Results 261 to 270 of about 945,913 (292)
Expression of a multigene mushroom luciferin biosynthesis pathway as a pseudo-polycistron in plants. [PDF]
Sci RepSamson D +4 more
europepmc +1 more source
Integrative transcriptomic and metabolomic analysis elucidates the vital pathways underlying the differences in salt stress responses between two chickpea (Cicer arietinum L.) varieties. [PDF]
BMC Plant BiolDuan G +6 more
europepmc +1 more source
Genome-wide identification of wheat Ubiquitin-conjugating enzyme gene family and its role in wheat powdery mildew disease resistance. [PDF]
BMC Plant BiolHu P +10 more
europepmc +1 more source
Molecular mechanisms underlying leaf enlargement in spaceflight-mutated 'Deqin'alfalfa. [PDF]
BMC GenomicsKuang Q, Ding R, Huang D, He C, Jiang H.
europepmc +1 more source
Identification of key genes associated with anthracnose resistance in Camellia sinensis. [PDF]
PLoS OneXu LY +6 more
europepmc +1 more source
Some of the next articles are maybe not open access.
Related searches:
Related searches:
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 ...
Chris Somerville, Susan I. Gibson
openaire +3 more sources
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 ...
Chris Somerville, Susan I. Gibson
openaire +3 more sources
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 ...
Klaas Vandepoele +2 more
openaire +3 more sources
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 ...
Klaas Vandepoele +2 more
openaire +3 more sources
1991
Gene transfer technology underpins both crop plant genetic engineering, where it is an obvious prerequisite, and the plant sciences generally, where it is becoming an essential tool for tackling fundamental problems in physiology, biochemistry, developmental biology, molecular biology and genetics.
R. Scott, J. Draper
openaire +2 more sources
Gene transfer technology underpins both crop plant genetic engineering, where it is an obvious prerequisite, and the plant sciences generally, where it is becoming an essential tool for tackling fundamental problems in physiology, biochemistry, developmental biology, molecular biology and genetics.
R. Scott, J. Draper
openaire +2 more sources
Gene-For-Gene Complementarity In Plant-Pathogen Interactions
Annual Review of Genetics, 1990The cloning of avirulence genes has greatly aided our understanding of plant-pathogen specificity. It has proven that the gene-for-gene relationship first noted by Flor is correct--single avirulence gene encoding single protein products indeed are the genetic elements that interact with plant disease resistance genes. Furthermore, firm genetic evidence
openaire +3 more sources
Plant Gene Engineering and Plant Agriculture
1986Many plant breeders feel there is little prospect that genetic engineering will make any real contribution to plant improvement programs. We cannot agree, as it is already clear that recombinant DNA technology will make impacts on plant production systems. Diagnostic tools will provide increased power to many selection schemes and increased accuracy in
E. S. Dennis, W. J. Peacock
openaire +2 more sources