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2015 정부 BT 연구성과 보도자료 모음집

출처 생명공학정책연구센터 조회수 9293
발간일 2016-02-01 등록일 2016-02-18
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평점 5점만점에 5.0점입니다. (참여자 3명)

 

2015 정부 BT 연구성과 보도자료 모음집

 


가. 발간 개요
○ 본 정부 BT 연구성과 보도자료 모음집은 2015년 국내 정부부처 등에서 발표된 보도자료 중 BT분야에 해당하는 주요 연구성과를 취합.정리하였습니다.
○ BT 관련 주요 연구성과를 계속적으로 취합.정리, 축적함으로써 연구자 등을 위한 기초데이터로 활용하고 BT연구를 적극 홍보하기 위해 제작되었습니다.


나. 대상
○ 생명공학분야 R&D 투자에 관여하는 주요 부처 및 유관기관
- 미래창조과학부, 보건복지부, 교육부, 농림축산식품부, 환경부, 한국연구재단 등

 

[목 차]


1. 난치성 두경부암, 표적 치료제 반응 예측인자 찾다 ················································ 1
2. 식욕 왕성한 암세포 잡아내는 지능형 나노물질 개발 ··············································· 2
3. 자가면역반응 완화해주는 단백질 신약후보물질 발굴 ············································· 3
4. 게 껍질에서 추출한 키토산으로 메모리 소자 구현 ··················································· 4
5. 후두암 환자, 방사선 치료효율 높아진다 ····································································· 5
6. 땅콩껍질로 비만 합병증을 막아내다 ············································································ 6
7. 소화액과 침 분비 세포 내의 염소이온 기능 규명 ····················································· 7
8. 기억 담당 해마신경세포를 보호하는 유전자 구조체 제작 ······································· 8
9. 허혈성 뇌졸중의 신경세포사멸 조절 단백질 발견 ····················································· 9
10. 치아뿌리의 형성에 핵심인 유전자를 찾아내다 ······················································ 10
11. 표적 유전자만 정확히 잘라낸다 ············································································· 11
12. 암전이 유발 단백질(TM4SF5)의 암전이 능력 제어 기술 개발 ··························· 12
13. 진균을 치료하는 항생제 내성과정 규명 ······························································ 13
14. 단백질 발현 조절을 통한 통풍 치료의 길 열려 ···················································· 14
15. 달팽이관의 소리주파수 구별능력 획득과정 규명 ·················································· 15
16. 한의학 처방 원리(군신좌사) 규명으로 신약개발 토대 마련 ································ 16
17. 혈압 조절에 중요한 단백질의 분해과정을 밝히다 ·············································· 17
18. 암 조기 진단을 획기적으로 진전할 수 있는 “고해상도 광학현미경”개발 ······ 18
19. 마이크로 크기의 융합물방울로 단백질 반응 관찰 ················································ 19
20. 암전이 환경을 그대로 구현할 수 있는 나노멤브레인 개발 ································· 20
21. 미세먼지, 과체중 노년여성을 위협하다 ··································································· 21
22. 뇌종양세포의 증식과 악성화를 조절하는 핵심유전자 발견 ································· 22
23. 난치성 유방암 표적 유전자 세계 최초 발견 ························································ 23
24. 진균성 뇌수막염 유발 유전자 대규모 발견 ·························································· 24
25. 간암 억제 유전자 기능 규명, 치료제 개발 기반 마련 ········································· 25
26. 피로물질 젖산, 세포신호물질로 새로운 기전 발견 ··············································· 26
27. 웨어러블 기기용 초민감형 스마트 섬유 센서 개발 ·············································· 27
28. 스테로이드 호르몬에 의한 유전자 발현 조절 메커니즘 규명 ····························· 28
29. 배아줄기세포의 전분화능을 조절하는 새로운 단백질 발견 ································· 29
30. 실크 단백질기반, 신개념 나노광학 바이오센서 구현 ········································· 30
31. 신개념 패혈증 치료 후보물질 ‘스매듀신-6’개발 ···················································· 31
32. 초소형 나노 실험실에서 시약을 완벽하게 섞는 법 발견 ····································· 32
33. 항암제 부작용 최소화 길 열려 ················································································· 33
34. 세균의 공격 방어 센서 단백질 구조를 밝혀내다 ················································ 34
35. 만성질환 규명의 열쇠, 한국인 맞춤형 칩 제작 ····················································· 35
36. 기초과학연구원 연구진, 피부 부착형 양자점 LED 개발 ······································ 36
37. T 임파구가 바이러스 감염 세포를 죽이는 방법 규명 ·········································· 37
38. 통풍 치료제의 효과를 7배 늘리는 신기술 개발 ·················································· 38
39. “마이크로RNA 탄생의 비밀을 풀다” ······································································· 39
40. 암세포를 죽게 하는 핵심 단백질 발현 성공 ·························································· 40
41. 환자의 세포로 ‘자기 몸에 딱 맞는 치료제’ 개발 가능성 열어 ·························· 41
42. 손상된 장기에 붙여 치유를 돕는 ‘세포 스티커’개발 ············································ 42
43. 큰 상처도 흉터 없이 빠르게 치유하는 물질 개발 ················································ 43
44. 스트레스로 인한 해로운 단백질 분해 조절 가능해진다! ····································· 44
45. 불가능했던 간질의 원인 치료 길 열렸다! ······························································· 45
46. 현미경만으로 신약 물질 1차 선별하는 기술 개발 ················································ 46
47. 생체 방패인 면역력을 강화하여 암 물리친다 ······················································ 47
48. 빛과 나노기술을 이용한 유전자 항암 치료기술 개발 ·········································· 48
49. 곤충, 화장품?의약품 소재로 뜬다 ············································································· 49
50. 탄저균만큼 위험한 야토균, 조기 검출 기술 개발 ················································· 50
51. 부작용 없는 관절염·천식 치료제 개발 가시화 ····················································· 51
52. 위암세포 자살을 유도하는 새로운 단백질 발견 ·················································· 52
53. 세계 최초, 복제견 생산율 높일 실마리 찾았다 ····················································· 53
54. 국내 연구진, 암줄기세포 에너지 대사 규명 ··························································· 54
55. ‘냄새 맡는’ 전자피부 개발 ························································································· 55
56. 수술용 실 대체 가능한 홍합 유래 순간조직접착제 개발 ····································· 56
57. 새싹보리, 숙취 해소와 간 기능 개선에도 효과 ····················································· 57
58. 대장암 발병 촉진 단백질 및 억제 약물 발견 ·················································· 58
59. 핵수용체의 난치성 염증 억제 기능 발견 ······························································ 59
60. 근육줄기세포 노화 원인 규명, 늙은 근육 회춘의 길 열려 ································ 60
61. 국내 연구진, 유전자발현의 새로운 조절 기전 규명 ····································· 61
62. 의료현장에서 30분만에 감염병을 정확하게 진단 ················································ 62
63. 국내 연구진, 타이레놀 부작용 조절하는 신규 인자 발견 ···································· 63
64. 고감도 반도체 바이오센서 신기술 개발 ·································································· 64
65. 종양억제 단백질 조절하는 새로운 단백질 효소 발견 ··································· 65
66. 급성 골수성 백혈병의 새로운 신호 전달 경로 규명 ·········································· 66
67. 당뇨 치료 부작용 낮춰 인슐린 대체할 핵산물질 개발 ···································· 67
68. 산학협력을 통해 새로운 중증 천식 치료제 개발 가시화 ····································· 68
69. 항암 효과 뛰어난 GITR 항체의 작용기전 밝혀 ····················································· 69
70. 미토콘드리아만 공격하는 나노약물전달체 개발 ················································ 70
71. B형 간염 바이러스가 간암 유발하는 원인 밝혀내 ·········································· 71
72. 소포체 형성에 관여하는 새로운 단백질 규명 ························································ 72
73. 패혈증 치료를 위한 표적분자 규명 및 신약물질 발견 ······································ 73
74. 간암 악성화 하는 핵심 유전자 발굴 ········································································ 74
75. 빛으로 우울증을 치료하는 기술 개발 ······································································ 75
76. 알츠하이머치매를 진단할 수 있는 후보물질(수모1) 발굴 ···································· 76
77. 식물의 가뭄 내성 매커니즘 세계 최초 규명 ·························································· 77
78. 세균 유래물질로 기관지 천식 치료길 열린다 ························································ 78
79. 빛으로 칼슘 농도 조절하고 기억력 높여 ································································ 79
80. 뇌종양, 개인 유전체 분석으로 맞춤형 치료의 장을 열다 ···································· 80
81. 수명연장 단백질의 작동원리 최초 규명 ································································ 81
82. 작물의 발아 시점 조절 가능한 매커니즘 밝혀 ···················································· 82
83. 혁신적인 파킨슨병 치료제 후보물질 개발 가시화 ················································ 83
84. 혈당조절에 관여하는 단백질의 새로운 작용 메커니즘 규명 ······························· 84
85. 뇌의 공포 기억 발현과 행동 제어 메커니즘 규명 ················································ 85
86. 장기기억 형성을 위한 유전자 억제 메커니즘 최초 규명 ····································· 86
87. 유전 질환 치료를 위한 인공 세포핵 개발 ···························································· 87
88. 패혈증을 억제하는 나노 약물전달체 개발 ······························································ 88
89. 미토콘드리아 칼슘 유입 조절 단백질 기작 규명 ················································ 89
90. 파킨슨병의 신규 발병 기전 제시 ············································································· 90
91. 디엔에이(DNA) 사용 없이 농작물 유전자 교정 성공 ··········································· 91
92. 과도한 선천성 면역반응의 새로운 조절체계 발견 ················································ 92
93. 세계 최초, 한국 독수리 유전체 분석을 통한 수렴진화 양상 규명 ···················· 93
94. 표적 항암제 효과를 저해하는 내성 원인 신규 규명 ············································ 94
95. 산업 화학물질을 미생물로부터 효과적으로 만들 수 있는 「시스템 대사공학 전략」종합적 수립 ······················· 95
96. 부작용 없는 궤양성 대장염 치료제 개발 가시화 ·················································· 96
97. 체세포복제줄기세포주 성공률 획기적으로 높였다! ··············································· 97
98. 개인 유전자 맞춤형 치료법 발견 ··········································································· 98
99. 고추의 매운 맛으로 파킨슨병 치료 전략 개발 ······················································ 99
100. 투과율과 암세포 사멸 능력이 뛰어난 항암제 기술 개발 ································ 100
101. 줄기세포 분화 효능 뛰어난 나노 분리막 개발 ·················································· 101
102. 국립생물자원관, 냉동어류 줄기세포를 이용한멸종위기종 어류 복원 추진! ······························· 102
103. 고위험성병원체 초고강도 동시검출 시스템 개발 ·············································· 103
104. 1mm 벌레에서 건강한 노년의 힌트를 얻다! ···················································· 104
105. 세포의 유전자 발현 조절 능력 설명하는 수학적 모델 최초 제시 ················· 105
106. 바이러스 수직배열로 효율 높인 발전 소자 개발 ·············································· 106
107. 생체의 미토콘드리아 활성 조절 원리 분석시스템 개발 ·································· 107
108. 알츠하이머 원인 단백질 타우의 새로운 기능 규명 ········································ 108
109. 치매 원인 단백질 섬유 형성 제어 성공 ··························································· 109
110. 우울증 치료 및 외상후 스트레스 인지장애 극복가능성 열려 ······················ 110

 

 

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