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Plastid Genome Evolution and Inheritance in Passiflora

Plastid Genome Evolution and Inheritance in Passiflora
Author: Bikash Shrestha
Publisher:
Total Pages: 416
Release: 2020
Genre:
ISBN:
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Plastid genomes (plastomes) of photosynthetic angiosperms are for the most part highly conserved in their organization, mode of inheritance and rates of nucleotide substitution. A small number of distantly related lineages including Passiflora share a syndrome of features that deviate from this general pattern, including extensive genomic rearrangements, accelerated rates of nucleotide substitution, biparental inheritance and plastome-genome incompatibility. Plastome evolution studies in Passiflora are limited in taxon sampling; hence the phylogenetic extent of the rearrangements is unknown. To gain better understanding in plastome evolution in Passiflora, plastomes from 31 taxa and transcriptomes from 6 species were sequenced and assembled. In addition, interspecific crosses within two largest subgenera, Passiflora and Decaloba, were greatly expanded to understand mode of plastid inheritance in the genus. Phylogenomic analyses with 68 protein-coding genes generated a fully resolved, strongly supported tree that is congruent with the comprehensive phylogenies based on a few plastid and nuclear loci. Extensive rearrangements were detected including several gene/intron losses, inverted repeat expansion/contraction and inversions, some of which occurred in parallel. Nucleotide substitution rate analyses of 68 protein-coding genes across the genus showed lineage- and locus-specific acceleration. Comparative transcriptome analyses identified missing or divergent plastid genes in Passiflora that have followed three distinct evolutionary paths: transfer to the nucleus, substitution by the nuclear genes and highly divergent gene that likely remain functional. Plastid-encoded rps7 was transferred into the intron of a nuclear-encoded plastid-targeted thioredoxin m-type gene, acquiring its plastid transit peptide. Plastid rpl20 likely experienced a novel substitution by a duplicated, nuclear-encoded mitochondrial-targeted rpl20 that has a similar gene structure. Interspecific hybrids in Passiflora exhibit diverse modes of plastid inheritance including a clade-specific paternal or maternal pattern along with frequent transmission of biparental plastids. Furthermore, heteroplasmy due to biparental inheritance was restricted to early developmental stage in hybrids and plastid types from either parent were excluded in older plants resulting plastid homogeneity. These results of unusual plastome dynamics and inheritance identified in Passiflora presents the genus as an exciting system to study plastome evolution in angiosperms

Plastid Genome Rearrangement, Gene Loss, and Sequence Divergence in Geraniaceae, Passifloraceae, and Annonaceae

Plastid Genome Rearrangement, Gene Loss, and Sequence Divergence in Geraniaceae, Passifloraceae, and Annonaceae
Author: John Christensen Blazier
Publisher:
Total Pages: 230
Release: 2013
Genre:
ISBN:
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Plastid genomes of flowering plants are largely identical in gene order and content, but a few lineages have been identified with many gene and intron losses, genomic rearrangements, and accelerated rates of nucleotide substitutions. These aberrant lineages present an opportunity to understand the modes of selection acting on these genomes as well as their long-term stability. My research has focused on two areas within plastid genome evolution in Geraniaceae: first, an investigation of the diversity of unusual plastid genomes in a single genus, Erodium (Geraniaceae) for chapters one and three. Chapter two focuses on the evolution of subunits of the plastid-encoded RNA polymerase (PEP). The first chapter described the loss of plastid-encoded NADPH dehydrogenase (ndh) genes from a clade of 13 Erodium species. Divergence time estimates indicate this clade is less than 5 million years old. This recent loss of ndh genes in Erodium presents an opportunity to investigate changes in photosynthetic function through comparative biochemistry between Erodium species with and without plastid-encoded ndh genes. Second, I examined the evolution of the gene encoding the alpha subunit (rpoA) of PEP in three disparate angiosperm lineages--Pelargonium (Geraniaceae), Passiflora (Passifloraceae), and Annonaceae--in which this gene has diverged so greatly that it is barely recognizable. PEP is conserved in the plastid genomes of all photosynthetic angiosperms. I found multiple lines of evidence indicating that the genes remain functional despite retaining only ~30% sequence identity with rpoA genes from outgroups. The genomes containing these divergent rpoA genes have undergone significant rearrangement due to illegitimate recombination and gene conversion, and I hypothesized that these phenomena have also driven the divergence of rpoA. Third, I conducted a survey of plastid genome evolution in Erodium with the completion of 15 additional whole genomes. Except for Erodium and some legumes, all angiosperm plastid genomes share a quadripartite structure with large and small single copy regions (LSC, SSC) and two inverted repeats (IR). I discovered a species of Erodium that has re-formed a large inverted repeat. Demonstrating a precedent for loss and regain of the IR also impacts models of evolution for other highly rearranged plastid genomes.

Plastid Genome Evolution

Plastid Genome Evolution
Author:
Publisher: Academic Press
Total Pages: 0
Release: 2018-01-26
Genre: Science
ISBN: 9780128134573
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Plastid Genome Evolution, Volume 85 provides a summary of recent research on plastid genome variation and evolution across photosynthetic organisms. It covers topics ranging from the causes and consequences of genomic changes, to the phylogenetic utility of plastomes for resolving relationships across the photosynthetic tree of life. This newly released volume presents thorough, up-to-date information on coevolution between the plastid and nuclear genomes, with chapters on plastid autonomy vs. nuclear control over plastid function, establishment and genetic integration of plastids, plastid genomes in alveolate protists, plastid genomes of glaucophytes, the evolution of the plastid genome in chlorophyte and streptophyte green algae, and more.

Plastid Genome Evolution

Plastid Genome Evolution
Author:
Publisher: Academic Press
Total Pages: 398
Release: 2018-02-03
Genre: Science
ISBN: 0128134585
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Plastid Genome Evolution, Volume 85 provides a summary of recent research on plastid genome variation and evolution across photosynthetic organisms. It covers topics ranging from the causes and consequences of genomic changes, to the phylogenetic utility of plastomes for resolving relationships across the photosynthetic tree of life. This newly released volume presents thorough, up-to-date information on coevolution between the plastid and nuclear genomes, with chapters on plastid autonomy vs. nuclear control over plastid function, establishment and genetic integration of plastids, plastid genomes in alveolate protists, plastid genomes of glaucophytes, the evolution of the plastid genome in chlorophyte and streptophyte green algae, and more. Provides comprehensive coverage of plastid genome variation by leading researchers in the field Presents a broad range of taxonomic groups, ranging from single and multicellular algae, to the major clades of land plants Includes thorough, up-to-date information on coevolution between the plastid and nuclear genomes

Investigating Plastid Genome Evolution in Heterotrophic Plants and the Use of Structural Changes to the Plastid Genome as Phylogenetic Markers

Investigating Plastid Genome Evolution in Heterotrophic Plants and the Use of Structural Changes to the Plastid Genome as Phylogenetic Markers
Author: Thomas Werner Anthony Braukmann
Publisher:
Total Pages:
Release: 2015
Genre:
ISBN:
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Photosynthesis is the hallmark of plant evolution; the vast majority of plants are autotrophic and rely entirely on this process to fix carbon. As a consequence, the plastid genome (or plastome) is highly conserved across land plants with respect to its size, synteny, and gene content. Owing to this predictable structure as well as the low rates of nucleotide substitution, the plastome is a useful source of data for addressing phylogenetic questions. I use a rare structural change to the plastome as a phylogenetic marker to address the position of Gnetales within seed plants which has been difficult to resolve. The loss of all eleven plastid ndh genes support a 'gnepine' hypothesis or the placement of Gnetales as sister to Pinaceae. About 1% of flowering plants have lost all or some of their photosynthetic ability. These so-called heterotrophic plants are capable of obtaining water and/or nutrients from a host and are divided into two distinct groups: haustorial parasites, and mycoheterotrophs. In extreme cases, fully heterotrophic plants have completely lost the ability to photosynthesize. The phylogenetic position of heterotrophic plants has been difficult to resolve due to extensive changes to plastome size, structure, and content. Broad-scale angiosperm phylogenies indicate that the haustorial parasitism has evolved at least 11 times independently and there are at least 10 independent origins of mycoheterotrophy among land plants. Using a Southern hybridization approach combined with an extensive taxon sampling, I investigated the evolution of plastome protein coding gene content in parasitic Cuscuta (Convolvulaceae) and mycoheterotrophic Ericaceae. Common patterns include the early loss of the plastid ndh genes and extreme reduction in coding content of achlorophyllous species. A most intriguing result is the apparent loss of all plastid genes, including the highly conserved ribosomal RNA genes in Cuscuta section Subulatae ('O' clade), this condition that has only been inferred among the highly specialized parasites in Rafflesiaceae. Informed by these broad surveys, I further investigated the evolution of mycoheterotrophy in Ericaceae, using a select sampling across the trophic spectrum and a next generation sequencing approach. The plastomes of all Ericaceae species are highly rearranged and lack synteny with a typical plastome. Furthermore, positive selection was found to be acting on the rps, rpl, rpo, and ndh genes in a number of photosynthetic lineages. The plastid ndh genes are variable for their presence and absence in the partially mycoheterotrophic Pyroleae. The plastomes of fully mycoheterotrophic species are highly reduced with Allotropa virgata possessing the smallest plastome among land plants observed to date. Additionally, these plastomes have been reduced to encoding a highly divergent accD open reading frame, matK, and housekeeping genes that are generally under purifying selection. However, several ribosomal proteins and matK, were found to be under positive selection.

Biotechnology of Fruit and Nut Crops, 2nd Edition

Biotechnology of Fruit and Nut Crops, 2nd Edition
Author: Richard E. Litz
Publisher: CABI
Total Pages: 704
Release: 2020-01-29
Genre: Science
ISBN: 1780648278
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This book covers the biotechnology of all the major fruit and nut species. Since the very successful first edition of this book in 2004, there has been rapid progress for many fruit and nut species in cell culture, genomics and genetic transformation, especially for citrus and papaya. This book covers both these cutting-edge technologies and regeneration pathways, protoplast culture, in vitro mutagenesis, ploidy manipulation techniques that have been applied to a wider range of species. Three crop species, Diospyros kaki (persimmon), Punica granatum (pomegranate) and Eriobotrya japonica (loquat) are included for the first time. The chapters are organized by plant family to make it easier to make comparisons and exploitation of work with related species. Each chapter discusses the plant family and the related wild species for 38 crop species, and has colour illustrations. It is essential for scientists and post graduate students who are engaged in the improvement of fruit, nut and plantation crops.

Cell and Molecular Biology of Plastids

Cell and Molecular Biology of Plastids
Author: Ralph Bock
Publisher: Springer Science & Business Media
Total Pages: 535
Release: 2007-09-19
Genre: Science
ISBN: 3540753761
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The present book provides a comprehensive overview of our current knowledge on plastid biogenesis, plastid-nuclear communication, and the regulation of plastid gene expression at all levels. It also assesses the state-of-the-art in key technologies, such as proteomics and chloroplast transformation. Written by recognized experts in the field, the book further covers crucial post-translational processes in plastid biogenesis and function, including protein processing.

The Date Palm Genome, Vol. 1

The Date Palm Genome, Vol. 1
Author: Jameel M. Al-Khayri
Publisher: Springer Nature
Total Pages: 241
Release: 2021-07-01
Genre: Science
ISBN: 3030737462
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This book is the first volume of a comprehensive assemblage of contemporary knowledge relevant to genomics and other omics in date palm. Volume 1 consists of 11 chapters arranged in 3 parts grouped according to subject. Part I, Biology and Phylogeny, focuses on date palm biology, evolution and origin. Part II, Biodiversity and Molecular Identification, covers conformity of in vitro derived plants, molecular markers, barcoding, pollinizer genetics and gender determination. Part III, Genome Mapping and Bioinformatics, addresses genome mapping of nuclear, chloroplast and mitochondrial DNA, in addition to a chapter on progress made in date palm bioinformatics. This volume represents the efforts of 30 international scientists from 10 countries and contains 78 figures and 30 tables to illustrate presented concepts. Volume 2 is published under the title: Omics and Molecular Breeding.

Wild Crop Relatives: Genomic and Breeding Resources

Wild Crop Relatives: Genomic and Breeding Resources
Author: Chittaranjan Kole
Publisher: Springer Science & Business Media
Total Pages: 274
Release: 2011-08-17
Genre: Science
ISBN: 3642204473
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Wild crop relatives are now playing a significant part in the elucidation and improvement of the genomes of their cultivated counterparts. This work includes comprehensive examinations of the status, origin, distribution, morphology, cytology, genetic diversity and available genetic and genomic resources of numerous wild crop relatives, as well as of their evolution and phylogenetic relationship. Further topics include their role as model plants, genetic erosion and conservation efforts, and their domestication for the purposes of bioenergy, phytomedicines, nutraceuticals and phytoremediation. Wild Crop Relatives: Genomic and Breeding Resources comprises 10 volumes on Cereals, Millets and Grasses, Oilseeds, Legume Crops and Forages, Vegetables, Temperate Fruits, Tropical and Subtropical Fruits, Industrial Crops, Plantation and Ornamental Crops, and Forest Trees. It contains 125 chapters written by nearly 400 well-known authors from about 40 countries.