Pinpointing the vesper bat transposon revolution using the Miniopterus natalensis genome.

abstract：Background:Recently, alignment-free sequence analysis methods have gained popularity in the field of personal genomics. These methods are based on counting frequencies of short k-mer sequences, thus allowing faster and more robust analysis compared to traditional alignment-based methods. Results:We have created a fast...

journal_title：Mobile DNA

authors： Puurand T,Kukuškina V,Pajuste FD,Remm M

更新日期：2019-07-18 00:00:00

abstract：Background:Transposable elements (TE) are commonly regarded as "junk DNA" with no apparent regulatory roles in the human genome. However, a growing body of evidence demonstrates that some TEs exhibit regulatory activities in a range of biological pathways and diseases, with notable examples in bile metabolism and innat...

journal_title：Mobile DNA

authors： Jiang JC,Upton KR

更新日期：2019-04-27 00:00:00

abstract：BACKGROUND:Human endogenous retroviruses (HERVs) constitute 8% of the human genome and contribute substantially to the transcriptome. HERVs have been shown to generate RNAs that modulate host gene expression. However, experimental evidence for an impact of these regulatory transcripts on the cellular phenotype has been...

journal_title：Mobile DNA

authors： Broecker F,Horton R,Heinrich J,Franz A,Schweiger MR,Lehrach H,Moelling K

更新日期：2016-12-07 00:00:00

abstract：BACKGROUND:Retroelements (REs) occupy a significant part of all eukaryotic genomes including humans. The majority of retroelements in the human genome are inactive and unable to retrotranspose. Dozens of active copies are repressed in most normal tissues by various cellular mechanisms. These copies can become active in...

journal_title：Mobile DNA

authors： Komkov AY,Urazbakhtin SZ,Saliutina MV,Komech EA,Shelygin YA,Nugmanov GA,Shubin VP,Smirnova AO,Bobrov MY,Tsukanov AS,Snezhkina AV,Kudryavtseva AV,Lebedev YB,Mamedov IZ

更新日期：2020-12-14 00:00:00

abstract：Background:PIWI-interacting RNAs (piRNAs) are the effectors of transposable element silencing in the reproductive apparatus. In Drosophila ovarian somatic cells, piRNAs arise from long RNA precursors presumably processed within cytoplasmic Yb-bodies. Results:Here we show that the nucleo-cytoplasmic traffic of piRNA pr...

journal_title：Mobile DNA

authors： Dennis C,Brasset E,Vaury C

更新日期：2019-07-06 00:00:00

abstract：BACKGROUND:Bacterial insertion sequences (IS) of IS200/IS605 and IS607 family often encode a transposase (TnpA) and a protein of unknown function, TnpB. RESULTS:Here we report two groups of TnpB-like proteins (Fanzor1 and Fanzor2) that are widespread in diverse eukaryotic transposable elements (TEs), and in large doub...

journal_title：Mobile DNA

authors： Bao W,Jurka J

更新日期：2013-04-01 00:00:00

abstract：BACKGROUND:PHIS transposon superfamily belongs to DNA transposons and includes PIF/Harbinger, ISL2EU, and Spy transposon groups. These three groups have similar DDE domain-containing transposases; however, their coding capacity, species distribution, and target site duplications (TSDs) are significantly different. RES...

journal_title：Mobile DNA

authors： Han MJ,Xiong CL,Zhang HB,Zhang MQ,Zhang HH,Zhang Z

更新日期：2015-06-24 00:00:00

abstract：:Transposable elements are endogenous DNA sequences able to integrate into and multiply within genomes. They constitute a major source of genetic innovations, as they can not only rearrange genomes but also spread ready-to-use regulatory sequences able to modify host gene expression, and even can give birth to new host...

journal_title：Mobile DNA

authors： Dechaud C,Volff JN,Schartl M,Naville M

更新日期：2019-11-03 00:00:00

abstract：Background:There is increasing evidence that the transpositional activity of retroelements (REs) is not limited to germ line cells, but often occurs in tumor and normal somatic cells. Somatic transpositions were found in several human tissues and are especially typical for the brain. Several computational and experimen...

journal_title：Mobile DNA

authors： Komkov AY,Minervina AA,Nugmanov GA,Saliutina MV,Khodosevich KV,Lebedev YB,Mamedov IZ

更新日期：2018-10-31 00:00:00

abstract：:Transposable elements (TEs) are major components of all vertebrate genomes that can cause deleterious insertions and genomic instability. However, depending on the specific genomic context of their insertion site, TE sequences can sometimes get positively selected, leading to what are called "exaptation" events. TE se...

journal_title：Mobile DNA

authors： Etchegaray E,Naville M,Volff JN,Haftek-Terreau Z

更新日期：2021-01-06 00:00:00

abstract：BACKGROUND:Hybrid dysgenic syndromes in Drosophila have been critical for characterizing host mechanisms of transposable element (TE) regulation. This is because a common feature of hybrid dysgenesis is germline TE mobilization that occurs when paternally inherited TEs are not matched with a maternal pool of silencing ...

journal_title：Mobile DNA

authors： Blumenstiel JP

更新日期：2014-02-20 00:00:00

abstract：:The Mobile Genetic Elements and Genome Evolution conference was hosted by Keystone Symposia in Santa Fe, NM USA, 9 March through 14 March 2014. The goal of this conference was to bring together scientists from around the world who study transposable elements in diverse organisms and researchers who study the impact th...

journal_title：Mobile DNA

authors： Singh PK,Bourque G,Craig NL,Dubnau JT,Feschotte C,Flasch DA,Gunderson KL,Malik HS,Moran JV,Peters JE,Slotkin RK,Levin HL

更新日期：2014-11-18 00:00:00

abstract：BACKGROUND:The ongoing mobilization of mammalian transposable elements (TEs) contributes to natural genetic variation. To survey the epigenetic control and expression of reporter genes inserted by L1 retrotransposition in diverse cellular and genomic contexts, we engineered highly sensitive, real-time L1 retrotransposo...

journal_title：Mobile DNA

authors： Kannan M,Li J,Fritz SE,Husarek KE,Sanford JC,Sullivan TL,Tiwary PK,An W,Boeke JD,Symer DE

更新日期：2017-05-10 00:00:00

abstract：BACKGROUND:The vast majority of the 1.1 million Alu elements are retrotranspositionally inactive, where only a few loci referred to as 'source elements' can generate new Alu insertions. The first step in identifying the active Alu sources is to determine the loci transcribed by RNA polymerase III (pol III). Previous ge...

journal_title：Mobile DNA

authors： Oler AJ,Traina-Dorge S,Derbes RS,Canella D,Cairns BR,Roy-Engel AM

更新日期：2012-06-20 00:00:00

abstract：:Retrotransposons are genetic elements that are similar in structure and life cycle to retroviruses by replicating via an RNA intermediate and inserting into a host genome. The Saccharomyces cerevisiae (S. cerevisiae) Ty1-5 elements are long terminal repeat (LTR) retrotransposons that are members of the Ty1-copia (Pseu...

journal_title：Mobile DNA

authors： Cheung S,Manhas S,Measday V

更新日期：2018-04-23 00:00:00

abstract：BACKGROUND:LINE-1 (L1) retrotransposons are common occupants of mammalian genomes representing about a fifth of the genetic content. Ongoing L1 retrotransposition in the germ line and somatic tissues has contributed to structural genomic variations and disease-causing mutations in the human genome. L1 mobilization reli...

journal_title：Mobile DNA

authors： Sokolowski M,DeFreece CB,Servant G,Kines KJ,deHaro DL,Belancio VP

更新日期：2014-12-10 00:00:00

abstract：Background:Transposable elements (TEs) are genomic parasites with major impacts on host genome architecture and host adaptation. A proper evaluation of their evolutionary significance has been hampered by the paucity of short scale phylogenetic comparisons between closely related species. Here, we characterized the dyn...

journal_title：Mobile DNA

authors： Legrand S,Caron T,Maumus F,Schvartzman S,Quadrana L,Durand E,Gallina S,Pauwels M,Mazoyer C,Huyghe L,Colot V,Hanikenne M,Castric V

更新日期：2019-07-17 00:00:00

abstract：BACKGROUND:Transposition in IS3, IS30, IS21 and IS256 insertion sequence (IS) families utilizes an unconventional two-step pathway. A figure-of-eight intermediate in Step I, from asymmetric single-strand cleavage and joining reactions, is converted into a double-stranded minicircle whose junction (the abutted left and ...

journal_title：Mobile DNA

authors： Lewis LA,Astatke M,Umekubo PT,Alvi S,Saby R,Afrose J,Oliveira PH,Monteiro GA,Prazeres DM

更新日期：2012-01-26 00:00:00

abstract：UNLABELLED: BACKGROUND:Over the years, a number of reports have revealed that Ty1 integration occurs in a 1-kb window upstream of Pol III-transcribed genes with an approximate 80-bp periodicity between each integration hotspot and that this targeting requires active Pol III transcription at the site of integration. Ho...

journal_title：Mobile DNA

authors： Bridier-Nahmias A,Lesage P

更新日期：2012-12-17 00:00:00

abstract：UNLABELLED: BACKGROUND:Long terminal repeat (LTR) retrotransposons are a class of eukaryotic mobile elements characterized by a distinctive sequence similarity-based structure. Hence they are well suited for computational identification. Current software allows for a comprehensive genome-wide de novo detection of such...

journal_title：Mobile DNA

authors： Steinbiss S,Kastens S,Kurtz S

更新日期：2012-11-07 00:00:00

abstract：Background:Amyotrophic lateral sclerosis (ALS) is a fatal neurodegenerative disease involving loss of motor neurons and having no known cure and uncertain etiology. Several studies have drawn connections between altered retrotransposon expression and ALS. Certain features of the LINE-1 (L1) retrotransposon-encoded ORF1...

journal_title：Mobile DNA

authors： Pereira GC,Sanchez L,Schaughency PM,Rubio-Roldán A,Choi JA,Planet E,Batra R,Turelli P,Trono D,Ostrow LW,Ravits J,Kazazian HH,Wheelan SJ,Heras SR,Mayer J,García-Pérez JL,Goodier JL

更新日期：2018-12-15 00:00:00

abstract：BACKGROUND:The ends of chromosomes, termed telomeres consist of repetitive DNA. The telomeric sequences shorten with cell division and, when telomeres are critically abbreviated, cells stop proliferating. However, in cancer cells, by the expression of telomerase which elongates telomeres, the cells can continue prolife...

journal_title：Mobile DNA

authors： Yoshitake K,Aoyagi H,Fujiwara H

更新日期：2010-04-01 00:00:00

abstract：BACKGROUND:Although humans and chimpanzees have accumulated significant differences in a number of phenotypic traits since diverging from a common ancestor about six million years ago, their genomes are more than 98.5% identical at protein-coding loci. This modest degree of nucleotide divergence is not sufficient to ex...

journal_title：Mobile DNA

authors： Polavarapu N,Arora G,Mittal VK,McDonald JF

更新日期：2011-10-25 00:00:00

abstract：:DNA derived from transposable elements (TEs) constitutes large parts of the genomes of complex eukaryotes, with major impacts not only on genomic research but also on how organisms evolve and function. Although a variety of methods and tools have been developed to detect and annotate TEs, there are as yet no standard ...

journal_title：Mobile DNA

authors： Hoen DR,Hickey G,Bourque G,Casacuberta J,Cordaux R,Feschotte C,Fiston-Lavier AS,Hua-Van A,Hubley R,Kapusta A,Lerat E,Maumus F,Pollock DD,Quesneville H,Smit A,Wheeler TJ,Bureau TE,Blanchette M

更新日期：2015-08-04 00:00:00

abstract：BACKGROUND:Chromoviruses are one of the three genera of Ty3-gypsy long terminal repeat (LTR) retrotransposons, and are present in high copy numbers in plant genomes. They are widely distributed within the plant kingdom, with representatives even in lower plants such as green and red algae. Their hallmark is the presenc...

journal_title：Mobile DNA

authors： Weber B,Heitkam T,Holtgräwe D,Weisshaar B,Minoche AE,Dohm JC,Himmelbauer H,Schmidt T

更新日期：2013-03-01 00:00:00

abstract：:Group I introns are intervening sequences that have invaded tRNA, rRNA and protein coding genes in bacteria and their phages. The ability of group I introns to self-splice from their host transcripts, by acting as ribozymes, potentially renders their insertion into genes phenotypically neutral. Some group I introns ar...

journal_title：Mobile DNA

authors： Hausner G,Hafez M,Edgell DR

更新日期：2014-03-10 00:00:00

abstract：Background:Mutator-like elements (MULEs) are a significant superfamily of DNA transposons on account of their: (i) great transpositional activity and propensity for insertion in or near gene sequences, (ii) their consequent high mutagenic capacity, and, (iii) their tendency to acquire host gene fragments. Consequently,...

journal_title：Mobile DNA

authors： Dupeyron M,Singh KS,Bass C,Hayward A

更新日期：2019-03-21 00:00:00

abstract：UNLABELLED: BACKGROUND:Transposable elements (TEs) encode sequences necessary for their own transposition, including signals required for the termination of transcription. TE sequences within the introns of human genes show an antisense orientation bias, which has been proposed to reflect selection against TE sequence...

journal_title：Mobile DNA

authors： Conley AB,Jordan IK

更新日期：2012-09-30 00:00:00

abstract：BACKGROUND:The activity of transposable elements can be regulated by different means. DNA CpG methylation is known to decrease or inhibit transpositional activity of diverse transposons. However, very surprisingly, it was previously shown that CpG methylation of the Sleeping Beauty (SB) transposon significantly enhance...

journal_title：Mobile DNA

authors： Jursch T,Miskey C,Izsvák Z,Ivics Z

更新日期：2013-05-15 00:00:00

abstract：BACKGROUND:Gliomas are the most common primary brain tumors in adults. We sought to understand the roles of endogenous transposable elements in these malignancies by identifying evidence of somatic retrotransposition in glioblastomas (GBM). We performed transposon insertion profiling of the active subfamily of Long INt...

journal_title：Mobile DNA

authors： Achanta P,Steranka JP,Tang Z,Rodić N,Sharma R,Yang WR,Ma S,Grivainis M,Huang CRL,Schneider AM,Gallia GL,Riggins GJ,Quinones-Hinojosa A,Fenyö D,Boeke JD,Burns KH

更新日期：2016-11-11 00:00:00