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Trends in Biotechnology, 1993
The genetic transformation of most agriculturally important plant species is now possible. However, the application of this technology to rational plant-improvement is currently limited by a shortage of cloned genes for important traits. Recent technological advances in plant-gene isolation and identification, such as map-based cloning, insertional ...
S, Gibson, C, Somerville
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The genetic transformation of most agriculturally important plant species is now possible. However, the application of this technology to rational plant-improvement is currently limited by a shortage of cloned genes for important traits. Recent technological advances in plant-gene isolation and identification, such as map-based cloning, insertional ...
S, Gibson, C, Somerville
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Plant Science, 2012
Tetraspanins represent a four-transmembrane protein superfamily with a conserved structure and amino acid residues that are present in mammals, insects, fungi and plants. Tetraspanins interact with each other or with other membrane proteins to form tetraspanin-enriched microdomains that play important roles in development, pathogenesis and immune ...
Feng, Wang +2 more
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Tetraspanins represent a four-transmembrane protein superfamily with a conserved structure and amino acid residues that are present in mammals, insects, fungi and plants. Tetraspanins interact with each other or with other membrane proteins to form tetraspanin-enriched microdomains that play important roles in development, pathogenesis and immune ...
Feng, Wang +2 more
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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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PLANT DISEASE RESISTANCE GENES
Annual Review of Plant Physiology and Plant Molecular Biology, 1997▪ Abstract In “gene-for-gene” interactions between plants and their pathogens, incompatibility (no disease) requires a dominant or semidominant resistance (R) gene in the plant, and a corresponding avirulence (Avr) gene in the pathogen. Many plant/pathogen interactions are of this type.
Kim E., Hammond-Kosack +1 more
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Plant nematode resistance genes
Current Opinion in Plant Biology, 1999Root-knot and cyst nematodes cause severe damage to crops throughout the world. Genes conferring resistance against nematodes have been identified in many plant species and several of these have been, or soon will be, cloned. Nematode biotypes that can infect resistant plants have been identified.
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1997
The production of transgenic plants requires the transfer of genetic material into a plant cell, stable integration of the introduced DNA in the genome of the plant and regeneration of whole plants such that the introduced gene is stably maintained in subsequent generations.
Potter, R.H., Jones, M.G.K.
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The production of transgenic plants requires the transfer of genetic material into a plant cell, stable integration of the introduced DNA in the genome of the plant and regeneration of whole plants such that the introduced gene is stably maintained in subsequent generations.
Potter, R.H., Jones, M.G.K.
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1997
In the past 7-8 years considerable effort has been expended to produce transgenic plants that resist virus infection, insects, herbicides and disease development. The crop improvement and the desired phenotype is conferred by transformation, usually with a single foreign gene.
I. L. Bagyan +12 more
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In the past 7-8 years considerable effort has been expended to produce transgenic plants that resist virus infection, insects, herbicides and disease development. The crop improvement and the desired phenotype is conferred by transformation, usually with a single foreign gene.
I. L. Bagyan +12 more
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1983
Techniques in molecular cloning and DNA sequencing have provided the tools to study the structure of genes at the nucleotide level. Most of these studies have been conducted on mammalian genes. From the comparison of individual genes much knowledge has been gained about organization and potential signal sequences.
Joachim Messing +5 more
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Techniques in molecular cloning and DNA sequencing have provided the tools to study the structure of genes at the nucleotide level. Most of these studies have been conducted on mammalian genes. From the comparison of individual genes much knowledge has been gained about organization and potential signal sequences.
Joachim Messing +5 more
openaire +1 more source