考試報名網址:
請至招生組首頁點選『報名系統』→點選『博士班入學考試』

※招生名額以教育部核定為主
※博士班入學考試推薦信作業說明:

本考試推薦信採推薦人線上登錄上傳

1.請考生於報名系統開放時間內 (113.03.04(週一)09:00開放至113.03.18(週一)18:00止) 登錄推薦人基本資料及 E-mail。

2.考生完成報名確認送出報名資料後系統將會發信予推薦人填寫推薦信之網址(在此之前,請考生務必與推薦人先行聯絡)並留意推薦人是否於上傳推薦信截止時間內完成。

【若未收到系統信件,請推薦人先行查閱垃圾信件夾,若仍未收到請盡速與本組聯繫】

3.推薦人依照信件中的連結,即可進行推薦作業!

4.為使推薦作業順利,請考生留意推薦人是否完成推薦。推薦信上傳截止時間至113.03.20(週三)下午18:00止。

 

 

 

 

 

 

 

 

 

 

本校招生組網站資訊

招生簡章

簡章附件

報名系統操作手冊

敬邀參加2023.12.01你的最佳選擇 自動化、高通量、液體活檢核酸萃取解決方案Your Best Choice:Automated High Throughput NA Extraction Solutions on Liquid Biopsy

敬邀參加你的最佳選擇 自動化、高通量、液體活檢核酸萃取解決方案Your Best Choice:Automated High Throughput NA Extraction Solutions on Liquid Biopsy

 

演講日期:December 1, 2023

演講時間:12 – 14 PM

實體演講地點:雙和校區教研大樓81801教室

報名連結:https://docs.google.com/forms/d/14uUwxLQcOHk9UHZuloePn4s-DxCUtRF093k-vCXhTto/edit?ts=651bedea

*本活動煩報名出席者將提供餐點

*本活動全程出席及填寫課後問卷者,認列職員教育訓練2小時

教職員報名: https://ehrd.tmu.edu.tw/eHRD/eHRDOrg

 

學術研究分享-林育龍 助理教授

Think about the last time you reached out to grab a coffee cup or walked to the door. These everyday actions are powered by motor neurons and skeletal muscles, called the neuromuscular system. However, these simple actions can be a struggle for people with neuromuscular diseases (NMDs). The pathological mechanisms underlying most NMDs remain poorly understood, partly due to the lack of in vitro models that can comprehensively recapitulate multistage intercellular interactions and the physiological function of the motor unit (a motor neuron and muscle fibers it innervates).

 

Professor Yu-Lung Lin from Taipei Medical University has recently published their work in Cell & Bioscience. He innovatively designed a three-dimensional bilayer hydrogel tri-culture system, which can accurately reproduce the structure and function of motor units in vitro, by sequentially co-culturing and differentiating myoblasts, Schwann cells, and motor neurons on two specific hydrogel substrates. This system has promoted the orderly arrangement of muscle fibers, the formation of myelin sheaths, and the establishment of functional neuromuscular junctions (NMJs).

 

The importance of this research lies in providing a new perspective and tool for the study of NMDs. The tri-culture system can be used to investigate the basic biology of motor units and explore the pathologic mechanisms of NMDs, aiding in developing new therapeutic strategies. Moreover, because this model can reproduce MUs quickly and effectively without complex equipment, it opens up possibilities for applications such as disease modeling and drug screening, greatly enhancing research efficiency and feasibility.

 

Professor Lin’s research has opened new pathways for developing treatments for neuromuscular diseases. Establishing this model not only helps scientists better understand the disease’s progression but can also be used to test the effects of new drugs or treatment methods on neuromuscular units. Additionally, the high customizability of this model offers new possibilities for personalized medicine, with the potential to play a significant role in the fields of precision medicine and regenerative medicine in the future.