Your search keyword '"SINEs"' showing total 10 results

1. Retrotransposon SINEs in age-related diseases: Mechanisms and therapeutic implications.

Author

Shah, Suleman, Yu, Siyi, Zhang, Chen, Ali, Ilyas, Wang, Xiufang, Qian, Youhui, and Xiao, Tian

Subjects

*TYPE 2 diabetes, *ANTISENSE RNA, *HYPERTENSION, *GENE expression, *AGING prevention, *MOLECULAR pathology

Abstract

Retrotransposons are self-replicating genomic elements that move from one genomic location to another using a "copy-and-paste" method involving RNA intermediaries. One family of retrotransposon that has garnered considerable attention for its association with age-related diseases and anti-aging interventions is the short interspersed nuclear elements (SINEs). This review summarizes current knowledge on the roles of SINEs in aging processes and therapies. To underscore the significant research on the involvement of SINEs in aging-related diseases, we commence by outlining compelling evidence on the classification and mechanism, highlighting implications in age-related phenomena. The intricate relationship between SINEs and diseases such as neurodegenerative disorders, heart failure, high blood pressure, atherosclerosis, type 2 diabetes mellitus, osteoporosis, visual system dysfunctions, and cancer is explored, emphasizing their roles in various age-related diseases. Recent investigations into the anti-aging potential of SINE-targeted treatments are examined, with particular attention to how SINE antisense RNA mitigate age-related alterations at the cellular and molecular levels, offering insights into potential therapeutic targets for age-related pathologies. This review aims to compile the most recent advances on the multifaceted roles of SINE retrotransposons in age-related diseases and anti-aging interventions, providing valuable insights into underlying mechanisms and therapeutic avenues for promoting healthy aging. • SINEs are short repetitive elements in the human genome that regulating gene expression. • SINEs are implicated in various age-related diseases. • Epigenetic changes with age may increase SINE transcription. • SINE RNAs have potential as therapeutic targets for age-related diseases. [ABSTRACT FROM AUTHOR]

Published

2024

2. Determinism and randomness in the evolution of introns and sine inserts in mouse and human mitochondrial solute carrier and cytokine receptor genes.

Author

Cianciulli, Antonia, Calvello, Rosa, and Panaro, Maria A.

Subjects

*INTRONS, *CYTOKINE receptors, *BIOLOGICAL evolution, *MITOCHONDRIAL physiology, *LABORATORY mice, *GENETIC determinism

Abstract

In the homologous genes studied, the exons and introns alternated in the same order in mouse and human. We studied, in both species: corresponding short segments of introns, whole corresponding introns and complete homologous genes. We considered the total number of nucleotides and the number and orientation of the SINE inserts. Comparisons of mouse and human data series showed that at the level of individual relatively short segments of intronic sequences the stochastic variability prevails in the local structuring, but at higher levels of organization a deterministic component emerges, conserved in mouse and human during the divergent evolution, despite the ample re-editing of the intronic sequences and the fact that processes such as SINE spread had taken place in an independent way in the two species. Intron conservation is negatively correlated with the SINE occupancy, suggesting that virus inserts interfere with the conservation of the sequences inherited from the common ancestor. [ABSTRACT FROM AUTHOR]

Published

2015

3. Polypteridae (Actinopterygii: Cladistia) and DANA-SINEs insertions.

Author

Morescalchi, Maria Alessandra, Barucca, Marco, Stingo, Vincenzo, and Capriglione, Teresa

Subjects

POLYPTERIDAE, CHROMOSOMES, PHYLOGENY, ANIMAL mutation, NUCLEOTIDE sequence, IN situ hybridization, ANIMAL species

Abstract

Abstract: SINE sequences are interspersed throughout virtually all eukaryotic genomes and greatly outnumber the other repetitive elements. These sequences are of increasing interest for phylogenetic studies because of their diagnostic power for establishing common ancestry among taxa, once properly characterized. We identified and characterized a peculiar family of composite tRNA-derived short interspersed SINEs, DANA-SINEs, associated with mutational activities in Danio rerio, in a group of species belonging to one of the most basal bony fish families, the Polypteridae, in order to investigate their own inner specific phylogenetic relationships. DANA sequences were identified, sequenced and then localized, by means of fluorescent in situ hybridization (FISH), in six Polypteridae species (Polypterus delhezi, P. ornatipinnis, P. palmas, P. buettikoferi P. senegalus and Erpetoicht h ys calabaricus) After cloning, the sequences obtained were aligned for phylogenetic analysis, comparing them with three Dipnoan lungfish species (Protopterus annectens, P. aethiopicus, Lepidosiren paradoxa), and Lethenteron reissneri (Petromyzontidae)was used as outgroup. The obtained overlapping MP, ML and NJ tree clustered together the species belonging to the two taxonomically different Osteichthyans groups: the Polypteridae, by one side, and the Protopteridae by the other, with the monotypic genus Erpetoichthys more distantly related to the Polypterus genus comprising three distinct groups: P. palmas and P. buettikoferi, P. delhezi and P. ornatipinnis and P. senegalus. In situ hybridization with DANA probes marked along the whole chromosome arms in the metaphases of all the Polypteridae species examined. [ABSTRACT FROM AUTHOR]

Published

2010

4. Characterization and evolutionary landscape of AmnSINE1 in Amniota genomes

Author

Hirakawa, Mika, Nishihara, Hidenori, Kanehisa, Minoru, and Okada, Norihiro

Subjects

*MOLECULAR evolution, *AMNIOTES, *GENOMICS, *GENETIC code, *TRANSPOSONS, *NEURAL development, *PHYLOGENY, *MAMMAL evolution

Abstract

Abstract: Discovery of a large number of conserved non-coding elements (CNEs) in vertebrate genomes provides a cornerstone to elucidate molecular mechanisms of macroevolution. Extensive comparative genomics has proven that transposons such as short interspersed elements (SINEs) were an important source of CNEs. We recently characterized AmnSINE1, a SINE family in Amniota genomes, some of which are present in CNEs, and demonstrated that two AmnSINE1 loci play an important role in mammalian-specific brain development by functioning as an enhancer (Sasaki et al. Proc. Natl. Acad. Sci. USA 2008). To get more information about AmnSINE1s, we here performed a multi-species search for AmnSINE1, and revealed the distribution and evolutionary history of these SINEs in amniote genomes. The number of AmnSINE1 regions in amniotes ranged from 160 to 1200; the number in the eutherians were under 500 and the largest was that in chicken. Phylogenetic analysis established that each AmnSINE1 locus has evolved uniquely, primarily since the divergence of mammals from reptiles. These results support the notion that AmnSINE1s were amplified as an ancient retroposon in a common ancestor of Amniota and subsequently have survived for 300 Myr because of functions acquired by mutation-coupled exaptation prior mammalian radiation. On the basis of sequence homology and conserved synteny, we detected the orthologs of AmnSINE1 for candidates of further enhancer analysis, which are more conserved than two loci that were shown to have been involved in mammalian brain development. The present work provides a comprehensive data set to test the role of AmnSINE1s, many of which were exapted and contributed to mammalian macroevolution. [Copyright &y& Elsevier]

Published

2009

5. Guinea pig ID-like families of SINEs

Author

Kass, David H., Schaetz, Brian A., Beitler, Lindsey, Bonney, Kevin M., Jamison, Nicole, and Wiesner, Cathy

Subjects

*GUINEA pigs, *DNA, *GENOMICS, *POLYMERASE chain reaction, *NUCLEOTIDE sequence, *BIOLOGICAL evolution, *GENETICS, *TRANSPOSONS

Abstract

Abstract: Previous studies have indicated a paucity of SINEs within the genomes of the guinea pig and nutria, representatives of the Hystricognathi suborder of rodents. More recent work has shown that the guinea pig genome contains a large number of B1 elements, expanding to various levels among different rodents. In this work we utilized A–B PCR and screened GenBank with sequences from isolated clones to identify potentially uncharacterized SINEs within the guinea pig genome, and identified numerous sequences with a high degree of similarity (>92%) specific to the guinea pig. The presence of A-tails and flanking direct repeats associated with these sequences supported the identification of a full-length SINE, with a consensus sequence notably distinct from other rodent SINEs. Although most similar to the ID SINE, it clearly was not derived from the known ID master gene (BC1), hence we refer to this element as guinea pig ID-like (GPIDL). Using the consensus to screen the guinea pig genomic database (Assembly CavPor2) with Ensembl BlastView, we estimated at least 100,000 copies, which contrasts markedly to just over 100 copies of ID elements. Additionally we provided evidence of recent integrations of GPIDL as two of seven analyzed conserved GPIDL-containing loci demonstrated presence/absence variants in Cavia porcellus and C. aperea. Using intra-IDL PCR and sequence analyses we also provide evidence that GPIDL is derived from a hystricognath-specific SINE family. These results demonstrate that this SINE family continues to contribute to the dynamics of genomes of hystricognath rodents. [Copyright &y& Elsevier]

Published

2009

6. Mobile element-based forensic genomics

Author

Ray, David A., Walker, Jerilyn A., and Batzer, Mark A.

Subjects

*FORENSIC genetics, *GENOMICS, *NUCLEOTIDE sequence, *TRANSPOSONS

Abstract

Abstract: Mobile elements are commonly referred to as selfish repetitive DNA sequences. However, mobile elements represent a unique and underutilized group of molecular markers. Several of their characteristics make them ideally suited for use as tools in forensic genomic applications. These include their nature as essentially homoplasy-free characters, they are identical by descent, the ancestral state of any insertion is known to be the absence of the element, and many mobile element insertions are lineage specific. In this review, we provide an overview of mobile element biology and describe the application of certain mobile elements, especially the SINEs and other retrotransposons, to forensic genomics. These tools include quantitative species-specific DNA detection, analysis of complex biomaterials, and the inference of geographic origin of human DNA samples. [Copyright &y& Elsevier]

Published

2007

7. Recently integrated Alu retrotransposons are essentially neutral residents of the human genome

Author

Cordaux, Richard, Lee, Jungnam, Dinoso, Liv, and Batzer, Mark A.

Subjects

*CHROMOSOMAL translocation, *HUMAN chromosomes, *HUMAN gene mapping, *HUMAN genome, *GENETICS

Abstract

Abstract: Alu elements represent the largest family of human mobile elements in copy number. A controversial issue with implications for both Alu biology and human genome evolution is whether selective pressures are affecting Alu elements on a large scale. To address this issue, we analyzed the genomic distribution of the three youngest known human Alu subfamilies (Ya5a2, Ya8 and Yb9) in conjunction with their insertion polymorphism status in the human population, since selection can only act on polymorphic elements. Our results indicate that: (i) polymorphic and fixed recently integrated Alu elements are found in genomic regions whose GC contents are statistically indistinguishable, and (ii) recently integrated Alu elements are inserted randomly, regardless of the GC content of the surrounding genomic DNA. These results provide strong evidence that recently integrated “young” Alu elements are not subject to positive or negative selection on a large scale. Therefore, young Alu elements can be regarded as essentially neutral residents of the human genome. These results also imply that selective processes specifically targeting Alu elements can be ruled out as explanations for the accumulation of Alu elements in GC-rich regions of the human genome. [Copyright &y& Elsevier]

Published

2006

8. Estimating the retrotransposition rate of human Alu elements

Author

Cordaux, Richard, Hedges, Dale J., Herke, Scott W., and Batzer, Mark A.

Subjects

*HUMAN genome, *MOBILE genetic elements, *CHROMOSOMAL translocation, *HUMAN gene mapping, *GENETICS

Abstract

Abstract: Mobile elements such as Alu repeats have substantially altered the architecture of the human genome, and de novo mobile element insertions sometimes cause genetic disorders. Previous estimates for the retrotransposition rate (RR) of Alu elements in humans of one new insertion every ∼100–125births were developed prior to the sequencing of the human and chimpanzee genomes. Here, we used two independent methods (based on the new genomic data and on disease-causing de novo Alu insertions) to generate refined Alu RR estimates in humans. Both methods consistently yielded RR on the order of one new Alu insertion every ∼20births, despite the fact that the evolutionary-based method represents an average RR over the past ∼6million years while the mutation-based method better reflects the current-day RR. These results suggest that Alu elements retrotranspose at a faster rate in humans than previously thought, and support the potential of Alu elements as mutagenic factors in the human genome. [Copyright &y& Elsevier]

Published

2006

9. Phylogenetic relationships between Afrotropical and Palaearctic Crocidura species inferred from Inter-SINE-PCR

Author

Bannikova, Anna A., Lavrenchenko, Leonid A., and Kramerov, Dmitri A.

Subjects

*SHREWS, *CHROMOSOMES, *SPECIES distribution, *INSECTIVORES (Mammals)

Abstract

Abstract: The relationships between Afrotropical and Palaearctic Crocidurinae species have been evaluated on the basis of inter-SINE-PCR (IS-PCR). Two SINE families have been studied: mammalian interspersed repeats (MIR) and a short retroposon SOR, specific to the family Soricidae. Use of neighbor-joining and maximum parsimony analyses allowed us to recognize three major groupings: (i) 50-chromosome African species (C. parvipes and C. olivieri) and 28-chromosome European C. leucodon; (ii) species endemic to Ethiopia (36-chromosome C. thalia, C. glassi, Crocidura sp. B, united with C. macmillani and C. baileyi); (iii) Palaearctic 40-chromosome species group. Therefore, the major groupings of Crocidura shrews in the phylogenetic analysis of IS-PCR results cannot be distinguished as Palaearctic and Afrotropical groups of species: European C. leucodon unites with African 50-chromosome species with a high bootstrap support. The affiliation of Suncus murinus with Eurasian grouping is only supported by low bootstrap values. [Copyright &y& Elsevier]

Published

2005

10. Short Retroposons in Eukaryotic Genomes.

Author

Kramerov, Dimitri A. and Vassetzky, Nikita S.

Subjects

GENOMES

Abstract

An abstract of the article "Short Retroposons in Eukaryotic Genomes," by Dimitri A. Kramerov and Nikita S. Vassetzky is presented.

Published

2005