General Information

General Information on Prokaryotic Elements

The "General Information" section of TnPedia offers a comprehensive overview of prokaryotic transposable elements (TEs), which are central to bacterial evolution and adaptation. These mobile genetic elements facilitate the acquisition and dissemination of genes responsible for antibiotic resistance, heavy metal tolerance, and virulence factors.


General Information on Prokaryotic Elements
1. Overview 2. Insertion Sequence History and Early Transposition Models 3. What Is an IS? 4. ISfinder and the Growing Number of IS 5. IS Identification, nomenclature and naming attribution 6. IS Distribution 7. Major Groups are Defined by the Type of Transposase They Use 8. Fuzzy Borders 9. tIS - IS and relatives with passenger genes 10. IS derivatives of Tn3 family transposons 11. IS related to Integrative Conjugative Elements (ICEs) 12. IS91 and ISCR families 13. Non-autonomous IS derivatives 14. Relationship Between IS and Eukaryotic TE 15. Impact of IS on Genome Evolution - The Importance of Time Scale 16. Target Choice 17. Influence of transposition mechanisms on genome impact 18. IS and Gene Expression 19. IS Organization 20. Control of transposition activity 21. Transposase expression and activity 22. Reaction mechanisms 23. The Casposases

**Fig.1.1. The Busy Genome:** Elements of Horizontal Exchange. The genome backbone, which includes housekeeping genes, is shown as the inner circle (blue). The "mobilome" is shown in the outer circle. This includes a number of different types of MGE both intercellular (some genomic islands, prophages, and conjugative transposons) and intracellular (Insertion sequences, compound and unit transposons, integrons, and super integrons). An important class of intercellular MGE, the plasmids, act as transposon vectors and facilitate TE movement within the plasmidome.

Section Organization

This section encompasses several key topics:

Overview: An introduction to the significance of TEs in bacterial genomes.
Insertion Sequence History and Early Transposition Models: A historical perspective on the discovery and initial models explaining TE behavior.
What Is an IS?: Detailed definitions and characteristics of insertion sequences.
ISfinder and the Growing Number of IS: Insights into the expanding database of known insertion sequences.
IS Identification, Nomenclature, and Naming Attribution: Guidelines on how insertion sequences are identified and named.
IS Distribution: Information on the prevalence and distribution patterns of insertion sequences across different bacterial species.
Major Groups Defined by the Type of Transposase They Use: Classification of TEs based on the transposase enzymes they encode.
Fuzzy Borders: Discussion on the complexities and ambiguities in defining the boundaries of TEs.
tIS - IS and Relatives with Passenger Genes: Examination of Insertion Sequences that carry additional genes, known as passenger genes.
IS Derivatives of Tn3 Family Transposons: Analysis of insertion sequences derived from Tn3 family transposons.
IS Related to Integrative Conjugative Elements (ICEs): Exploration of the relationship between insertion sequences and ICEs.
IS91 and ISCR: Specific focus on the IS91 family and ISCR elements.
Non-autonomous IS Derivatives: Study of insertion sequences that rely on other elements for mobility.
Relationship Between IS and Eukaryotic TE: Comparative analysis of prokaryotic insertion sequences and eukaryotic transposable elements.
Impact of IS on Genome Evolution - The Importance of Time Scale: Insights into how insertion sequences influence genome evolution over time.
Target Choice: Understanding the selection of insertion sites by TEs.
Influence of Transposition Mechanisms on Genome Impact: Evaluation of how different transposition mechanisms affect genomic architecture.
IS and Gene Expression: Investigation into how insertion sequences can modulate gene expression.
IS Organization: Structural organization of insertion sequences within the genome.
Control of Transposition Activity: Mechanisms that regulate the activity of transposable elements.
Transposase Expression and Activity: Details on the expression patterns and functionality of transposase enzymes.
Reaction Mechanisms: Biochemical pathways facilitating transposition events.
The Casposases: Introduction to casposases and their role in the evolution of CRISPR-Cas systems.

This section serves as a foundational resource for researchers and students aiming to understand the fundamental aspects of transposable elements before delving into specific families of insertion sequences and transposons detailed in other sections of TnPedia.

How to Cite?

TnPedia Team. (2025). TnPedia: General Information on Prokaryotic Elements. Zenodo. https://doi.org/10.5281/zenodo.15548171

TnPedia
General Information	Overview, IS History, What Is an IS?, ISfinder and the Growing Number of IS, IS Identification, IS Distribution, Major Groups are Defined by the Type of Transposase They Use, Fuzzy Borders, tIS - IS and relatives with passenger genes, IS derivatives of Tn3 family transposons, IS related to Integrative Conjugative Elements (ICEs), IS91 and ISCR, Non-autonomous IS derivatives, Relationship Between IS and Eukaryotic TE, Impact of IS on Genome Evolution - The Importance of Time Scale, Target Choice, Influence of transposition mechanisms on genome impact, IS and Gene Expression, IS Organization, Control of transposition activity, Transposase expression and activity, Reaction mechanisms, The casposases
Insertion Sequences	IS1 family, IS1595 family, IS3 family, IS481 family, IS1202 family, IS4 and related families, IS5 and related IS1182 families, IS6 family, IS21 family, IS30 family, IS66 family, IS110 family, IS256 family, IS630 family, IS982 family, IS1380 family, ISAs1 family, ISL3 family, ISAzo13 family, IS607 family, IS91-ISCR families, IS200-IS605 family, ISPa17 family
Transposable Elements	Compound transposons or composite transposons, Tn3 family, Tn7 family, Tn402 family, Tn554 family