Verfügbarkeit: Dissection of genetic architecture of intermediate phenotypes and predictions in plants

Dissection of genetic architecture of intermediate phenotypes and predictions in plants:

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Bibliographische Detailangaben
1. Verfasser:	Tong, Hao (VerfasserIn)
Format:	Abschlussarbeit Buch
Sprache:	English
Veröffentlicht:	Potsdam 2019
Schlagworte:	Hochschulschrift
Online-Zugang:	Inhaltsverzeichnis Inhaltsverzeichnis
Beschreibung:	127 Seiten Illustrationen 30 cm

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Datensatz im Suchindex

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adam_text	CONTENTS 1. INTRODUCTION ......................................................................................................................... 1 1.1 QUANTITATIVE GENETIC BASIS ............................................................................................ 1 1.1.1 PHENOTYPES OF INVESTIGATION .................................................................................. 1 1.1.2 PHENOTYPIC VARIANCE .............................................................................................. 2 1.1.3 GENETIC INFORMATION AS MARKERS ........................................................................... 4 1.1.4 POPULATION OF INVESTIGATION .................................................................................. 6 1.2 GENETIC MAPPING APPROACHES ...................................................................................... 7 1.2.1 GENETIC MAPPING PROCESS ..................................................................................... 7 1.2.2 SINGLE-LOCUS GENETIC MAPPING MODELS ............................................................... 10 1.2.3 MULTIPLE-LOCUS GENETIC MAPPING MODELS ............................................................ 11 1.2.4 PROBLEMS AND QUESTIONS OF GENETIC MAPPING ...................................................... 13 1.3 GENOMIC SELECTION ...................................................................................................... 14 1.3.1 DEFINITION OF GENOMIC SELECTION .......................................................................... 14 1.3.2 GENOMIC SELECTION STATISTICAL MODELS ................................................................. 16 1.3.3 DISADVANTAGE AND PROBLEMS OF GENOMIC SELECTION ............................................. 17 1.4 GENOME-SCALE METABOLIC NETWORK .............................................................................. 18 1.4.1 DEFINITION OF METABOLIC NETWORK ........................................................................ 18 1.4.2 CONSTRAINT-BASED APPROACHES .............................................................................. 19 1.4.3 PREDICTION FROM METABOLIC NETWORK ................................................................... 21 1.5 THESIS OUTLINE ............................................................................................................. 23 2. INTEGRATING MOLECULAR MARKERS INTO METABOLIC MODELS IMPROVES GENOMIC SELECTION FOR PLANT GROWTH ......................................................................................................................... 25 2.1 INTRODUCTION ................................................................................................................ 26 2.2 MATERIALS AND METHODS ............................................................................................... 27 2.2.1 PLANT MATERIALS AND DATA SETS ..............................................................................27 2.2.2 REFERENCE FLUX DISTRIBUTION OF COLO ................................................................... 29 2.2.3 FLUX DISTRIBUTION OF OTHER GENOTYPES .................................................................. 30 2.2.4 FROM STATISTICAL MODELS OF FLUXES TO PREDICTED BIOMASS ..................................... 31 2.2.5 TRANSFERABILITY OF THE APPROACH TO AN UNSEEN ENVIRONMENT ............................... 32 2.2.6 ROBUSTNESS OF REFERENCE FLUX DISTRIBUTIONS ....................................................... 34 2.3 RESULTS AND DISCUSSIONS .............................................................................................. 35 2.4 CONCLUSIONS ................................................................................................................. 43 3. METABOLIC-NETWORK-GUIDED MULTIPLE-LOCUS GENOME-WIDE ASSOCIATION STUDIES FOR PREDICTING METABOLIC TRAITS IN ZEA MAYS L ............................................................................ 45 3.1 INTRODUCTION ................................................................................................................. 46 3.2 MATERIALS AND METHODS ............................................................................................... 48 3.2.1 PLANT MATERIALS AND DATA SETS ............................................................................... 48 3.2.2 NEIGHBORHOOD SNP DATA SETS BASED ON GEM ....................................................49 3.2.3 ELASTIC NET MODEL FOR MULTIPLE-LOCUS GWAS ..................................................... 50 3.2.4 RANDOM SNPS MODEL .......................................................................................... 51 3.2.5 NON-ENZYMATIC SNPS MODEL ............................................................................... 52 3.2.6 SINGLE-LOCUS METABOLISM GWAS ........................................................................ 52 3.3 RESULTS ......................................................................................................................... 53 3.3.1 NETWORK-BASED GROUPING OF SNPS ...................................................................... 53 3.3.2 PARAMETERS ESTIMATION FOR THE MODEL BASED ON FIRST NEIGHBORHOOD SNPS ......... 54 3.3.3 THE SECOND AND THIRD NEIGHBORHOOD SNPS MODELS ............................................ 56 3.3.4 THE ENZYMATIC SNPS AND GENOME-WIDE SNPS MODELS ...................................... 58 3.3.5 THE DIFFERENCE BETWEEN ENZYMATIC AND GENOME-WIDE SNPS ............................. 59 3.3.6 COMPARISON TO SINGLE-LOCUS GWAS .................................................................... 61 3.4 DISCUSSIONS ................................................................................................................. 62 4. INHERITANCE PATTERNS IN METABOLISM AND GROWTH IN DIALLEI CROSSES OF ARABIDOPSIS THALIANA FROM A SINGLE GROWTH HABITAT ................................................................................................ 65 4.1 INTRODUCTION ................................................................................................................. 66 4.2 MATERIALS AND METHODS ............................................................................................... 67 4.2.1 GROWTH CONDITIONS, PHENOTYPING AND METABOLIC PROFILING ................................. 67 4.2.2 CORRELATION ANALYSES ............................................................................................ 68 4.2.3 ANALYSIS OF METABOLIC VARIATION WITHIN HYBRIDS AND PARENTS .............................. 69 4.2.4 ANALYSIS OF INHERITANCE PATTERNS .......................................................................... 70 4.2.5 BROAD-SENSE AND NARROW-SENSE HERITABILITY ........................................................ 70 4.2.6 DIALLEL ANALYSIS .................................................................................................... 70 4.3 RESULTS ......................................................................................................................... 71 4.3.1 ANALYSED GENOTYPES AND PHENOTYPES ................................................................. 71 4.3.2 SIMILARITY BETWEEN GENOTYPE AND METABOLISM ................................................... 72 4.3.3 VARIABILITY OF METABOLIC PROFILES OF PARENTS AND HYBRIDS .................................. 73 4.3.4 METABOLIC PHENOTYPES OF HYBRIDS VARY MORE THAN THOSE OF THE PARENTS ........... 74 4.3.5 THE METABOLIC TRAITS IN HYBRIDS DIFFER IN THE DEVIATION FROM THE MID-PARENT VALUE 75 4.3.6 NON-ADDITIVE VARIANCE IS A DETERMINANT OF SECONDARY METABOLISM ................... 77 4.3.7 CONTRIBUTION OF DOMINANCE AND EPISTASIS IN NON-ADDITIVE VARIANCE ................... 78 4.3.8 RELATIONSHIP BETWEEN GROWTH AND METABOLISM .................................................. 79 4.4 DISCUSSIONS ................................................................................................................. 80 5. DISCUSSION AND OUTLOOK .................................................................................................. 85 APPENDIX A ........................................................................................................................... 91 APPENDIX B ........................................................................................................................... 95 APPENDIX C ......................................................................................................................... 107 BIBLIOGRAPHY ....................................................................................................................... 113 ACKNOWLEDGEMENTS ............................................................................................................. 125 SELBSTANDIGKEITSERKLDRUNG .................................................................................................. 127
adam_txt	CONTENTS 1. INTRODUCTION . 1 1.1 QUANTITATIVE GENETIC BASIS . 1 1.1.1 PHENOTYPES OF INVESTIGATION . 1 1.1.2 PHENOTYPIC VARIANCE . 2 1.1.3 GENETIC INFORMATION AS MARKERS . 4 1.1.4 POPULATION OF INVESTIGATION . 6 1.2 GENETIC MAPPING APPROACHES . 7 1.2.1 GENETIC MAPPING PROCESS . 7 1.2.2 SINGLE-LOCUS GENETIC MAPPING MODELS . 10 1.2.3 MULTIPLE-LOCUS GENETIC MAPPING MODELS . 11 1.2.4 PROBLEMS AND QUESTIONS OF GENETIC MAPPING . 13 1.3 GENOMIC SELECTION . 14 1.3.1 DEFINITION OF GENOMIC SELECTION . 14 1.3.2 GENOMIC SELECTION STATISTICAL MODELS . 16 1.3.3 DISADVANTAGE AND PROBLEMS OF GENOMIC SELECTION . 17 1.4 GENOME-SCALE METABOLIC NETWORK . 18 1.4.1 DEFINITION OF METABOLIC NETWORK . 18 1.4.2 CONSTRAINT-BASED APPROACHES . 19 1.4.3 PREDICTION FROM METABOLIC NETWORK . 21 1.5 THESIS OUTLINE . 23 2. INTEGRATING MOLECULAR MARKERS INTO METABOLIC MODELS IMPROVES GENOMIC SELECTION FOR PLANT GROWTH . 25 2.1 INTRODUCTION . 26 2.2 MATERIALS AND METHODS . 27 2.2.1 PLANT MATERIALS AND DATA SETS .27 2.2.2 REFERENCE FLUX DISTRIBUTION OF COLO . 29 2.2.3 FLUX DISTRIBUTION OF OTHER GENOTYPES . 30 2.2.4 FROM STATISTICAL MODELS OF FLUXES TO PREDICTED BIOMASS . 31 2.2.5 TRANSFERABILITY OF THE APPROACH TO AN UNSEEN ENVIRONMENT . 32 2.2.6 ROBUSTNESS OF REFERENCE FLUX DISTRIBUTIONS . 34 2.3 RESULTS AND DISCUSSIONS . 35 2.4 CONCLUSIONS . 43 3. METABOLIC-NETWORK-GUIDED MULTIPLE-LOCUS GENOME-WIDE ASSOCIATION STUDIES FOR PREDICTING METABOLIC TRAITS IN ZEA MAYS L . 45 3.1 INTRODUCTION . 46 3.2 MATERIALS AND METHODS . 48 3.2.1 PLANT MATERIALS AND DATA SETS . 48 3.2.2 NEIGHBORHOOD SNP DATA SETS BASED ON GEM .49 3.2.3 ELASTIC NET MODEL FOR MULTIPLE-LOCUS GWAS . 50 3.2.4 RANDOM SNPS MODEL . 51 3.2.5 NON-ENZYMATIC SNPS MODEL . 52 3.2.6 SINGLE-LOCUS METABOLISM GWAS . 52 3.3 RESULTS . 53 3.3.1 NETWORK-BASED GROUPING OF SNPS . 53 3.3.2 PARAMETERS ESTIMATION FOR THE MODEL BASED ON FIRST NEIGHBORHOOD SNPS . 54 3.3.3 THE SECOND AND THIRD NEIGHBORHOOD SNPS MODELS . 56 3.3.4 THE ENZYMATIC SNPS AND GENOME-WIDE SNPS MODELS . 58 3.3.5 THE DIFFERENCE BETWEEN ENZYMATIC AND GENOME-WIDE SNPS . 59 3.3.6 COMPARISON TO SINGLE-LOCUS GWAS . 61 3.4 DISCUSSIONS . 62 4. INHERITANCE PATTERNS IN METABOLISM AND GROWTH IN DIALLEI CROSSES OF ARABIDOPSIS THALIANA FROM A SINGLE GROWTH HABITAT . 65 4.1 INTRODUCTION . 66 4.2 MATERIALS AND METHODS . 67 4.2.1 GROWTH CONDITIONS, PHENOTYPING AND METABOLIC PROFILING . 67 4.2.2 CORRELATION ANALYSES . 68 4.2.3 ANALYSIS OF METABOLIC VARIATION WITHIN HYBRIDS AND PARENTS . 69 4.2.4 ANALYSIS OF INHERITANCE PATTERNS . 70 4.2.5 BROAD-SENSE AND NARROW-SENSE HERITABILITY . 70 4.2.6 DIALLEL ANALYSIS . 70 4.3 RESULTS . 71 4.3.1 ANALYSED GENOTYPES AND PHENOTYPES . 71 4.3.2 SIMILARITY BETWEEN GENOTYPE AND METABOLISM . 72 4.3.3 VARIABILITY OF METABOLIC PROFILES OF PARENTS AND HYBRIDS . 73 4.3.4 METABOLIC PHENOTYPES OF HYBRIDS VARY MORE THAN THOSE OF THE PARENTS . 74 4.3.5 THE METABOLIC TRAITS IN HYBRIDS DIFFER IN THE DEVIATION FROM THE MID-PARENT VALUE 75 4.3.6 NON-ADDITIVE VARIANCE IS A DETERMINANT OF SECONDARY METABOLISM . 77 4.3.7 CONTRIBUTION OF DOMINANCE AND EPISTASIS IN NON-ADDITIVE VARIANCE . 78 4.3.8 RELATIONSHIP BETWEEN GROWTH AND METABOLISM . 79 4.4 DISCUSSIONS . 80 5. DISCUSSION AND OUTLOOK . 85 APPENDIX A . 91 APPENDIX B . 95 APPENDIX C . 107 BIBLIOGRAPHY . 113 ACKNOWLEDGEMENTS . 125 SELBSTANDIGKEITSERKLDRUNG . 127
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spelling	Tong, Hao Verfasser (DE-588)1206212578 aut Dissection of genetic architecture of intermediate phenotypes and predictions in plants Hao Tong Potsdam 2019 127 Seiten Illustrationen 30 cm txt rdacontent n rdamedia nc rdacarrier Dissertation Universität Potsdam 2019 (DE-588)4113937-9 Hochschulschrift gnd-content B:DE-101 application/pdf https://d-nb.info/1206563532/04 Inhaltsverzeichnis DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=032861346&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Tong, Hao Dissection of genetic architecture of intermediate phenotypes and predictions in plants
subject_GND	(DE-588)4113937-9
title	Dissection of genetic architecture of intermediate phenotypes and predictions in plants
title_auth	Dissection of genetic architecture of intermediate phenotypes and predictions in plants
title_exact_search	Dissection of genetic architecture of intermediate phenotypes and predictions in plants
title_exact_search_txtP	Dissection of genetic architecture of intermediate phenotypes and predictions in plants
title_full	Dissection of genetic architecture of intermediate phenotypes and predictions in plants Hao Tong
title_fullStr	Dissection of genetic architecture of intermediate phenotypes and predictions in plants Hao Tong
title_full_unstemmed	Dissection of genetic architecture of intermediate phenotypes and predictions in plants Hao Tong
title_short	Dissection of genetic architecture of intermediate phenotypes and predictions in plants
title_sort	dissection of genetic architecture of intermediate phenotypes and predictions in plants
topic_facet	Hochschulschrift
url	https://d-nb.info/1206563532/04 http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=032861346&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
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