Mobile Elements and Plant Genome Evolution, Comparative Analyses and Computational Tools, Volume II

34.1K

views

52

authors

12

articles

Mobile Elements and Plant Genome Evolution, Comparative Analyses and Computational Tools, Volume II

34.1K

views

52

authors

12

articles

Editorial

10 November 2023

Editorial: Mobile elements and plant genome evolution, comparative analyses and computational tools, volume II

Ruslan Kalendar

and

Gennady I. Karlov

724 views

0 citations

Editors

2

Ruslan Kalendar

University of Helsinki

Gennady I. Karlov

All-Russia Research Institute of Agricultural Biotechnology

Impact

About

This Research Topic is part of the Mobile Elements and Plant Genome Evolution, Comparative Analyses and Computational Tools series:
Mobile Elements and Plant Genome Evolution, Comparative Analyses and Computational Tools

Transposable elements are very common mobile genetic elements that are composed of several classes and make up the majority of eukaryotic genomes. The movement and accumulation of mobile genetic elements have been a major force in the formation of the genes and genomes of nearly all organisms. As dispersed and ubiquitous mobile elements, their life cycle of replicative transposition leads to genome rearrangements affecting cellular function. Transposable elements are important drivers of species diversity, and they exhibit great variety in structure, size, and mechanisms of transposition, making them important putative actors in genome evolution.

Bioinformatics and high throughput plant genomics are the key tools in these studies. The application of transposable elements-based throughput techniques assesses the analysis of genetic diversity, including the following issues: sequencing and bioinformatic tools, genome-wide profiling for transposable element analysis of repetitive elements, discovery and comparative analysis of transposable elements, mobile element and host genome evolution.

As genetic tools, DNA transposons can be used to introduce a piece of foreign DNA into a genome. Indeed, they have been used for transgenesis and insertional mutagenesis in different organisms, since these elements are not generally dependent on host factors to mediate their mobility. Thus, DNA transposons are useful tools to analyze the regulatory genome, study embryonic development, identify genes and pathways implicated in disease or pathogenesis of pathogens, and even contribute to gene therapy.

This Research Topic aims to focus on:
- Mobile element and host genome evolution.
- Discovery and comparative analysis of transposable elements.
- Genome-wide profiling for transposable element analysis of repetitive elements.
- Bioinformatic tools.

We welcome the following article types: Original Research, Reviews, and Opinions.

This Research Topic is part of the Mobile Elements and Plant Genome Evolution, Comparative Analyses and Computational Tools series:
Mobile Elements and Plant Genome Evolution, Comparative Analyses and Computational Tools

Transposable elements are very common mobile genetic elements that are composed of several classes and make up the majority of eukaryotic genomes. The movement and accumulation of mobile genetic elements have been a major force in the formation of the genes and genomes of nearly all organisms. As dispersed and ubiquitous mobile elements, their life cycle of replicative transposition leads to genome rearrangements affecting cellular function. Transposable elements are important drivers of species diversity, and they exhibit great variety in structure, size, and mechanisms of transposition, making them important putative actors in genome evolution.

Bioinformatics and high throughput plant genomics are the key tools in these studies. The application of transposable elements-based throughput techniques assesses the analysis of genetic diversity, including the following issues: sequencing and bioinformatic tools, genome-wide profiling for transposable element analysis of repetitive elements, discovery and comparative analysis of transposable elements, mobile element and host genome evolution.

As genetic tools, DNA transposons can be used to introduce a piece of foreign DNA into a genome. Indeed, they have been used for transgenesis and insertional mutagenesis in different organisms, since these elements are not generally dependent on host factors to mediate their mobility. Thus, DNA transposons are useful tools to analyze the regulatory genome, study embryonic development, identify genes and pathways implicated in disease or pathogenesis of pathogens, and even contribute to gene therapy.

This Research Topic aims to focus on:
- Mobile element and host genome evolution.
- Discovery and comparative analysis of transposable elements.
- Genome-wide profiling for transposable element analysis of repetitive elements.
- Bioinformatic tools.

We welcome the following article types: Original Research, Reviews, and Opinions.

Download ebook

Share

Editors

Ruslan Kalendar

University of Helsinki

Gennady I. Karlov

All-Russia Research Institute of Agricultural Biotechnology

Impact

34,090 Total views

24,533 Article views

8,302 Article downloads

1,255 Topic views

Published In

Journal Thumbnail

Frontiers in Plant Science

Plant Systems and Synthetic Biology, Technical Advances in Plant Science, Plant Cell Biology, Plant Systematics and Evolution, Plant Bioinformatics

Journal Thumbnail

Frontiers in Bioengineering and Biotechnology

Plant Systems and Synthetic Biology

About Frontiers Research Topics

With their unique mixes of varied contributions from Original Research to Review Articles, Research Topics unify the most influential researchers, the latest key findings and historical advances in a hot research area! Find out more on how to host your own Frontiers Research Topic or contribute to one as an author.

Suggest a topic