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NTIS 바로가기Journal of plant biotechnology = 식물생명공학회지, v.37 no.3, 2010년, pp.262 - 268
김영관 (원광대학교 생명과학부) , 소양강 (원광대학교 생명과학부) , 박다영 (원광대학교 생명과학부) , 김현순 (한국생명공학연구원 식물시스템공학연구센터) , 전재흥 (한국생명공학연구원 식물시스템공학연구센터) , 추영국 (원광대학교 생명과학부) , 고기성 (원광대학교 생명과학부)
Antibodies are powerful and versatile tools to play a critical role in the diagnosis and treatment of many diseases. Their application has been enhanced significantly with the advanced recombinant DNA and heterologonous expression technologies, allowing to produce immunotherapeutic proteins with imp...
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핵심어 | 질문 | 논문에서 추출한 답변 |
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의료용 단백질의 생산을 위해 식물발현시스템을 상업화한다는 것이 어려운 이유는? | 하지만 식물발현시스템이 갖고 있는 여러 장점들에도 불구하고 낮은 발현 수준과 식물조직배양을 이용한 배지내로의 낮은 분비 효율, 분비 후 배지 내의 단백질의 불안정성 등의 단점을 가지고 있다. 이로 인해 의료용 단백질의 생산을 위해 식물발현시스템을 상업화한다는 것은 많은 문제점을 해결하지 않고서는 아직까지도 어렵다 할 수 있다. | |
치료용 단백질은 무엇을 이용하여 생산할 수 있는가? | 치료용 단백질 (therapeutic protein)은 일반적으로 진핵세포인 동물세포 및 곰팡이, 그리고 원핵세포인 박테리아 등의 형질전환을 이용하여 생산될 수 있다 (Pen 1996; Ma and Vine 1999; Ma et al. 2003; Ko et al. | |
기존의 단백질 생산방법의 단점은? | 2005). 하지만 이러한 단백질 생산방법은 발현조건 등에 따라 단백질의 분리 및 정제가 매우 어렵고 고가의 생산비용 등으로 인하여 많은 단점들을 가지고 있다 (Bakker et al. 2001; Ko et al. |
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