IS Families/IS982 family
The IS982 family has over 70 entries in ISfinder from over 40 bacterial and archaeal species. In the case of ISLpl4 from Lactobacillus plantarum identical copies have been detected in Leuconostoc mesenteroides, Oenococcus oeni, and Lactobacillus sakei indicating horizontal gene transfer. Historically, a single IS982 family member, ISPfu3, was first identified in the archaea from the archaea Pyrococcus furiosus and this was later joined by ISTli1 from Thermococcus litoralis (both mrmbero of the order Thermococcales).
A phylogenetic tree of the transposase of family members (Fig. IS982.1) shows three deeply branching clades (a, b and c) which broadly correspond to those identified by Fayad et al. . They can be further subdivided into several subclades (ai; aii and aii; bi, which includes streptococci and lactococci; and bii which contain bacilli and lactobacilli)
A recent extensive BLAST search in the non-redundant public databases using transposase examples from each of the major clades and a threshold of greater than 30% identity  indicated that members of this family are widely distributed over bacterial and archaeal genera and species. This includes the Euryarchaeota Methanotorris formicicus and Methanocaldococcus bathoardescencs and alpha-, beta-, gama- and epsilon-protobacteria, firmicutes, deinococci, cyanobacteria and actinobacteria. In total 265 new genera containing IS982-related elements were ideidentified,though the IS copies from this analysis were not further characterized .
Like many IS, members of this family are able to increase gene expression presumably by supplying a promoter or by formation of a hybrid promoter on insertion upstream of a resident gene. At least two members, IS982B  and IS1187 [see ] can provide a -35 hexamer in their right IR capable of forming a hybrid promoter with a resident -10 .
A recent review of this family  lists a number of additional elements including ISAba4, ISAba9, ISAba47 and ISAba825 whose insertion can lead to increased carbapenem resistance in Acinetobacter baumannii . In addition, as also pointed out by Fayad et al. , insertion of members of the family which lead to gene inactivation has been observed to result in: increased antibiotic resistance (vancomycin and teicoplanin by IS19  and ISEfm1  in Enterococcus faecium; carbapenem by ISAba825 disruption of the CarO membrane protein  in A. baumannii); reduced antibiotic resistance (daptomycin in Enterococcus faecium; ); or in decreased virulence (ISSa4 in S. agalactiae ; ISScr1 in Streptococcus criceti ; IS195 in Porphyromonas gingivalis ).
IS982 family members are between 962 and 1155 bp long (Fig.IS982.2), carry similar terminal IRs of between 18 and 35 bp with conserved ends: 5’-ACCC-3’ and generate DR of 6 to 8 bp e.g. ISSa4 from Streptococcus agalactiae generates 7 bp (or perhaps 9 bp) flanking DRs  and ISCce1 from Clostridium cellulovorans is flanked by 7 bp repeats . There is some evidence that the IR consensus varies slightly according to each IS subgroup  (Fig.IS982.2a)
Family members encode a single orf of between of 271 and 313 amino acids with a possible DDE motif but without a convincing conserved downstream K/R residue. They exhibit between 33% and 44% amino acid identity. The identities are shown in the alignment included in (Fig.IS982.3 a and b) together with the DDE motif suggested by Fayad et al. . The N-terminal domain, which includes a potential HTH DNA binding motif  is not shown.
Although the Tpase of a majority of members occupies a single reading phase, there are several examples in which the gene is distributed over two phases. It has been reported that a +1 nucleotide insertion in the Tpase orf of an ISLpl4 from Oenococcus oeni may undergo programmed translational frameshifting at a low rate . Although this must be confirmed, it would represent the first functional case of +1 frameshifting in IS. The Tpase of archaeal element ISPfu3 is also distributed over two phases. ISPfu3 carries a potential transcriptional frameshift signal A7 (PTR) present in all five copies, suggesting that ISPfu3 is active.
At present, there is no information concerning the transposition mechanism of this family.
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- Mussi MA, Limansky AS, Viale AM . Acquisition of resistance to carbapenems in multidrug-resistant clinical strains of Acinetobacter baumannii: natural insertional inactivation of a gene encoding a member of a novel family of beta-barrel outer membrane proteins. - Antimicrob Agents Chemother: 2005 Apr, 49(4);1432-40 [PubMed:15793123] [DOI]
- Sinel C, Cosquer T, Auzou M, Goux D, Giard JC, Cattoir V . Sequential steps of daptomycin resistance in Enterococcus faecium and reversion to hypersusceptibility through IS-mediated inactivation of the liaFSR operon. - J Antimicrob Chemother: 2016 Oct, 71(10);2793-7 [PubMed:27353469] [DOI]
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- Tamura H, Yamada A, Kato H . Characterization of Streptococcus criceti insertion sequence ISScr1. - Genes Genet Syst: 2012, 87(3);153-60 [PubMed:22976390] [DOI]
- Lewis JP, Macrina FL . IS195, an insertion sequence-like element associated with protease genes in Porphyromonas gingivalis. - Infect Immun: 1998 Jul, 66(7);3035-42 [PubMed:9632563] [DOI]
- Tamaru Y, Doi RH . The engL gene cluster of Clostridium cellulovorans contains a gene for cellulosomal manA. - J Bacteriol: 2000 Jan, 182(1);244-7 [PubMed:10613891] [DOI]
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