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국회도서관 홈으로 정보검색 소장정보 검색

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표제지=0,1,1

제출문=1,2,2

요약문=3,4,3

SUMMARY=6,7,4

CONTENTS=10,11,2

목차=12,13,3

제1장 연구개발과제의 개요=15,16,1

제1절 연구의 필요성=15,16,2

제2절 연구개발의 목표 및 내용=16,17,3

제2장 국내외 기술 개발 현황=19,20,1

제1절 국외 관련기술의 현황=19,20,1

제2절 국내 기술 개발현황=20,21,1

제3절 현 기술의 의의=20,21,3

제3장 병저항성 특이적 유전자의 분리=23,24,1

제1절 탄저병의 감염 기작=23,24,4

제2절 식물유래 병저항성 유전자의 클로닝=26,27,6

제3절 저항성 관련 유전자의 분석=31,32,12

제4장 A Cytochrome P450 Gene Is Differentially Expressed in Compatible and Incompatible Interactions Between Pepper(Capsicum annuum) and the Anthracnose Fungus,Colletorichum gloeosporioides=43,44,1

I. Abstract=43,44,2

II. Introduction=44,45,2

III. Materials and Methods=45,46,3

IV. Results=48,49,8

V. Discussion=56,57,4

VI. References=60,61,5

제5장 A thaumatin-like gene in nonclimacteric pepper fruits used as molecular marker in probing disease resistance,ripening,and sugar accumulation=65,66,1

I. Abstract=65,66,2

II. Introduction=66,67,2

III. Materials and methods=67,68,4

IV. Results=70,71,12

V. Discussion=82,83,4

VI. References=85,86,4

제6장 뿌리 특이적 발현 프로모터 개발=89,90,1

제1절 서론=89,90,3

제2절 실험재료 및 방법=92,93,8

제3절 연구결과 및 고찰=100,101,21

제7장 생물재해 저항성 형질전환 식물체=121,122,1

제1절 서론=121,122,1

제2절 연구방법=121,122,3

제3절 연구결과 및 고찰=124,125,9

제8장 박과작물의 형질전환 기술개발 및 형질전환식물체 안정성 검정=133,134,1

제1절 서론=133,134,2

제2절 박과작물의 식물체 재생 기술 확립=135,136,15

제3절 박과작물의 Agrobacterium 매개 형질전환=150,151,28

참고문헌=177,178,2

영문목차

title page=0,1,1

Preface=1,2,2

Summary (in Korea)=3,4,3

Summary=6,7,4

Contents=10,11,2

Contents (in Korea)=12,13,3

Chapter 1. Introduction=15,16,1

Section 1. Objective and significance of the study=15,16,2

Section 2. Goals and scope of the study=16,17,3

Chapter 2. Current Status of Technique Development=19,20,1

Section 1. Developmental status in other countnes=19,20,1

Section 2. Developmental status in Korea=20,21,1

Section 3. Contribution of this project to technique development=20,21,3

Chapter 3. Identification and characterization of disease-resistant genes=23,24,1

Section 1. Infection mechanism of anthracnose disease=23,24,4

Section 2. Cloning of disease resistant genes=26,27,6

Section 3. Characterization of resistant genes=31,32,12

Chapter 4. A Cytochrome P450 Gene Is Differentially Expressed in Compatible and Incompatible Interactions Between Pepper (Capsicum annuum) and the Anthracnose Fungus,Colletorichum gloeosporioides=43,44,1

I. Abstract=43,44,2

II. Introduction=44,45,2

III. Materials and Methods=45,46,3

IV. Results=48,49,8

V. Discussion=56,57,4

VI. References=60,61,5

Chapter 5. A thaumatin-like gene in nonclimacteric pepper fruits used as molecular marker in probing disease resistance,ripening,and sugar accumulation=65,66,1

I. Abstract=65,66,2

II. Introduction=66,67,2

III. Materials and methods=67,68,4

IV. Results=70,71,12

V. Discussion=82,83,4

VI. References=85,86,4

Chapter 6. Development of root specific expression system=89,90,1

Section 1. Introduction=89,90,3

Section 2. Materials and methods=92,93,8

Section 3. Results and Discussion=100,101,21

Chapter 7. Establishment of disease resistant transgenlc plant=121,122,1

Section 1. Introduction=121,122,1

Section 2. Materials and methods=121,122,3

Section 3. Results and Discussion=124,125,9

Chapter 8. Establishment of transformation techniques in Cucurbitaceae=133,134,1

Section 1. Introduction=133,134,2

Section 2. Establishment of shoot regeneration method=135,136,15

Section 3. Agrobacterium-mediated transformation=150,151,29

칼라목차

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Figure 3. Transverse section of infected pepper fuits with C: gloeosporioides.=26,27,1

Figure 5. Root-specific expression of the PRP3 promoter::GUS fusion gene in transgenic Arabidopsis.=103,104,1

Figure 5. Plant regeneration via organogenesis from coty ledon explant in watermelon.=140,141,1

Figure 13. Plant regeneration thought organogenesis from cotyledon in gourd .=149,150,1

Figure 30. Agrobacterium-mediated transformation of cotyledon explants an regenerationof transgenic plants in bottle gourd.=175,176,1