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The Role of <i>FT</i>/<i>TFL1</i> Clades and Their Hormonal Interactions to Modulate Plant Architecture and Flowering Time in Perennial Crops. [PDF]
Azevedo LM +2 more
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A dynamic regulome of shoot-apical-meristem-related homeobox transcription factors modulates plant architecture in maize. [PDF]
Luo Z +12 more
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CRISPR/Cas9-mediated mutagenesis of FT/TFL1 in petunia improves plant architecture and early flowering. [PDF]
Abdulla MF, Mostafa K, Kavas M.
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Molecular Basis of Plant Architecture
Annual Review of Plant Biology, 2008Higher plants display a variety of architectures that are defined by the degree of branching, internodal elongation, and shoot determinancy. Studies on the model plants of Arabidopsis thaliana and tomato and on crop plants such as rice and maize have greatly strengthened our understanding on the molecular genetic bases of plant architecture, one of ...
Yonghong Wang, Jiayang Li
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Nuclear architecture in plants
Trends in Genetics, 1990Structure within the nucleus of plants is becoming increasingly clear in both metaphase and interphase nuclei, although there are conflicting data about the relative positions of individual and pairs of chromosomes. At interphase, individual chromosomes may generally occupy discrete domains that are not intermixed with other chromosomes.
Heslop-Harrison, JS, Bennett, MD
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The evolution of plant architecture
Current Opinion in Plant Biology, 2001The vascular plants have evolved from a simple body plan that has diversified into the vast array of architectures seen in plants today. Much architectural diversity results from the varied growth patterns of apical and axillary meristems. Current research is showing that meristem growth patterns are regulated genetically and hormonally, and the genes ...
I M, Sussex, N M, Kerk
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Genes controlling plant architecture
Current Opinion in Biotechnology, 2006Plant architecture, referring here to the aerial part of a higher plant, is mainly determined by factors affecting shoot branching, plant height and inflorescence morphology. Significant progress has been made in isolating and characterizing genes that are directly involved in the formation of plant architecture, especially those controlling the ...
Yonghong, Wang, Jiayang, Li
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The quest for optimal plant architecture
Science, 2022Changes in plant architecture can improve cereal crop ...
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Cell, 1989
Joseph E. Varner and Liang-Shiou Lin Institute of Molecular Biology Academia Sinica Nankang, Taipei 11529 Republic of China and Department of Biology Washington University St. Louis, Missouri 63130 Introduction Several hundred, perhaps a few thousand, genes are re- quired uniquely for the specification of the enzymes, lec- tins, structural proteins ...
J E, Varner, L S, Lin
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Joseph E. Varner and Liang-Shiou Lin Institute of Molecular Biology Academia Sinica Nankang, Taipei 11529 Republic of China and Department of Biology Washington University St. Louis, Missouri 63130 Introduction Several hundred, perhaps a few thousand, genes are re- quired uniquely for the specification of the enzymes, lec- tins, structural proteins ...
J E, Varner, L S, Lin
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Nuclear architecture in plants
Current Opinion in Genetics & Development, 1992Nuclei are dynamic structures that move through the mitotic cell cycle, are involved in differentiation, and divide and fuse during reproduction. The DNA contents of nuclei from different plants vary by 2500-fold. The design and structure of nuclei is, therefore, both flexible and versatile.
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