Your search keyword '"Retroposon"' showing total 647 results

1. Ere, a Family of Short Interspersed Elements in the Genomes of Odd-Toed Ungulates (Perissodactyla)

Author

Ilia G. Ustyantsev, Sergey A. Kosushkin, Olga R. Borodulina, Nikita S. Vassetzky, and Dmitri A. Kramerov

Subjects

SINE, retroposon, retrotransposon, RNA polymerase III, transcription terminator, polyadenylation, Veterinary medicine, SF600-1100, Zoology, QL1-991

Abstract

Short Interspersed Elements (SINEs) are eukaryotic retrotransposons transcribed by RNA polymerase III (pol III). Many mammalian SINEs (T+ SINEs) contain a polyadenylation signal (AATAAA), a pol III transcription terminator, and an A-rich tail in their 3′-end. The RNAs of such SINEs have the capacity for AAUAAA-dependent polyadenylation, which is unique to pol III-generated transcripts. The structure, evolution, and polyadenylation of the Ere SINE of ungulates (horses, rhinos, and tapirs) were investigated in this study. A bioinformatics analysis revealed the presence of up to ~4 × 105 Ere copies in representatives of all three families. These copies can be classified into two large subfamilies, EreA and EreB, the former distinguished by an additional 60 bp sequence. The 3′-end of numerous EreA and all EreB copies exhibit a 50 bp sequence designated as a terminal domain (TD). The Ere family can be further subdivided into subfamilies EreA_0TD, EreA_1TD, EreB_1TD, and EreB_2TD, depending on the presence and number of terminal domains (TDs). Only EreA_0TD copies can be assigned to T+ SINEs as they contain the AATAAA signal and the TCTTT transcription terminator. The analysis of young Ere copies identified by comparison with related perissodactyl genomes revealed that EreA_0TD and, to a much lesser extent, EreB_2TD have retained retrotranspositional activity in the recent evolution of equids and rhinoceroses. The targeted mutagenesis and transfection of HeLa cells were used to identify sequences in equine EreA_0TD that are critical for the polyadenylation of its pol III transcripts. In addition to AATAAA and the transcription terminator, two sites in the 3′ half of EreA, termed the β and τ signals, were found to be essential for this process. The evolution of Ere, with a particular focus on the emergence of T+ SINEs, as well as the polyadenylation signals are discussed in comparison with other T+ SINEs.

Published

2024

2. SINEs as Potential Expression Cassettes: Impact of Deletions and Insertions on Polyadenylation and Lifetime of B2 and Ves SINE Transcripts Generated by RNA Polymerase III.

Author

Borodulina, Olga R., Ustyantsev, Ilia G., and Kramerov, Dmitri A.

Subjects

*RNA polymerases, *GENE expression, *HELA cells, *GENOMES, *MULTICELLULAR organisms, *SMALL nuclear RNA

Abstract

Short Interspersed Elements (SINEs) are common in the genomes of most multicellular organisms. They are transcribed by RNA polymerase III from an internal promoter comprising boxes A and B. As transcripts of certain SINEs from mammalian genomes can be polyadenylated, such transcripts should contain the AATAAA sequence as well as those called β- and τ-signals. One of the goals of this work was to evaluate how autonomous and independent other SINE parts are β- and τ-signals. Extended regions outside of β- and τ-signals were deleted from SINEs B2 and Ves and the derived constructs were used to transfect HeLa cells in order to evaluate the relative levels of their transcripts as well as their polyadenylation efficiency. If the deleted regions affected boxes A and B, the 5′-flanking region of the U6 RNA gene with the external promoter was inserted upstream. Such substitution of the internal promoter in B2 completely restored its transcription. Almost all tested deletions/substitutions did not reduce the polyadenylation capacity of the transcripts, indicating a weak dependence of the function of β- and τ-signals on the neighboring sequences. A similar analysis of B2 and Ves constructs containing a 55-bp foreign sequence inserted between β- and τ-signals showed an equal polyadenylation efficiency of their transcripts compared to those of constructs without the insertion. The acquired poly(A)-tails significantly increased the lifetime and thus the cellular level of such transcripts. The data obtained highlight the potential of B2 and Ves SINEs as cassettes for the expression of relatively short sequences for various applications. [ABSTRACT FROM AUTHOR]

Published

2023

3. SINEs as Potential Expression Cassettes: Impact of Deletions and Insertions on Polyadenylation and Lifetime of B2 and Ves SINE Transcripts Generated by RNA Polymerase III

Author

Olga R. Borodulina, Ilia G. Ustyantsev, and Dmitri A. Kramerov

Subjects

SINE, retroposon, retrotransposon, RNA polymerase III, polyadenylation, RNA stability, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Short Interspersed Elements (SINEs) are common in the genomes of most multicellular organisms. They are transcribed by RNA polymerase III from an internal promoter comprising boxes A and B. As transcripts of certain SINEs from mammalian genomes can be polyadenylated, such transcripts should contain the AATAAA sequence as well as those called β- and τ-signals. One of the goals of this work was to evaluate how autonomous and independent other SINE parts are β- and τ-signals. Extended regions outside of β- and τ-signals were deleted from SINEs B2 and Ves and the derived constructs were used to transfect HeLa cells in order to evaluate the relative levels of their transcripts as well as their polyadenylation efficiency. If the deleted regions affected boxes A and B, the 5′-flanking region of the U6 RNA gene with the external promoter was inserted upstream. Such substitution of the internal promoter in B2 completely restored its transcription. Almost all tested deletions/substitutions did not reduce the polyadenylation capacity of the transcripts, indicating a weak dependence of the function of β- and τ-signals on the neighboring sequences. A similar analysis of B2 and Ves constructs containing a 55-bp foreign sequence inserted between β- and τ-signals showed an equal polyadenylation efficiency of their transcripts compared to those of constructs without the insertion. The acquired poly(A)-tails significantly increased the lifetime and thus the cellular level of such transcripts. The data obtained highlight the potential of B2 and Ves SINEs as cassettes for the expression of relatively short sequences for various applications.

Published

2023

4. Tail Wags Dog's SINE: Retropositional Mechanisms of Can SINE Depend on Its A-Tail Structure.

Author

Kosushkin, Sergei A., Ustyantsev, Ilia G., Borodulina, Olga R., Vassetzky, Nikita S., and Kramerov, Dmitri A.

Subjects

*RNA polymerases, *DOG breeding, *DOG breeds, *HELA cells, *DOGS, *RETROTRANSPOSONS, *WOLVES

Abstract

Simple Summary: The genomes of higher organisms including humans are invaded by millions of repetitive elements (transposons), which can sometimes be deleterious or beneficial for hosts. Many aspects of the mechanisms underlying the expansion of transposons in the genomes remain unclear. Short retrotransposons (SINEs) are one of the most abundant classes of genomic repeats. Their amplification relies on two major processes: transcription and reverse transcription. Here, short retrotransposons of dogs and other canids called Can SINE were analyzed. Their amplification was extraordinarily active in the wolf and, particularly, dog breeds relative to other canids. We also studied a variation of their transcription mechanism involving the polyadenylation of transcripts. An analysis of specific signals involved in this process allowed us to conclude that Can SINEs could alternate amplification with and without polyadenylation in their evolution. Understanding the mechanisms of transposon replication can shed light on the mechanisms of genome function. SINEs, non-autonomous short retrotransposons, are widespread in mammalian genomes. Their transcripts are generated by RNA polymerase III (pol III). Transcripts of certain SINEs can be polyadenylated, which requires polyadenylation and pol III termination signals in their sequences. Our sequence analysis divided Can SINEs in canids into four subfamilies, older a1 and a2 and younger b1 and b2. Can_b2 and to a lesser extent Can_b1 remained retrotranspositionally active, while the amplification of Can_a1 and Can_a2 ceased long ago. An extraordinarily high Can amplification was revealed in different dog breeds. Functional polyadenylation signals were analyzed in Can subfamilies, particularly in fractions of recently amplified, i.e., active copies. The transcription of various Can constructs transfected into HeLa cells proposed AATAAA and (TC)n as functional polyadenylation signals. Our analysis indicates that older Can subfamilies (a1, a2, and b1) with an active transcription terminator were amplified by the T+ mechanism (with polyadenylation of pol III transcripts). In the currently active Can_b2 subfamily, the amplification mechanisms with (T+) and without the polyadenylation of pol III transcripts (T−) irregularly alternate. The active transcription terminator tends to shorten, which renders it nonfunctional and favors a switch to the T− retrotransposition. The activity of a truncated terminator is occasionally restored by its elongation, which rehabilitates the T+ retrotransposition for a particular SINE copy. [ABSTRACT FROM AUTHOR]

Published

2022

5. Ere, a Family of Short Interspersed Elements in the Genomes of Odd-Toed Ungulates (Perissodactyla).

Author

Ustyantsev IG, Kosushkin SA, Borodulina OR, Vassetzky NS, and Kramerov DA

Abstract

Short Interspersed Elements (SINEs) are eukaryotic retrotransposons transcribed by RNA polymerase III (pol III). Many mammalian SINEs (T + SINEs) contain a polyadenylation signal (AATAAA), a pol III transcription terminator, and an A-rich tail in their 3'-end. The RNAs of such SINEs have the capacity for AAUAAA-dependent polyadenylation, which is unique to pol III-generated transcripts. The structure, evolution, and polyadenylation of the Ere SINE of ungulates (horses, rhinos, and tapirs) were investigated in this study. A bioinformatics analysis revealed the presence of up to ~4 × 10 5 Ere copies in representatives of all three families. These copies can be classified into two large subfamilies, EreA and EreB, the former distinguished by an additional 60 bp sequence. The 3'-end of numerous EreA and all EreB copies exhibit a 50 bp sequence designated as a terminal domain (TD). The Ere family can be further subdivided into subfamilies EreA_0TD, EreA_1TD, EreB_1TD, and EreB_2TD, depending on the presence and number of terminal domains (TDs). Only EreA_0TD copies can be assigned to T + SINEs as they contain the AATAAA signal and the TCTTT transcription terminator. The analysis of young Ere copies identified by comparison with related perissodactyl genomes revealed that EreA_0TD and, to a much lesser extent, EreB_2TD have retained retrotranspositional activity in the recent evolution of equids and rhinoceroses. The targeted mutagenesis and transfection of HeLa cells were used to identify sequences in equine EreA_0TD that are critical for the polyadenylation of its pol III transcripts. In addition to AATAAA and the transcription terminator, two sites in the 3' half of EreA, termed the β and τ signals, were found to be essential for this process. The evolution of Ere, with a particular focus on the emergence of T + SINEs, as well as the polyadenylation signals are discussed in comparison with other T + SINEs.

Published

2024

6. Tail Wags Dog’s SINE: Retropositional Mechanisms of Can SINE Depend on Its A-Tail Structure

Author

Sergei A. Kosushkin, Ilia G. Ustyantsev, Olga R. Borodulina, Nikita S. Vassetzky, and Dmitri A. Kramerov

Subjects

SINE, retroposon, retrotransposon, RNA polymerase III, transcription terminator, polyadenylation, Biology (General), QH301-705.5

Abstract

SINEs, non-autonomous short retrotransposons, are widespread in mammalian genomes. Their transcripts are generated by RNA polymerase III (pol III). Transcripts of certain SINEs can be polyadenylated, which requires polyadenylation and pol III termination signals in their sequences. Our sequence analysis divided Can SINEs in canids into four subfamilies, older a1 and a2 and younger b1 and b2. Can_b2 and to a lesser extent Can_b1 remained retrotranspositionally active, while the amplification of Can_a1 and Can_a2 ceased long ago. An extraordinarily high Can amplification was revealed in different dog breeds. Functional polyadenylation signals were analyzed in Can subfamilies, particularly in fractions of recently amplified, i.e., active copies. The transcription of various Can constructs transfected into HeLa cells proposed AATAAA and (TC)n as functional polyadenylation signals. Our analysis indicates that older Can subfamilies (a1, a2, and b1) with an active transcription terminator were amplified by the T+ mechanism (with polyadenylation of pol III transcripts). In the currently active Can_b2 subfamily, the amplification mechanisms with (T+) and without the polyadenylation of pol III transcripts (T−) irregularly alternate. The active transcription terminator tends to shorten, which renders it nonfunctional and favors a switch to the T− retrotransposition. The activity of a truncated terminator is occasionally restored by its elongation, which rehabilitates the T+ retrotransposition for a particular SINE copy.

Published

2022

7. A primate-specific RNA-binding protein (RBMXL3) is involved in glucocorticoid regulation of human pulmonary surfactant protein B (SP-B) mRNA stability.

Author

Liu, Lidan, Liu, Xiangli, Bi, Weizhen, and Alcorn, Joseph L.

Abstract

The ability of pulmonary surfactant to reduce alveolar surface tension requires adequate levels of surfactant protein B (SP-B). Dexamethasone (DEX) increases human SP-B expression, in part, through increased SP-B mRNA stability. A 30-nt-long hairpin element (RBE) in the 30 -untranslated region of human SP-B mRNA mediates both DEX-induced and intrinsic mRNA stabilities, but the mechanism is unknown. Proteomic analysis of RBE-interacting proteins identified a primate-specific protein, RNA-binding motif X-linked-like-3 (RBMXL3). siRNA directed against RBMXL3 reduces DEX-induced SP-B mRNA expression in human bronchoalveolar cells. Human SP-B mRNA stability, measured by our dual cistronic plasmid assay, is unaffected by DEX in mouse lung epithelial cells lacking RBMXL3, but DEX increases human SP-B mRNA stability when RBMXL3 is expressed and requires the RBE. In the absence of DEX, RBE interacts with cellular proteins, reducing intrinsic SP-B mRNA stability in human and mouse lung epithelial cells. RBMXL3 specifically binds the RBE in vitro, whereas RNA immunoprecipitation and affinity chromatography analyses indicate that binding is enhanced in the presence of DEX. These results describe a model where intrinsic stability of human SP-B mRNA is reduced through binding of cellular mRNA decay factors to RBE, which is then relieved through DEXenhanced binding of primate-specific RBMXL3. [ABSTRACT FROM AUTHOR]

Published

2021

8. Recently integrated Alu insertions in the squirrel monkey (Saimiri) lineage and application for population analyses

Author

Jasmine N. Baker, Jerilyn A. Walker, Michael W. Denham, Charles D. Loupe, and Mark A. Batzer

Subjects

Retroposon, Saimiri, Alu polymorphism, Population structure, Genetics, QH426-470

Abstract

Abstract Background The evolution of Alu elements has been ongoing in primate lineages and Alu insertion polymorphisms are widely used in phylogenetic and population genetics studies. Alu subfamilies in the squirrel monkey (Saimiri), a New World Monkey (NWM), were recently reported. Squirrel monkeys are commonly used in biomedical research and often require species identification. The purpose of this study was two-fold: 1) Perform locus-specific PCR analyses on recently integrated Alu insertions in Saimiri to determine their amplification dynamics, and 2) Identify a subset of Alu insertion polymorphisms with species informative allele frequency distributions between the Saimiri sciureus and Saimiri boliviensis groups. Results PCR analyses were performed on a DNA panel of 32 squirrel monkey individuals for 382 Alu insertion events ≤2% diverged from 46 different Alu subfamily consensus sequences, 25 Saimiri specific and 21 NWM specific Alu subfamilies. Of the 382 loci, 110 were polymorphic for presence / absence among squirrel monkey individuals, 35 elements from 14 different Saimiri specific Alu subfamilies and 75 elements from 19 different NWM specific Alu subfamilies (13 of 46 subfamilies analyzed did not contain polymorphic insertions). Of the 110 Alu insertion polymorphisms, 51 had species informative allele frequency distributions between Saimiri sciureus and Saimiri boliviensis groups. Conclusions This study confirms the evolution of Alu subfamilies in Saimiri and provides evidence for an ongoing and prolific expansion of these elements in Saimiri with many active subfamilies concurrently propagating. The subset of polymorphic Alu insertions with species informative allele frequency distribution between Saimiri sciureus and Saimiri boliviensis will be instructive for specimen identification and conservation biology.

Published

2018

9. De-novo emergence of SINE retroposons during the early evolution of passerine birds

Author

Alexander Suh, Sandra Bachg, Stephen Donnellan, Leo Joseph, Jürgen Brosius, Jan Ole Kriegs, and Jürgen Schmitz

Subjects

Transposon, Retroposon, SINE, Birds, Passeriformes, Phylogenomics, Genetics, QH426-470

Abstract

Abstract Background Passeriformes (“perching birds” or passerines) make up more than half of all extant bird species. The genome of the zebra finch, a passerine model organism for vocal learning, was noted previously to contain thousands of short interspersed elements (SINEs), a group of retroposons that is abundant in mammalian genomes but considered largely inactive in avian genomes. Results Here we resolve the deep phylogenetic relationships of passerines using presence/absence patterns of SINEs. The resultant retroposon-based phylogeny provides a powerful and independent corroboration of previous sequence-based analyses. Notably, SINE activity began in the common ancestor of Eupasseres (passerines excluding the New Zealand wrens Acanthisittidae) and ceased before the rapid diversification of oscine passerines (suborder Passeri – songbirds). Furthermore, we find evidence for very recent SINE activity within suboscine passerines (suborder Tyranni), following the emergence of a SINE via acquisition of a different tRNA head as we suggest through template switching. Conclusions We propose that the early evolution of passerines was unusual among birds in that it was accompanied by de-novo emergence and activity of SINEs. Their genomic and transcriptomic impact warrants further study in the light of the massive diversification of passerines.

Published

2017

10. Analysis of SINE Families B2, Dip, and Ves with Special Reference to Polyadenylation Signals and Transcription Terminators

Author

Nikita S. Vassetzky, Olga R. Borodulina, Ilia G. Ustyantsev, Sergei A. Kosushkin, and Dmitri A. Kramerov

Subjects

SINE, retroposon, retrotransposon, RNA polymerase III, transcription terminator, polyadenylation, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Short Interspersed Elements (SINEs) are eukaryotic non-autonomous retrotransposons transcribed by RNA polymerase III (pol III). The 3′-terminus of many mammalian SINEs has a polyadenylation signal (AATAAA), pol III transcription terminator, and A-rich tail. The RNAs of such SINEs can be polyadenylated, which is unique for pol III transcripts. Here, B2 (mice and related rodents), Dip (jerboas), and Ves (vespertilionid bats) SINE families were thoroughly studied. They were divided into subfamilies reliably distinguished by relatively long indels. The age of SINE subfamilies can be estimated, which allows us to reconstruct their evolution. The youngest and most active variants of SINE subfamilies were given special attention. The shortest pol III transcription terminators are TCTTT (B2), TATTT (Ves and Dip), and the rarer TTTT. The last nucleotide of the terminator is often not transcribed; accordingly, the truncated terminator of its descendant becomes nonfunctional. The incidence of complete transcription of the TCTTT terminator is twice higher compared to TTTT and thus functional terminators are more likely preserved in daughter SINE copies. Young copies have long poly(A) tails; however, they gradually shorten in host generations. Unexpectedly, the tail shortening below A10 increases the incidence of terminator elongation by Ts thus restoring its efficiency. This process can be critical for the maintenance of SINE activity in the genome.

Published

2021

11. De-novo emergence of SINE retroposons during the early evolution of passerine birds.

Author

Suh, Alexander, Bachg, Sandra, Donnellan, Stephen, Joseph, Leo, Brosius, Jürgen, Kriegs, Jan Ole, and Schmitz, Jürgen

Subjects

*PASSERIFORMES, *NUCLEOTIDE sequencing, *VERTEBRATES, *PHYLOGENY, *GENOMES

Abstract

Background: Passeriformes ("perching birds" or passerines) make up more than half of all extant bird species. The genome of the zebra finch, a passerine model organism for vocal learning, was noted previously to contain thousands of short interspersed elements (SINEs), a group of retroposons that is abundant in mammalian genomes but considered largely inactive in avian genomes. Results: Here we resolve the deep phylogenetic relationships of passerines using presence/absence patterns of SINEs. The resultant retroposon-based phylogeny provides a powerful and independent corroboration of previous sequence-based analyses. Notably, SINE activity began in the common ancestor of Eupasseres (passerines excluding the New Zealand wrens Acanthisittidae) and ceased before the rapid diversification of oscine passerines (suborder Passeri - songbirds). Furthermore, we find evidence for very recent SINE activity within suboscine passerines (suborder Tyranni), following the emergence of a SINE via acquisition of a different tRNA head as we suggest through template switching. Conclusions: We propose that the early evolution of passerines was unusual among birds in that it was accompanied by de-novo emergence and activity of SINEs. Their genomic and transcriptomic impact warrants further study in the light of the massive diversification of passerines. [ABSTRACT FROM AUTHOR]

Published

2017

12. Plant S1 SINEs as a model to study retroposition

Author

Gilbert, N., Arnaud, P., Lenoir, A., Warwick, S. I., Picard, G., Deragon, J. M., and Capy, Pierre, editor

Published

1997

13. Analysis of SINE Families B2, Dip, and Ves with Special Reference to Polyadenylation Signals and Transcription Terminators

Author

Ilia G. Ustyantsev, Olga R. Borodulina, Dmitri A. Kramerov, Nikita S. Vassetzky, and S. A. Kosushkin

Subjects

RNA polymerase III, Polyadenylation, Retroelements, Transcription, Genetic, QH301-705.5, Retrotransposon, Biology, Genome, behavioral disciplines and activities, Catalysis, Article, Inorganic Chemistry, Evolution, Molecular, Mice, Transcription (biology), retroposon, Animals, Humans, Sine, RNA, Messenger, Biology (General), Physical and Theoretical Chemistry, QD1-999, Molecular Biology, Spectroscopy, Short Interspersed Nucleotide Elements, Genetics, transcription terminator, Organic Chemistry, Retroposon, retrotransposon, food and beverages, RNA 3' Polyadenylation Signals, General Medicine, SINE, Computer Science Applications, Chemistry, Terminator (genetics), Transcription Termination, Genetic, RNA, Poly A, psychological phenomena and processes

Abstract

Short Interspersed Elements (SINEs) are eukaryotic non-autonomous retrotransposons transcribed by RNA polymerase III (pol III). The 3′-terminus of many mammalian SINEs has a polyadenylation signal (AATAAA), pol III transcription terminator, and A-rich tail. The RNAs of such SINEs can be polyadenylated, which is unique for pol III transcripts. Here, B2 (mice and related rodents), Dip (jerboas), and Ves (vespertilionid bats) SINE families were thoroughly studied. They were divided into subfamilies reliably distinguished by relatively long indels. The age of SINE subfamilies can be estimated, which allows us to reconstruct their evolution. The youngest and most active variants of SINE subfamilies were given special attention. The shortest pol III transcription terminators are TCTTT (B2), TATTT (Ves and Dip), and the rarer TTTT. The last nucleotide of the terminator is often not transcribed, accordingly, the truncated terminator of its descendant becomes nonfunctional. The incidence of complete transcription of the TCTTT terminator is twice higher compared to TTTT and thus functional terminators are more likely preserved in daughter SINE copies. Young copies have long poly(A) tails, however, they gradually shorten in host generations. Unexpectedly, the tail shortening below A10 increases the incidence of terminator elongation by Ts thus restoring its efficiency. This process can be critical for the maintenance of SINE activity in the genome.

Published

2021

14. Expression of a putative dioxygenase gene adjacent to an insertion mutation is involved in the short internodes of columnar apples ( Malus × domestica).

Author

Okada, Kazuma, Wada, Masato, Moriya, Shigeki, Katayose, Yuichi, Fujisawa, Hiroko, Wu, Jianzhong, Kanamori, Hiroyuki, Kurita, Kanako, Sasaki, Harumi, Fujii, Hiroshi, Terakami, Shingo, Iwanami, Hiroshi, Yamamoto, Toshiya, and Abe, Kazuyuki

Subjects

*GENE expression in plants, *APPLES, *DIOXYGENASES, *INSERTION mutation, *FRUIT processing plants, *PLANTS

Abstract

Determining the molecular mechanism of fruit tree architecture is important for tree management and fruit production. An apple mutant 'McIntosh Wijcik', which was discovered as a bud mutation from 'McIntosh', exhibits a columnar growth phenotype that is controlled by a single dominant gene, Co. In this study, the mutation and the Co gene were analyzed. Fine mapping narrowed the Co region to a 101 kb region. Sequence analysis of the Co region and the original wild-type co region identified an insertion mutation of an 8202 bp long terminal repeat (LTR) retroposon in the Co region. Segregation analysis using a DNA marker based on the insertion polymorphism showed that the LTR retroposon was closely associated with the columnar growth phenotype. RNA-seq and RT-PCR analysis identified a promising Co candidate gene (91071-gene) within the Co region that is specifically expressed in 'McIntosh Wijcik' but not in 'McIntosh'. The 91071-gene was located approximately 16 kb downstream of the insertion mutation and is predicted to encode a 2-oxoglutarate-dependent dioxygenase involved in an unknown reaction. Overexpression of the 91071-gene in transgenic tobaccos and apples resulted in phenotypes with short internodes, like columnar apples. These data suggested that the 8202 bp retroposon insertion in 'McIntosh Wijcik' is associated with the short internodes of the columnar growth phenotype via upregulated expression of the adjacent 91071-gene. Furthermore, the DNA marker based on the insertion polymorphism could be useful for the marker-assisted selection of columnar apples. [ABSTRACT FROM AUTHOR]

Published

2016

15. Use of the p-SINE1-r2 in inferring evolutionary relationships of Thai rice varieties with AA genome

Author

Preecha Prathepha and Supachai Samappito

Subjects

retroposon, p-SINE1-r2, Oryza sativa, AA genome, waxy gene, Technology, Technology (General), T1-995, Science, Science (General), Q1-390

Abstract

In a previous study we described the prevalence and distribution in Thailand of the retroposon p- SINE1-r2, in the intron 10 of the waxy gene in cultivated and wild rice with the AA genome. In this study, additional varieties of rice were collected and sequencing was used to further characterize p-SINE1-r2. It was found that the length of the p-SINE1-r2 nucleotide sequences was about 125 bp, flanked by identical direct repeats of a 14 bp sequence. These sequences were compared and found to be similar to the sequences of p- SINE1-r2 found in Nipponbare, a rice strain discussed in a separate study. However, when compared the 48 DNA sequences identified in this study, much dissimilarity was found within the nucleotide sequences of p- SINE1-r2, in the form of base substitution mutations. Phylogenetic relationships inferred from the nucleotide sequences of these elements in cultivated rice (O. sativa) and wild rice (O. nivara). It was found that rice accessions collected from the same geographical distribution have been placed in the same clade. The phylogenetic tree supports the origin and distribution of these rice strains.

Published

2006

16. Analysis of retrotransposon subfamily DNA methylation reveals novel early epigenetic changes in chronic lymphocytic leukemia.

Author

Giles G.G., Milne R.L., Byun H.-M., Strathdee G., Willmore E., Barrow T.M., Doo N.W., Giles G.G., Milne R.L., Byun H.-M., Strathdee G., Willmore E., Barrow T.M., and Doo N.W.

Abstract

Retrotransposons such as LINE-1 and Alu comprise >25% of the human genome. While global hypomethylation of these elements has been widely reported in solid tumours, their epigenetic dysregulation is yet to be characterised in chronic lymphocytic leukemia (CLL), and there has been scant consideration of their evolutionary history that mediates sensitivity to hypomethylation. Here, we developed an approach for locus- and evolutionary subfamily-specific analysis of retrotransposons using the Illumina Infinium Human Methylation 450K microarray platform, which we applied to publicly-available datasets from CLL and other haematological malignancies. We identified 9,797 microarray probes mapping to 117 LINE-1 subfamilies and 13,130 mapping to 37 Alu subfamilies. Of these, 10,782 were differentially methylated (PFDR<0.05) in CLL patients (n=139) compared with healthy individuals (n=14), with enrichment at enhancers (P=0.002). Differential methylation was associated with evolutionary age of LINE-1 (r2=0.31, P=0.003) and Alu (r2=0.74, P=0.002) elements, with greater hypomethylation of older subfamilies (L1M, AluJ). Locus-specific hypomethylation was associated with differential expression of proximal genes, including DCLK2, HK1, ILRUN, TANK, TBCD, TNFRSF1B and TXNRD2, with higher expression of DCLK2 and TNFRSF1B associated with reduced patient survival. Hypomethylation at nine loci was highly frequent in CLL (>90% patients) but not observed in healthy individuals or other leukaemias, and was detectable in blood samples taken prior to CLL diagnosis in 9 of 82 individuals from the Melbourne Collaborative Cohort Study. Our results demonstrate differential methylation of retrotransposons in CLL by their evolutionary heritage that modulates expression of proximal genes.Copyright ©2021 Ferrata Storti Foundation

Published

2021

17. Endogenous Retroelement Activation by Epigenetic Therapy Reverses the Warburg Effect and Elicits Mitochondrial-Mediated Cancer Cell Death

Author

Universitat Rovira i Virgili, Fresquet, Vicente; Garcia-Barchino, Maria J.; Larrayoz, Marta; Celay, Jon; Vicente, Carmen; Fernandez-Galilea, Marta; Larrayoz, Maria J.; Calasanz, Maria J.; Panizo, Carlos; Junza, Alexandra; Han, Jiahuai; Prior, Celia; Fortes, Puri; Pio, Ruben; Oyarzabal, Julen; Martinez-Baztan, Alvaro; Paiva, Bruno; Moreno-Aliaga, Maria J.; Odero, Maria D.; Agirre, Xabier; Yanes, Oscar; Prosper, Felipe; Martinez-Climent, Jose A., Universitat Rovira i Virgili, and Fresquet, Vicente; Garcia-Barchino, Maria J.; Larrayoz, Marta; Celay, Jon; Vicente, Carmen; Fernandez-Galilea, Marta; Larrayoz, Maria J.; Calasanz, Maria J.; Panizo, Carlos; Junza, Alexandra; Han, Jiahuai; Prior, Celia; Fortes, Puri; Pio, Ruben; Oyarzabal, Julen; Martinez-Baztan, Alvaro; Paiva, Bruno; Moreno-Aliaga, Maria J.; Odero, Maria D.; Agirre, Xabier; Yanes, Oscar; Prosper, Felipe; Martinez-Climent, Jose A.

Abstract

For millions of years, endogenous retroelements have remained transcriptionally silent within mammalian genomes by epigenetic mechanisms. Modern anticancer therapies targeting the epigenetic machinery awaken retroelement expression, inducing antiviral responses that eliminate tumors through mechanisms not completely understood. Here, we find that massive binding of epigenetically activated retroelements by RIG-I and MDA5 viral sensors promotes ATP hydrolysis and depletes intracellular energy, driving tumor killing independently of immune signaling. Energy depletion boosts compensatory ATP production by switching glycolysis to mitochondrial oxidative phosphorylation, thereby reversing the Warburg effect. However, hyperfunctional succinate dehydrogenase in mitochondrial electron transport chain generates excessive oxidative stress that unleashes RIP1-mediated necroptosis. To maintain ATP generation, hyperactive mitochondrial membrane blocks intrinsic apoptosis by increasing BCL2 dependency. Accordingly, drugs targeting BCL2 family proteins and epigenetic inhibitors yield synergistic responses in multiple cancer types. Thus, epigenetic therapy kills cancer cells by rewiring mitochondrial metabolism upon retroelement activation, which primes mitochondria to apoptosis by BH3-mimetics. SIGNIFICANCE: The state of viral mimicry induced by epigenetic therapies in cancer cells remodels mitochondrial metabolism and drives caspase-independent tumor cell death, which sensitizes to BCL2 inhibitor drugs. This novel mechanism underlies clinical efficacy of hypomethylating agents and venetoclax in acute myeloid leukemia, suggesting similar combination therapies for other incurable cancers.

Published

2021

18. A primate-specific RNA-binding protein (RBMXL3) is involved in glucocorticoid regulation of human pulmonary surfactant protein B (SP-B) mRNA stability

Author

Weizhen Bi, Xiangli Liu, Lidan Liu, and Joseph L. Alcorn

Subjects

0301 basic medicine, Pulmonary and Respiratory Medicine, Pulmonary Surfactant-Associated Proteins, Physiology, RNA Stability, RNA-binding protein, Dexamethasone, 03 medical and health sciences, Mice, 0302 clinical medicine, Pulmonary surfactant, Physiology (medical), medicine, Animals, Humans, RNA, Messenger, Protein Precursors, Glucocorticoids, Messenger RNA, Chemistry, Retroposon, RNA-Binding Proteins, Cell Biology, Surfactant protein B, Cell biology, Primate specific, 030104 developmental biology, HEK293 Cells, A549 Cells, Glucocorticoid, hormones, hormone substitutes, and hormone antagonists, 030215 immunology, medicine.drug, Research Article

Abstract

The ability of pulmonary surfactant to reduce alveolar surface tension requires adequate levels of surfactant protein B (SP-B). Dexamethasone (DEX) increases human SP-B expression, in part, through increased SP-B mRNA stability. A 30-nt-long hairpin element (RBE) in the 3′-untranslated region of human SP-B mRNA mediates both DEX-induced and intrinsic mRNA stabilities, but the mechanism is unknown. Proteomic analysis of RBE-interacting proteins identified a primate-specific protein, RNA-binding motif X-linked-like-3 (RBMXL3). siRNA directed against RBMXL3 reduces DEX-induced SP-B mRNA expression in human bronchoalveolar cells. Human SP-B mRNA stability, measured by our dual cistronic plasmid assay, is unaffected by DEX in mouse lung epithelial cells lacking RBMXL3, but DEX increases human SP-B mRNA stability when RBMXL3 is expressed and requires the RBE. In the absence of DEX, RBE interacts with cellular proteins, reducing intrinsic SP-B mRNA stability in human and mouse lung epithelial cells. RBMXL3 specifically binds the RBE in vitro, whereas RNA immunoprecipitation and affinity chromatography analyses indicate that binding is enhanced in the presence of DEX. These results describe a model where intrinsic stability of human SP-B mRNA is reduced through binding of cellular mRNA decay factors to RBE, which is then relieved through DEX-enhanced binding of primate-specific RBMXL3.

Published

2021

19. An Overview of the Human Genome

Author

Sérgio D.J. Pena

Subjects

Whole genome sequencing, Retroposon, Endogenous retrovirus, Human genome, Genomics, Retrotransposon, Computational biology, Biology, Precision medicine, Genome

Abstract

I was invited to write a brief introductory overview of the human genome and human genomics. Considering that this subject matter occupies whole books, the most I could aspire was to produce a very incomplete “CliffsNote view” of the human genome. Moreover, the chapters that follow will provide a lot of useful genomic information and I wanted to keep out of their turf. I have rather opted to focus in on only three interrelated genomic topics: (A) a bird’s-eye view of selected aspects of the structure and evolution of the human genome; (B) consequences of the abundance of retroposons, retrotransposons and endogenous retroviruses, which make up 41% of the human genome. This subject also has some topical interest, considering that humankind is right now being held ransom by an RNA virus, SARS-CoV-2 that causes the serious disease COVID-19; (C) genomic sequencing as a clinical tool for the accurate prediction of disease risk in Precision Medicine.

Published

2021

20. The Discovery of Human of GLUD2 Glutamate Dehydrogenase and Its Implications for Cell Function in Health and Disease.

Author

Shashidharan, Pullanipally and Plaitakis, Andreas

Subjects

*NEURODEGENERATION, *GLUTAMATE dehydrogenase, *COGNITIVE ability, *BIPEDALISM, *CELL physiology, *NEURAL transmission, *GENE expression, *PARKINSON'S disease treatment

Abstract

While the evolutionary changes that led to traits unique to humans remain unclear, there is increasing evidence that enrichment of the human genome through DNA duplication processes may have contributed to traits such as bipedal locomotion, higher cognitive abilities and language. Among the genes that arose through duplication in primates during the period of increased brain development was GLUD2, which encodes the hGDH2 isoform of glutamate dehydrogenase expressed in neural and other tissues. Glutamate dehydrogenase GDH is an enzyme central to the metabolism of glutamate, the main excitatory neurotransmitter in mammalian brain involved in a multitude of CNS functions, including cognitive processes. In nerve tissue GDH is expressed in astrocytes that wrap excitatory synapses, where it is thought to play a role in the metabolic fate of glutamate removed from the synaptic cleft during excitatory transmission. Expression of GDH rises sharply during postnatal brain development, coinciding with nerve terminal sprouting and synaptogenesis. Compared to the original hGDH1 (encoded by the GLUD1 gene), which is potently inhibited by GTP generated by the Krebs cycle, hGDH2 can function independently of this energy switch. In addition, hGDH2 can operate efficiently in the relatively acidic environment that prevails in astrocytes following glutamate uptake. This adaptation is thought to provide a biological advantage by enabling enhanced enzyme catalysis under intense excitatory neurotransmission. While the novel protein may help astrocytes to handle increased loads of transmitter glutamate, dissociation of hGDH2 from GTP control may render humans vulnerable to deregulation of this enzyme's function. Here we will retrace the cloning and characterization of the novel GLUD2 gene and the potential implications of this discovery in the understanding of mechanisms that permitted the brain and other organs that express hGDH2 to fine-tune their functions in order to meet new challenging demands. In addition, the potential role of gain-of-function of hGDH2 variants in human neurodegenerative processes will be considered. [ABSTRACT FROM AUTHOR]

Published

2014

21. Exploring DNA Variant Segregation Types Enables Mapping Loci for Recessive Phenotypic Suppression of Columnar Growth in Apple

Author

Susan K. Brown, Tuanhui Bai, Kenong Xu, and Laura Dougherty

Subjects

0106 biological sciences, 0301 basic medicine, genetic structures, Reciprocal cross, DNA variants, Locus (genetics), Plant Science, lcsh:Plant culture, Biology, 01 natural sciences, 03 medical and health sciences, co-expression gene network, Gene mapping, lcsh:SB1-1110, Allele, Gene, Original Research, Genetics, Retroposon, Phenotype, segregation types, columnar suppressors, pooled genome sequencing, 030104 developmental biology, Malus, MapMan Bins, RNA-seq, 010606 plant biology & botany, Reference genome

Abstract

Columnar apples trees, originated from a bud mutation ‘Wijcik McIntosh,’ develop a simple canopy and set fruit on spurs. These characteristics make them an important genetic resource for improvement of tree architecture. Genetic studies have uncovered that columnar growth habit is a dominant trait and is caused by a retroposon insertion that induces the expression of the neighboring gene Co encoding a 2OG-Fe(II) oxygenase. Here we report the genetic mapping of two loci of recessive suppressors (genes) c2 (on Chr10) and c3 (on Chr9) that are linked to repression of the retroposon-induced Co gene expression and associated columnar phenotype in 275 F1 seedlings, which were developed from a reciprocal cross between two columnar selections heterozygous at the Co locus. The mapping was accomplished by sequencing a genomic pool comprising 18 columnar seedlings and another pool of 16 standard seedlings that also carry the retroposon insertion, and by exploring DNA variants of segregation types that are informative for mapping recessive traits in apple. The informative segregation types include , , , , and , where each letter denotes one of the four DNA bases and the letters in bold represent variants in relation to the reference genome. The alleles in each first and third positions are assumed in linkage with the recessive suppressors’ allele in the two parents, respectively. Using RNA-seq analysis, we further revealed that the Co gene together with the differentially expressed genes under loci c2 and c3 formed a co-expression gene-network module associated with growth habit, in which 12 MapMan Bins were enriched.

Published

2020

22. In Vivo Tethering System to Isolate RNA-Binding Proteins Regulating mRNA Decay in Leishmania

Author

Barbara Papadopoulou and Hiva Azizi

Subjects

Untranslated region, 0303 health sciences, biology, 030306 microbiology, Immunoprecipitation, Chemistry, Retroposon, RNA, RNA-binding protein, biology.organism_classification, Cell biology, 03 medical and health sciences, Gene expression, Eukaryote, Function (biology), 030304 developmental biology

Abstract

RNA-binding proteins (RBPs) play key roles in many aspects of RNA metabolism. In Leishmania, a unicellular eukaryote that favors the posttranscriptional mode of regulation for controlling gene expression levels, the function of RBPs becomes even more critical. However, due largely to limited in vivo approaches available for identifying RBPs in these parasites, there have been no significant advances to our understanding of the role these proteins play in posttranscriptional control through binding to cis-acting elements in the 3' untranslated region (3'UTR) of mRNAs. Here we describe an optimized in vivo RNA tethering approach using the bacteriophage MS2 coat protein combined to immunoprecipitation and mass spectrometry analysis to identify RBPs specifically interacting with 3'UTR short interspersed degenerated retroposon elements (SIDERs). Members of the SIDER2 subfamily were shown previously to promote mRNA degradation through a novel mechanism of mRNA decay. Using this modified MS2 tethering approach, we have identified candidate RBPs specifically interacting with SIDER2 elements and contributing to the decay mechanism.

Published

2020

23. Cross-Kingdom Commonality of a Novel Insertion Signature of RTE-Related Short Retroposons

Author

Eri Nishiyama and Kazuhiko Ohshima

Subjects

0301 basic medicine, Gene Transfer, Horizontal, Retroelements, Biology, Genome, Evolution, Molecular, 03 medical and health sciences, chemistry.chemical_compound, Magnoliopsida, Phylogenetics, Genetics, Animals, A-DNA, Sine, Ecology, Evolution, Behavior and Systematics, Phylogeny, Short Interspersed Nucleotide Elements, Mammals, target site duplication, Retroposon, RNA, LINEs, Lizards, Reverse Transcription, Thymine, Mutagenesis, Insertional, 030104 developmental biology, Long Interspersed Nucleotide Elements, chemistry, Evolutionary biology, Horizontal gene transfer, DNA Transposable Elements, horizontal gene transfer, Genome, Plant, Research Article, SINEs, Microsatellite Repeats

Abstract

In multicellular organisms, such as vertebrates and flowering plants, horizontal transfer (HT) of genetic information is thought to be a rare event. However, recent findings unveiled unexpectedly frequent HT of RTE-clade LINEs. To elucidate the molecular footprints of the genomic integration machinery of RTE-related retroposons, the sequence patterns surrounding the insertion sites of plant Au-like SINE families were analyzed in the genomes of a wide variety of flowering plants. A novel and remarkable finding regarding target site duplications (TSDs) for SINEs was they start with thymine approximately one helical pitch (ten nucleotides) downstream of a thymine stretch. This TSD pattern was found in RTE-clade LINEs, which share the 3′-end sequence of these SINEs, in the genome of leguminous plants. These results demonstrably show that Au-like SINEs were mobilized by the enzymatic machinery of RTE-clade LINEs. Further, we discovered the same TSD pattern in animal SINEs from lizard and mammals, in which the RTE-clade LINEs sharing the 3′-end sequence with these animal SINEs showed a distinct TSD pattern. Moreover, a significant correlation was observed between the first nucleotide of TSDs and microsatellite-like sequences found at the 3′-ends of SINEs and LINEs. We propose that RTE-encoded protein could preferentially bind to a DNA region that contains a thymine stretch to cleave a phosphodiester bond downstream of the stretch. Further, determination of cleavage sites and/or efficiency of primer sites for reverse transcription may depend on microsatellite-like repeats in the RNA template. Such a unique mechanism may have enabled retroposons to successfully expand in frontier genomes after HT.

Published

2018

24. Who Needs This Junk, or Genomic Dark Matter

Author

Olga I. Podgornaya, D. I. Ostromyshenskii, and N. I. Enukashvily

Subjects

0301 basic medicine, Genetics, 030102 biochemistry & molecular biology, Heterochromatin, Centromere, Retroposon, Biophysics, General Medicine, Biology, Biochemistry, Biochemistry, Genetics and Molecular Biology (miscellaneous), Genome, Long terminal repeat, Long interspersed nuclear element, 03 medical and health sciences, 030104 developmental biology, Tandem repeat, Tandem Repeat Sequences, Animals, Humans, Constitutive heterochromatin, Human genome, Geriatrics and Gerontology

Abstract

Centromeres (CEN), pericentromeric regions (periCEN), and subtelomeric regions (subTel) comprise the areas of constitutive heterochromatin (HChr). Tandem repeats (TRs or satellite DNA) are the main components of HChr forming no less than 10% of the mouse and human genome. HChr is assembled within distinct structures in the interphase nuclei of many species - chromocenters. In this review, the main classes of HChr repeat sequences are considered in the order of their number increase in the sequencing reads of the mouse chromocenters (ChrmC). TRs comprise ~70% of ChrmC occupying the first place. Non-LTR (-long terminal repeat) retroposons (mainly LINE, long interspersed nuclear element) are the next (~11%), and endogenous retroviruses (ERV; LTR-containing) are in the third position (~9%). HChr is not enriched with ERV in comparison with the whole genome, but there are differences in distribution of certain elements: while MaLR-like elements (ERV3) are dominant in the whole genome, intracisternal A-particles and corresponding LTR (ERV2) are prevalent in HChr. Most of LINE in ChrmC is represented by the 2-kb fragment at the end of the 2nd open reading frame and its flanking regions. Almost all tandem repeats classified as CEN or periCEN are contained in ChrmC. Our previous classification revealed 60 new mouse TR families with 29 of them being absent in ChrmC, which indicates their location on chromosome arms. TR transcription is necessary for maintenance of heterochromatic status of the HChr genome part. A burst of TR transcription is especially important in embryogenesis and other cases of radical changes in the cell program, including carcinogenesis. The recently discovered mechanism of epigenetic regulation with noncoding sequences transcripts, long noncoding RNA, and its role in embryogenesis and pluripotency maintenance is discussed.

Published

2018

25. De-novo emergence of SINE retroposons during the early evolution of passerine birds

Author

Jürgen Brosius, Stephen C. Donnellan, Jürgen Schmitz, Alexander Suh, Leo Joseph, Jan Ole Kriegs, and Sandra Bachg

Subjects

0106 biological sciences, 0301 basic medicine, lcsh:QH426-470, 010603 evolutionary biology, 01 natural sciences, behavioral disciplines and activities, Evolutionsbiologi, Birds, 03 medical and health sciences, Phylogenetics, Phylogenomics, biology.animal, Passeriformes, Molecular Biology, Zebra finch, Transposon, Evolutionary Biology, biology, Phylogenetic tree, Research, Tyranni, Retroposon, biology.organism_classification, Passerine, SINE, lcsh:Genetics, 030104 developmental biology, Evolutionary biology, Vocal learning, psychological phenomena and processes

Abstract

Background Passeriformes (“perching birds” or passerines) make up more than half of all extant bird species. The genome of the zebra finch, a passerine model organism for vocal learning, was noted previously to contain thousands of short interspersed elements (SINEs), a group of retroposons that is abundant in mammalian genomes but considered largely inactive in avian genomes. Results Here we resolve the deep phylogenetic relationships of passerines using presence/absence patterns of SINEs. The resultant retroposon-based phylogeny provides a powerful and independent corroboration of previous sequence-based analyses. Notably, SINE activity began in the common ancestor of Eupasseres (passerines excluding the New Zealand wrens Acanthisittidae) and ceased before the rapid diversification of oscine passerines (suborder Passeri – songbirds). Furthermore, we find evidence for very recent SINE activity within suboscine passerines (suborder Tyranni), following the emergence of a SINE via acquisition of a different tRNA head as we suggest through template switching. Conclusions We propose that the early evolution of passerines was unusual among birds in that it was accompanied by de-novo emergence and activity of SINEs. Their genomic and transcriptomic impact warrants further study in the light of the massive diversification of passerines. Electronic supplementary material The online version of this article (10.1186/s13100-017-0104-1) contains supplementary material, which is available to authorized users.

Published

2017

26. Revisiting the evolution of mouse LINE-1 in the genomic era.

Author

Sookdeo, Akash, Hepp, Crystal M., McClure, Marcella A., and Boissinot, Stéphane

Subjects

*BIOLOGICAL evolution, *TRANSPOSONS, *MAMMALS, *GENOMES, *GENETIC recombination, *MOLECULAR genetics, *AMINO acid sequence

Abstract

Background: LINE-1 (L1) is the dominant category of transposable elements in placental mammals. L1 has significantly affected the size and structure of all mammalian genomes and understanding the nature of the interactions between L1 and its mammalian host remains a question of crucial importance in comparative genomics. For this reason, much attention has been dedicated to the evolution of L1. Among the most studied elements is the mouse L1 which has been the subject of a number of studies in the 1980s and 1990s. These seminal studies, performed in the pre-genomic era when only a limited number of L1 sequences were available, have significantly improved our understanding of L1 evolution. Yet, no comprehensive study on the evolution of L1 in mouse has been performed since the completion of this genome sequence. Results: Using the Genome Parsing Suite we performed the first evolutionary analysis of mouse L1 over the entire length of the element. This analysis indicates that the mouse L1 has recruited novel 5'UTR sequences more frequently than previously thought and that the simultaneous activity of non-homologous promoters seems to be one of the conditions for the co-existence of multiple L1 families or lineages. In addition the exchange of genetic information between L1 families is not limited to the 5'UTR as evidence of inter-family recombination was observed in ORF1, ORF2, and the 3'UTR. In contrast to the human L1, there was little evidence of rapid amino-acid replacement in the coiled-coil of ORF1, although this region is structurally unstable. We propose that the structural instability of the coiled-coil domain might be adaptive and that structural changes in this region are selectively equivalent to the rapid evolution at the amino-acid level reported in the human lineage. Conclusions: The pattern of evolution of L1 in mouse shows some similarity with human suggesting that the nature of the interactions between L1 and its host might be similar in these two species. Yet, some notable differences, particularly in the evolution of ORF1, suggest that the molecular mechanisms involved in host-L1 interactions might be different in these two species. [ABSTRACT FROM AUTHOR]

Published

2013

27. Multiple nuclear genes and retroposons support vicariance and dispersal of the palaeognaths, and an Early Cretaceous origin of modern birds.

Author

Haddrath, Oliver and Baker, Allan J.

Subjects

*PHYLOGENY, *RATITES, *NUCLEOTIDE sequence, *STATISTICAL hypothesis testing, *CLADISTIC analysis

Abstract

The origin and timing of the diversification of modern birds remains controversial, primarily because phylogenetic relationships are incompletely resolved and uncertainty persists in molecular estimates of lineage ages. Here, we present a species tree for the major palaeognath lineages using 27 nuclear genes and 27 archaic retroposon insertions. We show that rheas are sister to the kiwis, emu and cassowaries, and confirm ratite paraphyly because tinamous are sister to moas. Divergence dating using 10 genes with broader taxon sampling, including emu, cassowary, ostrich, five kiwis, two rheas, three tinamous, three extinct moas and 15 neognath lineages, suggests that three vicariant events and possibly two dispersals are required to explain their historical biogeography. The age of crown group birds was estimated at 131 Ma (95% highest posterior density 122-138 Ma), similar to previous molecular estimates. Problems associated with gene tree discordance and incomplete lineage sorting in birds will require much larger gene sets to increase species tree accuracy and improve error in divergence times. The relatively rapid branching within neoaves pre-dates the extinction of dinosaurs, suggesting that the genesis of the radiation within this diverse clade of birds was not in response to the Cretaceous-Paleogene extinction event. [ABSTRACT FROM AUTHOR]

Published

2012

28. Activity of Ancient RTE Retroposons during the Evolution of Cows, Spiral-Horned Antelopes, and Nilgais (Bovinae).

Author

Nilsson, M.A., Klassert, D., Bertelsen, M.F., Hallström, B.M., and Janke, A.

Abstract

In the genome of Artiodactyla (cow, sheep, pigs, camels, and whales), a major retroposon group originated from a presumable horizontal transfer of BovB, a retrotransposon-like element retroposon, between 52 and 70 million years ago. Since then, BovB retroposons have proliferated and today occupy a quarter of the cow’s genome sequence. The BovB-related short interspersed elements (SINEs) were used for resolving the phylogeny of Bovinae (cows, spiral-horned antelopes, and nilgais) and their relatives. In silico screening of 55,000 intronic retroposon insertions in the cow genome and experimental validation of 126 introns resulted in 29 informative retroposon markers for resolving bovine evolutionary relationships. A transposition-in-transposition analysis identifies three different phases of SINE activity and show how BovB elements have expanded in the cattle genome. [ABSTRACT FROM PUBLISHER]

Published

2012

29. Accumulation and Rapid Decay of Non-LTR Retrotransposons in the Genome of the Three-Spine Stickleback.

Author

Blass, Eryn, Bell, Michael, and Boissinot, Stéphane

Subjects

*RETROTRANSPOSONS, *STICKLEBACKS, *VERTEBRATE evolution, *VERTEBRATE genetics, *DROSOPHILA genetics

Abstract

The diversity and abundance of non–long terminal repeat (LTR) retrotransposons (nLTR-RT) differ drastically among vertebrate genomes. At one extreme, the genome of placental mammals is littered with hundreds of thousands of copies resulting from the activity of a single clade of nLTR-RT, the L1 clade. In contrast, fish genomes contain a much more diverse repertoire of nLTR-RT, represented by numerous active clades and families. Yet, the number of nLTR-RT copies in teleostean fish is two orders of magnitude smaller than in mammals. The vast majority of insertions appear to be very recent, suggesting that nLTR-RT do not accumulate in fish genomes. This pattern had previously been explained by a high rate of turnover, in which the insertion of new elements is offset by the selective loss of deleterious inserts. The turnover model was proposed because of the similarity between fish and Drosophila genomes with regard to their nLTR-RT profile. However, it is unclear if this model applies to fish. In fact, a previous study performed on the puffer fish suggested that transposable element insertions behave as neutral alleles. Here we examined the dynamics of amplification of nLTR-RT in the three-spine stickleback (Gasterosteus aculeatus). In this species, the vast majority of nLTR-RT insertions are relatively young, as suggested by their low level of divergence. Contrary to expectations, a majority of these insertions are fixed in lake and oceanic populations; thus, nLTR-RT do indeed accumulate in the genome of their fish host. This is not to say that nLTR-RTs are fully neutral, as the lack of fixed long elements in this genome suggests a deleterious effect related to their length. This analysis does not support the turnover model and strongly suggests that a much higher rate of DNA loss in fish than in mammals is responsible for the relatively small number of nLTR-RT copies and for the scarcity of ancient elements in fish genomes. We further demonstrate that nLTR-RT decay in fish occurs mostly through large deletions and not by the accumulation of small deletions. [ABSTRACT FROM AUTHOR]

Published

2012

30. A retroposon-based view on the temporal differentiation of sex chromosomes.

Author

Suh, Alexander

Subjects

*CELL differentiation, *SEX chromosomes, *LOCUS (Genetics), *GENETIC markers, *HUMAN genome, *GENETIC recombination, *BIOLOGICAL evolution

Abstract

Retroposon presence/absence patterns in orthologous genomic loci are known to be strong and almost homoplasy- free phylogenetic markers of common ancestry. This is evidenced by the comprehensive reconstruction of various species trees of vertebrate lineages in recent years, as well as the inference of the evolution of genes via retroposonbased gene trees of paralogous genes. Recently, it has been shown that retroposon markers are also suitable for the inference of differentiation events of gametologous genes, i.e., homologous genes on opposite sex chromosomes. This is because sex chromosomes evolved via stepwise cessation of recombination, making the presence or absence of a particular retroposon insertion among the two different gametologs in more or less closely related species a clear-cut indicator of the timing of differentiation events. Here, I examine the advantages and current limitations of this novel perspective for understanding avian sex chromosome evolution, compare the retroposon-based and sequence-based insights into gametolog differentiation and show that retroposons promise to be equally applicable to other sex chromosomal systems, such as the human X and Y chromosomes. [ABSTRACT FROM AUTHOR]

Published

2012

31. ALOG domains: provenance of plant homeotic and developmental regulators from the DNA-binding domain of a novel class of DIRS1-type retroposons.

Author

Iyer, Lakshminarayan M. and Aravind, L.

Subjects

*ARABIDOPSIS, *DNA-binding proteins, *DNA topoisomerase I, *NUCLEIC acids, *BIOMOLECULES

Abstract

Members of the Arabidopsis LSH1 and Oryza G1 (ALOG) family of proteins have been shown to function as key developmental regulators in land plants. However, their precise mode of action remains unclear. Using sensitive sequence and structure analysis, we show that the ALOG domains are a distinct version of the N-terminal DNA-binding domain shared by the XerC/D-like, protelomerase, topoisomerase-IA, and Flp tyrosine recombinases. ALOG domains are distinguished by the insertion of an additional zinc ribbon into this DNA-binding domain. In particular, we show that the ALOG domain is derived from the XerC/D-like recombinases of a novel class of DIRS-1-like retroposons. Copies of this element, which have been recently inactivated, are present in several marine metazoan lineages, whereas the stramenopile Ectocarpus, retains an active copy of the same. Thus, we predict that ALOG domains help establish organ identity and differentiation by binding specific DNA sequences and acting as transcription factors or recruiters of repressive chromatin. They are also found in certain plant defense proteins, where they are predicted to function as DNA sensors. The evolutionary history of the ALOG domain represents a unique instance of a domain, otherwise exclusively found in retroelements, being recruited as a specific transcription factor in the streptophyte lineage of plants. Hence, they add to the growing evidence for derivation of DNA-binding domains of eukaryotic specific TFs from mobile and selfish elements. [ABSTRACT FROM AUTHOR]

Published

2012

32. Identification and characterization of a new member of the SINE Au retroposon family (GmAu1) in the soybean, Glycine max (L.) Merr., genome and its potential application.

Author

Shu, Yongjun, Li, Yong, Bai, Xi, Cai, Hua, Ji, Wei, Ji, Zuojun, Guo, Changhong, and Zhu, Yanming

Subjects

*GLYCINE, *SOYBEAN, *BIOMARKERS, *TRANSFER RNA, *GENOMES

Abstract

A plant short interspersed element (SINE) was identified in Glycine max after re-sequencing of the soybean sequence characterized amplified region (SCAR) markers. Detailed analysis revealed that this newly recognized SINE element consisted of a tRNA-related region, a tRNA non-related region, direct flanking repeat sequences, and a short stretch of Ts at the 3′-terminal region. These features are similar to previously characterized SINEs. To investigate the evolution of the SINE retroposon, BLASTN was used to search against genome sequences of other plants. Since it is homologous with the retroposon Au in Aegilops umbellulata (wheat) and its homology in soybean, the SINE is named as GmAu1. Genome analysis of the Glycine max var. Willimas 82 uncovered more than 847 copies of GmAu1 per haploid genome of soybean. Examination of the regions flanking the inserted GmAu1 sequences indicated a preference for introns over exons or other noncoding regions. Considering the flanking insertion sequences, 146 primers were designed in order to detect insertion mutations by a PCR-based method. Seventy-seven primers displayed polymorphism and were used to develop corresponding GmAu1-based SCAR markers. The retroposon GmAu1 and its related SCAR markers identified in this study will prove valuable to future investigations into the genetic mapping, phylogeny, and evolution of the Glycine genus. [ABSTRACT FROM AUTHOR]

Published

2011

33. TSIDER1, a short and non-autonomous Salivarian trypanosome-specific retroposon related to the ingi6 subclade

Author

Bringaud, Frédéric, Berriman, Matthew, and Hertz-Fowler, Christiane

Subjects

*TRANSPOSONS, *DNA, *TRYPANOSOMATIDAE, *GENETIC regulation, *TRYPANOSOMA brucei, *NUCLEOTIDES, *ENDONUCLEASES, *GENOMES

Abstract

Abstract: Retroposons of the ingi clade are the most abundant transposable elements identified in the trypanosomatid genomes. Some are long autonomous elements (ingi, L1Tc) while others, such as RIME and NARTc, are short non-coding elements that parasitize the retrotransposition machinery of the active autonomous ones for their own mobilization. Here, we identified a new family of short non-autonomous retroposons of the ingi clade, called TSIDER1, which are present in the genome of Salivarian (African) trypanosomes, Trypanosoma brucei, T. congolense and T. vivax, but absent in the T. cruzi and Leishmania spp. genomes and, as such, TSIDER1 is the only retroposon subfamily conserved at the nucleotide level between African trypanosome species. We identified three TvSIDER1 families within the genome of T. vivax and the high level of sequence conservation within the TvSIDER1a and TvSIDER1b groups suggests that they are still active. We propose that TvSIDER1a/b elements are using the Tvingi retrotransposition machinery, as they are preceded by the same conserved pattern characteristic of the ingi6 subclade, which corresponds to the retroposon-encoded endonuclease binding site. In contrast, TcoSIDER1, TbSIDER1 and TvSIDER1c are too divergent to be considered as active retroposons. The relatively low number of SIDER elements identified in the T. congolense (70 copies), T. vivax (32 copies) and T. brucei (22 copies) genomes confirms that trypanosomes have not expanded short transposable elements, which is in contrast to Leishmania spp. (∼2000 copies), where SIDER play a role in the regulation of gene expression. [Copyright &y& Elsevier]

Published

2011

34. Interspersed repeats in the horse ( Equus caballus); spatial correlations highlight conserved chromosomal domains Adelson et al. Equine interspersed repeats.

Author

Adelson, D. L., Raison, J. M., Garber, M., and Edgar, R. C.

Subjects

*HORSES, *GENOMES, *ANIMAL genome mapping, *HUMAN gene mapping, *ANIMAL genetics

Abstract

The interspersed repeat content of mammalian genomes has been best characterized in human, mouse and cow. In this study, we carried out de novo identification of repeated elements in the equine genome and identified previously unknown elements present at low copy number. The equine genome contains typical eutherian mammal repeats, but also has a significant number of hybrid repeats in addition to clade-specific Long Interspersed Nuclear Elements (LINE). Equus caballus clade specific LINE 1 (L1) repeats can be classified into approximately five subfamilies, three of which have undergone significant expansion. There are 1115 full-length copies of these equine L1, but of the 103 presumptive active copies, 93 fall within a single subfamily, indicating a rapid recent expansion of this subfamily. We also analysed both interspersed and simple sequence repeats (SSR) genome-wide, finding that some repeat classes are spatially correlated with each other as well as with G+C content and gene density. Based on these spatial correlations, we have confirmed that recently-described ancestral vs. clade-specific genome territories can be defined by their repeat content. The clade-specific Short Interspersed Nuclear Element correlations were scattered over the genome and appear to have been extensively remodelled. In contrast, territories enriched for ancestral repeats tended to be contiguous domains. To determine if the latter territories were evolutionarily conserved, we compared these results with a similar analysis of the human genome, and observed similar ancestral repeat enriched domains. These results indicate that ancestral, evolutionarily conserved mammalian genome territories can be identified on the basis of repeat content alone. Interspersed repeats of different ages appear to be analogous to geologic strata, allowing identification of ancient vs. newly remodelled regions of mammalian genomes. [ABSTRACT FROM AUTHOR]

Published

2010

35. Nucleotide sequences of B1 SINE and 4.5SI RNA support a close relationship of zokors to blind mole rats (Spalacinae) and bamboo rats (Rhizomyinae)

Author

Gogolevskaya, Irina K., Veniaminova, Natalia A., and Kramerov, Dmitri A.

Subjects

*NUCLEOTIDE sequence, *RODENTS, *ANIMAL classification, *BLIND mole rats, *RNA polymerases, *MOLECULAR phylogeny, *POLYACRYLAMIDE gel electrophoresis, *NON-coding RNA

Abstract

Abstract: Until recently, zokors (Myospalacinae) were assigned to the Cricetidae family. However, analysis of mitochondrial and nuclear genes suggests a sister relationship between zokors and subterranean rodents of the Spalacidae family, namely blind mole rats (Spalacinae) and bamboo rats (Rhizomyinae). Here, we cloned and sequenced copies of the B1 short interspersed element (SINE) from the genome of zokor Myospalax psilurus. The consensus nucleotide sequence of zokor B1 was very similar to spalacids and rhizomyids, but not cricetids. Similar to spalacids (Spalax microphthalmus) and rhizomyids (Tachyoryctes splendens), zokor contained two variants of the 4.5SI small nuclear RNA. The longer variant (L-variant, 104 nucleotides) was found only in zokor, spalacids and rhizomyids. The short, or S-variant (98 nucleotides), had a wider distribution; however, analysis of the nucleotide sequences of S-variants of 4.5SI RNA confirmed that zokors are closely related to spalacids and rhizomyids, but not to cricetids. The evolution of the 4.5SI RNA genes and pseudogenes is discussed. [Copyright &y& Elsevier]

Published

2010

36. Rodent Evolution: Back to the Root.

Author

Churakov, Gennady, Sadasivuni, Manoj K., Rosenbloom, Kate R., Huchon, Dorothée, Brosius, Jürgen, and Schmitz, Jürgen

Abstract

Some 70 Ma, rodents arose along a branch of our own mammalian lineage. Today, about 40% of all mammalian species are rodents and are found in vast numbers on almost every continent. Not only is their proliferation extensive but also the rates of DNA evolution vary significantly among lineages, which has hindered attempts to reconstruct, especially the root of, their evolutionary history. The presence or absence of rare genomic changes, such as short interspersed elements (SINEs), are, however, independent of high molecular substitution rates and provide a powerful, virtually homoplasy-free source for solving such phylogenetic problems. We screened 12 Gb of rodent genomic information using whole-genome three-way alignments, multiple lineage-specific sequences, high-throughput polymerase chain reaction amplifications, and sequencing to reveal 65 phylogenetically informative SINE insertions dispersed over 23 rodent phylogenetic nodes. Eight SINEs and six indels provide significant support for an early association of the Mouse-related and Ctenohystrica (guinea pig and relatives) clades, the Squirrel-related clade being the sister group. This early speciation scenario was also evident in the genomewide distribution pattern of B1-related retroposons, as mouse and guinea pig genomes share six such retroposon subfamilies, containing hundreds of thousands of elements that are clearly absent in the ground squirrel genome. Interestingly, however, two SINE insertions and one diagnostic indel support an association of Ctenohystrica with the Squirrel-related clade. Lineage sorting or a more complex evolutionary scenario that includes an early divergence of the Squirrel-related ancestor and a subsequent hybridization of the latter and the Ctenohystrica lineage best explains such apparently contradictory insertions. [ABSTRACT FROM PUBLISHER]

Published

2010

37. Occurrence of Can-SINEs and intron sequence evolution supports robust phylogeny of pinniped carnivores and their terrestrial relatives

Author

Schröder, Christiane, Bleidorn, Christoph, Hartmann, Stefanie, and Tiedemann, Ralph

Subjects

*NUCLEOTIDE sequence, *PHYLOGENY, *PINNIPEDIA, *CARNIVORA, *INTRONS, *TRANSFER RNA, *POLYMERASE chain reaction

Abstract

Abstract: Investigating the dog genome we found 178965 introns with a moderate length of 200–1000 bp. A screening of these sequences against 23 different repeat libraries to find insertions of short interspersed elements (SINEs) detected 45276 SINEs. Virtually all of these SINEs (98%) belong to the tRNA-derived Can-SINE family. Can-SINEs arose about 55 million years ago before Carnivora split into two basal groups, the Caniformia (dog-like carnivores) and the Feliformia (cat-like carnivores). Genome comparisons of dog and cat recovered 506 putatively informative SINE loci for caniformian phylogeny. In this study we show how to use such genome information of model organisms to research the phylogeny of related non-model species of interest. Investigating a dataset including representatives of all major caniformian lineages, we analysed 24 randomly chosen loci for 22 taxa. All loci were amplifiable and revealed 17 parsimony-informative SINE insertions. The screening for informative SINE insertions yields a large amount of sequence information, in particular of introns, which contain reliable phylogenetic information as well. A phylogenetic analysis of intron- and SINE sequence data provided a statistically robust phylogeny which is congruent with the absence/presence pattern of our SINE markers. This phylogeny strongly supports a sistergroup relationship of Musteloidea and Pinnipedia. Within Pinnipedia, we see strong support from bootstrapping and the presence of a SINE insertion for a sistergroup relationship of the walrus with the Otariidae. [Copyright &y& Elsevier]

Published

2009

38. Retropositional events consolidate the branching order among New World monkey genera

Author

Osterholz, Martin, Walter, Lutz, and Roos, Christian

Subjects

*NEW World monkeys, *DNA, *ANIMAL species, *BIOLOGICAL evolution, *GENETICS, *PHYLOGENY, *SPECIES diversity

Abstract

Abstract: Due to contradicting relationships obtained from various morphological and genetic studies, phylogenetic relationships among New World monkey genera are highly disputed. In the present study, we analyzed the presence/absence pattern of 128 SINE integrations in all New World monkey genera. Among them, 70 were specific for only a single genus, whereas another 18 were present in all New World monkey genera. The 40 remaining insertions were informative to elucidate phylogenetic relationships among genera. Several of them confirmed the monophyly of the three families Cebidae, Atelidae and Pitheciidae as well as of the subfamily Callithrichinae. Further markers provided evidence for a sister grouping of Cebidae and Atelidae to the exclusion of Pitheciidae as well as for relationships among genera belonging to Callithrichinae and Atelidae. Although a close affiliation of Saimiri, Aotus and Cebus to Callithrichinae was shown, the relationships among the three genera remained unresolved due to three contradicting insertions. [Copyright &y& Elsevier]

Published

2009

39. Comparative genomics reveals gene-specific and shared regulatory sequences in the spermatid-expressed mammalian Odf1, Prm1, Prm2, Tnp1, and Tnp2 genes

Author

Kleene, Kenneth C. and Bagarova, Jana

Subjects

*MOLECULAR genetics, *MOLECULAR biology, *BIOCHEMICAL genetics, *MESSENGER RNA

Abstract

Abstract: The comparative genomics of the Odf1, Prm1, Prm2, Tnp1, and Tnp2 genes in 13–21 diverse mammalian species reveals striking similarities and differences in the sequences that probably function in the transcriptional and translational regulation of gene expression in haploid spermatogenic cells, spermatids. The 5′ flanking regions contain putative TATA boxes and cAMP-response elements (CREs), but the TATA boxes and CREs exhibit gene-specific sequences, and an overwhelming majority of CREs differ from the consensus sequence. The 5′ and 3′ UTRs contain highly conserved gene-specific sequences including canonical and noncanonical poly(A) signals and a suboptimal context for the Tnp2 translation initiation codon. The conservation of the 5′ UTR is unexpected because mRNA translation in spermatids is thought to be regulated primarily by the 3′ UTR. Finally, all of the genes contain a single intron, implying that retroposons are rarely created from mRNAs that are expressed in spermatids. [Copyright &y& Elsevier]

Published

2008

40. A novel SINE family occurs frequently in both genomic DNA and transcribed sequences in ixodid ticks of the arthropod sub-phylum Chelicerata

Author

Sunter, Jack D., Patel, Sonal P., Skilton, Robert A., Githaka, Naftaly, Knowles, Donald P., Scoles, Glen A., Nene, Vishvanath, de Villiers, Etienne, and Bishop, Richard P.

Subjects

*GENOMES, *CYTOMETRY, *TRANSCRIPTION factors, *TICKS

Abstract

Abstract: Reassociation kinetics and flow cytometry data indicate that ixodid tick genomes are large, relative to most arthropods, containing ≥109 base pairs. The molecular basis for this is unknown. We have identified a novel small interspersed element with features of a tRNA-derived SINE, designated Ruka, in genomic sequences of Rhipicephalus appendiculatus and Boophilus (Rhipicephalus) microplus ticks. The SINE was also identified in expressed sequence tag (EST) databases derived from several tissues in four species of ixodid ticks, namely R. appendiculatus, B. (R.) microplus, Amblyomma variegatum and also the more distantly related Ixodes scapularis. Secondary structure predictions indicated that Ruka could adopt a tRNA structure that was, atypically, most similar to a serine tRNA. By extrapolation the frequency of occurrence in the randomly selected BAC clone sequences is consistent with approximately 65,000 copies of Ruka in the R. appendiculatus genome. Real time PCR analyses on genomic DNA indicate copy numbers for specific Ruka subsets between 5800 and 38,000. Several putative conserved Ruka insertion sites were identified in EST sequences of three ixodid tick species based on the flanking sequences associated with the SINEs, indicating that some Ruka transpositions probably occurred prior to speciation within the metastriate division of the Ixodidae. The data strongly suggest that Class I transposable elements form a significant component of tick genomes and may partially account for the large genome sizes observed. [Copyright &y& Elsevier]

Published

2008

41. Role of transposable elements in trypanosomatids

Author

Bringaud, Frédéric, Ghedin, Elodie, El-Sayed, Najib M.A., and Papadopoulou, Barbara

Subjects

*TRANSPOSONS, *TRYPANOSOMATIDAE, *GENOMES, *PARASITES

Abstract

Abstract: Transposable elements constitute 2–5% of the genome content in trypanosomatid parasites. Some of them are involved in critical cellular functions, such as the regulation of gene expression in Leishmania spp. In this review, we highlight the remarkable role extinct transposable elements can play as the source of potential new functions. [Copyright &y& Elsevier]

Published

2008

42. Origin and spread of the SRY gene on the X and Y chromosomes of the rodent Microtus cabrerae: Role of L1 elements

Author

Marchal, Juan A., Acosta, Manuel J., Bullejos, Mónica, de la Guardia, Rafael Díaz, and Sánchez, Antonio

Subjects

*GENES, *X chromosome, *Y chromosome, *MICROTUS

Abstract

Abstract: In the rodent species Microtus cabrerae, males as well as females present several copies of the SRY gene, a single-copy gene located on the Y chromosome in most mammals. Using different PCR approaches, we have characterized the sequence, structure, and organization of the SRY copies and their flanking regions distributed on the X and Y chromosomes of this species. All copies of SRY analyzed, including those from the Y chromosome, proved to be nonfunctional pseudogenes, as they have internal stop codons. In addition, we demonstrated the association of SRY pseudogenes with different fragments of L1 and LTR retroelements in both sex chromosomes of M. cabrerae. Examining the possible origin of SRY pseudogene and retroposons association, we propose that retroposons could have been involved in the mechanism of SRY gene amplification on the Y chromosome and in the transference of the Y-linked SRY copies to the X-chromosome heterochromatin. [Copyright &y& Elsevier]

Published

2008

43. Comparative analysis of the copy number of ID and B1 short retroposons in rodent genomes.

Author

Veniaminova, N. A., Gogolevsky, K. P., Vassetzky, N. S., and Kramerov, D. A.

Subjects

*GENOMES, *RODENTS, *DNA, *MOLECULAR genetics, *MOLECULAR biology, *RODENT genomes

Abstract

The article presents a study that compares the copy number of Short Interspersed Elements (SINEs) or short retroposons, B1 and ID, in rodent genomes. Under the investigation, ID and B1 abundance were studied in rodents that belong to 21 families, and the repetitive DNA sequences were demonstrated in all species that were examined. Result suggests that the entire order of rodents have ID and B1 elements. It also found that retroposition of the elements differ among the genomes of various species.

Published

2007

44. Genomic varieties of apple AFL genes

Author

Wada, Masato, Ureshino, Ayano, Cao, Qiu-fen, and Bessho, Hideo

Subjects

*HEREDITY, *GENES, *GENETICS, *GENOMES

Abstract

Summary: AFL (Apple FLORICAULA LEAFY) genes were screened from the apple genome. The resultant clones showed the AFL1, AFL2, and AFL1a genes, which included several-kilobase lengths of their 5′ upstream regions. They were highly conserved and consisted of three exons and two introns. The expression analysis with Arabidopsis indicated that the 5′ upstream region of AFL2, about 2.5kb, linked β-glucuronidase (GUS) showed GUS activity on the young flower buds such as that of the Arabidopsis LFY promoter. The corresponding upstream region from AFL1 had a highly homologous 700bp region flanking the ATG site. But the upstream region (about 2.4kb) from the AFL1 genome never showed GUS activity on flower buds. The AFL1 and AFL1a genes were almost identical besides the 790bp insertion in the first intron of AFL1a. The insertion sequence had an RNA polymerase III motif and a T-rich sequence as well as a 9bp direct repeat at each end. Some of the insertion sequence''s trait indicated that the insertion was a novel Short Interspersed Repetitive Element (SINE) from apple. This insertion occurs at a rate of more than 1,000 copies in an apple genome, and appeared to be conserved in the Malus genus. [Copyright &y& Elsevier]

Published

2007

45. Retroposed Elements and Their Flanking Regions Resolve the Evolutionary History of Xenarthran Mammals (Armadillos, Anteaters, and Sloths).

Author

Möller-Krull, Maren, Delsuc, Frédéric, Churakov, Gennady, Marker, Claudia, Superina, Mariella, Brosius, Jürgen, Douzery, Emmanuel J. P., and Schmitz, Jürgen

Abstract

Armadillos, anteaters, and sloths (Order Xenarthra) comprise 1 of the 4 major clades of placental mammals. Isolated in South America from the other continental landmasses, xenarthrans diverged over a period of about 65 Myr, leaving more than 200 extinct genera and only 31 living species. The presence of both ancestral and highly derived anatomical features has made morphoanatomical analyses of the xenarthran evolutionary history difficult, and previous molecular analyses failed to resolve the relationships within armadillo subfamilies. We investigated the presence/absence patterns of retroposons from ∼7,400 genomic loci, identifying 35 phylogenetically informative elements and an additional 39 informative rare genomic changes (RGCs). DAS-short interspersed elements (SINEs), previously described only in the Dasypus novemcinctus genome, were found in all living armadillo genera, including the previously unsampled Chlamyphorus, but were noticeably absent in sloths. The presence/absence patterns of the phylogenetically informative retroposed elements and other RGCs were then compared with data from the DNA sequences of the more than 12-kb flanking regions of these retroposons. Together, these data provide the first fully resolved genus tree of xenarthrans. Interestingly, multiple evidence supports the grouping of Chaetophractus and Zaedyus as a sister group to Euphractus within Euphractinae, an association that was not previously demonstrated. Also, flanking sequence analyses favor a close phylogenetic relationship between Cabassous and Tolypeutes within Tolypeutinae. Finally, the phylogenetic position of the subfamily Chlamyphorinae is resolved by the noncoding sequence data set as the sister group of Tolypeutinae. The data provide a stable phylogenetic framework for further evolutionary investigations of xenarthrans and important information for defining conservation priorities to save the diversity of one of the most curious groups of mammals. [ABSTRACT FROM PUBLISHER]

Published

2007

46. B1 SINEs in different rodent families

Author

Veniaminova, Natalia A., Vassetzky, Nikita S., and Kramerov, Dmitri A.

Subjects

*LABORATORY rodents, *BIOLOGICAL evolution, *PHYLOGENY, *BIOLOGY

Abstract

Abstract: B1 SINEs were studied in 22 families covering all major rodent lineages. The number of B1 copies considerably varies, from 1×104 in Geomyidae to 1×106 in Myodonta. B1 sequences can be divided into three main structural variants: B1 with a 20-bp tandem duplication (found in Gliridae, Sciuridae, and Aplodontidae), B1 with a 29-bp duplication (found in other families), and proto-B1 without duplication (pB1). These variants can be further subdivided according to their characters, including specific 7-, 9-, or 10-bp deletions. Different B1 subfamilies predominate in different rodent families. The analysis of B1 variants allowed us to propose possible pathways for the evolution of this SINE in the context of rodent evolution. [Copyright &y& Elsevier]

Published

2007

47. Characterisation of the subtelomeric regions of Giardia lamblia genome isolate WBC6

Author

Prabhu, Anjali, Morrison, Hilary G., Martinez, Charles R., and Adam, Rodney D.

Subjects

*GIARDIA lamblia, *GENES, *KARYOKINESIS, *CHROMOSOMES

Abstract

Abstract: Giardia trophozoites are polyploid and have five chromosomes. The chromosome homologues demonstrate considerable size heterogeneity due to variation in the subtelomeric regions. We used clones from the genome project with telomeric sequence at one end to identify six subtelomeric regions in addition to previously identified subtelomeric regions, to study the telomeric arrangement of the chromosomes. The subtelomeric regions included two retroposons, one retroposon pseudogene, and two vsp genes, in addition to the previously identified subtelomeric regions that include ribosomal DNA repeats. The presence of vsp genes in a subtelomeric region suggests that telomeric rearrangements may contribute to the generation of vsp diversity. These studies of the subtelomeric regions of Giardia may contribute to our understanding of the factors that maintain stability, while allowing diversity in chromosome structure. [Copyright &y& Elsevier]

Published

2007

48. The Pumilio-domain protein PUF6 contributes to SIDER2 retroposon-mediated mRNA decay in Leishmania

Author

Carole Dumas, Hiva Azizi, and Barbara Papadopoulou

Subjects

0301 basic medicine, Subfamily, 030102 biochemistry & molecular biology, Immunoprecipitation, Retroposon, Protein domain, RNA, Endogeny, Biology, Cleavage (embryo), Cell biology, 03 medical and health sciences, 030104 developmental biology, Gene expression, Molecular Biology

Abstract

Leishmania and other trypanosomatid protozoa lack control at the level of transcription initiation and regulate gene expression exclusively post-transcriptionally. We have reported previously that Leishmania harbors a unique class of short interspersed degenerate retroposons (SIDERs) that are predominantly located within 3′UTRs and play a major role in post-transcriptional control. We have shown that members of the SIDER2 subfamily initiate mRNA decay through endonucleolytic cleavage within the second conserved 79-nt signature sequence of SIDER2 retroposons. Here, we have developed an optimized MS2 coat protein tethering system to capture trans-acting factor(s) regulating SIDER2-mediated mRNA decay. Tethering of the MS2 coat protein to a reporter RNA harboring two MS2 stem–loop aptamers and the cognate SIDER2-containing 3′UTR in combination with immunoprecipitation and mass spectrometry analysis led to the identification of RNA-binding proteins with known functions in mRNA decay. Among the candidate SIDER2-interacting proteins that were individually tethered to a SIDER2 reporter RNA, the Pumilio-domain protein PUF6 was shown to enhance degradation and reduce transcript half-life. Furthermore, we showed that PUF6 binds to SIDER2 sequences that include the regulatory 79-nt signature motif, hence contributing to the mRNA decay process. Consistent with a role of PUF6 in SIDER2-mediated decay, genetic inactivation of PUF6 resulted in increased accumulation and higher stability of endogenous SIDER2-bearing transcripts. Overall, these studies provide new insights into regulated mRNA decay pathways in Leishmania controlled by SIDER2 retroposons and propose a broader role for PUF proteins in mRNA decay within the eukaryotic kingdom.

Published

2017

49. Short Interspersed Elements (SINEs) in Plants: Origin, Classification, and Use as Phylogenetic Markers.

Author

DERAGON, JEAN-MARC and XIAOYU ZHANG

Subjects

*MOBILE genetic elements, *PLANTS, *RNA, *PHYLOGENY, *PLANT genetics

Abstract

Short interspersed elements (SINEs) are a class of dispersed mobile sequences that use RNA as an intermediate in an amplification process called retroposition. The presence-absence of a SINE at a given locus has been used as a meaningful classification criterion to evaluate phylogenetic relations among species. We review here recent developments in the characterisation of plant SINEs and their use as molecular makers to retrace phylogenetic relations among wild and cultivated Oryza and Brassica species. In Brassicaceae, further use of SINE markers is limited by our partial knowledge of endogenous SINE families (their origin and evolution histories) and by the absence of a clear classification. To solve this problem, phylogenetic relations among all known Brassicaceae SINEs were analyzed and a new classification, grouping SINEs in 15 different families, is proposed. The relative age and size of each Brassicaceae SINE family was evaluated and new phylogenetically supported subfamilies were described. We also present evidence suggesting that new potentially active SINEs recently emerged in Brassica oleracea from the shuffling of preexisting SINE portions. Finally, the comparative evolution history of SINE families present in Arabidopsis thaliana and Brassica oleracea revealed that SINEs were in general more active in the Brassica lineage. The importance of these new data for the use of Brassicaceae SINEs as molecular markers in future applications is discussed. [ABSTRACT FROM AUTHOR]

Published

2006

50. Extensive Morphological Convergence and Rapid Radiation in the Evolutionary History of the Family Geoemydidae (Old World Pond Turtles) Revealed by SINE Insertion Analysis.

Author

SASAKI, TAKESHI, YASUKAWA, YUICHIROU, TAKAHASHI, KAZUHIKO, MIURA, SEIKO, SHEDLOCK, ANDREW M., and OKADA, NORIHIRO

Subjects

*TURTLES, *ANIMAL morphology, *BIOLOGICAL evolution, *CONVERGENT evolution, *PHYLOGENY, *BIOLOGY

Abstract

The family Geoemydidae is one of three in the superfamily Testudinoidea and is the most diversified family of extant turtle species. The phylogenetic relationships in this family and among related families have been vigorously investigated from both morphological and molecular viewpoints. The evolutionary history of Geoemydidae, however, remains controversial. Therefore, to elucidate the phylogenetic relationships of Geoemydidae and related species, we applied the SINE insertion method to investigate 49 informative SINE loci in 28 species. We detected four major evolutionary lineages (Testudinidae, Batagur group, Siebenrockiella group, and Geoemyda group) in the clade Testuguria (a clade of Geoemydidae + Testudinidae). All five specimens of Testudinidae form a monophyletic clade. The Batagur group comprises five batagurines. The Siebenrockiella group has one species, Siebenrockiella crassicollis. The Geoemyda group comprises 15 geoemydines (including three former batagurines, Mauremys reevesii, Mauremys sinensis, and Heosemys annandalii). Among these four groups, the SINE insertion patterns were inconsistent at four loci, suggesting that an ancestral species of Testuguria radiated and rapidly diverged into the four lineages during the initial stage of its evolution. Furthermore, within the Geoemyda group we identified three evolutionary lineages, namely Mauremys, Cuora, and Heosemys. The Heosemys lineage comprises Heosemys, Sacalia, Notochelys, and Melanochelys species, and its monophyly is a novel assemblage in Geoemydidae. Our SINE phylogenetic tree demonstrates extensive convergent morphological evolution between the Batagur group and the three species of the Geoemyda group, M. reevesii, M. sinensis, and H. annandalii. [ABSTRACT FROM AUTHOR]

Published

2006