IS Families: Difference between revisions
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!Prokaryotic [[IS Families|Insertion Sequences (IS)]] | !Prokaryotic [[IS Families|Insertion Sequences (IS)]] | ||
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|1. [[IS Families/IS1 family| | |'''1. [[IS Families/IS1 family|IS<i>1</i> family]]''' | ||
IS''1'' was among the first bacterial insertion sequences to be identified. They are component of several compound transposons. | |||
[[File:Compound-Tn-zenodo.15565953.png|link=https://doi.org/10.5281/zenodo.15565953|DOI badge]] | |||
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|2. [[IS Families/IS1595 family|'''IS<i> | |'''2. [[IS Families/IS1595 family|IS<i>1595</i> family]]''' | ||
IS''1595'' was identified in ''Xanthomonas campestris'' and are present in high copy number in other ''Xanthomonas'' species. Subgroups may contain passenger genes or additional noncoding DNA. | |||
[[File:Compound-Tn-zenodo.15565953.png|link=https://doi.org/10.5281/zenodo.15565953|DOI badge]] | |||
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|'''3. [[IS Families/IS3 family|IS<i>3</i> family]]''' | |||
The IS''3'' family is one of the most coherent and largest IS families. | |||
'''3a. [[IS Families/IS3_family#Excision:_A_dedicated_enzyme|Excision: A dedicated enzyme]]''' | |||
This sub-section explores a mechanistic basis for the precise excision of members of IS''3'' family in bacteria, focusing on the role of the Insertion Sequence Excision Enhancer (IEE). | |||
[[File:Compound-Tn-zenodo.15565953.png|link=https://doi.org/10.5281/zenodo.15565953|DOI badge]] | |||
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|'''4. [[IS Families/IS481 family|IS<i>481</i> family]]''' | |||
Initially, IS''481'' appeared to be an IS''3'' family derivative, however, their presence in high copy number in some species strongly suggests that these represent a distinct transpositionally active family. Importantly, some members include passenger genes including antibiotic resistance, or potential transcriptional regulators. | |||
[[File:Compound-Tn-zenodo.15565953.png|link=https://doi.org/10.5281/zenodo.15565953|DOI badge]] | |||
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|'''5. [[IS Families/IS1202 family|IS''1202'' family]]''' | |||
IS''1202'' was originally isolated from ''Streptococcus pneumoniae'' in the mid-1990s and previously tagged as an emerging IS family in the ISfinder database. | |||
[[File:Compound-Tn-zenodo.15565953.png|link=https://doi.org/10.5281/zenodo.15565953|DOI badge]] | |||
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;6. [[IS Families/IS4 and related families|IS<i>4</i> and related families]]''',''' [[IS Families/IS4 and related families#IS701 family|IS<i>701</i> family]], [[IS Families/IS4 and related families#ISH3 family|IS''H3'' family]] and [[IS Families/IS4 and related families#IS1634 family|IS''1634'' family]] | |||
[[File:Compound-Tn-zenodo.15565953.png|link=https://doi.org/10.5281/zenodo.15565953|DOI badge]] | |||
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;7. [[IS Families/IS5 and related IS1182 families|IS<i>5</i> and related IS<i>1182</i> families]] | ;7. [[IS Families/IS5 and related IS1182 families|IS<i>5</i> and related IS<i>1182</i> families]] | ||
Revision as of 10:46, 10 June 2025
Introduction – Prokaryotic Insertion Sequences
Insertion sequences (IS) are the simplest, most abundant transposable elements found in bacteria and archaea. Since their discovery in the late 1960s, the catalogue of known IS has expanded explosively; today, ISfinder curates sequences for > 5,000 distinct elements drawn from nearly every branch of the prokaryotic tree. Far from genetic curiosities, IS act as powerful engines of genome evolution, capturing, shuffling, mutating, and occasionally activating host genes while driving plasmid and chromosomal rearrangements. Their activity underlies rapid adaptation to antibiotics, niche colonization, and metabolic innovation, making them indispensable subjects for comparative genomics and molecular microbiology.
Despite their sequence diversity, IS rely on a surprisingly small set of transposition chemistries—cut-and-paste, copy-out–paste-in, peel-and-paste and rolling-circle mechanisms chief among them.
These shared strategies provide a conceptual framework for understanding how seemingly unrelated families achieve similar biological outcomes. They also blur the traditional borders between IS and larger composite transposons or integrative elements, emphasizing that mechanistic convergence, rather than sequence homology alone, now guides TE classification.
How to use this section
Each chapter that follows focuses on a single IS family. For every family you will find:
- Diagnostic features – hallmark transposase motifs, terminal inverted repeats, and target-site duplications.
- Mechanistic synopsis – the transposition pathway(s) employed and any known regulatory controls.
- Representative members – well-characterized elements that exemplify the family’s diversity and biological impact.
- Distribution and host range – taxonomic breadth and notable hotspots across plasmids, chromosomes, and mobile genomic islands.
- Genomic and evolutionary impact – documented roles in gene mobilization, genome plasticity, and adaptive evolution.
Because genome sequencing continues to reveal novel IS at an accelerating pace, family boundaries and definitions remain fluid. These chapters therefore serve not as static taxonomic verdicts but as living reference points that will be updated as new data emerge.
Whether you are annotating a newly sequenced genome, tracking the spread of antibiotic-resistance genes, or probing the evolutionary logic of mobile DNA, this section of TnPedia provides a concise, family-by-family guide to the structure, mechanism, and biological significance of prokaryotic insertion sequences.
| Prokaryotic Insertion Sequences (IS) |
|---|
| 1. IS1 family
IS1 was among the first bacterial insertion sequences to be identified. They are component of several compound transposons.
|
| 2. IS1595 family
IS1595 was identified in Xanthomonas campestris and are present in high copy number in other Xanthomonas species. Subgroups may contain passenger genes or additional noncoding DNA.
|
| 3. IS3 family
The IS3 family is one of the most coherent and largest IS families.
3a. Excision: A dedicated enzyme
This sub-section explores a mechanistic basis for the precise excision of members of IS3 family in bacteria, focusing on the role of the Insertion Sequence Excision Enhancer (IEE).
|
| 4. IS481 family
Initially, IS481 appeared to be an IS3 family derivative, however, their presence in high copy number in some species strongly suggests that these represent a distinct transpositionally active family. Importantly, some members include passenger genes including antibiotic resistance, or potential transcriptional regulators.
|
| 5. IS1202 family
IS1202 was originally isolated from Streptococcus pneumoniae in the mid-1990s and previously tagged as an emerging IS family in the ISfinder database.
|
|
|
|
Quick Access Table
Main Characteristics and Summary of Each IS family and Sub-Groups
Below is a concise summary table of key characteristics for each IS family and their subgroups, including conserved transposase motifs, transposition mechanisms, typical size, hallmark IRs/DRs sequences. Use this as a practical reference guide to quickly locate essential information before diving into individual family chapters.
| Characteristics of insertion sequence families. Abbreviations: DR, duplication repeat; IS, insertion sequence; ORF, open reading frame. | |||||||||
| Families | Sub-Groups | Typical size-range (bp) | DR (bp) | Ends | IRs | No ORFs | Frameshift | Catalytic residues | Mechanism |
|---|---|---|---|---|---|---|---|---|---|
| IS1 | — | 740–1180 | 8–9 | GGnnnTG | Y | 2 | ORFAB | DDE | copy-and-paste and cointegrate |
| single ORF | 800–1200 | 0–9 | N | 1 | — | ||||
| ISMhu11 | 900–4600 | 0–10 | Y | 2 | ORFAB | ||||
| IS1595 | ISPna2 | 1000–1150 | 8 | GGCnnTG | Y | 1 | — | DDNK | copy-and-paste (?) |
| ISPna2+pass | 1500–2600 | 8 | — | 1+pass | — | ||||
| ISH4 | 1000 | 8 | CGCTCTT | 1 | DDNK | ||||
| IS1016 | 700–745 | 7–9 | GGGgctg | DDEK | |||||
| IS1595 | 900–1100 | 8 | CcTGATT | DDNK+ER4R7 | |||||
| ISSod11 | 1000–1100 | 8 | nnnGcnTATC | DDHK+ER4R7 | |||||
| ISNwi1 | 1080–1200 | 8 | ggnnatTAT | DDEK+ER4 | |||||
| ISNwi1+pass | 1750–4750 | 8 | — | 1+pass | — | ||||
| ISNha5 | 3450–7900 | 8 | CGGnnTT | 1 | DDER/K | ||||
| IS3 | IS150 | 1200–1600 | 3–4 | TG | Y | 2 | ORFAB | DDE | copy-and-paste |
| IS407 | 1100–1400 | 4 | TG | ||||||
| IS51 | 1000–1400 | 3–4 | TG | ||||||
| IS3 | 1150–1750 | 3–4 | TGa/g | ||||||
| IS2 | 1300–1400 | 5 | TG | ||||||
| IS481 | — | 950–1300 | 4–15 | TGT | Y | 1 | — | DDE | copy-and-paste (?) |
| IS1202 | ISAba32 | 1450-1870 | 5-6 | TGT | Y | 1 | — | DDE | copy-and-paste |
| ISTde1 | 1320-1780 | 16-17 | TAT/TGT | ||||||
| IS1202 | 1440-1900 | 27-28 | TGT | ||||||
| IS4 | IS10 | 1200–1350 | 9 | CT | Y | 1 | DDE | hairpin intermediate | cut-and-paste |
| IS50 | 1350–1550 | 8–9 | C | hairpin intermediate | |||||
| ISPepr1 | 1500–1600 | 7–8 | -T-AA | ? | |||||
| IS4 | 1400–1600 | 10–13 | -AAT | ? | |||||
| IS4Sa | 1150–1750 | 8–10 | CA | ? | |||||
| ISH8 | 1400–1800 | 10 | ? | ||||||
| IS231 | 1450–5400 | 10–12 | CAT | 1 or + * | *passenger genes | ||||
| IS701 | — | 1400–1550 | 4 | — | Y | 1 | — | DDE | — |
| ISAba11 | — | — | |||||||
| ISH3 | — | 1225–1500 | 4–5 | C-GT | Y | 1 | — | DDE | — |
| IS1634 | — | 1500–2000 | 5–6 | C | Y | 1 | — | DDE | — |
| IS5 | IS903 | 950–1150 | 9 | GG | Y | 1 | — | DDE | — |
| ISL2 | 850–1200 | 2–3 | — | ||||||
| ISH1 | 900–1150 | 8 | -GC | ||||||
| IS5 | 1000–1500 | 4 | Ga/g | ||||||
| IS1031 | 850–1050 | 3 | GAa/g | ||||||
| IS427 | 800–1000 | 2–4 | Ga/g | 2 | ORFAB | ||||
| IS1182 | — | 1330–1950 | 0–60 | — | Y | 1 | — | DDE | — |
| IS6 | — | 700–900 | 8 | GG | Y | 1 | — | DDE | co-integrate |
| IS21 | — | 1750–2600 | 4–8 | TG | Y | 2 * | — | DDE | — |
| IS30 | — | 1000–1700 | 2–3 | — | Y | 1 | — | DDE | copy-and-paste |
| IS66 | — | 2000–3000 | 8–9 | GTAA | Y | 3* | — | DDE* | — |
| ISBst12 | 1350–1900 | 1 | DDE | ||||||
| IS256 | — | 1200–1500 | 8–9 | Ga/g | Y | 1 | — | DDE | copy-and-paste |
| IS1249 | 1300 | 0–10 | GG | ||||||
| ISC1250 | 1250 | 0–9 | GG | ||||||
| ISH6 | — | 1450 | 8 | GGT | Y | 1 | — | DDE | — |
| ISLre2 | — | 1500–2000 | 9 | — | Y | 1 | — | DDE | — |
| ISKra4 | ISAzba1 | 1400–2900 | 0 | — | Y | 1 or + * | — | DDE | — |
| ISMich2 | 1250–1400 | 8 | GGG | 1 or 2 | ORFAB | ||||
| ISKra4 | 1400–3700 | 9 | GGG | 1 or + * | — | ||||
| IS630 | — | 1000–1400 | 2* | — | Y | 1 or 2 | ORFAB | DDE | cut-and-paste |
| IS982 | — | 1000 | 3–9 | AC | Y | 1 | — | DDE | — |
| IS1380 | — | 1550–2000 | 4–5 | CC | Y | 1 | — | DDE | — |
| ISAs1 | — | 1200–1500 | 8–10 | CAGGG | Y | 1 | — | — | — |
| ISL3 | — | 1300–2300 | 8 | GG | Y | 1 | — | — | — |
| Tn3 | — | >3000 | 0 | GGGG | Y | >1 | — | DDE | co-integrate |
| ISAzo13 | — | 1250–2200 | 0–4 | Ga/g | Y | 1 | — | — | — |
| IS110 | — | 1200–1550 | 0 | — | N | 1 | — | DEDD | — |
| IS1111 | — | — | — | Y* | — | — | — | — | |
| IS91 | — | 1500–2000 | 0 | — | N | 1 | — | HUH/Y2 | rolling-circle |
| IS200/IS605 | IS200 | 600–750 | 0 | — | 0 | 1* | — | HUH/Y1 | peel-and-paste |
| IS605 | 1300–2000 | — | — | — | 2* | — | HUH/Y1** | ||
| IS607 | — | 1700–2500 | 0 | — | N | 2* | — | Serine** | — |
| ISPa17 | — | 2000-2500 | 5 | — | Y | 4+pass | — | — | — |
| ISNCY * | IS892 | 1600 | 0–8 | CTAG | Y | 2 | ORFAB | — | — |
| ISLbi1 | 1400–1500 | 5 | — | Y | 1 | ||||
| ISMae2 | 1400–2400 | 9 | CAG | Y | 1 | ||||
| ISPlu15 | 800–1000 | 0 | — | N | 1 | ||||
| ISA1214 | 1000–1200 | 8–12 | — | Y | 2 | ||||
| ISC1217 | 1200 | 6–8 | TAG | Y | 1 | ||||
| ISM1 | 1300–1600 | 8–9 | — | Y | 1 | ||||
| ISDol1 | 1600–1900 | 6–7 | — | Y | 1 | — | DDE | — | |