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Mitochondrial DNA. --- Mitochondrial genome --- Mitochondrial genomes --- mtDNA --- Extrachromosomal DNA

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INTERNATIONAL REVIEW OF CYTOLOGY V141

ADN extrachromosomique --- Chondriosomes --- Extrachromosomal DNA --- Extrachromosomiale DNA --- Mitochondria --- Mitochondries --- Cytology. --- Mitochondrial DNA. --- Mitochondrial genome --- Mitochondrial genomes --- mtDNA --- Cell biology --- Cellular biology --- Biology --- Cells

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The papers included in this Special Issue address a variety of important aspects of Genetics, Genomics and Biotechnology of Plant Cytoplasmic Organelles, including new advances in the sequencing of both mitochondria and chloroplasts’ genomes using Next-Generation Sequencing technology in plant species and algae including important crop and tree species, in vitro culture protocol, and identification of a core module of genes involved in plastid development. In particular, the published studies focus on the description of adaptive evolution, elucidate mitochondrial mRNA processing, highlight the effect of domestication process on plastome variability and report the development of molecular markers. A meta-analysis of recently published genome-wide expression studies allowed the identification of novel nuclear genes, involved in the complex and still unrevealed mechanisms at the basis of communication between chloroplast and nucleus (retrograde signalling) during plastid development (biogenic control). Finally, an optimized regeneration protocol useful in plastid transformation of recalcitrant species, such as sugarcane, has been reported.

Research & information: general --- mitochondrial genome --- buckwheat --- plastid genome --- genetic diversity --- long reads --- targeted assembly --- genome assembly --- Fagus --- Fagaceae --- Fagales --- molecular marker --- mitochondrial marker --- taxon assignment --- CAPS marker --- SNP --- next-generation sequencing --- Solanum --- Italian landraces --- plastome --- molecular markers --- phylogenetic analysis --- plastid transformation --- sugarcane --- unfurled leaves --- streptomycin --- heteroplasmy --- mesophyll and bundle sheath cells --- plastids --- photomorphogenesis --- retrograde control --- biogenic signals --- lincomycin --- norflurazon --- pap7-1 mutant --- mitochondria --- RNA processing --- algal evolution --- circular RNA --- polycytidylation --- PacBio Iso-Seq --- Capparaceae --- chloroplast genome --- Cadaba --- Maerua --- phylogenetic relationships --- mitochondrial genome --- buckwheat --- plastid genome --- genetic diversity --- long reads --- targeted assembly --- genome assembly --- Fagus --- Fagaceae --- Fagales --- molecular marker --- mitochondrial marker --- taxon assignment --- CAPS marker --- SNP --- next-generation sequencing --- Solanum --- Italian landraces --- plastome --- molecular markers --- phylogenetic analysis --- plastid transformation --- sugarcane --- unfurled leaves --- streptomycin --- heteroplasmy --- mesophyll and bundle sheath cells --- plastids --- photomorphogenesis --- retrograde control --- biogenic signals --- lincomycin --- norflurazon --- pap7-1 mutant --- mitochondria --- RNA processing --- algal evolution --- circular RNA --- polycytidylation --- PacBio Iso-Seq --- Capparaceae --- chloroplast genome --- Cadaba --- Maerua --- phylogenetic relationships

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The papers included in this Special Issue address a variety of important aspects of Genetics, Genomics and Biotechnology of Plant Cytoplasmic Organelles, including new advances in the sequencing of both mitochondria and chloroplasts’ genomes using Next-Generation Sequencing technology in plant species and algae including important crop and tree species, in vitro culture protocol, and identification of a core module of genes involved in plastid development. In particular, the published studies focus on the description of adaptive evolution, elucidate mitochondrial mRNA processing, highlight the effect of domestication process on plastome variability and report the development of molecular markers. A meta-analysis of recently published genome-wide expression studies allowed the identification of novel nuclear genes, involved in the complex and still unrevealed mechanisms at the basis of communication between chloroplast and nucleus (retrograde signalling) during plastid development (biogenic control). Finally, an optimized regeneration protocol useful in plastid transformation of recalcitrant species, such as sugarcane, has been reported.

mitochondrial genome --- buckwheat --- plastid genome --- genetic diversity --- long reads --- targeted assembly --- genome assembly --- Fagus --- Fagaceae --- Fagales --- molecular marker --- mitochondrial marker --- taxon assignment --- CAPS marker --- SNP --- next-generation sequencing --- Solanum --- Italian landraces --- plastome --- molecular markers --- phylogenetic analysis --- plastid transformation --- sugarcane --- unfurled leaves --- streptomycin --- heteroplasmy --- mesophyll and bundle sheath cells --- plastids --- photomorphogenesis --- retrograde control --- biogenic signals --- lincomycin --- norflurazon --- pap7-1 mutant --- mitochondria --- RNA processing --- algal evolution --- circular RNA --- polycytidylation --- PacBio Iso-Seq --- Capparaceae --- chloroplast genome --- Cadaba --- Maerua --- phylogenetic relationships

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The ability to use DNA evidence is revolutionizing our understanding of the past. This book introduces archaeologists to the basics of DNA research so they can understand the powers and pitfalls of using DNA data in archaeological analysis and interpretation. By concentrating on the principles and applications of DNA specific to archaeology, the authors allow archaeologists to collect DNA samples properly and interpret the laboratory results with greater confidence. The volume is replete with case examples of DNA work in a variety of archaeological contexts and is an ideal teaching tool f

Human remains (Archaeology) --- Human molecular genetics. --- Mitochondrial DNA --- Biomolecular archaeology. --- Archaeological chemistry. --- Archaeology --- Restes humains (Archéologie) --- Génétique moléculaire humaine --- ADN mitochondrial --- Archéologie biomoléculaire --- Chimie archéologique --- Archéologie --- Analysis. --- Methodology. --- Analyse --- Méthodologie --- Mitochondrial DNA. --- Restes humains (Archéologie) --- Génétique moléculaire humaine --- Archéologie biomoléculaire --- Chimie archéologique --- Archéologie --- Méthodologie --- Archaeological chemistry --- Biomolecular archaeology --- Human molecular genetics --- Mitochondrial genome --- Mitochondrial genomes --- mtDNA --- Extrachromosomal DNA --- Skeletal remains (Archaeology) --- Human skeleton --- Primate remains (Archaeology) --- Human genetics --- Molecular genetics --- Chemistry, Archaeological --- Chemistry, Analytic --- Biochemistry --- Methodology --- Analysis --- Bioarchaeology --- Analytical chemistry --- Human remains (Archaeology) - Analysis. --- Archaeology - Methodology.