Statements (89)
| Predicate | Object |
|---|---|
| gptkbp:instance_of |
gptkb:Person
|
| gptkbp:affiliation |
gptkb:Cold_Spring_Harbor_Laboratory
|
| gptkbp:awards |
gptkb:National_Medal_of_Science
|
| gptkbp:birth_date |
1925-01-01
|
| gptkbp:children |
Unnamed Children
|
| gptkbp:contribution |
Epigenetics
Genetic Engineering Plant Breeding Techniques Transposons Understanding of genetic variability |
| gptkbp:death_date |
2019-01-01
|
| gptkbp:education |
gptkb:University_of_California,_Berkeley
|
| gptkbp:fellowship |
gptkb:American_Academy_of_Arts_and_Sciences
gptkb:National_Academy_of_Sciences |
| gptkbp:field |
gptkb:Genetics
|
| https://www.w3.org/2000/01/rdf-schema#label |
Robert E. Mc Clintock
|
| gptkbp:influence |
Molecular Biology
Modern Genetics |
| gptkbp:influenced |
gptkb:Barbara_Mc_Clintock
|
| gptkbp:influenced_by |
gptkb:Thomas_Hunt_Morgan
|
| gptkbp:invention |
Gene Regulation Mechanisms
Genetic Mapping Techniques Chromosomal Analysis |
| gptkbp:known_for |
Discovery of mobile genetic elements
|
| gptkbp:legacy |
Pioneering work in genetics
|
| gptkbp:notable_work |
Transposable Elements
|
| gptkbp:occupation |
gptkb:Scientist
|
| gptkbp:publication |
The Significance of Responses of the Genome to Challenge
The Evolution of Genetic Systems The Role of the Genome in Development Transposable Elements and the Evolution of Genomes Genetic Regulation in Maize The Impact of Genetics on Society The Importance of Genetic Diversity The Role of Genetics in Disease Prevention The Future of Genetic Engineering The Role of Genetics in Medicine A Critique of the Concept of the Gene Genetic Analysis of Maize The Challenges of Genetic Engineering The Control of Gene Expression The Ethics of Genetic Research The Future of Agricultural Genetics The Future of Conservation Genetics The Future of Disease Genetics The Future of Ecosystem Management The Future of Environmental Genetics The Future of Food Genetics The Future of Genetic Medicine The Future of Health Education in Genetics The Future of Health Genetics The Future of Nutritional Genetics The Future of Plant Breeding The Future of Plant Genetics The Future of Sustainable Genetics The Genetic Basis of Plant Development The Impact of Genetics on Agriculture The Impact of Genetics on Disease Management The Impact of Genetics on Ecosystems The Impact of Genetics on Environmental Policy The Impact of Genetics on Food Quality The Impact of Genetics on Health The Impact of Genetics on Health Literacy The Impact of Genetics on Health Policy The Impact of Genetics on Nutrition The Impact of Genetics on Sustainable Practices The Impact of Transposons on Genetic Diversity The Importance of Genetic Research The Interaction of Genes and Environment The Legacy of Genetic Research The Promise of Genetic Research The Role of Genetics in Agriculture The Role of Genetics in Biodiversity The Role of Genetics in Climate Change The Role of Genetics in Conservation The Role of Genetics in Disease The Role of Genetics in Environmental Stewardship The Role of Genetics in Evolution The Role of Genetics in Food Production The Role of Genetics in Food Security The Role of Genetics in Health Education The Role of Genetics in Public Health The Role of Genetics in Sustainable Agriculture The Role of Transposable Elements in Plant Genetics |
| gptkbp:research_focus |
Plant Genetics
|
| gptkbp:residence |
gptkb:New_York
|
| gptkbp:spouse |
Unnamed Spouse
|
| gptkbp:bfsParent |
gptkb:David_M._Mark
|
| gptkbp:bfsLayer |
6
|