Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: EC:3.1.30.2 (
endonuclease
)
18,621
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Here we describe a new class of retroelements termed
PLE
(Penelope-like elements). The only transpositionally active representative of this lineage found so far has been isolated from Drosophila virilis. This element, Penelope, is responsible for the hybrid dysgenesis syndrome in this species, characterized by simultaneous mobilization of several unrelated TE families in the progeny of dysgenic crosses. Several lines of evidence favor the hypothesis of recent Penelope invasion into D. virilis. Moreover, when D. virilisPenelope was introduced by P element-mediated transformation into the genome of D. melanogaster, it underwent extensive amplification in the new host and induced several traits of the dysgenesis syndrome, including gonadal atrophy and numerous mutations. The single ORF encoded by
PLE
consists of two principal domains: reverse transcriptase (RT) and
endonuclease
(EN), which is similar to GIY-YIG intron-encoded endonucleases. With the appearance of a large number of PLEs in genome databases from diverse eukaryotes, including amoebae, fungi, cnidarians, rotifers, flatworms, roundworms, fish, amphibia, and reptilia, it becomes possible to resolve their phylogenetic relationships with other RT groups with a greater degree of confidence. On the basis of their peculiar structural features, distinct phylogenetic placement, and structure of transcripts, we conclude that
PLE
constitute a novel class of eukaryotic retroelements, different from non-LTR and LTR retrotransposons.
...
PMID:Penelope-like elements--a new class of retroelements: distribution, function and possible evolutionary significance. 1609 4
Penelope, originally found as a key element responsible for the hybrid dysgenesis in Drosophila virilis, has been widely conserved throughout eukaryotic genomes. In other organisms, they are often referred to as Penelope-like elements or PLEs. In this study, we found two types of PLEs, designated MjPLE01 and MjPLE02, from kuruma shrimp, Marsupenaeus japonicus. There was no observed nucleotide similarity between MjPLE01 and 02, and both elements differed from each other in terms of their structure; MjPLE02 has a distinctive
endonuclease
(EN) domain at the C-terminus while MjPLE01 do not. A phylogenetic tree that includes publicly available PLEs and TERTs showed that MjPLE01 and 02 were closely related to Coprina elements, which have been reported as an EN-deficient
PLE
, and to Penelope-Poseidon group, which possess an EN domain, respectively. Genomic Southern blot analysis using MjPLE01 as a probe showed several multiple bands that differ among individual shrimps. On the other hand, two major identical bands were observed when MjPLE02 was used. Colony hybridization showed co-localization of MjPLE01 and GGTTA repeats, suggesting that MjPLE01 might be prevalent in subtelomeric regions of kuruma shrimp genome. These results suggest that the kuruma shrimp genome has at least two types of PLEs with different domain compositions, phylogenetic positions, and probably chromosomeal localization. Such distinctive types of PLEs in an organism have never been described and hence could be a potential source to understand how multiple
PLE
types evolved.
...
PMID:Identification of two Penelope-like elements with different structures and chromosome localization in kuruma shrimp genome. 2282 94
