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Book
ISBN: 3039281275 3039281267 Year: 2020 Publisher: MDPI - Multidisciplinary Digital Publishing Institute
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The way plants grow and develop organs significantly impacts the overall performance and yield of crop plants. The basic knowledge now available in plant development has the potential to help breeders in generating plants with defined architectural features to improve productivity. Plant translational research effort has steadily increased over the last decade due to the huge increase in the availability of crop genomic resources and Arabidopsis-based sequence annotation systems. However, a consistent gap between fundamental and applied science has yet to be filled. One critical point often brought up is the unreadiness of developmental biologists on one side to foresee agricultural applications for their discoveries, and of the breeders to exploit gene function studies to apply to candidate gene approaches when advantageous on the other. In this book, both developmental biologists and breeders make a special effort to reconcile research on the basic principles of plant development and organogenesis with its applications to crop production and genetic improvement. Fundamental and applied science contributions intertwine and chase each other, giving the reader different but complementary perspectives from only apparently distant corners of the same world.
HD-Zip transcription factors --- Plant in vitro cultures --- plant breeding --- recalcitrant species --- CLV --- wounding --- semi-dwarf --- photoreceptors --- Arabidopsis thaliana --- root development --- morphogenesis --- embryogenesis --- cytokinin --- auxin conjugation --- molecular marker --- Development --- boundaries --- translational research --- proline biosynthesis --- Brassicaceae --- meristem formation --- phytohormones --- stem cells --- meristem --- cytoskeleton --- hydrogen peroxide --- ligule --- genetic improvement --- tree phase change --- Rht18 --- hairy roots --- WUS --- GRETCHEN HAGEN 3 (GH3) IAA-amido synthase group II --- photoperiod --- linkage map --- SAM --- ground tissue --- signaling --- differentiation --- protoxylem --- ambient temperature --- gibberellins --- molecular regulation --- proximodistal patterning --- wheat-rye hybrids --- RolD --- somatic cell selection --- flowering time --- plant development and organogenesis --- grass --- root --- wheat --- crop productivity --- genetic transformation --- regulatory networks --- light environment --- rol genes --- root plasticity --- morphogenic --- stem apical meristem --- auxin --- shoot meristem --- Arabidopsis --- organogenesis --- transformation --- Vasculature --- Organogenesis --- radial patterning --- plant development --- reduced height --- root apical meristem --- Asteraceae --- vernalization --- KNOX transcription factors --- locule --- plant cell and tissue culture --- Agrobacterium rhizogenes --- genes of reproductive isolation --- cell wall --- lateral root cap --- CLE --- auxin minimum --- age
Book
Year: 2021 Publisher: Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute
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Chloroplasts in photosynthetic organisms and mitochondria in a vast majority of eukaryotes, contain part of the genetic material of a eukaryotic cell. The organisation and inheritance patterns of this organellar DNA are quite different to that of nuclear DNA. Present-day chloroplast and mitochondrial genomes contain only a few dozen genes. Nevertheless, these organelles harbor several thousand proteins, the vast majority of them encoded by the nucleus. As a result, the expression of nuclear and organelle genomes has to be very precisely coordinated. The selection of experimental and review papers of this book covers a wide range of topics related to chloroplasts and plant mitochondria research, illustrating recent advances and diverse insights into the field of organelle genetics in plants. These works represent some of the latest research on the genetics, genomics, and biotechnology of plant mitochondria and chloroplasts, and they are of significant broad interest for the community of plant scientists, especially for those working in the subjects related to organelle genetics
Research & information: general --- Salt stress --- organellar gene expression (OGE) --- Arabidopsis --- rice --- mitochondrial transcription termination factors (mTERFs) --- pentatricopeptide repeat (PPR) proteins --- DEAD-box RNA helicases (RHs)-containing proteins --- RNA-recognition motifs (RRMs)-containing proteins --- SIGMA FACTOR 5 --- PLASTID-SPECIFIC RIBOSOMAL PROTEIN 2 --- chloroplast genome --- free-standing ORFs --- introns --- phylogenetic analysis --- taxonomic study --- Trentepohlia odorata --- Trentepohliales --- Macrosolen --- Macrosolen cochinchinensis --- Macrosolen tricolor --- Macrosolen bibracteolatus --- Santalales --- gene loss --- phylogenetic relationship --- Utricularia amethystina --- Lentibulariaceae --- chloroplast phylogenomics --- organelle genome --- carnivorous plants --- polymorphic species --- intraspecific variation --- ndh genes --- genome structure --- genome evolution --- DNA transfer --- nuclear integrants of plastid DNA (NUPT) --- nuclear integrants of mitochondrial DNA (NUMT) --- legumes --- clover --- organelle genetics --- mitochondria --- endosymbiotic gene transfer --- gene fission --- common bean --- Phaseolus vulgaris --- mitochondrial genome --- comparative genomics --- phylogeny --- soybean --- yellow leaf mutant --- photosynthesis --- chloroplast RNA editing --- chloroplast --- SWNTs --- morphogenic regulators --- CRISPR --- protoplast regeneration --- chloroplast gene expression --- environmental stress response --- transcription --- RNA metabolism --- translation --- complex I --- intron splicing --- maturase --- NDH --- RNA editing --- n/a
Book
Year: 2021 Publisher: Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute
Abstract | Keywords | Export | Availability | Bookmark
Loading...Choose an application
- Reference Manager
- EndNote
- RefWorks (Direct export to RefWorks)
Chloroplasts in photosynthetic organisms and mitochondria in a vast majority of eukaryotes, contain part of the genetic material of a eukaryotic cell. The organisation and inheritance patterns of this organellar DNA are quite different to that of nuclear DNA. Present-day chloroplast and mitochondrial genomes contain only a few dozen genes. Nevertheless, these organelles harbor several thousand proteins, the vast majority of them encoded by the nucleus. As a result, the expression of nuclear and organelle genomes has to be very precisely coordinated. The selection of experimental and review papers of this book covers a wide range of topics related to chloroplasts and plant mitochondria research, illustrating recent advances and diverse insights into the field of organelle genetics in plants. These works represent some of the latest research on the genetics, genomics, and biotechnology of plant mitochondria and chloroplasts, and they are of significant broad interest for the community of plant scientists, especially for those working in the subjects related to organelle genetics
Salt stress --- organellar gene expression (OGE) --- Arabidopsis --- rice --- mitochondrial transcription termination factors (mTERFs) --- pentatricopeptide repeat (PPR) proteins --- DEAD-box RNA helicases (RHs)-containing proteins --- RNA-recognition motifs (RRMs)-containing proteins --- SIGMA FACTOR 5 --- PLASTID-SPECIFIC RIBOSOMAL PROTEIN 2 --- chloroplast genome --- free-standing ORFs --- introns --- phylogenetic analysis --- taxonomic study --- Trentepohlia odorata --- Trentepohliales --- Macrosolen --- Macrosolen cochinchinensis --- Macrosolen tricolor --- Macrosolen bibracteolatus --- Santalales --- gene loss --- phylogenetic relationship --- Utricularia amethystina --- Lentibulariaceae --- chloroplast phylogenomics --- organelle genome --- carnivorous plants --- polymorphic species --- intraspecific variation --- ndh genes --- genome structure --- genome evolution --- DNA transfer --- nuclear integrants of plastid DNA (NUPT) --- nuclear integrants of mitochondrial DNA (NUMT) --- legumes --- clover --- organelle genetics --- mitochondria --- endosymbiotic gene transfer --- gene fission --- common bean --- Phaseolus vulgaris --- mitochondrial genome --- comparative genomics --- phylogeny --- soybean --- yellow leaf mutant --- photosynthesis --- chloroplast RNA editing --- chloroplast --- SWNTs --- morphogenic regulators --- CRISPR --- protoplast regeneration --- chloroplast gene expression --- environmental stress response --- transcription --- RNA metabolism --- translation --- complex I --- intron splicing --- maturase --- NDH --- RNA editing --- n/a
Book
Year: 2021 Publisher: Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute
Abstract | Keywords | Export | Availability | Bookmark
Loading...Choose an application
- Reference Manager
- EndNote
- RefWorks (Direct export to RefWorks)
Chloroplasts in photosynthetic organisms and mitochondria in a vast majority of eukaryotes, contain part of the genetic material of a eukaryotic cell. The organisation and inheritance patterns of this organellar DNA are quite different to that of nuclear DNA. Present-day chloroplast and mitochondrial genomes contain only a few dozen genes. Nevertheless, these organelles harbor several thousand proteins, the vast majority of them encoded by the nucleus. As a result, the expression of nuclear and organelle genomes has to be very precisely coordinated. The selection of experimental and review papers of this book covers a wide range of topics related to chloroplasts and plant mitochondria research, illustrating recent advances and diverse insights into the field of organelle genetics in plants. These works represent some of the latest research on the genetics, genomics, and biotechnology of plant mitochondria and chloroplasts, and they are of significant broad interest for the community of plant scientists, especially for those working in the subjects related to organelle genetics
Research & information: general --- Salt stress --- organellar gene expression (OGE) --- Arabidopsis --- rice --- mitochondrial transcription termination factors (mTERFs) --- pentatricopeptide repeat (PPR) proteins --- DEAD-box RNA helicases (RHs)-containing proteins --- RNA-recognition motifs (RRMs)-containing proteins --- SIGMA FACTOR 5 --- PLASTID-SPECIFIC RIBOSOMAL PROTEIN 2 --- chloroplast genome --- free-standing ORFs --- introns --- phylogenetic analysis --- taxonomic study --- Trentepohlia odorata --- Trentepohliales --- Macrosolen --- Macrosolen cochinchinensis --- Macrosolen tricolor --- Macrosolen bibracteolatus --- Santalales --- gene loss --- phylogenetic relationship --- Utricularia amethystina --- Lentibulariaceae --- chloroplast phylogenomics --- organelle genome --- carnivorous plants --- polymorphic species --- intraspecific variation --- ndh genes --- genome structure --- genome evolution --- DNA transfer --- nuclear integrants of plastid DNA (NUPT) --- nuclear integrants of mitochondrial DNA (NUMT) --- legumes --- clover --- organelle genetics --- mitochondria --- endosymbiotic gene transfer --- gene fission --- common bean --- Phaseolus vulgaris --- mitochondrial genome --- comparative genomics --- phylogeny --- soybean --- yellow leaf mutant --- photosynthesis --- chloroplast RNA editing --- chloroplast --- SWNTs --- morphogenic regulators --- CRISPR --- protoplast regeneration --- chloroplast gene expression --- environmental stress response --- transcription --- RNA metabolism --- translation --- complex I --- intron splicing --- maturase --- NDH --- RNA editing --- Salt stress --- organellar gene expression (OGE) --- Arabidopsis --- rice --- mitochondrial transcription termination factors (mTERFs) --- pentatricopeptide repeat (PPR) proteins --- DEAD-box RNA helicases (RHs)-containing proteins --- RNA-recognition motifs (RRMs)-containing proteins --- SIGMA FACTOR 5 --- PLASTID-SPECIFIC RIBOSOMAL PROTEIN 2 --- chloroplast genome --- free-standing ORFs --- introns --- phylogenetic analysis --- taxonomic study --- Trentepohlia odorata --- Trentepohliales --- Macrosolen --- Macrosolen cochinchinensis --- Macrosolen tricolor --- Macrosolen bibracteolatus --- Santalales --- gene loss --- phylogenetic relationship --- Utricularia amethystina --- Lentibulariaceae --- chloroplast phylogenomics --- organelle genome --- carnivorous plants --- polymorphic species --- intraspecific variation --- ndh genes --- genome structure --- genome evolution --- DNA transfer --- nuclear integrants of plastid DNA (NUPT) --- nuclear integrants of mitochondrial DNA (NUMT) --- legumes --- clover --- organelle genetics --- mitochondria --- endosymbiotic gene transfer --- gene fission --- common bean --- Phaseolus vulgaris --- mitochondrial genome --- comparative genomics --- phylogeny --- soybean --- yellow leaf mutant --- photosynthesis --- chloroplast RNA editing --- chloroplast --- SWNTs --- morphogenic regulators --- CRISPR --- protoplast regeneration --- chloroplast gene expression --- environmental stress response --- transcription --- RNA metabolism --- translation --- complex I --- intron splicing --- maturase --- NDH --- RNA editing
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